244 files changed, 134800 insertions, 0 deletions

diff --git a/watch-library/hardware/hal/documentation/ext_irq.rst b/watch-library/hardware/hal/documentation/ext_irq.rst
new file mode 100644
index 00000000..7dcdc7c5
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/ext_irq.rst
@@ -0,0 +1,39 @@
+==============
+EXT IRQ driver
+==============
+
+The External Interrupt driver allows external pins to be
+configured as interrupt lines. Each interrupt line can be
+individually masked and can generate an interrupt on rising,
+falling or both edges, or on high or low levels. Some of
+external pin can also be configured to wake up the device
+from sleep modes where all clocks have been disabled.
+External pins can also generate an event.
+
+Features
+--------
+* Initialization and de-initialization
+* Enabling and disabling
+* Detect external pins interrupt
+
+Applications
+------------
+* Generate an interrupt on rising, falling or both edges,
+  or on high or low levels.
+
+Dependencies
+------------
+* GPIO hardware
+
+Concurrency
+-----------
+N/A
+
+Limitations
+-----------
+N/A
+
+Knows issues and workarounds
+----------------------------
+N/A
+
diff --git a/watch-library/hardware/hal/documentation/flash.rst b/watch-library/hardware/hal/documentation/flash.rst
new file mode 100755
index 00000000..fcc86e63
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/flash.rst
@@ -0,0 +1,52 @@
+The Flash Driver
+================
+
+Flash is a re-programmable memory that retains program and data
+storage even with power off.
+
+User can write or read several bytes from any valid address in a flash.
+
+As to the erase/lock/unlock command, the input parameter of address should
+be a bytes address aligned with the page start, otherwise, the command will fail
+to be executed. At the meantime, the number of pages that can be locked or unlocked
+at once depends on region size of the flash. User can get the real number
+from the function return value which could be different for the different devices.
+
+Features
+--------
+
+* Initialization/de-initialization
+* Writing/Reading bytes
+* Locking/Unlocking/Erasing pages
+* Notifications about errors or being ready for a new command
+
+Applications
+------------
+
+* Mini disk which can retain program and data storage
+* Boot loader
+* Non volatile storage
+
+Dependencies
+------------
+
+The peripheral which controls a re-programmable flash memory.
+
+Concurrency
+-----------
+
+N/A
+
+Limitations
+-----------
+
+User should pay attention to set a proper stack size in their application,
+since the driver manages a temporary buffer in stack to cache unchanged data
+when calling flash write and erase function.
+Due to flash memory architecture of SAMD21/D20/L21/L22/C20/C21/D09/D10/D11/R21,
+write operation erazes row content before each write.
+
+Known issues and workarounds
+----------------------------
+
+N/A
diff --git a/watch-library/hardware/hal/documentation/i2c_master_sync.rst b/watch-library/hardware/hal/documentation/i2c_master_sync.rst
new file mode 100644
index 00000000..77b4f6e9
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/i2c_master_sync.rst
@@ -0,0 +1,87 @@
+=============================
+I2C Master synchronous driver
+=============================
+
+I2C (Inter-Integrated Circuit) is a two wire serial interface usually used
+for on-board low-speed bi-directional communication between controllers and
+peripherals. The master device is responsible for initiating and controlling
+all transfers on the I2C bus. Only one master device can be active on the I2C
+bus at the time, but the master role can be transferred between devices on the
+same I2C bus. I2C uses only two bidirectional open-drain lines, usually
+designated SDA (Serial Data Line) and SCL (Serial Clock Line), with pull up
+resistors.
+
+The stop condition is automatically controlled by the driver if the I/O write and
+read functions are used, but can be manually controlled by using the
+i2c_m_sync_transfer function.
+
+Often a master accesses different information in the slave by accessing
+different registers in the slave. This is done by first sending a message to
+the target slave containing the register address, followed by a repeated start
+condition (no stop condition between) ending with transferring register data.
+This scheme is supported by the i2c_m_sync_cmd_write and i2c_m_sync_cmd_read
+function, but limited to 8-bit register addresses.
+
+I2C Modes (standard mode/fastmode+/highspeed mode) can only be selected in
+Atmel Start. If the SCL frequency (baudrate) has changed run-time, make sure to
+stick within the SCL clock frequency range supported by the selected mode.
+The requested SCL clock frequency is not validated by the
+i2c_m_sync_set_baudrate function against the selected I2C mode.
+
+Features
+--------
+
+	* I2C Master support
+	* Initialization and de-initialization
+	* Enabling and disabling
+	* Run-time bus speed configuration
+	* Write and read I2C messages
+	* Slave register access functions (limited to 8-bit address)
+	* Manual or automatic stop condition generation
+	* 10- and 7- bit addressing
+	* I2C Modes supported
+	       +----------------------+-------------------+
+	       |* Standard/Fast mode  | (SCL: 1 - 400kHz) |
+	       +----------------------+-------------------+
+	       |* Fastmode+           | (SCL: 1 - 1000kHz)|
+	       +----------------------+-------------------+
+	       |* Highspeed mode      | (SCL: 1 - 3400kHz)|
+	       +----------------------+-------------------+
+
+Applications
+------------
+
+* Transfer data to and from one or multiple I2C slaves like I2C connected sensors, data storage or other I2C capable peripherals
+* Data communication between micro controllers
+* Controlling displays
+
+Dependencies
+------------
+
+* I2C Master capable hardware
+
+Concurrency
+-----------
+
+N/A
+
+Limitations
+-----------
+
+General
+^^^^^^^
+
+	* System Managmenet Bus (SMBus) not supported.
+	* Power Management Bus (PMBus) not supported.
+
+Clock considerations
+^^^^^^^^^^^^^^^^^^^^
+
+The register value for the requested I2C speed is calculated and placed in the correct register, but not validated if it works correctly with the clock/prescaler settings used for the module. To validate the I2C speed setting use the formula found in the configuration file for the module. Selectable speed is automatically limited within the speed range defined by the I2C mode selected.
+
+Known issues and workarounds
+----------------------------
+
+N/A
+
+
diff --git a/watch-library/hardware/hal/documentation/rand_sync.rst b/watch-library/hardware/hal/documentation/rand_sync.rst
new file mode 100755
index 00000000..19ec1d36
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/rand_sync.rst
@@ -0,0 +1,43 @@
+==========================================
+Random Number Generator Synchronous driver
+==========================================
+
+Random Number Generator (RAND) generates a sequence of numbers that can not
+be reasonably predicted better than by a random chance.
+
+In some implementation cases, seed is required for the Random Number Generator
+to generate random numbers. rand_sync_set_seed is used to update the seed.
+If it's actually not required by the generator implementation, the function just
+returns ERR_UNSUPPORTED_OP.
+
+Features
+--------
+
+* Initialization and de-initialization
+* Enabling and Disabling
+* Setting seed
+* 8-bit and 32-bit random data/data array generation
+
+Applications
+------------
+
+* Generate random keys for data encryption
+
+Dependencies
+------------
+
+* Random number generation hardware/software
+
+Concurrency
+-----------
+N/A
+
+Limitations
+-----------
+
+N/A
+
+Known issues and workarounds
+----------------------------
+N/A
+
diff --git a/watch-library/hardware/hal/documentation/slcd_sync.rst b/watch-library/hardware/hal/documentation/slcd_sync.rst
new file mode 100644
index 00000000..e18aa9dd
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/slcd_sync.rst
@@ -0,0 +1,82 @@
+
+SLCD Synchronous driver
+=======================
+
+An LCD display is made of several segments (pixels or complete symbols) which
+can be block light or let light through. In each segment is one electrode
+connected to the common terminal (COM pin) and one is connected to the segment
+terminal (SEG pin). When a voltage above a certain threshold level is applied
+across the liquid crystal, it will change orientation and either let light
+through or block it.
+
+The driver supports segment on/off/blink, animation and character display.
+
+Each segment has a unique int32 segment id which is used by the driver. The id is
+combined by common number(COM) and segment number(SEG), the COM and SEG start from 0.
+The unique segment id is calculated by this formula: (COM << 16) | SEG
+For example a 8(coms)*8(segments)SLCD, the unique segment id for segment should be
+
+    +-----+-----+---------+
+    | COM | SEG |   ID    |
+    +-----+-----+---------+
+    |  0  |  0  | 0x00000 |
+    +-----+-----+---------+
+    |  1  |  0  | 0x10000 |
+    +-----+-----+---------+
+    |  7  |  7  | 0x70007 |
+    +-----+-----+---------+
+
+Segment ID can be calculated using the pre-defined macro SLCD_SEGID(com, seg).
+
+For character display, the "segment character mapping table" and "character mapping table"
+should be setup in configuration. The driver have no API to setup/change those
+mapping setting.
+There are two pre-defined "segment character mapping table" in this driver, 7 segments
+and 14 segments. The 7 segment character mapping can display 0-9 and a-f, the 14
+segments character mapping can display 0-9, A-Z and some special ASCII, for more
+details please refer to hpl_slcd_cm_7_seg_mapping.h and hpl_slcd_cm_14_seg_mapping.h.
+Application can also adjust this mapping table in the configuration header file,
+to add more character mapping or remove some unused character.
+
+The "character mapping" is used to setup each character in SLCD display screen.
+The driver supports multiple character mapping, the max number varies on different
+MCU/MPU. For example if an LCD display screen has five "7-segments character" and
+eight "14-segments character", and the MCU support max 44 characters setting, then
+the 13 character should be setup in configuration. Application can select any
+position from those 44 characters setting to save those 13 character.
+The index of character setting will be used in the driver API. For example:
+five "7-segments character" setting to 0 to 4 and eight "14-segments character" setting
+to 10 to 17. Then the application can use index from 0 to 4 to display the
+"7-segments character" and use index from 10 to 14 to display "14-segments character".
+
+Features
+--------
+
+* Initialization and de-initialization
+* Enabling and Disabling
+* Switching segment on/off
+* Set segment blink
+* Autonomous animation
+* Character display
+
+Applications
+------------
+* SLCD display control, segment on/off/blink
+* Play battery animation, running wheel, wifi signal, etc.
+* Display Time Clock by 7 segments character mapping
+* Display ASCII character by 14 segments character mapping
+
+Dependencies
+------------
+* SLCD capable hardware
+
+Concurrency
+-----------
+N/A
+
+Limitations
+-----------
+
+Known issues and workarounds
+----------------------------
+N/A
diff --git a/watch-library/hardware/hal/documentation/spi_master_sync.rst b/watch-library/hardware/hal/documentation/spi_master_sync.rst
new file mode 100755
index 00000000..4fbe45e2
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/spi_master_sync.rst
@@ -0,0 +1,51 @@
+The SPI Master Synchronous Driver
+=================================
+
+The serial peripheral interface (SPI) is a synchronous serial communication
+interface.
+
+SPI devices communicate in full duplex mode using a master-slave
+architecture with a single master. The master device originates the frame for
+reading and writing. Multiple slave devices are supported through selection
+with individual slave select (SS) lines.
+
+Features
+--------
+
+* Initialization/de-initialization
+* Enabling/disabling
+* Control of the following settings:
+
+  * Baudrate
+  * SPI mode
+  * Character size
+  * Data order
+* Data transfer: transmission, reception and full-duplex
+
+Applications
+------------
+
+Send/receive/exchange data with a SPI slave device. E.g., serial flash, SD card,
+LCD controller, etc.
+
+Dependencies
+------------
+
+SPI master capable hardware
+
+Concurrency
+-----------
+
+N/A
+
+Limitations
+-----------
+
+The slave select (SS) is not automatically inserted during read/write/transfer,
+user must use I/O to control the devices' SS.
+
+Known issues and workarounds
+----------------------------
+
+N/A
+
diff --git a/watch-library/hardware/hal/documentation/usart_sync.rst b/watch-library/hardware/hal/documentation/usart_sync.rst
new file mode 100755
index 00000000..15e4b138
--- /dev/null
+++ b/watch-library/hardware/hal/documentation/usart_sync.rst
@@ -0,0 +1,58 @@
+The USART Synchronous Driver
+============================
+
+The universal synchronous and asynchronous receiver and transmitter
+(USART) is usually used to transfer data from one device to the other.
+
+User can set action for flow control pins by function usart_set_flow_control,
+if the flow control is enabled. All the available states are defined in union
+usart_flow_control_state.
+
+Note that user can set state of flow control pins only if automatic support of
+the flow control is not supported by the hardware.
+
+Features
+--------
+
+* Initialization/de-initialization
+* Enabling/disabling
+* Control of the following settings:
+
+  * Baudrate
+  * UART or USRT communication mode
+  * Character size
+  * Data order
+  * Flow control
+* Data transfer: transmission, reception
+
+Applications
+------------
+
+They are commonly used in a terminal application or low-speed communication
+between devices.
+
+Dependencies
+------------
+
+USART capable hardware.
+
+Concurrency
+-----------
+
+Write buffer should not be changed while data is being sent.
+
+
+Limitations
+-----------
+
+* The driver does not support 9-bit character size.
+* The "USART with ISO7816" mode can be only used in ISO7816 capable devices. 
+  And the SCK pin can't be set directly. Application can use a GCLK output PIN
+  to generate SCK. For example to communicate with a SMARTCARD with ISO7816
+  (F = 372 ; D = 1), and baudrate=9600, the SCK pin output frequency should be
+  config as 372*9600=3571200Hz. More information can be refer to ISO7816 Specification.
+
+Known issues and workarounds
+----------------------------
+
+N/A
diff --git a/watch-library/hardware/hal/include/hal_atomic.h b/watch-library/hardware/hal/include/hal_atomic.h
new file mode 100644
index 00000000..82151fc5
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_atomic.h
@@ -0,0 +1,120 @@
+/**
+ * \file
+ *
+ * \brief Critical sections related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_ATOMIC_H_INCLUDED
+#define _HAL_ATOMIC_H_INCLUDED
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_helper_atomic
+ *
+ *@{
+ */
+
+/**
+ * \brief Type for the register holding global interrupt enable flag
+ */
+typedef uint32_t hal_atomic_t;
+
+/**
+ * \brief Helper macro for entering critical sections
+ *
+ * This macro is recommended to be used instead of a direct call
+ * hal_enterCritical() function to enter critical
+ * sections. No semicolon is required after the macro.
+ *
+ * \section atomic_usage Usage Example
+ * \code
+ * CRITICAL_SECTION_ENTER()
+ * Critical code
+ * CRITICAL_SECTION_LEAVE()
+ * \endcode
+ */
+#define CRITICAL_SECTION_ENTER()                                                                                       \
+	{                                                                                                                  \
+		volatile hal_atomic_t __atomic;                                                                                \
+		atomic_enter_critical(&__atomic);
+
+/**
+ * \brief Helper macro for leaving critical sections
+ *
+ * This macro is recommended to be used instead of a direct call
+ * hal_leaveCritical() function to leave critical
+ * sections. No semicolon is required after the macro.
+ */
+#define CRITICAL_SECTION_LEAVE()                                                                                       \
+	atomic_leave_critical(&__atomic);                                                                                  \
+	}
+
+/**
+ * \brief Disable interrupts, enter critical section
+ *
+ * Disables global interrupts. Supports nested critical sections,
+ * so that global interrupts are only re-enabled
+ * upon leaving the outermost nested critical section.
+ *
+ * \param[out] atomic The pointer to a variable to store the value of global
+ * interrupt enable flag
+ */
+void atomic_enter_critical(hal_atomic_t volatile *atomic);
+
+/**
+ * \brief Exit atomic section
+ *
+ * Enables global interrupts. Supports nested critical sections,
+ * so that global interrupts are only re-enabled
+ * upon leaving the outermost nested critical section.
+ *
+ * \param[in] atomic The pointer to a variable, which stores the latest stored
+ * value of the global interrupt enable flag
+ */
+void atomic_leave_critical(hal_atomic_t volatile *atomic);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t atomic_get_version(void);
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HAL_ATOMIC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_calendar.h b/watch-library/hardware/hal/include/hal_calendar.h
new file mode 100644
index 00000000..e69de29b
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_calendar.h
diff --git a/watch-library/hardware/hal/include/hal_delay.h b/watch-library/hardware/hal/include/hal_delay.h
new file mode 100644
index 00000000..9d4aa5c1
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_delay.h
@@ -0,0 +1,89 @@
+/**
+ * \file
+ *
+ * \brief HAL delay related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_irq.h>
+#include <hpl_reset.h>
+#include <hpl_sleep.h>
+
+#ifndef _HAL_DELAY_H_INCLUDED
+#define _HAL_DELAY_H_INCLUDED
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_delay Delay Driver
+ *
+ *@{
+ */
+
+/**
+ * \brief Initialize Delay driver
+ *
+ * \param[in] hw The pointer to hardware instance
+ */
+void delay_init(void *const hw);
+
+/**
+ * \brief Perform delay in us
+ *
+ * This function performs delay for the given amount of microseconds.
+ *
+ * \param[in] us The amount delay in us
+ */
+void delay_us(const uint16_t us);
+
+/**
+ * \brief Perform delay in ms
+ *
+ * This function performs delay for the given amount of milliseconds.
+ *
+ * \param[in] ms The amount delay in ms
+ */
+void delay_ms(const uint16_t ms);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t delay_get_version(void);
+
+/**@}*/
+#ifdef __cplusplus
+}
+#endif
+#endif /* _HAL_DELAY_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_ext_irq.h b/watch-library/hardware/hal/include/hal_ext_irq.h
new file mode 100644
index 00000000..a7c26005
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_ext_irq.h
@@ -0,0 +1,118 @@
+/**
+ * \file
+ *
+ * \brief External interrupt functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_EXT_IRQ_H_INCLUDED
+#define _HAL_EXT_IRQ_H_INCLUDED
+
+#include <hpl_ext_irq.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_ext_irq
+ *
+ * @{
+ */
+
+/**
+ * \brief External IRQ callback type
+ */
+typedef void (*ext_irq_cb_t)(void);
+
+/**
+ * \brief Initialize external IRQ component, if any
+ *
+ * \return Initialization status.
+ * \retval -1 External IRQ module is already initialized
+ * \retval 0 The initialization is completed successfully
+ */
+int32_t ext_irq_init(void);
+
+/**
+ * \brief Deinitialize external IRQ, if any
+ *
+ * \return De-initialization status.
+ * \retval -1 External IRQ module is already deinitialized
+ * \retval 0 The de-initialization is completed successfully
+ */
+int32_t ext_irq_deinit(void);
+
+/**
+ * \brief Register callback for the given external interrupt
+ *
+ * \param[in] pin Pin to enable external IRQ on
+ * \param[in] cb Callback function
+ *
+ * \return Registration status.
+ * \retval -1 Passed parameters were invalid
+ * \retval 0 The callback registration is completed successfully
+ */
+int32_t ext_irq_register(const uint32_t pin, ext_irq_cb_t cb);
+
+/**
+ * \brief Enable external IRQ
+ *
+ * \param[in] pin Pin to enable external IRQ on
+ *
+ * \return Enabling status.
+ * \retval -1 Passed parameters were invalid
+ * \retval 0 The enabling is completed successfully
+ */
+int32_t ext_irq_enable(const uint32_t pin);
+
+/**
+ * \brief Disable external IRQ
+ *
+ * \param[in] pin Pin to enable external IRQ on
+ *
+ * \return Disabling status.
+ * \retval -1 Passed parameters were invalid
+ * \retval 0 The disabling is completed successfully
+ */
+int32_t ext_irq_disable(const uint32_t pin);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t ext_irq_get_version(void);
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HAL_EXT_IRQ_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_flash.h b/watch-library/hardware/hal/include/hal_flash.h
new file mode 100755
index 00000000..8216afde
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_flash.h
@@ -0,0 +1,209 @@
+/**
+ * \file
+ *
+ * \brief Flash related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_FLASH_H_INCLUDED
+#define _HAL_FLASH_H_INCLUDED
+
+#include <hpl_flash.h>
+
+/**
+ * \addtogroup doc_driver_hal_flash
+ *
+ * @{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/* Forward declaration of flash_descriptor. */
+struct flash_descriptor;
+
+/** The callback types */
+enum flash_cb_type {
+	/** Callback type for ready to accept a new command */
+	FLASH_CB_READY,
+	/** Callback type for error */
+	FLASH_CB_ERROR,
+	FLASH_CB_N
+};
+
+/** \brief Prototype of callback on FLASH
+ *
+ */
+typedef void (*flash_cb_t)(struct flash_descriptor *const descr);
+
+/** \brief FLASH HAL callbacks
+ *
+ */
+struct flash_callbacks {
+	/** Callback invoked when ready to accept a new command */
+	flash_cb_t cb_ready;
+	/** Callback invoked when error occurs */
+	flash_cb_t cb_error;
+};
+
+/** \brief FLASH HAL driver struct for asynchronous access
+ */
+struct flash_descriptor {
+	/** Pointer to FLASH device instance */
+	struct _flash_device dev;
+	/** Callbacks for asynchronous transfer */
+	struct flash_callbacks callbacks;
+};
+
+/** \brief Initialize the FLASH HAL instance and hardware for callback mode
+ *
+ *  Initialize FLASH HAL with interrupt mode (uses callbacks).
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \return Initialize status.
+ */
+int32_t flash_init(struct flash_descriptor *flash, void *const hw);
+
+/** \brief Deinitialize the FLASH HAL instance
+ *
+ *  Abort transfer, disable and reset FLASH, and deinitialize software.
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \return Deinitialze status.
+ */
+int32_t flash_deinit(struct flash_descriptor *flash);
+
+/** \brief Writes a number of bytes to a page in the internal Flash
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  dst_addr  Destination bytes address to write into flash
+ *  \param[in]  buffer    Pointer to a buffer where the content
+ *                        will be written to the flash
+ *  \param[in]  length    Number of bytes to write
+ *  \return Write status.
+ */
+int32_t flash_write(struct flash_descriptor *flash, uint32_t dst_addr, uint8_t *buffer, uint32_t length);
+
+/** \brief Appends a number of bytes to a page in the internal Flash
+ *
+ *  This functions never erases the flash before writing.
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  dst_addr  Destination bytes address to write to flash
+ *  \param[in]  buffer    Pointer to a buffer with data to write to flash
+ *  \param[in]  length    Number of bytes to append
+ *  \return Append status.
+ */
+int32_t flash_append(struct flash_descriptor *flash, uint32_t dst_addr, uint8_t *buffer, uint32_t length);
+
+/** \brief Reads a number of bytes to a page in the internal Flash
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  src_addr  Source bytes address to read from flash
+ *  \param[out] buffer    Pointer to a buffer where the content
+ *                        of the read pages will be stored
+ *  \param[in]  length    Number of bytes to read
+ *  \return Read status.
+ */
+int32_t flash_read(struct flash_descriptor *flash, uint32_t src_addr, uint8_t *buffer, uint32_t length);
+
+/** \brief Register a function as FLASH transfer completion callback
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in] type Callback type (\ref flash_cb_type).
+ *  \param[in] func Pointer to callback function.
+ *  \retval 0 Success
+ *  \retval -1 Error
+ */
+int32_t flash_register_callback(struct flash_descriptor *flash, const enum flash_cb_type type, flash_cb_t func);
+
+/** \brief Execute lock in the internal flash
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  dst_addr  Destination bytes address aligned with page
+ *                        start to be locked
+ *  \param[in]  page_nums Number of pages to be locked
+ *
+ *  \return Real locked numbers of pages.
+ */
+int32_t flash_lock(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums);
+
+/** \brief Execute unlock in the internal flash
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  dst_addr  Destination bytes address aligned with page
+ *                        start to be unlocked
+ *  \param[in]  page_nums Number of pages to be unlocked
+ *
+ *  \return Real unlocked numbers of pages.
+ */
+int32_t flash_unlock(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums);
+
+/** \brief Execute erase in the internal flash
+ *
+ *  \param[in, out] flash Pointer to the HAL FLASH instance.
+ *  \param[in]  dst_addr  Destination bytes address aligned with page
+ *                        start to be erased
+ *  \param[in]  page_nums Number of pages to be erased
+ *  \retval 0 Success
+ *  \retval -1 Error
+ */
+int32_t flash_erase(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums);
+
+/**
+ * \brief Get the flash page size
+ *
+ * \param[in, out] flash Pointer to the HAL FLASH instance
+ *
+ * \return The flash page size
+ */
+uint32_t flash_get_page_size(struct flash_descriptor *flash);
+
+/**
+ * \brief Get the number of flash page
+ *
+ * \param[in, out] flash Pointer to the HAL FLASH instance.
+ *
+ * \return The flash total page numbers
+ */
+uint32_t flash_get_total_pages(struct flash_descriptor *flash);
+
+/** \brief Retrieve the current driver version
+ *
+ *  \return Current driver version.
+ */
+uint32_t flash_get_version(void);
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* ifndef _HAL_FLASH_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_gpio.h b/watch-library/hardware/hal/include/hal_gpio.h
new file mode 100644
index 00000000..fbfa2d4a
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_gpio.h
@@ -0,0 +1,201 @@
+/**
+ * \file
+ *
+ * \brief Port
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ */
+#ifndef _HAL_GPIO_INCLUDED_
+#define _HAL_GPIO_INCLUDED_
+
+#include <hpl_gpio.h>
+#include <utils_assert.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Set gpio pull mode
+ *
+ * Set pin pull mode, non existing pull modes throws an fatal assert
+ *
+ * \param[in] pin       The pin number for device
+ * \param[in] pull_mode GPIO_PULL_DOWN = Pull pin low with internal resistor
+ *                      GPIO_PULL_UP   = Pull pin high with internal resistor
+ *                      GPIO_PULL_OFF  = Disable pin pull mode
+ */
+static inline void gpio_set_pin_pull_mode(const uint8_t pin, const enum gpio_pull_mode pull_mode)
+{
+	_gpio_set_pin_pull_mode((enum gpio_port)GPIO_PORT(pin), pin & 0x1F, pull_mode);
+}
+
+/**
+ * \brief Set pin function
+ *
+ * Select which function a pin will be used for
+ *
+ * \param[in] pin       The pin number for device
+ * \param[in] function  The pin function is given by a 32-bit wide bitfield
+ *                      found in the header files for the device
+ *
+ */
+static inline void gpio_set_pin_function(const uint32_t pin, uint32_t function)
+{
+	_gpio_set_pin_function(pin, function);
+}
+
+/**
+ * \brief Set port data direction
+ *
+ * Select if the pin data direction is input, output or disabled.
+ * If disabled state is not possible, this function throws an assert.
+ *
+ * \param[in] port      Ports are grouped into groups of maximum 32 pins,
+ *                      GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask      Bit mask where 1 means apply direction setting to the
+ *                      corresponding pin
+ * \param[in] direction GPIO_DIRECTION_IN  = Data direction in
+ *                      GPIO_DIRECTION_OUT = Data direction out
+ *                      GPIO_DIRECTION_OFF = Disables the pin
+ *                      (low power state)
+ */
+static inline void gpio_set_port_direction(const enum gpio_port port, const uint32_t mask,
+                                           const enum gpio_direction direction)
+{
+	_gpio_set_direction(port, mask, direction);
+}
+
+/**
+ * \brief Set gpio data direction
+ *
+ * Select if the pin data direction is input, output or disabled.
+ * If disabled state is not possible, this function throws an assert.
+ *
+ * \param[in] pin       The pin number for device
+ * \param[in] direction GPIO_DIRECTION_IN  = Data direction in
+ *                      GPIO_DIRECTION_OUT = Data direction out
+ *                      GPIO_DIRECTION_OFF = Disables the pin
+ *                      (low power state)
+ */
+static inline void gpio_set_pin_direction(const uint8_t pin, const enum gpio_direction direction)
+{
+	_gpio_set_direction((enum gpio_port)GPIO_PORT(pin), 1U << GPIO_PIN(pin), direction);
+}
+
+/**
+ * \brief Set port level
+ *
+ * Sets output level on the pins defined by the bit mask
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask  Bit mask where 1 means apply port level to the corresponding
+ *                  pin
+ * \param[in] level true  = Pin levels set to "high" state
+ *                  false = Pin levels set to "low" state
+ */
+static inline void gpio_set_port_level(const enum gpio_port port, const uint32_t mask, const bool level)
+{
+	_gpio_set_level(port, mask, level);
+}
+
+/**
+ * \brief Set gpio level
+ *
+ * Sets output level on a pin
+ *
+ * \param[in] pin       The pin number for device
+ * \param[in] level true  = Pin level set to "high" state
+ *                  false = Pin level set to "low" state
+ */
+static inline void gpio_set_pin_level(const uint8_t pin, const bool level)
+{
+	_gpio_set_level((enum gpio_port)GPIO_PORT(pin), 1U << GPIO_PIN(pin), level);
+}
+
+/**
+ * \brief Toggle out level on pins
+ *
+ * Toggle the pin levels on pins defined by bit mask
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask  Bit mask where 1 means toggle pin level to the corresponding
+ *                  pin
+ */
+static inline void gpio_toggle_port_level(const enum gpio_port port, const uint32_t mask)
+{
+	_gpio_toggle_level(port, mask);
+}
+
+/**
+ * \brief Toggle output level on pin
+ *
+ * Toggle the pin levels on pins defined by bit mask
+ *
+ * \param[in] pin       The pin number for device
+ */
+static inline void gpio_toggle_pin_level(const uint8_t pin)
+{
+	_gpio_toggle_level((enum gpio_port)GPIO_PORT(pin), 1U << GPIO_PIN(pin));
+}
+
+/**
+ * \brief Get input level on pins
+ *
+ * Read the input level on pins connected to a port
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ */
+static inline uint32_t gpio_get_port_level(const enum gpio_port port)
+{
+	return _gpio_get_level(port);
+}
+
+/**
+ * \brief Get level on pin
+ *
+ * Reads the level on pins connected to a port
+ *
+ * \param[in] pin       The pin number for device
+ */
+static inline bool gpio_get_pin_level(const uint8_t pin)
+{
+	return (bool)(_gpio_get_level((enum gpio_port)GPIO_PORT(pin)) & (0x01U << GPIO_PIN(pin)));
+}
+/**
+ * \brief Get current driver version
+ */
+uint32_t gpio_get_version(void);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hal_i2c_m_sync.h b/watch-library/hardware/hal/include/hal_i2c_m_sync.h
new file mode 100644
index 00000000..f7772483
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_i2c_m_sync.h
@@ -0,0 +1,244 @@
+/**
+ * \file
+ *
+ * \brief Sync I2C Hardware Abstraction Layer(HAL) declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_I2C_M_SYNC_H_INCLUDED
+#define _HAL_I2C_M_SYNC_H_INCLUDED
+
+#include <hpl_i2c_m_sync.h>
+#include <hal_io.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_i2c_controller_sync
+ *
+ * @{
+ */
+
+#define I2C_M_MAX_RETRY 1
+
+/**
+ * \brief I2C descriptor structure, embed i2c_device & i2c_interface
+ */
+struct i2c_m_sync_desc {
+	struct _i2c_m_sync_device device;
+	struct io_descriptor      io;
+	uint16_t                  periph_addr;
+};
+
+/**
+ * \brief Initialize synchronous I2C interface
+ *
+ * This function initializes the given I/O descriptor to be used as a
+ * synchronous I2C interface descriptor.
+ * It checks if the given hardware is not initialized and if the given hardware
+ * is permitted to be initialized.
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Initialization status.
+ * \retval -1 The passed parameters were invalid or the interface is already initialized
+ * \retval 0 The initialization is completed successfully
+ */
+int32_t i2c_m_sync_init(struct i2c_m_sync_desc *i2c, void *hw);
+
+/**
+ * \brief Deinitialize I2C interface
+ *
+ * This function deinitializes the given I/O descriptor.
+ * It checks if the given hardware is initialized and if the given hardware is permitted to be deinitialized.
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ *
+ * \return Uninitialization status.
+ * \retval -1 The passed parameters were invalid or the interface is already deinitialized
+ * \retval 0 The de-initialization is completed successfully
+ */
+int32_t i2c_m_sync_deinit(struct i2c_m_sync_desc *i2c);
+
+/**
+ * \brief Set the peripheral device address
+ *
+ * This function sets the next transfer target peripheral I2C device address.
+ * It takes no effect to any already started access.
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] addr The peripheral address to access
+ * \param[in] addr_len The peripheral address length, can be I2C_M_TEN or I2C_M_SEVEN
+ *
+ * \return Masked peripheral address. The mask is a maximum 10-bit address, and 10th
+ *         bit is set if a 10-bit address is used
+ */
+int32_t i2c_m_sync_set_periphaddr(struct i2c_m_sync_desc *i2c, int16_t addr, int32_t addr_len);
+
+/**
+ * \brief Set baudrate
+ *
+ * This function sets the I2C device to the specified baudrate.
+ * It only takes effect when the hardware is disabled.
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] clkrate Unused parameter. Should always be 0
+ * \param[in] baudrate The baudrate value set to controller
+ *
+ * \return Whether successfully set the baudrate
+ * \retval -1 The passed parameters were invalid or the device is already enabled
+ * \retval 0 The baudrate set is completed successfully
+ */
+int32_t i2c_m_sync_set_baudrate(struct i2c_m_sync_desc *i2c, uint32_t clkrate, uint32_t baudrate);
+
+/**
+ * \brief Sync version of enable hardware
+ *
+ * This function enables the I2C device, and then waits for this enabling operation to be done
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ *
+ * \return Whether successfully enable the device
+ * \retval -1 The passed parameters were invalid or the device enable failed
+ * \retval 0 The hardware enabling is completed successfully
+ */
+int32_t i2c_m_sync_enable(struct i2c_m_sync_desc *i2c);
+
+/**
+ * \brief Sync version of disable hardware
+ *
+ * This function disables the I2C device and then waits for this disabling operation to be done
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ *
+ * \return Whether successfully disable the device
+ * \retval -1 The passed parameters were invalid or the device disable failed
+ * \retval 0 The hardware disabling is completed successfully
+ */
+int32_t i2c_m_sync_disable(struct i2c_m_sync_desc *i2c);
+
+/**
+ * \brief Sync version of write command to I2C peripheral
+ *
+ * This function will write the value to a specified register in the I2C peripheral device and
+ * then wait for this operation to be done.
+ *
+ * The sequence of this routine is
+ * sta->address(write)->ack->reg address->ack->resta->address(write)->ack->reg value->nack->stt
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] reg The internal address/register of the I2C peripheral device
+ * \param[in] buffer The buffer holding data to write to the I2C peripheral device
+ * \param[in] length The length (in bytes) to write to the I2C peripheral device
+ *
+ * \return Whether successfully write to the device
+ * \retval <0 The passed parameters were invalid or write fail
+ * \retval 0 Writing to register is completed successfully
+ */
+int32_t i2c_m_sync_cmd_write(struct i2c_m_sync_desc *i2c, uint8_t reg, uint8_t *buffer, uint8_t length);
+
+/**
+ * \brief Sync version of read register value from I2C peripheral
+ *
+ * This function will read a byte value from a specified register in the I2C peripheral device and
+ * then wait for this operation to be done.
+ *
+ * The sequence of this routine is
+ * sta->address(write)->ack->reg address->ack->resta->address(read)->ack->reg value->nack->stt
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] reg The internal address/register of the I2C peripheral device
+ * \param[in] buffer The buffer to hold the read data from the I2C peripheral device
+ * \param[in] length The length (in bytes) to read from the I2C peripheral device
+ *
+ * \return Whether successfully read from the device
+ * \retval <0 The passed parameters were invalid or read fail
+ * \retval 0 Reading from register is completed successfully
+ */
+int32_t i2c_m_sync_cmd_read(struct i2c_m_sync_desc *i2c, uint8_t reg, uint8_t *buffer, uint8_t length);
+
+/**
+ * \brief Sync version of transfer message to/from the I2C peripheral
+ *
+ * This function will transfer a message between the I2C peripheral and the controller. 
+ * This function will wait for the operation to be done.
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ * \param[in] msg  An i2c_m_msg struct
+ *
+ * \return The status of the operation
+ * \retval 0 Operation completed successfully
+ * \retval <0 Operation failed
+ */
+int32_t i2c_m_sync_transfer(struct i2c_m_sync_desc *const i2c, struct _i2c_m_msg *msg);
+
+/**
+ * \brief Sync version of send stop condition on the i2c bus
+ *
+ * This function will create a stop condition on the i2c bus to release the bus
+ *
+ * \param[in] i2c An I2C descriptor, which is used to communicate through I2C
+ *
+ * \return The status of the operation
+ * \retval 0 Operation completed successfully
+ * \retval <0 Operation failed
+ */
+int32_t i2c_m_sync_send_stop(struct i2c_m_sync_desc *const i2c);
+
+/**
+ * \brief Return I/O descriptor for this I2C instance
+ *
+ * This function will return a I/O instance for this I2C driver instance
+ *
+ * \param[in] i2c_m_sync_desc An I2C descriptor, which is used to communicate through I2C
+ * \param[in] io_descriptor A pointer to an I/O descriptor pointer type
+ *
+ * \return Error code
+ * \retval 0 No error detected
+ * \retval <0 Error code
+ */
+int32_t i2c_m_sync_get_io_descriptor(struct i2c_m_sync_desc *const i2c, struct io_descriptor **io);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t i2c_m_sync_get_version(void);
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hal_init.h b/watch-library/hardware/hal/include/hal_init.h
new file mode 100644
index 00000000..d7bc6fe2
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_init.h
@@ -0,0 +1,72 @@
+/**
+ * \file
+ *
+ * \brief HAL initialization related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_INIT_H_INCLUDED
+#define _HAL_INIT_H_INCLUDED
+
+#include <hpl_init.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_helper_init Init Driver
+ *
+ *@{
+ */
+
+/**
+ * \brief Initialize the hardware abstraction layer
+ *
+ * This function calls the various initialization functions.
+ * Currently the following initialization functions are supported:
+ *  - System clock initialization
+ */
+static inline void init_mcu(void)
+{
+	_init_chip();
+}
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t init_get_version(void);
+
+/**@}*/
+#ifdef __cplusplus
+}
+#endif
+#endif /* _HAL_INIT_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_io.h b/watch-library/hardware/hal/include/hal_io.h
new file mode 100644
index 00000000..f50401d7
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_io.h
@@ -0,0 +1,110 @@
+/**
+ * \file
+ *
+ * \brief I/O related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_IO_INCLUDED
+#define _HAL_IO_INCLUDED
+
+/**
+ * \addtogroup doc_driver_hal_helper_io I/O Driver
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief I/O descriptor
+ *
+ * The I/O descriptor forward declaration.
+ */
+struct io_descriptor;
+
+/**
+ * \brief I/O write function pointer type
+ */
+typedef int32_t (*io_write_t)(struct io_descriptor *const io_descr, const uint8_t *const buf, const uint16_t length);
+
+/**
+ * \brief I/O read function pointer type
+ */
+typedef int32_t (*io_read_t)(struct io_descriptor *const io_descr, uint8_t *const buf, const uint16_t length);
+
+/**
+ * \brief I/O descriptor
+ */
+struct io_descriptor {
+	io_write_t write; /*! The write function pointer. */
+	io_read_t  read;  /*! The read function pointer. */
+};
+
+/**
+ * \brief I/O write interface
+ *
+ * This function writes up to \p length of bytes to a given I/O descriptor.
+ * It returns the number of bytes actually write.
+ *
+ * \param[in] descr  An I/O descriptor to write
+ * \param[in] buf    The buffer pointer to story the write data
+ * \param[in] length The number of bytes to write
+ *
+ * \return The number of bytes written
+ */
+int32_t io_write(struct io_descriptor *const io_descr, const uint8_t *const buf, const uint16_t length);
+
+/**
+ * \brief I/O read interface
+ *
+ * This function reads up to \p length bytes from a given I/O descriptor, and
+ * stores it in the buffer pointed to by \p buf. It returns the number of bytes
+ * actually read.
+ *
+ * \param[in] descr  An I/O descriptor to read
+ * \param[in] buf    The buffer pointer to story the read data
+ * \param[in] length The number of bytes to read
+ *
+ * \return The number of bytes actually read. This number can be less than the
+ *         requested length. E.g., in a driver that uses ring buffer for
+ *         reception, it may depend on the availability of data in the
+ *         ring buffer.
+ */
+int32_t io_read(struct io_descriptor *const io_descr, uint8_t *const buf, const uint16_t length);
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HAL_IO_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_rand_sync.h b/watch-library/hardware/hal/include/hal_rand_sync.h
new file mode 100755
index 00000000..9f8cc31e
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_rand_sync.h
@@ -0,0 +1,134 @@
+/**
+ * \file
+ *
+ * \brief Generic Random Number Generator (RAND) functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_RAND_SYNC_H_INCLUDED
+#define _HAL_RAND_SYNC_H_INCLUDED
+
+#include <hpl_rand_sync.h>
+
+#include <utils_assert.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_rand_sync
+ *
+ *@{
+ */
+
+/** Random Number Generator polling device. */
+struct rand_sync_desc {
+	struct _rand_sync_dev dev;
+};
+
+/**
+ *  \brief Initialize the Random Number Generator Driver
+ *  \param[out] desc Pointer to the device descriptor instance struct
+ *  \param[in, out] hw Pointer to the hardware for device instance
+ *  \return Initialization operation result status, ERR_NONE (0) for OK.
+ */
+int32_t rand_sync_init(struct rand_sync_desc *const desc, void *const hw);
+
+/**
+ *  \brief Deinitialize the Random Number Generator Driver
+ *  \param[out] desc Pointer to the device descriptor instance struct
+ */
+void rand_sync_deinit(struct rand_sync_desc *const desc);
+
+/**
+ *  \brief Enable the Random Number Generator Driver
+ *  \param[out] desc Pointer to the device descriptor instance struct
+ *  \return Enable operation result status, ERR_NONE (0) for OK.
+ */
+int32_t rand_sync_enable(struct rand_sync_desc *const desc);
+
+/**
+ *  \brief Disable the Random Number Generator Driver
+ *  \param[out] desc Pointer to the device descriptor instance struct
+ */
+void rand_sync_disable(struct rand_sync_desc *const desc);
+
+/**
+ *  \brief Set seed for the Random Number Generator Driver
+ *  \param[out] desc Pointer to the device descriptor instance struct
+ */
+int32_t rand_sync_set_seed(struct rand_sync_desc *const desc, const uint32_t seed);
+
+/**
+ *  \brief Read the 8-bit Random Number
+ *  \param[in] desc Pointer to the device descriptor instance struct
+ *  \return The random number generated
+ */
+uint8_t rand_sync_read8(const struct rand_sync_desc *const desc);
+
+/**
+ *  \brief Read the 32-bit Random Number
+ *  \param[in] desc Pointer to the device descriptor instance struct
+ *  \return The random number generated
+ */
+uint32_t rand_sync_read32(const struct rand_sync_desc *const desc);
+
+/**
+ *  \brief Read the 8-bit Random Number Sequence into a buffer
+ *  \param[in] desc Pointer to the device descriptor instance struct
+ *  \param[out] buf Pointer to the buffer to fill an array of generated numbers
+ *  \param[in] len Number of random numbers to read
+ */
+void rand_sync_read_buf8(const struct rand_sync_desc *const desc, uint8_t *buf, uint32_t len);
+
+/**
+ *  \brief Read the 32-bit Random Number Sequence into a buffer
+ *  \param[in] desc Pointer to the device descriptor instance struct
+ *  \param[out] buf Pointer to the buffer to fill an array of generated numbers
+ *  \param[in] len Number of random numbers to read
+ */
+void rand_sync_read_buf32(const struct rand_sync_desc *const desc, uint32_t *buf, uint32_t len);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t rand_sync_get_version(void);
+
+/* I/O read will be used to get random data. */
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HAL_RAND_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_slcd_sync.h b/watch-library/hardware/hal/include/hal_slcd_sync.h
new file mode 100644
index 00000000..84c4e1f9
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_slcd_sync.h
@@ -0,0 +1,168 @@
+/**
+ * \file
+ *
+ * \brief SLCD Segment Liquid Crystal Display Controller(Sync) functionality
+ *        declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef HAL_SLCD_SYNC_H_INCLUDED
+#define HAL_SLCD_SYNC_H_INCLUDED
+
+#include <hpl_slcd_sync.h>
+#include <utils_assert.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_slcd_sync
+ *
+ *@{
+ */
+
+struct slcd_sync_descriptor {
+	struct _slcd_sync_device dev; /*!< SLCD HPL device descriptor */
+};
+
+/**
+ * \brief               Initialize SLCD Descriptor
+ *
+ * \param[in] descr     SLCD descriptor to be initialized
+ * \param[in] hw        The pointer to hardware instance
+ */
+int32_t slcd_sync_init(struct slcd_sync_descriptor *const descr, void *const hw);
+
+/**
+ * \brief               Deinitialize SLCD Descriptor
+ *
+ * \param[in] descr      SLCD descriptor to be deinitialized
+ */
+int32_t slcd_sync_deinit(struct slcd_sync_descriptor *const descr);
+
+/**
+ * \brief               Enable SLCD driver
+ *
+ * \param[in] descr     SLCD descriptor to be initialized
+ */
+int32_t slcd_sync_enable(struct slcd_sync_descriptor *const descr);
+
+/**
+ * \brief               Disable SLCD driver
+ *
+ * \param[in] descr     SLCD descriptor to be disabled
+ */
+int32_t slcd_sync_disable(struct slcd_sync_descriptor *const descr);
+
+/**
+ * \brief               Turn on a Segment
+ *
+ * \param[in] descr     SLCD descriptor to be enabled
+ * \param[in] seg       Segment index. The segment index is by the combination
+ *                      of common and segment terminal index. The
+ *                      SLCD_SEGID(com, seg) macro can generate the index.
+ */
+int32_t slcd_sync_seg_on(struct slcd_sync_descriptor *const descr, uint32_t seg);
+
+/**
+ * \brief               Turn off a Segment
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] seg       Segment index
+ *                      value is "(common terminals << 16 | segment terminal)"
+ */
+int32_t slcd_sync_seg_off(struct slcd_sync_descriptor *const descr, uint32_t seg);
+
+/**
+ * \brief               Blink a Segment
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] seg       Segment index
+ *                      value is "(common terminals << 16 | segment terminal)"
+ * \param[in] period    Blink period, unit is millisecond
+ */
+int32_t slcd_sync_seg_blink(struct slcd_sync_descriptor *const descr, uint32_t seg, const uint32_t period);
+
+/**
+ * \brief               Displays a character
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] character Character to be displayed
+ * \param[in] index     Index of the character Mapping Group
+ */
+int32_t slcd_sync_write_char(struct slcd_sync_descriptor *const descr, const uint8_t character, uint32_t index);
+
+/**
+ * \brief               Displays character string string
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] str       String to be displayed, 0 will turn off the
+ *                      corresponding char to display
+ * \param[in] len       Length of the string array
+ * \param[in] index     Index of the character Mapping Group
+ */
+int32_t slcd_sync_write_string(struct slcd_sync_descriptor *const descr, uint8_t *const str, uint32_t len,
+                               uint32_t index);
+
+/**
+ * \brief               Start animation play by a segment array
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] segs      Segment array
+ * \param[in] len       Length of the segment array
+ * \param[in] period    Period (milliseconds) of each segment to animation
+ */
+int32_t slcd_sync_start_animation(struct slcd_sync_descriptor *const descr, const uint32_t segs[], uint32_t len,
+                                  const uint32_t period);
+
+/**
+ * \brief               Stop animation play by a segment array
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] segs      Segment array
+ * \param[in] len       Length of the segment array
+ */
+int32_t slcd_sync_stop_animation(struct slcd_sync_descriptor *const descr, const uint32_t segs[], uint32_t len);
+
+/**
+ * \brief               Set animation Frequency
+ *
+ * \param[in] descr     SLCD descriptor
+ * \param[in] period    Period (million second) of each segment to animation
+ */
+int32_t slcd_sync_set_animation_period(struct slcd_sync_descriptor *const descr, const uint32_t period);
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hal_sleep.h b/watch-library/hardware/hal/include/hal_sleep.h
new file mode 100644
index 00000000..b90ef6a5
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_sleep.h
@@ -0,0 +1,74 @@
+/**
+ * \file
+ *
+ * \brief Sleep related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_SLEEP_H_INCLUDED
+#define _HAL_SLEEP_H_INCLUDED
+
+#include <hpl_sleep.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_helper_sleep
+ *
+ *@{
+ */
+
+/**
+ * \brief Set the sleep mode of the device and put the MCU to sleep
+ *
+ * For an overview of which systems are disabled in sleep for the different
+ * sleep modes, see the data sheet.
+ *
+ * \param[in] mode Sleep mode to use
+ *
+ * \return The status of a sleep request
+ * \retval -1 The requested sleep mode was invalid or not available
+ * \retval  0 The operation completed successfully, returned after leaving the
+ *            sleep
+ */
+int sleep(const uint8_t mode);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t sleep_get_version(void);
+/**@}*/
+#ifdef __cplusplus
+}
+#endif
+#endif /* _HAL_SLEEP_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_spi_m_sync.h b/watch-library/hardware/hal/include/hal_spi_m_sync.h
new file mode 100755
index 00000000..5d040558
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_spi_m_sync.h
@@ -0,0 +1,221 @@
+/**
+ * \file
+ *
+ * \brief SPI related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_SPI_M_SYNC_H_INCLUDED
+#define _HAL_SPI_M_SYNC_H_INCLUDED
+
+#include <hal_io.h>
+#include <hpl_spi_m_sync.h>
+
+/**
+ * \addtogroup doc_driver_hal_spi_master_sync
+ *
+ * @{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** \brief SPI HAL driver struct for polling mode
+ *
+ */
+struct spi_m_sync_descriptor {
+	struct _spi_m_sync_hpl_interface *func;
+	/** SPI device instance */
+	struct _spi_sync_dev dev;
+	/** I/O read/write */
+	struct io_descriptor io;
+	/** Flags for HAL driver */
+	uint16_t flags;
+};
+
+/** \brief Set the SPI HAL instance function pointer for HPL APIs.
+ *
+ *  Set SPI HAL instance function pointer for HPL APIs.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] func Pointer to the HPL api structure.
+ *
+ */
+void spi_m_sync_set_func_ptr(struct spi_m_sync_descriptor *spi, void *const func);
+
+/** \brief Initialize SPI HAL instance and hardware for polling mode
+ *
+ *  Initialize SPI HAL with polling mode.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_INVALID_DATA Error, initialized.
+ */
+int32_t spi_m_sync_init(struct spi_m_sync_descriptor *spi, void *const hw);
+
+/** \brief Deinitialize the SPI HAL instance and hardware
+ *
+ *  Abort transfer, disable and reset SPI, deinit software.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval <0 Error code.
+ */
+void spi_m_sync_deinit(struct spi_m_sync_descriptor *spi);
+
+/** \brief Enable SPI
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval <0 Error code.
+ */
+void spi_m_sync_enable(struct spi_m_sync_descriptor *spi);
+
+/** \brief Disable SPI
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval <0 Error code.
+ */
+void spi_m_sync_disable(struct spi_m_sync_descriptor *spi);
+
+/** \brief Set SPI baudrate
+ *
+ *  Works if SPI is initialized as master, it sets the baudrate.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] baud_val The target baudrate value
+ *                  (see "baudrate calculation" for calculating the value).
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_BUSY Busy
+ *  \retval ERR_INVALID_ARG The baudrate is not supported.
+ */
+int32_t spi_m_sync_set_baudrate(struct spi_m_sync_descriptor *spi, const uint32_t baud_val);
+
+/** \brief Set SPI mode
+ *
+ *  Set the SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls the clock polarity and clock phase:
+ *  - Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  - Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  - Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  - Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] mode The mode (0~3).
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_BUSY Busy
+ *  \retval ERR_INVALID_ARG The mode is not supported.
+ */
+int32_t spi_m_sync_set_mode(struct spi_m_sync_descriptor *spi, const enum spi_transfer_mode mode);
+
+/** \brief Set SPI transfer character size in number of bits
+ *
+ *  The character size (\ref spi_char_size) influence the way the data is
+ *  sent/received.
+ *  For char size <= 8-bit, data is stored byte by byte.
+ *  For char size between 9-bit ~ 16-bit, data is stored in 2-byte length.
+ *  Note that the default and recommended char size is 8-bit since it's
+ *  supported by all system.
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] char_size The char size (~16, recommended 8).
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_BUSY Busy
+ *  \retval ERR_INVALID_ARG The char size is not supported.
+ */
+int32_t spi_m_sync_set_char_size(struct spi_m_sync_descriptor *spi, const enum spi_char_size char_size);
+
+/** \brief Set SPI transfer data order
+ *
+ *  \param[in] spi Pointer to the HAL SPI instance.
+ *  \param[in] dord The data order: send LSB/MSB first.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_BUSY Busy
+ *  \retval ERR_INVALID_ARG The data order is not supported.
+ */
+int32_t spi_m_sync_set_data_order(struct spi_m_sync_descriptor *spi, const enum spi_data_order dord);
+
+/** \brief Perform the SPI data transfer (TX and RX) in polling way
+ *
+ *  Activate CS, do TX and RX and deactivate CS. It blocks.
+ *
+ *  \param[in, out] spi Pointer to the HAL SPI instance.
+ *  \param[in] xfer Pointer to the transfer information (\ref spi_xfer).
+ *
+ *  \retval size Success.
+ *  \retval >=0 Timeout, with number of characters transferred.
+ *  \retval ERR_BUSY SPI is busy
+ */
+int32_t spi_m_sync_transfer(struct spi_m_sync_descriptor *spi, const struct spi_xfer *xfer);
+
+/**
+ * \brief Return the I/O descriptor for this SPI instance
+ *
+ * This function will return an I/O instance for this SPI driver instance.
+ *
+ * \param[in] spi An SPI master descriptor, which is used to communicate through
+ *                SPI
+ * \param[in, out] io A pointer to an I/O descriptor pointer type
+ *
+ * \retval ERR_NONE
+ */
+int32_t spi_m_sync_get_io_descriptor(struct spi_m_sync_descriptor *const spi, struct io_descriptor **io);
+
+/** \brief Retrieve the current driver version
+ *
+ *  \return Current driver version.
+ */
+uint32_t spi_m_sync_get_version(void);
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* ifndef _HAL_SPI_M_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hal_usart_sync.h b/watch-library/hardware/hal/include/hal_usart_sync.h
new file mode 100755
index 00000000..1ef22fc6
--- /dev/null
+++ b/watch-library/hardware/hal/include/hal_usart_sync.h
@@ -0,0 +1,247 @@
+/**
+ * \file
+ *
+ * \brief USART related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HAL_SYNC_USART_H_INCLUDED
+#define _HAL_SYNC_USART_H_INCLUDED
+
+#include "hal_io.h"
+#include <hpl_usart_sync.h>
+
+/**
+ * \addtogroup doc_driver_hal_usart_sync
+ *
+ * @{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Synchronous USART descriptor
+ */
+struct usart_sync_descriptor {
+	struct io_descriptor      io;
+	struct _usart_sync_device device;
+};
+
+/**
+ * \brief Initialize USART interface
+ *
+ * This function initializes the given I/O descriptor to be used
+ * as USART interface descriptor.
+ * It checks if the given hardware is not initialized and
+ * if the given hardware is permitted to be initialized.
+ *
+ * \param[out] descr A USART descriptor which is used to communicate via USART
+ * \param[in] hw The pointer to hardware instance
+ * \param[in] func The pointer to as set of functions pointers
+ *
+ * \return Initialization status.
+ */
+int32_t usart_sync_init(struct usart_sync_descriptor *const descr, void *const hw, void *const func);
+
+/**
+ * \brief Deinitialize USART interface
+ *
+ * This function deinitializes the given I/O descriptor.
+ * It checks if the given hardware is initialized and
+ * if the given hardware is permitted to be deinitialized.
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ *
+ * \return De-initialization status.
+ */
+int32_t usart_sync_deinit(struct usart_sync_descriptor *const descr);
+
+/**
+ * \brief Enable USART interface
+ *
+ * Enables the USART interface
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ *
+ * \return Enabling status.
+ */
+int32_t usart_sync_enable(struct usart_sync_descriptor *const descr);
+
+/**
+ * \brief Disable USART interface
+ *
+ * Disables the USART interface
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ *
+ * \return Disabling status.
+ */
+int32_t usart_sync_disable(struct usart_sync_descriptor *const descr);
+
+/**
+ * \brief Retrieve I/O descriptor
+ *
+ * This function retrieves the I/O descriptor of the given USART descriptor.
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[out] io An I/O descriptor to retrieve
+ *
+ * \return The status of the I/O descriptor retrieving.
+ */
+int32_t usart_sync_get_io_descriptor(struct usart_sync_descriptor *const descr, struct io_descriptor **io);
+
+/**
+ * \brief Specify action for flow control pins
+ *
+ * This function sets the action (or state) for the flow control pins
+ * if the flow control is enabled.
+ * It sets the state of flow control pins only if the automatic support of
+ * the flow control is not supported by the hardware.
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] state A state to set the flow control pins
+ *
+ * \return The status of flow control action setup.
+ */
+int32_t usart_sync_set_flow_control(struct usart_sync_descriptor *const  descr,
+                                    const union usart_flow_control_state state);
+
+/**
+ * \brief Set USART baud rate
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] baud_rate A baud rate to set
+ *
+ * \return The status of baud rate setting.
+ */
+int32_t usart_sync_set_baud_rate(struct usart_sync_descriptor *const descr, const uint32_t baud_rate);
+
+/**
+ * \brief Set USART data order
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] data_order A data order to set
+ *
+ * \return The status of data order setting.
+ */
+int32_t usart_sync_set_data_order(struct usart_sync_descriptor *const descr, const enum usart_data_order data_order);
+
+/**
+ * \brief Set USART mode
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] mode A mode to set
+ *
+ * \return The status of mode setting.
+ */
+int32_t usart_sync_set_mode(struct usart_sync_descriptor *const descr, const enum usart_mode mode);
+
+/**
+ * \brief Set USART parity
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] parity A parity to set
+ *
+ * \return The status of parity setting.
+ */
+int32_t usart_sync_set_parity(struct usart_sync_descriptor *const descr, const enum usart_parity parity);
+
+/**
+ * \brief Set USART stop bits
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] stop_bits Stop bits to set
+ *
+ * \return The status of stop bits setting.
+ */
+int32_t usart_sync_set_stopbits(struct usart_sync_descriptor *const descr, const enum usart_stop_bits stop_bits);
+
+/**
+ * \brief Set USART character size
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[in] size A character size to set
+ *
+ * \return The status of character size setting.
+ */
+int32_t usart_sync_set_character_size(struct usart_sync_descriptor *const descr, const enum usart_character_size size);
+
+/**
+ * \brief Retrieve the state of flow control pins
+ *
+ * This function retrieves the of flow control pins
+ * if the flow control is enabled.
+ * Function can return USART_FLOW_CONTROL_STATE_UNAVAILABLE in case
+ * if the flow control is done by the hardware
+ * and the pins state cannot be read out.
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ * \param[out] state The state of flow control pins
+ *
+ * \return The status of flow control state reading.
+ */
+int32_t usart_sync_flow_control_status(const struct usart_sync_descriptor *const descr,
+                                       union usart_flow_control_state *const     state);
+
+/**
+ * \brief Check if the USART transmitter is empty
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ *
+ * \return The status of USART TX empty checking.
+ * \retval 0 The USART transmitter is not empty
+ * \retval 1 The USART transmitter is empty
+ */
+int32_t usart_sync_is_tx_empty(const struct usart_sync_descriptor *const descr);
+
+/**
+ * \brief Check if the USART receiver is not empty
+ *
+ * \param[in] descr A USART descriptor which is used to communicate via USART
+ *
+ * \return The status of USART RX empty checking.
+ * \retval 1 The USART receiver is not empty
+ * \retval 0 The USART receiver is empty
+ */
+int32_t usart_sync_is_rx_not_empty(const struct usart_sync_descriptor *const descr);
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version.
+ */
+uint32_t usart_sync_get_version(void);
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HAL_SYNC_USART_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_calendar.h b/watch-library/hardware/hal/include/hpl_calendar.h
new file mode 100644
index 00000000..0dce40fd
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_calendar.h
@@ -0,0 +1,75 @@
+/**
+ * \file
+ *
+ * \brief Generic CALENDAR functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_CALENDER_H_INCLUDED
+#define _HPL_CALENDER_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Time struct for calendar
+ */
+struct calendar_time {
+	/*range from 0 to 59*/
+	uint8_t sec;
+	/*range from 0 to 59*/
+	uint8_t min;
+	/*range from 0 to 23*/
+	uint8_t hour;
+};
+
+/**
+ * \brief Time struct for calendar
+ */
+struct calendar_date {
+	/*range from 1 to 28/29/30/31*/
+	uint8_t day;
+	/*range from 1 to 12*/
+	uint8_t month;
+	/*absolute year>= 1970(such as 2000)*/
+	uint16_t year;
+};
+
+/** \brief Date&Time struct for calendar
+ */
+struct calendar_date_time {
+	struct calendar_time time;
+	struct calendar_date date;
+};
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HPL_RTC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_core.h b/watch-library/hardware/hal/include/hpl_core.h
new file mode 100644
index 00000000..9324c43e
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_core.h
@@ -0,0 +1,56 @@
+/**
+ * \file
+ *
+ * \brief CPU core related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_CORE_H_INCLUDED
+#define _HPL_CORE_H_INCLUDED
+
+/**
+ * \addtogroup HPL Core
+ *
+ * \section hpl_core_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include "hpl_core_port.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_CORE_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_delay.h b/watch-library/hardware/hal/include/hpl_delay.h
new file mode 100644
index 00000000..a0f1ac81
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_delay.h
@@ -0,0 +1,97 @@
+/**
+ * \file
+ *
+ * \brief Delay related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_DELAY_H_INCLUDED
+#define _HPL_DELAY_H_INCLUDED
+
+/**
+ * \addtogroup HPL Delay
+ *
+ * \section hpl_delay_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#ifndef _UNIT_TEST_
+#include <compiler.h>
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \name HPL functions
+ */
+//@{
+
+/**
+ * \brief Initialize delay functionality
+ *
+ * \param[in] hw The pointer to hardware instance
+ */
+void _delay_init(void *const hw);
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of us
+ *
+ * \param[in] us The amount of us to delay for
+ *
+ * \return The amount of cycles
+ */
+uint32_t _get_cycles_for_us(const uint16_t us);
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of ms
+ *
+ * \param[in] ms The amount of ms to delay for
+ *
+ * \return The amount of cycles
+ */
+uint32_t _get_cycles_for_ms(const uint16_t ms);
+
+/**
+ * \brief Delay loop to delay n number of cycles
+ *
+ * \param[in] hw The pointer to hardware instance
+ * \param[in] cycles The amount of cycles to delay for
+ */
+void _delay_cycles(void *const hw, uint32_t cycles);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_DELAY_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_dma.h b/watch-library/hardware/hal/include/hpl_dma.h
new file mode 100644
index 00000000..1e08434a
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_dma.h
@@ -0,0 +1,176 @@
+/**
+ * \file
+ *
+ * \brief DMA related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_DMA_H_INCLUDED
+#define _HPL_DMA_H_INCLUDED
+
+/**
+ * \addtogroup HPL DMA
+ *
+ * \section hpl_dma_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+#include <hpl_irq.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct _dma_resource;
+
+/**
+ * \brief DMA callback types
+ */
+enum _dma_callback_type { DMA_TRANSFER_COMPLETE_CB, DMA_TRANSFER_ERROR_CB };
+
+/**
+ * \brief DMA interrupt callbacks
+ */
+struct _dma_callbacks {
+	void (*transfer_done)(struct _dma_resource *resource);
+	void (*error)(struct _dma_resource *resource);
+};
+
+/**
+ * \brief DMA resource structure
+ */
+struct _dma_resource {
+	struct _dma_callbacks dma_cb;
+	void *                back;
+};
+
+/**
+ * \brief Initialize DMA
+ *
+ * This function does low level DMA configuration.
+ *
+ * \return initialize status
+ */
+int32_t _dma_init(void);
+
+/**
+ * \brief Set destination address
+ *
+ * \param[in] channel DMA channel to set destination address for
+ * \param[in] dst Destination address
+ *
+ * \return setting status
+ */
+int32_t _dma_set_destination_address(const uint8_t channel, const void *const dst);
+
+/**
+ * \brief Set source address
+ *
+ * \param[in] channel DMA channel to set source address for
+ * \param[in] src Source address
+ *
+ * \return setting status
+ */
+int32_t _dma_set_source_address(const uint8_t channel, const void *const src);
+
+/**
+ * \brief Set next descriptor address
+ *
+ * \param[in] current_channel Current DMA channel to set next descriptor address
+ * \param[in] next_channel Next DMA channel used as next descriptor
+ *
+ * \return setting status
+ */
+int32_t _dma_set_next_descriptor(const uint8_t current_channel, const uint8_t next_channel);
+
+/**
+ * \brief Enable/disable source address incrementation during DMA transaction
+ *
+ * \param[in] channel DMA channel to set source address for
+ * \param[in] enable True to enable, false to disable
+ *
+ * \return status of operation
+ */
+int32_t _dma_srcinc_enable(const uint8_t channel, const bool enable);
+
+/**
+ * \brief Enable/disable Destination address incrementation during DMA transaction
+ *
+ * \param[in] channel DMA channel to set destination address for
+ * \param[in] enable True to enable, false to disable
+ *
+ * \return status of operation
+ */
+int32_t _dma_dstinc_enable(const uint8_t channel, const bool enable);
+/**
+ * \brief Set the amount of data to be transfered per transaction
+ *
+ * \param[in] channel DMA channel to set data amount for
+ * \param[in] amount Data amount
+ *
+ * \return status of operation
+ */
+int32_t _dma_set_data_amount(const uint8_t channel, const uint32_t amount);
+
+/**
+ * \brief Trigger DMA transaction on the given channel
+ *
+ * \param[in] channel DMA channel to trigger transaction on
+ *
+ * \return status of operation
+ */
+int32_t _dma_enable_transaction(const uint8_t channel, const bool software_trigger);
+
+/**
+ * \brief Retrieves DMA resource structure
+ *
+ * \param[out] resource The resource to be retrieved
+ * \param[in] channel DMA channel to retrieve structure for
+ *
+ * \return status of operation
+ */
+int32_t _dma_get_channel_resource(struct _dma_resource **resource, const uint8_t channel);
+
+/**
+ * \brief Enable/disable DMA interrupt
+ *
+ * \param[in] channel DMA channel to enable/disable interrupt for
+ * \param[in] type The type of interrupt to disable/enable if applicable
+ * \param[in] state Enable or disable
+ */
+void _dma_set_irq_state(const uint8_t channel, const enum _dma_callback_type type, const bool state);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* HPL_DMA_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_ext_irq.h b/watch-library/hardware/hal/include/hpl_ext_irq.h
new file mode 100644
index 00000000..3a169b69
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_ext_irq.h
@@ -0,0 +1,95 @@
+/**
+ * \file
+ *
+ * \brief External IRQ related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_EXT_IRQ_H_INCLUDED
+#define _HPL_EXT_IRQ_H_INCLUDED
+
+/**
+ * \addtogroup HPL EXT IRQ
+ *
+ * \section hpl_ext_irq_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Initialize external interrupt module
+ *
+ * This function does low level external interrupt configuration.
+ *
+ * \param[in] cb The pointer to callback function from external interrupt
+ *
+ * \return Initialization status.
+ * \retval -1 External irq module is already initialized
+ * \retval 0 The initialization is completed successfully
+ */
+int32_t _ext_irq_init(void (*cb)(const uint32_t pin));
+
+/**
+ * \brief Deinitialize external interrupt module
+ *
+ * \return Initialization status.
+ * \retval -1 External irq module is already deinitialized
+ * \retval 0 The de-initialization is completed successfully
+ */
+int32_t _ext_irq_deinit(void);
+
+/**
+ * \brief Enable / disable external irq
+ *
+ * \param[in] pin Pin to enable external irq on
+ * \param[in] enable True to enable, false to disable
+ *
+ * \return Status of external irq enabling / disabling
+ * \retval -1 External irq module can't be enabled / disabled
+ * \retval 0 External irq module is enabled / disabled successfully
+ */
+int32_t _ext_irq_enable(const uint32_t pin, const bool enable);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_EXT_IRQ_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_flash.h b/watch-library/hardware/hal/include/hpl_flash.h
new file mode 100755
index 00000000..3a42c448
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_flash.h
@@ -0,0 +1,265 @@
+/**
+ * \file
+ *
+ * \brief FLASH related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_FLASH_H_INCLUDED
+#define _HPL_FLASH_H_INCLUDED
+
+/**
+ * \addtogroup hpl__flash__group FLASH HPL APIs
+ *
+ */
+
+/**@{*/
+
+#include <compiler.h>
+#include "hpl_irq.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief FLASH device structure
+ *
+ * The FLASH device structure forward declaration.
+ */
+struct _flash_device;
+
+/** The callback types */
+enum _flash_cb_type { FLASH_DEVICE_CB_READY, FLASH_DEVICE_CB_ERROR, FLASH_DEVICE_CB_N };
+
+/**
+ * \brief FLASH interrupt handlers structure
+ */
+struct _flash_callback {
+	/** Ready to accept new command handler */
+	void (*ready_cb)(struct _flash_device *device);
+	/** Error handler */
+	void (*error_cb)(struct _flash_device *device);
+};
+
+/**
+ * \brief FLASH descriptor device structure.
+ */
+struct _flash_device {
+	struct _flash_callback flash_cb; /*!< Interrupt handers  */
+	struct _irq_descriptor irq;      /*!< Interrupt descriptor */
+	void *                 hw;       /*!< Hardware module instance handler */
+};
+
+/**
+ * \brief Initialize FLASH.
+ *
+ * This function does low level FLASH configuration.
+ *
+ * \param[in] device The pointer to FLASH device instance
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Initialize status.
+ */
+int32_t _flash_init(struct _flash_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize FLASH.
+ *
+ * \param[in] device The pointer to FLASH device instance
+ */
+void _flash_deinit(struct _flash_device *const device);
+
+/**
+ * \brief Reads a number of bytes in the internal Flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in]  src_addr      Source bytes address to read from flash
+ * \param[out] buffer        Pointer to a buffer where the content
+ *                           of the read page will be stored
+ * \param[in]  length        Number of bytes to read
+ */
+void _flash_read(struct _flash_device *const device, const uint32_t src_addr, uint8_t *buffer, uint32_t length);
+
+/**
+ * \brief Writes a number of bytes in the internal Flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in]  dst_addr      Destination bytes address to write into flash
+ * \param[in]  buffer        Pointer to buffer where the data to
+ *                           write is stored
+ * \param[in]  length        Number of bytes to write
+ */
+void _flash_write(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length);
+
+/**
+ * \brief Appends a number of bytes in the internal Flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in]  dst_addr      Destination bytes address to write into flash
+ * \param[in]  buffer        Pointer to buffer with data to write to flash
+ * \param[in]  length        Number of bytes to write
+ */
+void _flash_append(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length);
+
+/** \brief Execute lock in the internal flash
+ *  \param[in] device         The pointer to FLASH device instance
+ *  \param[in]  dst_addr      Destination bytes address aligned with page
+ *                            start to be locked
+ *  \param[in]  page_nums     Number of pages to be locked
+ *
+ *  \return Real locked numbers of pages.
+ */
+int32_t _flash_lock(struct _flash_device *const device, const uint32_t dst_addr, uint32_t page_nums);
+
+/** \brief Execute unlock in the internal flash
+ *  \param[in] device         The pointer to FLASH device instance
+ *  \param[in]  dst_addr      Destination bytes address aligned with page
+ *                            start to be unlocked
+ *  \param[in]  page_nums     Number of pages to be unlocked
+ *
+ *  \return Real unlocked numbers of pages.
+ */
+int32_t _flash_unlock(struct _flash_device *const device, const uint32_t dst_addr, uint32_t page_nums);
+
+/** \brief check whether the region which is pointed by address
+ *         is locked
+ *  \param[in] device         The pointer to FLASH device instance
+ *  \param[in]  dst_addr      Destination bytes address to check
+ *
+ *  \return The lock status of assigned address.
+ */
+bool _flash_is_locked(struct _flash_device *const device, const uint32_t dst_addr);
+
+/** \brief Execute erase in the internal flash
+ *  \param[in] device         The pointer to FLASH device instance
+ *  \param[in]  dst_addr      Destination bytes address aligned with page
+ *                            start to be erased
+ *  \param[in]  page_nums     Number of pages to be erased
+ */
+void _flash_erase(struct _flash_device *const device, const uint32_t dst_addr, uint32_t page_nums);
+
+/**
+ * \brief Get the flash page size.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ *
+ * \return The flash page size
+ */
+uint32_t _flash_get_page_size(struct _flash_device *const device);
+
+/**
+ * \brief Get the numbers of flash page.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ *
+ * \return The flash total page numbers
+ */
+uint32_t _flash_get_total_pages(struct _flash_device *const device);
+
+/**
+ * \brief Get the number of wait states for read and write operations.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ *
+ * \return The number of wait states for read and write operations
+ */
+uint8_t _flash_get_wait_state(struct _flash_device *const device);
+
+/**
+ * \brief Set the number of wait states for read and write operations.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in] state The number of wait states
+ *
+ */
+void _flash_set_wait_state(struct _flash_device *const device, uint8_t state);
+
+/**
+ * \brief Enable/disable Flash interrupt
+ *
+ * param[in] device The pointer to Flash device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _flash_set_irq_state(struct _flash_device *const device, const enum _flash_cb_type type, const bool state);
+
+/*
+ * Below RWW flash APIs are only available for device which has RWWEE
+ * flash array, such as SAM C20/C21/D21/L21/L22/R30/DA1/HA1 etc.
+ */
+/**
+ * \brief Get the RWWEE flash page size.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ *
+ * \return The flash page size
+ */
+uint32_t _rww_flash_get_page_size(struct _flash_device *const device);
+
+/**
+ * \brief Get the total page numbers of RWWEE flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ *
+ * \return The flash total page numbers
+ */
+uint32_t _rww_flash_get_total_pages(struct _flash_device *const device);
+
+/**
+ * \brief Reads a number of bytes in the internal RWWEE Flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in]  src_addr      Source bytes address to read from flash
+ * \param[out] buffer        Pointer to a buffer where the content
+ *                           of the read page will be stored
+ * \param[in]  length        Number of bytes to read
+ *
+ * \return Read status, ERR_NONE for successful read.
+ */
+int32_t _rww_flash_read(struct _flash_device *const device, const uint32_t src_addr, uint8_t *buffer, uint32_t length);
+
+/**
+ * \brief Writes a number of bytes in the internal RWWEE Flash.
+ *
+ * \param[in] device         The pointer to FLASH device instance
+ * \param[in]  dst_addr      Destination bytes address to write into flash
+ * \param[in]  buffer        Pointer to buffer where the data to
+ *                           write is stored
+ * \param[in]  length        Number of bytes to write
+ *
+ * \return Write status, ERR_NONE for successful write.
+ */
+int32_t _rww_flash_write(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length);
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+
+#endif /* _HPL_FLASH_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_gpio.h b/watch-library/hardware/hal/include/hpl_gpio.h
new file mode 100644
index 00000000..5cdd387b
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_gpio.h
@@ -0,0 +1,185 @@
+/**
+ * \file
+ *
+ * \brief Port related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_GPIO_H_INCLUDED
+#define _HPL_GPIO_H_INCLUDED
+
+/**
+ * \addtogroup HPL Port
+ *
+ * \section hpl_port_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+/**
+ * \brief Macros for the pin and port group, lower 5
+ * bits stands for pin number in the group, higher 3
+ * bits stands for port group
+ */
+#define GPIO_PIN(n) (((n)&0x1Fu) << 0)
+#define GPIO_PORT(n) ((n) >> 5)
+#define GPIO(port, pin) ((((port)&0x7u) << 5) + ((pin)&0x1Fu))
+#define GPIO_PIN_FUNCTION_OFF 0xffffffff
+
+/**
+ * \brief PORT pull mode settings
+ */
+enum gpio_pull_mode { GPIO_PULL_OFF, GPIO_PULL_UP, GPIO_PULL_DOWN };
+
+/**
+ * \brief PORT direction settins
+ */
+enum gpio_direction { GPIO_DIRECTION_OFF, GPIO_DIRECTION_IN, GPIO_DIRECTION_OUT };
+
+/**
+ * \brief PORT group abstraction
+ */
+
+enum gpio_port { GPIO_PORTA, GPIO_PORTB, GPIO_PORTC, GPIO_PORTD, GPIO_PORTE };
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Port initialization function
+ *
+ * Port initialization function should setup the port module based
+ * on a static configuration file, this function should normally
+ * not be called directly, but is a part of hal_init()
+ */
+void _gpio_init(void);
+
+/**
+ * \brief Set direction on port with mask
+ *
+ * Set data direction for each pin, or disable the pin
+ *
+ * \param[in] port      Ports are grouped into groups of maximum 32 pins,
+ *                      GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask      Bit mask where 1 means apply direction setting to the
+ *                      corresponding pin
+ * \param[in] direction GPIO_DIRECTION_OFF  = set pin direction to input
+ *                      and disable input buffer to disable the pin
+ *                      GPIO_DIRECTION_IN   = set pin direction to input
+ *                      and enable input buffer to enable the pin
+ *                      GPIO_DIRECTION_OUT  = set pin direction to output
+ *                      and disable input buffer
+ */
+static inline void _gpio_set_direction(const enum gpio_port port, const uint32_t mask,
+                                       const enum gpio_direction direction);
+
+/**
+ * \brief Set output level on port with mask
+ *
+ * Sets output state on pin to high or low with pin masking
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask  Bit mask where 1 means apply direction setting to
+ *                  the corresponding pin
+ * \param[in] level true  = pin level is set to 1
+ *                  false = pin level is set to 0
+ */
+static inline void _gpio_set_level(const enum gpio_port port, const uint32_t mask, const bool level);
+
+/**
+ * \brief Change output level to the opposite with mask
+ *
+ * Change pin output level to the opposite with pin masking
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] mask  Bit mask where 1 means apply direction setting to
+ *                  the corresponding pin
+ */
+static inline void _gpio_toggle_level(const enum gpio_port port, const uint32_t mask);
+
+/**
+ * \brief Get input levels on all port pins
+ *
+ * Get input level on all port pins, will read IN register if configured to
+ * input and OUT register if configured as output
+ *
+ * \param[in] port  Ports are grouped into groups of maximum 32 pins,
+ *                  GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ */
+static inline uint32_t _gpio_get_level(const enum gpio_port port);
+
+/**
+ * \brief Set pin pull mode
+ *
+ * Set pull mode on a single pin
+ *
+ * \notice This function will automatically change pin direction to input
+ *
+ * \param[in] port      Ports are grouped into groups of maximum 32 pins,
+ *                      GPIO_PORTA = group 0, GPIO_PORTB = group 1, etc
+ * \param[in] pin       The pin in the group that pull mode should be selected
+ *                      for
+ * \param[in] pull_mode GPIO_PULL_OFF  = pull resistor on pin is disabled
+ *                      GPIO_PULL_DOWN = pull resistor on pin will pull pin
+ *                      level to ground level
+ *                      GPIO_PULL_UP   = pull resistor on pin will pull pin
+ *                      level to VCC
+ */
+static inline void _gpio_set_pin_pull_mode(const enum gpio_port port, const uint8_t pin,
+                                           const enum gpio_pull_mode pull_mode);
+
+/**
+ * \brief Set gpio function
+ *
+ * Select which function a gpio is used for
+ *
+ * \param[in] gpio     The gpio to set function for
+ * \param[in] function The gpio function is given by a 32-bit wide bitfield
+ *                     found in the header files for the device
+ *
+ */
+static inline void _gpio_set_pin_function(const uint32_t gpio, const uint32_t function);
+
+#include <hpl_gpio_base.h>
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_GPIO_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_i2c_m_async.h b/watch-library/hardware/hal/include/hpl_i2c_m_async.h
new file mode 100644
index 00000000..8a9491de
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_i2c_m_async.h
@@ -0,0 +1,205 @@
+/**
+ * \file
+ *
+ * \brief I2C Master Hardware Proxy Layer(HPL) declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_I2C_M_ASYNC_H_INCLUDED
+#define _HPL_I2C_M_ASYNC_H_INCLUDED
+
+#include "hpl_i2c_m_sync.h"
+#include "hpl_irq.h"
+#include "utils.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief i2c master callback names
+ */
+enum _i2c_m_async_callback_type {
+	I2C_M_ASYNC_DEVICE_ERROR,
+	I2C_M_ASYNC_DEVICE_TX_COMPLETE,
+	I2C_M_ASYNC_DEVICE_RX_COMPLETE
+};
+
+struct _i2c_m_async_device;
+
+typedef void (*_i2c_complete_cb_t)(struct _i2c_m_async_device *i2c_dev);
+typedef void (*_i2c_error_cb_t)(struct _i2c_m_async_device *i2c_dev, int32_t errcode);
+
+/**
+ * \brief i2c callback pointers structure
+ */
+struct _i2c_m_async_callback {
+	_i2c_error_cb_t    error;
+	_i2c_complete_cb_t tx_complete;
+	_i2c_complete_cb_t rx_complete;
+};
+
+/**
+ * \brief i2c device structure
+ */
+struct _i2c_m_async_device {
+	struct _i2c_m_service        service;
+	void *                       hw;
+	struct _i2c_m_async_callback cb;
+	struct _irq_descriptor       irq;
+};
+
+/**
+ * \name HPL functions
+ */
+
+/**
+ * \brief Initialize I2C in interrupt mode
+ *
+ * This function does low level I2C configuration.
+ *
+ * \param[in] i2c_dev The pointer to i2c interrupt device structure
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_init(struct _i2c_m_async_device *const i2c_dev, void *const hw);
+
+/**
+ * \brief Deinitialize I2C in interrupt mode
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_deinit(struct _i2c_m_async_device *const i2c_dev);
+
+/**
+ * \brief Enable I2C module
+ *
+ * This function does low level I2C enable.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_enable(struct _i2c_m_async_device *const i2c_dev);
+
+/**
+ * \brief Disable I2C module
+ *
+ * This function does low level I2C disable.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_disable(struct _i2c_m_async_device *const i2c_dev);
+
+/**
+ * \brief Transfer data by I2C
+ *
+ * This function does low level I2C data transfer.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] msg The pointer to i2c msg structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_transfer(struct _i2c_m_async_device *const i2c_dev, struct _i2c_m_msg *msg);
+
+/**
+ * \brief Set baud rate of I2C
+ *
+ * This function does low level I2C set baud rate.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] clkrate The clock rate(KHz) input to i2c module
+ * \param[in] baudrate The demand baud rate(KHz) of i2c module
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_set_baudrate(struct _i2c_m_async_device *const i2c_dev, uint32_t clkrate, uint32_t baudrate);
+
+/**
+ * \brief Register callback to I2C
+ *
+ * This function does low level I2C callback register.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] cb_type The callback type request
+ * \param[in] func The callback function pointer
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_async_register_callback(struct _i2c_m_async_device *i2c_dev, enum _i2c_m_async_callback_type cb_type,
+                                       FUNC_PTR func);
+
+/**
+ * \brief Generate stop condition on the I2C bus
+ *
+ * This function will generate a stop condition on the I2C bus
+ *
+ * \param[in] i2c_m_async_descriptor An i2c descriptor which is used to communicate through I2C
+ *
+ * \return Operation status
+ * \retval 0 Operation executed successfully
+ * \retval <0 Operation failed
+ */
+int32_t _i2c_m_async_send_stop(struct _i2c_m_async_device *const i2c_dev);
+
+/**
+ * \brief Returns the number of bytes left or not used in the I2C message buffer
+ *
+ * This function will return the number of bytes left (not written to the bus) or still free
+ * (not received from the bus) in the message buffer, depending on direction of transmission.
+ *
+ * \param[in] i2c_m_async_descriptor An i2c descriptor which is used to communicate through I2C
+ *
+ * \return Number of bytes or error code
+ * \retval >0 Positive number indicating bytes left
+ * \retval 0  Buffer is full/empty depending on direction
+ * \retval <0 Error code
+ */
+int32_t _i2c_m_async_get_bytes_left(struct _i2c_m_async_device *const i2c_dev);
+
+/**
+ * \brief Enable/disable I2C master interrupt
+ *
+ * param[in] device The pointer to I2C master device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _i2c_m_async_set_irq_state(struct _i2c_m_async_device *const device, const enum _i2c_m_async_callback_type type,
+                                const bool state);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hpl_i2c_m_sync.h b/watch-library/hardware/hal/include/hpl_i2c_m_sync.h
new file mode 100644
index 00000000..ce173ae2
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_i2c_m_sync.h
@@ -0,0 +1,185 @@
+/**
+ * \file
+ *
+ * \brief I2C Master Hardware Proxy Layer(HPL) declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_I2C_M_SYNC_H_INCLUDED
+#define _HPL_I2C_M_SYNC_H_INCLUDED
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief i2c flags
+ */
+#define I2C_M_RD 0x0001 /* read data, from slave to master */
+#define I2C_M_BUSY 0x0100
+#define I2C_M_TEN 0x0400   /* this is a ten bit chip address */
+#define I2C_M_SEVEN 0x0800 /* this is a seven bit chip address */
+#define I2C_M_FAIL 0x1000
+#define I2C_M_STOP 0x8000 /* if I2C_FUNC_PROTOCOL_MANGLING */
+
+/**
+ * \brief i2c Return codes
+ */
+#define I2C_OK 0                     /* Operation successful */
+#define I2C_ACK -1                   /* Received ACK from device on I2C bus */
+#define I2C_NACK -2                  /* Received NACK from device on I2C bus */
+#define I2C_ERR_ARBLOST -3           /* Arbitration lost */
+#define I2C_ERR_BAD_ADDRESS -4       /* Bad address */
+#define I2C_ERR_BUS -5               /* Bus error */
+#define I2C_ERR_BUSY -6              /* Device busy */
+#define I2c_ERR_PACKAGE_COLLISION -7 /* Package collision */
+
+/**
+ * \brief i2c I2C Modes
+ */
+#define I2C_STANDARD_MODE 0x00
+#define I2C_FASTMODE 0x01
+#define I2C_HIGHSPEED_MODE 0x02
+
+/**
+ * \brief i2c master message structure
+ */
+struct _i2c_m_msg {
+	uint16_t          addr;
+	volatile uint16_t flags;
+	int32_t           len;
+	uint8_t *         buffer;
+};
+
+/**
+ * \brief i2c master service
+ */
+struct _i2c_m_service {
+	struct _i2c_m_msg msg;
+	uint16_t          mode;
+	uint16_t          trise;
+};
+
+/**
+ * \brief i2c sync master device structure
+ */
+struct _i2c_m_sync_device {
+	struct _i2c_m_service service;
+	void *                hw;
+};
+
+/**
+ * \name HPL functions
+ */
+
+/**
+ * \brief Initialize I2C
+ *
+ * This function does low level I2C configuration.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_init(struct _i2c_m_sync_device *const i2c_dev, void *const hw);
+
+/**
+ * \brief Deinitialize I2C
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_deinit(struct _i2c_m_sync_device *const i2c_dev);
+
+/**
+ * \brief Enable I2C module
+ *
+ * This function does low level I2C enable.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_enable(struct _i2c_m_sync_device *const i2c_dev);
+
+/**
+ * \brief Disable I2C module
+ *
+ * This function does low level I2C disable.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_disable(struct _i2c_m_sync_device *const i2c_dev);
+
+/**
+ * \brief Transfer data by I2C
+ *
+ * This function does low level I2C data transfer.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] msg The pointer to i2c msg structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_transfer(struct _i2c_m_sync_device *const i2c_dev, struct _i2c_m_msg *msg);
+
+/**
+ * \brief Set baud rate of I2C
+ *
+ * This function does low level I2C set baud rate.
+ *
+ * \param[in] i2c_dev The pointer to i2c device structure
+ * \param[in] clkrate The clock rate(KHz) input to i2c module
+ * \param[in] baudrate The demand baud rate(KHz) of i2c module
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_set_baudrate(struct _i2c_m_sync_device *const i2c_dev, uint32_t clkrate, uint32_t baudrate);
+
+/**
+ * \brief Send send condition on the I2C bus
+ *
+ * This function will generate a stop condition on the I2C bus
+ *
+ * \param[in] i2c_dev The pointer to i2c device struct
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_m_sync_send_stop(struct _i2c_m_sync_device *const i2c_dev);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hpl_i2c_s_async.h b/watch-library/hardware/hal/include/hpl_i2c_s_async.h
new file mode 100644
index 00000000..92a5765d
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_i2c_s_async.h
@@ -0,0 +1,184 @@
+/**
+ * \file
+ *
+ * \brief I2C Slave Hardware Proxy Layer(HPL) declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_I2C_S_ASYNC_H_INCLUDED
+#define _HPL_I2C_S_ASYNC_H_INCLUDED
+
+#include "hpl_i2c_s_sync.h"
+#include "hpl_irq.h"
+#include "utils.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief i2c callback types
+ */
+enum _i2c_s_async_callback_type { I2C_S_DEVICE_ERROR, I2C_S_DEVICE_TX, I2C_S_DEVICE_RX_COMPLETE };
+
+/**
+ * \brief Forward declaration of I2C Slave device
+ */
+struct _i2c_s_async_device;
+
+/**
+ * \brief i2c slave callback function type
+ */
+typedef void (*_i2c_s_async_cb_t)(struct _i2c_s_async_device *device);
+
+/**
+ * \brief i2c slave callback pointers structure
+ */
+struct _i2c_s_async_callback {
+	void (*error)(struct _i2c_s_async_device *const device);
+	void (*tx)(struct _i2c_s_async_device *const device);
+	void (*rx_done)(struct _i2c_s_async_device *const device, const uint8_t data);
+};
+
+/**
+ * \brief i2c slave device structure
+ */
+struct _i2c_s_async_device {
+	void *                       hw;
+	struct _i2c_s_async_callback cb;
+	struct _irq_descriptor       irq;
+};
+
+/**
+ * \name HPL functions
+ */
+
+/**
+ * \brief Initialize asynchronous I2C slave
+ *
+ * This function does low level I2C configuration.
+ *
+ * \param[in] device The pointer to i2c interrupt device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_init(struct _i2c_s_async_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize asynchronous I2C in interrupt mode
+ *
+ * \param[in] device The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_deinit(struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Enable I2C module
+ *
+ * This function does low level I2C enable.
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_enable(struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Disable I2C module
+ *
+ * This function does low level I2C disable.
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_disable(struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Check if 10-bit addressing mode is on
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Cheking status
+ * \retval 1 10-bit addressing mode is on
+ * \retval 0 10-bit addressing mode is off
+ */
+int32_t _i2c_s_async_is_10bit_addressing_on(const struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Set I2C slave address
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ * \param[in] address Address to set
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_set_address(struct _i2c_s_async_device *const device, const uint16_t address);
+
+/**
+ * \brief Write a byte to the given I2C instance
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ * \param[in] data Data to write
+ */
+void _i2c_s_async_write_byte(struct _i2c_s_async_device *const device, const uint8_t data);
+
+/**
+ * \brief Retrieve I2C slave status
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ *\return I2C slave status
+ */
+i2c_s_status_t _i2c_s_async_get_status(const struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Abort data transmission
+ *
+ * \param[in] device The pointer to i2c device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_async_abort_transmission(const struct _i2c_s_async_device *const device);
+
+/**
+ * \brief Enable/disable I2C slave interrupt
+ *
+ * param[in] device The pointer to I2C slave device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] disable Enable or disable
+ */
+int32_t _i2c_s_async_set_irq_state(struct _i2c_s_async_device *const device, const enum _i2c_s_async_callback_type type,
+                                   const bool disable);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HPL_I2C_S_ASYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_i2c_s_sync.h b/watch-library/hardware/hal/include/hpl_i2c_s_sync.h
new file mode 100644
index 00000000..93b59345
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_i2c_s_sync.h
@@ -0,0 +1,184 @@
+/**
+ * \file
+ *
+ * \brief I2C Slave Hardware Proxy Layer(HPL) declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#ifndef _HPL_I2C_S_SYNC_H_INCLUDED
+#define _HPL_I2C_S_SYNC_H_INCLUDED
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief I2C Slave status type
+ */
+typedef uint32_t i2c_s_status_t;
+
+/**
+ * \brief i2c slave device structure
+ */
+struct _i2c_s_sync_device {
+	void *hw;
+};
+
+#include <compiler.h>
+
+/**
+ * \name HPL functions
+ */
+
+/**
+ * \brief Initialize synchronous I2C slave
+ *
+ * This function does low level I2C configuration.
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_init(struct _i2c_s_sync_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize synchronous I2C slave
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_deinit(struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Enable I2C module
+ *
+ * This function does low level I2C enable.
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_enable(struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Disable I2C module
+ *
+ * This function does low level I2C disable.
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_disable(struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Check if 10-bit addressing mode is on
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Cheking status
+ * \retval 1 10-bit addressing mode is on
+ * \retval 0 10-bit addressing mode is off
+ */
+int32_t _i2c_s_sync_is_10bit_addressing_on(const struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Set I2C slave address
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ * \param[in] address Address to set
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_set_address(struct _i2c_s_sync_device *const device, const uint16_t address);
+
+/**
+ * \brief Write a byte to the given I2C instance
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ * \param[in] data Data to write
+ */
+void _i2c_s_sync_write_byte(struct _i2c_s_sync_device *const device, const uint8_t data);
+
+/**
+ * \brief Retrieve I2C slave status
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ *\return I2C slave status
+ */
+i2c_s_status_t _i2c_s_sync_get_status(const struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Clear the Data Ready interrupt flag
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Return 0 for success and negative value for error
+ */
+int32_t _i2c_s_sync_clear_data_ready_flag(const struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Read a byte from the given I2C instance
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Data received via I2C interface.
+ */
+uint8_t _i2c_s_sync_read_byte(const struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Check if I2C is ready to send next byte
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Status of the ready check.
+ * \retval true if the I2C is ready to send next byte
+ * \retval false if the I2C is not ready to send next byte
+ */
+bool _i2c_s_sync_is_byte_sent(const struct _i2c_s_sync_device *const device);
+
+/**
+ * \brief Check if there is data received by I2C
+ *
+ * \param[in] device The pointer to i2c slave device structure
+ *
+ * \return Status of the data received check.
+ * \retval true if the I2C has received a byte
+ * \retval false if the I2C has not received a byte
+ */
+bool _i2c_s_sync_is_byte_received(const struct _i2c_s_sync_device *const device);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HPL_I2C_S_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_init.h b/watch-library/hardware/hal/include/hpl_init.h
new file mode 100644
index 00000000..71bf49c9
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_init.h
@@ -0,0 +1,124 @@
+/**
+ * \file
+ *
+ * \brief Init related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_INIT_H_INCLUDED
+#define _HPL_INIT_H_INCLUDED
+
+/**
+ * \addtogroup HPL Init
+ *
+ * \section hpl_init_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Initializes clock sources
+ */
+void _sysctrl_init_sources(void);
+
+/**
+ * \brief Initializes Power Manager
+ */
+void _pm_init(void);
+
+/**
+ * \brief Initialize generators
+ */
+void _gclk_init_generators(void);
+
+/**
+ * \brief Initialize 32 kHz clock sources
+ */
+void _osc32kctrl_init_sources(void);
+
+/**
+ * \brief Initialize clock sources
+ */
+void _oscctrl_init_sources(void);
+
+/**
+ * \brief Initialize clock sources that need input reference clocks
+ */
+void _sysctrl_init_referenced_generators(void);
+
+/**
+ * \brief Initialize clock sources that need input reference clocks
+ */
+void _oscctrl_init_referenced_generators(void);
+
+/**
+ * \brief Initialize master clock generator
+ */
+void _mclk_init(void);
+
+/**
+ * \brief Initialize clock generator
+ */
+void _lpmcu_misc_regs_init(void);
+
+/**
+ * \brief Initialize clock generator
+ */
+void _pmc_init(void);
+
+/**
+ * \brief Set performance level
+ *
+ * \param[in] level The performance level to set
+ */
+void _set_performance_level(const uint8_t level);
+
+/**
+ * \brief Initialize the chip
+ */
+void _init_chip(void);
+
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_INIT_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_irq.h b/watch-library/hardware/hal/include/hpl_irq.h
new file mode 100644
index 00000000..2894944a
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_irq.h
@@ -0,0 +1,116 @@
+/**
+ * \file
+ *
+ * \brief IRQ related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_IRQ_H_INCLUDED
+#define _HPL_IRQ_H_INCLUDED
+
+/**
+ * \addtogroup HPL IRQ
+ *
+ * \section hpl_irq_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief IRQ descriptor
+ */
+struct _irq_descriptor {
+	void (*handler)(void *parameter);
+	void *parameter;
+};
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Retrieve current IRQ number
+ *
+ * \return The current IRQ number
+ */
+uint8_t _irq_get_current(void);
+
+/**
+ * \brief Disable the given IRQ
+ *
+ * \param[in] n The number of IRQ to disable
+ */
+void _irq_disable(uint8_t n);
+
+/**
+ * \brief Set the given IRQ
+ *
+ * \param[in] n The number of IRQ to set
+ */
+void _irq_set(uint8_t n);
+
+/**
+ * \brief Clear the given IRQ
+ *
+ * \param[in] n The number of IRQ to clear
+ */
+void _irq_clear(uint8_t n);
+
+/**
+ * \brief Enable the given IRQ
+ *
+ * \param[in] n The number of IRQ to enable
+ */
+void _irq_enable(uint8_t n);
+
+/**
+ * \brief Register IRQ handler
+ *
+ * \param[in] number The number registered IRQ
+ * \param[in] irq The pointer to irq handler to register
+ *
+ * \return The status of IRQ handler registering
+ * \retval -1 Passed parameters were invalid
+ * \retval 0 The registering is completed successfully
+ */
+void _irq_register(const uint8_t number, struct _irq_descriptor *const irq);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_IRQ_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_missing_features.h b/watch-library/hardware/hal/include/hpl_missing_features.h
new file mode 100644
index 00000000..7071db29
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_missing_features.h
@@ -0,0 +1,37 @@
+/**
+ * \file
+ *
+ * \brief Family-dependent missing features expected by HAL
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_MISSING_FEATURES
+#define _HPL_MISSING_FEATURES
+
+#endif /* _HPL_MISSING_FEATURES */
diff --git a/watch-library/hardware/hal/include/hpl_rand_sync.h b/watch-library/hardware/hal/include/hpl_rand_sync.h
new file mode 100755
index 00000000..5fdf1340
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_rand_sync.h
@@ -0,0 +1,99 @@
+/**
+ * \file
+ *
+ * \brief Random Number Generator (RAND) related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_RAND_SYNC_H_INCLUDED
+#define _HPL_RAND_SYNC_H_INCLUDED
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Random Number Generator polling device. */
+struct _rand_sync_dev {
+	/** Pointer to private data or hardware base */
+	void *prvt;
+	/** Number of bits generated for each read operation */
+	uint8_t n_bits;
+};
+
+/**
+ *  \brief Initialize the Random Number Generator Driver
+ *  \param[out] dev Pointer to the device instance struct
+ *  \param[in, out] hw Pointer to the hardware for device instance
+ *  \return Initialization operation result status, 0 for OK.
+ */
+int32_t _rand_sync_init(struct _rand_sync_dev *const dev, void *const hw);
+
+/**
+ *  \brief Deinitialize the Random Number Generator Driver
+ *  \param[in, out] dev Pointer to the device instance struct
+ */
+void _rand_sync_deinit(struct _rand_sync_dev *const dev);
+
+/**
+ *  \brief Enable the Random Number Generator Driver
+ *  \param[out] dev Pointer to the device instance struct
+ *  \return Enable operation result status, 0 for OK.
+ */
+int32_t _rand_sync_enable(struct _rand_sync_dev *const dev);
+
+/**
+ *  \brief Disable the Random Number Generator Driver
+ *  \param[out] dev Pointer to the device instance struct
+ */
+void _rand_sync_disable(struct _rand_sync_dev *const dev);
+
+/**
+ *  \brief Set seed for the Random Number Generator Driver
+ *  \param[out] dev Pointer to the device instance struct
+ *  \param[in] seed The seed to set
+ *  \return Operation result
+ *  \retval ERR_NONE Operation complete success
+ *  \retval ERR_UNSUPPORTED_OP Seed not supported
+ */
+int32_t _rand_sync_set_seed(struct _rand_sync_dev *const dev, const uint32_t seed);
+
+/**
+ *  \brief Polling random number until it's read back
+ *  \param[in] dev Pointer to the device instance struct
+ *  \return The random number value
+ */
+uint32_t _rand_sync_read_one(const struct _rand_sync_dev *const dev);
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_RAND_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_reset.h b/watch-library/hardware/hal/include/hpl_reset.h
new file mode 100644
index 00000000..75738b6f
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_reset.h
@@ -0,0 +1,92 @@
+/**
+ * \file
+ *
+ * \brief Reset related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_RESET_H_INCLUDED
+#define _HPL_RESET_H_INCLUDED
+
+/**
+ * \addtogroup HPL Reset
+ *
+ * \section hpl_reset_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#ifndef _UNIT_TEST_
+#include <compiler.h>
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Reset reason enumeration
+ *
+ * The list of possible reset reasons.
+ */
+enum reset_reason {
+	RESET_REASON_POR    = 1,
+	RESET_REASON_BOD12  = 2,
+	RESET_REASON_BOD33  = 4,
+	RESET_REASON_EXT    = 16,
+	RESET_REASON_WDT    = 32,
+	RESET_REASON_SYST   = 64,
+	RESET_REASON_BACKUP = 128
+};
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Retrieve the reset reason
+ *
+ * Retrieves the reset reason of the last MCU reset.
+ *
+ *\return An enum value indicating the reason of the last reset.
+ */
+enum reset_reason _get_reset_reason(void);
+
+/**
+ * \brief Reset MCU
+ */
+void _reset_mcu(void);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_RESET_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_slcd.h b/watch-library/hardware/hal/include/hpl_slcd.h
new file mode 100644
index 00000000..f3ccbbcd
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_slcd.h
@@ -0,0 +1,49 @@
+/**
+ * \file
+ *
+ * \brief SLCD common declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef HPL_SLCD_H_INCLUDED
+#define HPL_SLCD_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define SLCD_SEGID(com, seg) (((com) << 16) | (seg))
+#define SLCD_COMNUM(segid) (((segid) >> 16) & 0xFF)
+#define SLCD_SEGNUM(segid) ((segid)&0xFF)
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* HPL_SLCD_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_slcd_sync.h b/watch-library/hardware/hal/include/hpl_slcd_sync.h
new file mode 100644
index 00000000..2f5a05d7
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_slcd_sync.h
@@ -0,0 +1,154 @@
+/**
+ * \file
+ *
+ * \brief SLCD Segment Liquid Crystal Display Controller(Sync) functionality
+ *        declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef HPL_SLCD_SYNC_H_INCLUDED
+#define HPL_SLCD_SYNC_H_INCLUDED
+
+#include <hpl_slcd.h>
+#include <utils_assert.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief SLCD sync device structure
+ *
+ * The SLCD device structure forward declaration.
+ */
+struct _slcd_sync_device;
+
+struct _slcd_sync_device {
+	void *hw; /*!< Hardware module instance handler */
+};
+
+/**
+ * \brief              Initialize SLCD Device Descriptor
+ *
+ * \param[in] desc     SLCD descriptor to be initialized
+ * \param[in] hw       The pointer to hardware instance
+ */
+int32_t _slcd_sync_init(struct _slcd_sync_device *const dev, void *const hw);
+
+/**
+ * \brief              Deinitialize SLCD Device Descriptor
+ *
+ * \param[in] desc     SLCD device descriptor to be deinitialized
+ */
+int32_t _slcd_sync_deinit(struct _slcd_sync_device *const dev);
+
+/**
+ * \brief              Enable SLCD driver
+ *
+ * \param[in] dev      SLCD device descriptor to be enabled
+ */
+int32_t _slcd_sync_enable(struct _slcd_sync_device *const dev);
+
+/**
+ * \brief              Disable SLCD driver
+ *
+ * \param[in] dev      SLCD Device descriptor to be disabled
+ */
+int32_t _slcd_sync_disable(struct _slcd_sync_device *const dev);
+
+/**
+ * \brief               Turn on a Segment
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] seg       Segment id
+ *                      value is (common terminals << 16 | segment terminal)
+ */
+int32_t _slcd_sync_seg_on(struct _slcd_sync_device *const dev, uint32_t seg);
+
+/**
+ * \brief               Turn off a Segment
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] seg       Segment id
+ *                      value is (common terminals << 16 | segment terminal)
+ */
+int32_t _slcd_sync_seg_off(struct _slcd_sync_device *const dev, uint32_t seg);
+
+/**
+ * \brief               Blink a Segment
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] seg       Segment index
+ *                      value is (common terminals << 16 | segment terminal)
+ * \param[in] period  Blink period, unit is million second
+ */
+int32_t _slcd_sync_seg_blink(struct _slcd_sync_device *const dev, uint32_t seg, const uint32_t period);
+
+/**
+ * \brief              Displays a character
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] character Character to be displayed
+ * \param[in] index     Index of Character Mapping Group
+ */
+int32_t _slcd_sync_write_char(struct _slcd_sync_device *const dev, const uint8_t character, uint32_t index);
+
+/**
+ * \brief               Start animation play by a segment array
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] segs      Segment array
+ * \param[in] len       Length of the segment array
+ * \param[in] period    Period(milliseconds) of the each segment to animation
+ */
+int32_t _slcd_sync_start_animation(struct _slcd_sync_device *const dev, const uint32_t segs[], uint32_t len,
+                                   const uint32_t period);
+
+/**
+ * \brief               Stop animation play by a segment array
+ *
+ * \param[in] dev       SLCD device descriptor
+ * \param[in] segs      Segment array
+ * \param[in] len       Length of the segment array
+ */
+int32_t _slcd_sync_stop_animation(struct _slcd_sync_device *const dev, const uint32_t segs[], uint32_t len);
+
+/**
+ * \brief               Set animation Frequency
+ *
+ * \param[in] dev       SLCD Device descriptor
+ * \param[in] period    Period(million second) of the each segment to animation
+ */
+int32_t _slcd_sync_set_animation_period(struct _slcd_sync_device *const dev, const uint32_t period);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
diff --git a/watch-library/hardware/hal/include/hpl_sleep.h b/watch-library/hardware/hal/include/hpl_sleep.h
new file mode 100644
index 00000000..6731ec30
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_sleep.h
@@ -0,0 +1,88 @@
+/**
+ * \file
+ *
+ * \brief Sleep related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SLEEP_H_INCLUDED
+#define _HPL_SLEEP_H_INCLUDED
+
+/**
+ * \addtogroup HPL Sleep
+ *
+ * \section hpl_sleep_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#ifndef _UNIT_TEST_
+#include <compiler.h>
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Set the sleep mode for the device
+ *
+ * This function sets the sleep mode for the device.
+ * For an overview of which systems are disabled in sleep for the different
+ * sleep modes see datasheet.
+ *
+ * \param[in] mode Sleep mode to use
+ *
+ * \return the status of a sleep request
+ * \retval -1 The requested sleep mode was invalid
+ * \retval  0 The operation completed successfully, sleep mode is set
+ */
+int32_t _set_sleep_mode(const uint8_t mode);
+
+/**
+ * \brief Reset MCU
+ */
+void _reset_mcu(void);
+
+/**
+ * \brief Put MCU to sleep
+ */
+void _go_to_sleep(void);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_SLEEP_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi.h b/watch-library/hardware/hal/include/hpl_spi.h
new file mode 100644
index 00000000..a5652e50
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi.h
@@ -0,0 +1,163 @@
+/**
+ * \file
+ *
+ * \brief SPI related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_H_INCLUDED
+#define _HPL_SPI_H_INCLUDED
+
+#include <compiler.h>
+#include <utils.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief SPI Dummy char is used when reading data from the SPI slave
+ */
+#define SPI_DUMMY_CHAR 0x1ff
+
+/**
+ *  \brief SPI message to let driver to process
+ */
+//@{
+struct spi_msg {
+	/** Pointer to the output data buffer */
+	uint8_t *txbuf;
+	/** Pointer to the input data buffer */
+	uint8_t *rxbuf;
+	/** Size of the message data in SPI characters */
+	uint32_t size;
+};
+//@}
+
+/**
+ *  \brief SPI transfer modes
+ *  SPI transfer mode controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ */
+enum spi_transfer_mode {
+	/** Leading edge is rising edge, data sample on leading edge. */
+	SPI_MODE_0,
+	/** Leading edge is rising edge, data sample on trailing edge. */
+	SPI_MODE_1,
+	/** Leading edge is falling edge, data sample on leading edge. */
+	SPI_MODE_2,
+	/** Leading edge is falling edge, data sample on trailing edge. */
+	SPI_MODE_3
+};
+
+/**
+ *  \brief SPI character sizes
+ *  The character size influence the way the data is sent/received.
+ *  For char size <= 8 data is stored byte by byte.
+ *  For char size between 9 ~ 16 data is stored in 2-byte length.
+ *  Note that the default and recommended char size is 8 bit since it's
+ *  supported by all system.
+ */
+enum spi_char_size {
+	/** Character size is 8 bit. */
+	SPI_CHAR_SIZE_8 = 0,
+	/** Character size is 9 bit. */
+	SPI_CHAR_SIZE_9 = 1,
+	/** Character size is 10 bit. */
+	SPI_CHAR_SIZE_10 = 2,
+	/** Character size is 11 bit. */
+	SPI_CHAR_SIZE_11 = 3,
+	/** Character size is 12 bit. */
+	SPI_CHAR_SIZE_12 = 4,
+	/** Character size is 13 bit. */
+	SPI_CHAR_SIZE_13 = 5,
+	/** Character size is 14 bit. */
+	SPI_CHAR_SIZE_14 = 6,
+	/** Character size is 15 bit. */
+	SPI_CHAR_SIZE_15 = 7,
+	/** Character size is 16 bit. */
+	SPI_CHAR_SIZE_16 = 8
+};
+
+/**
+ *  \brief SPI data order
+ */
+enum spi_data_order {
+	/** MSB goes first. */
+	SPI_DATA_ORDER_MSB_1ST = 0,
+	/** LSB goes first. */
+	SPI_DATA_ORDER_LSB_1ST = 1
+};
+
+/** \brief Transfer descriptor for SPI
+ *  Transfer descriptor holds TX and RX buffers
+ */
+struct spi_xfer {
+	/** Pointer to data buffer to TX */
+	uint8_t *txbuf;
+	/** Pointer to data buffer to RX */
+	uint8_t *rxbuf;
+	/** Size of data characters to TX & RX */
+	uint32_t size;
+};
+
+/** SPI generic driver. */
+struct spi_dev {
+	/** Pointer to the hardware base or private data for special device. */
+	void *prvt;
+	/** Reference start of sync/async variables */
+	uint32_t sync_async_misc[1];
+};
+
+/**
+ *  \brief Calculate the baudrate value for hardware to use to set baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] clk Clock frequency (Hz) for baudrate generation.
+ *  \param[in] baud Target baudrate (bps).
+ *  \return Error or baudrate value.
+ *  \retval >0 Baudrate value.
+ *  \retval ERR_INVALID_ARG Calculation fail.
+ */
+int32_t _spi_calc_baud_val(struct spi_dev *dev, const uint32_t clk, const uint32_t baud);
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_async.h b/watch-library/hardware/hal/include/hpl_spi_async.h
new file mode 100644
index 00000000..8e5a8485
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_async.h
@@ -0,0 +1,131 @@
+/**
+ * \file
+ *
+ * \brief Common SPI related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_ASYNC_H_INCLUDED
+#define _HPL_SPI_ASYNC_H_INCLUDED
+
+#include <hpl_spi.h>
+#include <hpl_irq.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ *  \brief Callbacks the SPI driver must offer in async mode
+ */
+//@{
+/** The callback types */
+enum _spi_async_dev_cb_type {
+	/** Callback type for transmit, see \ref _spi_async_dev_cb_xfer_t. */
+	SPI_DEV_CB_TX,
+	/** Callback type for receive, see \ref _spi_async_dev_cb_xfer_t. */
+	SPI_DEV_CB_RX,
+	/** Callback type for \ref _spi_async_dev_cb_complete_t. */
+	SPI_DEV_CB_COMPLETE,
+	/** Callback type for error */
+	SPI_DEV_CB_ERROR,
+	/** Number of callbacks. */
+	SPI_DEV_CB_N
+};
+
+struct _spi_async_dev;
+
+/** \brief The prototype for callback on SPI transfer error.
+ *  If status code is zero, it indicates the normal completion, that is,
+ *  SS deactivation.
+ *  If status code belows zero, it indicates complete.
+ */
+typedef void (*_spi_async_dev_cb_error_t)(struct _spi_async_dev *dev, int32_t status);
+
+/** \brief The prototype for callback on SPI transmit/receive event
+ *  For TX, the callback is invoked when transmit is done or ready to start
+ *  transmit.
+ *  For RX, the callback is invoked when receive is done or ready to read data,
+ *  see \ref _spi_async_dev_read_one_t on data reading.
+ *  Without DMA enabled, the callback is invoked on each character event.
+ *  With DMA enabled, the callback is invoked on DMA buffer done.
+ */
+typedef void (*_spi_async_dev_cb_xfer_t)(struct _spi_async_dev *dev);
+
+/**
+ *  \brief The callbacks offered by SPI driver
+ */
+struct _spi_async_dev_callbacks {
+	/** TX callback, see \ref _spi_async_dev_cb_xfer_t. */
+	_spi_async_dev_cb_xfer_t tx;
+	/** RX callback, see \ref _spi_async_dev_cb_xfer_t. */
+	_spi_async_dev_cb_xfer_t rx;
+	/** Complete or complete callback, see \ref _spi_async_dev_cb_complete_t. */
+	_spi_async_dev_cb_xfer_t complete;
+	/** Error callback, see \ref */
+	_spi_async_dev_cb_error_t err;
+};
+//@}
+
+/**
+ *  \brief SPI async driver
+ */
+//@{
+
+/** SPI driver to support async HAL */
+struct _spi_async_dev {
+	/** Pointer to the hardware base or private data for special device. */
+	void *prvt;
+	/** Data size, number of bytes for each character */
+	uint8_t char_size;
+	/** Dummy byte used in master mode when reading the slave */
+	uint16_t dummy_byte;
+
+	/** \brief Pointer to callback functions, ignored for polling mode
+	 *  Pointer to the callback functions so that initialize the driver to
+	 *  handle interrupts.
+	 */
+	struct _spi_async_dev_callbacks callbacks;
+	/** IRQ instance for SPI device. */
+	struct _irq_descriptor irq;
+};
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_ASYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_dma.h b/watch-library/hardware/hal/include/hpl_spi_dma.h
new file mode 100755
index 00000000..04a30158
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_dma.h
@@ -0,0 +1,88 @@
+/**
+ * \file
+ *
+ * \brief Common SPI DMA related functionality declaration.
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_DMA_H_INCLUDED
+#define _HPL_SPI_DMA_H_INCLUDED
+
+#include <hpl_irq.h>
+#include <hpl_dma.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** The callback types */
+enum _spi_dma_dev_cb_type {
+	/** Callback type for DMA transmit. */
+	SPI_DEV_CB_DMA_TX,
+	/** Callback type for DMA receive. */
+	SPI_DEV_CB_DMA_RX,
+	/** Callback type for DMA error. */
+	SPI_DEV_CB_DMA_ERROR,
+	/** Number of callbacks. */
+	SPI_DEV_CB_DMA_N
+};
+
+struct _spi_dma_dev;
+
+/**
+ *  \brief The prototype for callback on SPI DMA.
+ */
+typedef void (*_spi_dma_cb_t)(struct _dma_resource *resource);
+
+/**
+ *  \brief The callbacks offered by SPI driver
+ */
+struct _spi_dma_dev_callbacks {
+	_spi_dma_cb_t tx;
+	_spi_dma_cb_t rx;
+	_spi_dma_cb_t error;
+};
+
+/** SPI driver to support DMA HAL */
+struct _spi_dma_dev {
+	/** Pointer to the hardware base or private data for special device. */
+	void *prvt;
+	/** Pointer to callback functions */
+	struct _spi_dma_dev_callbacks callbacks;
+	/** IRQ instance for SPI device. */
+	struct _irq_descriptor irq;
+	/** DMA resource */
+	struct _dma_resource *resource;
+};
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* ifndef _HPL_SPI_DMA_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_m_async.h b/watch-library/hardware/hal/include/hpl_spi_m_async.h
new file mode 100644
index 00000000..8d3555ed
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_m_async.h
@@ -0,0 +1,243 @@
+/**
+ * \file
+ *
+ * \brief SPI Slave Async related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_M_ASYNC_H_INCLUDED
+#define _HPL_SPI_M_ASYNC_H_INCLUDED
+
+#include <hpl_spi.h>
+#include <hpl_spi_async.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Uses common SPI async device driver. */
+#define _spi_m_async_dev _spi_async_dev
+
+#define _spi_m_async_dev_cb_type _spi_async_dev_cb_type
+
+/** Uses common SPI async device driver complete callback type. */
+#define _spi_m_async_dev_cb_error_t _spi_async_dev_cb_error_t
+
+/** Uses common SPI async device driver transfer callback type. */
+#define _spi_m_async_dev_cb_xfer_t _spi_async_dev_cb_xfer_t
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  It will load default hardware configuration and software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval ERR_DENIED SPI has been enabled.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_init(struct _spi_m_async_dev *dev, void *const hw);
+
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  Disable, reset the hardware and the software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_deinit(struct _spi_m_async_dev *dev);
+
+/**
+ *  \brief Enable SPI for access with interrupts
+ *  Enable the SPI and enable callback generation of receive and error
+ *  interrupts.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_enable(struct _spi_m_async_dev *dev);
+
+/**
+ *  \brief Disable SPI for access without interrupts
+ *  Disable SPI and interrupts. Deactivate all CS pins if works as master.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_disable(struct _spi_m_async_dev *dev);
+
+/**
+ *  \brief Set SPI transfer mode
+ *  Set SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] mode The SPI transfer mode.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_set_mode(struct _spi_m_async_dev *dev, const enum spi_transfer_mode mode);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] baud_val The SPI baudrate value, see \ref _spi_calc_baud_val() on
+ *                  how it's generated.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_set_baudrate(struct _spi_m_async_dev *dev, const uint32_t baud_val);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] char_size The character size, see \ref spi_char_size.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_set_char_size(struct _spi_m_async_dev *dev, const enum spi_char_size char_size);
+
+/**
+ *  \brief Set SPI data order
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] dord SPI data order (LSB/MSB first).
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_async_set_data_order(struct _spi_m_async_dev *dev, const enum spi_data_order dord);
+
+/**
+ * \brief Enable interrupt on character output
+ *
+ * Enable interrupt when a new character can be written
+ * to the SPI device.
+ *
+ * \param[in] dev   Pointer to the SPI device instance
+ * \param[in] state true  = enable output interrupt
+ *                  false = disable output interrupt
+ *
+ * \return Status code
+ * \retval 0 Ok status
+ */
+int32_t _spi_m_async_enable_tx(struct _spi_m_async_dev *dev, bool state);
+
+/**
+ * \brief Enable interrupt on character input
+ *
+ * Enable interrupt when a new character is ready to be
+ * read from the SPI device.
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ * \param[in] state true  = enable input interrupts
+ *                  false = disable input interrupt
+ *
+ * \return Status code
+ * \retvat 0 OK Status
+ */
+int32_t _spi_m_async_enable_rx(struct _spi_m_async_dev *dev, bool state);
+
+/**
+ * \brief Enable interrupt on after data transmission complate
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ * \param[in] state true  = enable input interrupts
+ *                  false = disable input interrupt
+ *
+ * \return Status code
+ * \retvat 0 OK Status
+ */
+int32_t _spi_m_async_enable_tx_complete(struct _spi_m_async_dev *dev, bool state);
+
+/**
+ *  \brief Read one character to SPI device instance
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *
+ *  \return Character read from SPI module
+ */
+uint16_t _spi_m_async_read_one(struct _spi_m_async_dev *dev);
+
+/**
+ *  \brief Write one character to assigned buffer
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] data
+ *
+ *  \return Status code of write operation
+ *  \retval 0 Write operation OK
+ */
+int32_t _spi_m_async_write_one(struct _spi_m_async_dev *dev, uint16_t data);
+
+/**
+ *  \brief Register the SPI device callback
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] cb_type The callback type.
+ *  \param[in] func The callback function to register. NULL to disable callback.
+ *  \return Always 0.
+ */
+int32_t _spi_m_async_register_callback(struct _spi_m_async_dev *dev, const enum _spi_m_async_dev_cb_type cb_type,
+                                       const FUNC_PTR func);
+
+/**
+ * \brief Enable/disable SPI master interrupt
+ *
+ * param[in] device The pointer to SPI master device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _spi_m_async_set_irq_state(struct _spi_m_async_dev *const device, const enum _spi_m_async_dev_cb_type type,
+                                const bool state);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_M_ASYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_m_dma.h b/watch-library/hardware/hal/include/hpl_spi_m_dma.h
new file mode 100644
index 00000000..2b48300e
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_m_dma.h
@@ -0,0 +1,182 @@
+/**
+ * \file
+ *
+ * \brief SPI Master DMA related functionality declaration.
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_M_DMA_H_INCLUDED
+#define _HPL_SPI_M_DMA_H_INCLUDED
+
+#include <hpl_spi.h>
+#include <hpl_spi_dma.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Uses common SPI dma device driver. */
+#define _spi_m_dma_dev _spi_dma_dev
+
+#define _spi_m_dma_dev_cb_type _spi_dma_dev_cb_type
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  It will load default hardware configuration and software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval ERR_DENIED SPI has been enabled.
+ *  \retval 0 ERR_NONE is operation done successfully.
+ */
+int32_t _spi_m_dma_init(struct _spi_m_dma_dev *dev, void *const hw);
+
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  Disable, reset the hardware and the software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 ERR_NONE is operation done successfully.
+ */
+int32_t _spi_m_dma_deinit(struct _spi_m_dma_dev *dev);
+
+/**
+ *  \brief Enable SPI for access with interrupts
+ *  Enable the SPI and enable callback generation of receive and error
+ *  interrupts.
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval 0 ERR_NONE is operation done successfully.
+ */
+int32_t _spi_m_dma_enable(struct _spi_m_dma_dev *dev);
+
+/**
+ *  \brief Disable SPI for access without interrupts
+ *  Disable SPI and interrupts. Deactivate all CS pins if works as master.
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 ERR_NONE is operation done successfully.
+ */
+int32_t _spi_m_dma_disable(struct _spi_m_dma_dev *dev);
+
+/**
+ *  \brief Set SPI transfer mode
+ *  Set SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \param[in] mode The SPI transfer mode.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 ERR_NONE is operation done successfully.
+ */
+int32_t _spi_m_dma_set_mode(struct _spi_m_dma_dev *dev, const enum spi_transfer_mode mode);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \param[in] baud_val The SPI baudrate value, see \ref _spi_calc_baud_val() on
+ *                  how it's generated.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_dma_set_baudrate(struct _spi_m_dma_dev *dev, const uint32_t baud_val);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] char_size The character size, see \ref spi_char_size.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_dma_set_char_size(struct _spi_m_dma_dev *dev, const enum spi_char_size char_size);
+
+/**
+ *  \brief Set SPI data order
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \param[in] dord SPI data order (LSB/MSB first).
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_dma_set_data_order(struct _spi_m_dma_dev *dev, const enum spi_data_order dord);
+
+/**
+ *  \brief Register the SPI device callback
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \param[in] cb_type The callback type.
+ *  \param[in] func The callback function to register. NULL to disable callback.
+ *  \return Always 0.
+ */
+void _spi_m_dma_register_callback(struct _spi_m_dma_dev *dev, enum _spi_dma_dev_cb_type, _spi_dma_cb_t func);
+
+/** \brief Do SPI data transfer (TX & RX) with DMA
+ *  Log the TX & RX buffers and transfer them in background. It never blocks.
+ *
+ *  \param[in] dev Pointer to the SPI device instance.
+ *  \param[in] txbuf Pointer to the transfer information (\ref spi_transfer).
+ *  \param[out] rxbuf Pointer to the receiver information (\ref spi_receive).
+ *  \param[in] length spi transfer data length.
+ *
+ *  \return Operation status.
+ *  \retval ERR_NONE Success.
+ *  \retval ERR_BUSY Busy.
+ */
+int32_t _spi_m_dma_transfer(struct _spi_m_dma_dev *dev, uint8_t const *txbuf, uint8_t *const rxbuf,
+                            const uint16_t length);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_M_DMA_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_m_sync.h b/watch-library/hardware/hal/include/hpl_spi_m_sync.h
new file mode 100644
index 00000000..38df15b4
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_m_sync.h
@@ -0,0 +1,166 @@
+/**
+ * \file
+ *
+ * \brief SPI related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_M_SYNC_H_INCLUDED
+#define _HPL_SPI_M_SYNC_H_INCLUDED
+
+#include <hpl_spi.h>
+#include <hpl_spi_sync.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Uses common SPI sync device driver. */
+#define _spi_m_sync_dev _spi_sync_dev
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ *  \brief Initialize SPI for access without interrupts
+ *  It will load default hardware configuration and software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval ERR_DENIED SPI has been enabled.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_init(struct _spi_m_sync_dev *dev, void *const hw);
+
+/**
+ *  \brief Deinitialize SPI
+ *  Disable, reset the hardware and the software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_deinit(struct _spi_m_sync_dev *dev);
+
+/**
+ *  \brief Enable SPI for access without interrupts
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_enable(struct _spi_m_sync_dev *dev);
+
+/**
+ *  \brief Disable SPI for access without interrupts
+ *  Disable SPI. Deactivate all CS pins if works as master.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_disable(struct _spi_m_sync_dev *dev);
+
+/**
+ *  \brief Set SPI transfer mode
+ *  Set SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] mode The SPI transfer mode.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_set_mode(struct _spi_m_sync_dev *dev, const enum spi_transfer_mode mode);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] baud_val The SPI baudrate value, see \ref _spi_calc_baud_val() on
+ *                  how it's generated.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_set_baudrate(struct _spi_m_sync_dev *dev, const uint32_t baud_val);
+
+/**
+ *  \brief Set SPI char size
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] char_size The character size, see \ref spi_char_size.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_set_char_size(struct _spi_m_sync_dev *dev, const enum spi_char_size char_size);
+
+/**
+ *  \brief Set SPI data order
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] dord SPI data order (LSB/MSB first).
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_m_sync_set_data_order(struct _spi_m_sync_dev *dev, const enum spi_data_order dord);
+
+/**
+ *  \brief Transfer the whole message without interrupt
+ *  Transfer the message, it will keep waiting until the message finish or
+ *  error.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] msg Pointer to the message instance to process.
+ *  \return Error or number of characters transferred.
+ *  \retval ERR_BUSY SPI hardware is not ready to start transfer (not
+ *                   enabled, busy applying settings, ...).
+ *  \retval SPI_ERR_OVERFLOW Overflow error.
+ *  \retval >=0 Number of characters transferred.
+ */
+int32_t _spi_m_sync_trans(struct _spi_m_sync_dev *dev, const struct spi_msg *msg);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_M_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_s_async.h b/watch-library/hardware/hal/include/hpl_spi_s_async.h
new file mode 100644
index 00000000..56472439
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_s_async.h
@@ -0,0 +1,232 @@
+/**
+ * \file
+ *
+ * \brief SPI Slave Async related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_S_ASYNC_H_INCLUDED
+#define _HPL_SPI_S_ASYNC_H_INCLUDED
+
+#include <hpl_spi_async.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Uses common SPI async device driver. */
+#define _spi_s_async_dev _spi_async_dev
+
+#define _spi_s_async_dev_cb_type _spi_async_dev_cb_type
+
+/** Uses common SPI async device driver complete callback type. */
+#define _spi_m_async_dev_cb_error_t _spi_async_dev_cb_error_t
+
+/** Uses common SPI async device driver transfer callback type. */
+#define _spi_s_async_dev_cb_xfer_t _spi_async_dev_cb_xfer_t
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  It will load default hardware configuration and software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval ERR_DENIED SPI has been enabled.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_init(struct _spi_s_async_dev *dev, void *const hw);
+
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  Disable, reset the hardware and the software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_deinit(struct _spi_s_async_dev *dev);
+
+/**
+ *  \brief Enable SPI for access with interrupts
+ *  Enable the SPI and enable callback generation of receive and error
+ *  interrupts.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_enable(struct _spi_s_async_dev *dev);
+
+/**
+ *  \brief Disable SPI for access without interrupts
+ *  Disable SPI and interrupts. Deactivate all CS pins if works as master.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_disable(struct _spi_s_async_dev *dev);
+
+/**
+ *  \brief Set SPI transfer mode
+ *  Set SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] mode The SPI transfer mode.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_set_mode(struct _spi_s_async_dev *dev, const enum spi_transfer_mode mode);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] char_size The character size, see \ref spi_char_size.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_set_char_size(struct _spi_s_async_dev *dev, const enum spi_char_size char_size);
+
+/**
+ *  \brief Set SPI data order
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] dord SPI data order (LSB/MSB first).
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_async_set_data_order(struct _spi_s_async_dev *dev, const enum spi_data_order dord);
+
+/**
+ * \brief Enable interrupt on character output
+ *
+ * Enable interrupt when a new character can be written
+ * to the SPI device.
+ *
+ * \param[in] dev   Pointer to the SPI device instance
+ * \param[in] state true  = enable output interrupt
+ *                  false = disable output interrupt
+ *
+ * \return Status code
+ * \retval 0 Ok status
+ */
+int32_t _spi_s_async_enable_tx(struct _spi_s_async_dev *dev, bool state);
+
+/**
+ * \brief Enable interrupt on character input
+ *
+ * Enable interrupt when a new character is ready to be
+ * read from the SPI device.
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ * \param[in] state true  = enable input interrupts
+ *                  false = disable input interrupt
+ *
+ * \return Status code
+ * \retvat 0 OK Status
+ */
+int32_t _spi_s_async_enable_rx(struct _spi_s_async_dev *dev, bool state);
+
+/**
+ * \brief Enable interrupt on Slave Select (SS) rising
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ * \param[in] state true  = enable input interrupts
+ *                  false = disable input interrupt
+ *
+ * \return Status code
+ * \retvat 0 OK Status
+ */
+int32_t _spi_s_async_enable_ss_detect(struct _spi_s_async_dev *dev, bool state);
+
+/**
+ *  \brief Read one character to SPI device instance
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *
+ *  \return Character read from SPI module
+ */
+uint16_t _spi_s_async_read_one(struct _spi_s_async_dev *dev);
+
+/**
+ *  \brief Write one character to assigned buffer
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] data
+ *
+ *  \return Status code of write operation
+ *  \retval 0 Write operation OK
+ */
+int32_t _spi_s_async_write_one(struct _spi_s_async_dev *dev, uint16_t data);
+
+/**
+ *  \brief Register the SPI device callback
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] cb_type The callback type.
+ *  \param[in] func The callback function to register. NULL to disable callback.
+ *  \return Always 0.
+ */
+int32_t _spi_s_async_register_callback(struct _spi_s_async_dev *dev, const enum _spi_s_async_dev_cb_type cb_type,
+                                       const FUNC_PTR func);
+
+/**
+ * \brief Enable/disable SPI slave interrupt
+ *
+ * param[in] device The pointer to SPI slave device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _spi_s_async_set_irq_state(struct _spi_s_async_dev *const device, const enum _spi_async_dev_cb_type type,
+                                const bool state);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_S_ASYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_s_sync.h b/watch-library/hardware/hal/include/hpl_spi_s_sync.h
new file mode 100644
index 00000000..ff4c811a
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_s_sync.h
@@ -0,0 +1,232 @@
+/**
+ * \file
+ *
+ * \brief SPI related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_S_SYNC_H_INCLUDED
+#define _HPL_SPI_S_SYNC_H_INCLUDED
+
+#include <hpl_spi_sync.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** Uses common SPI sync device driver. */
+#define _spi_s_sync_dev _spi_sync_dev
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ *  \brief Initialize SPI for access without interrupts
+ *  It will load default hardware configuration and software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] hw Pointer to the hardware base.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG Input parameter problem.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval ERR_DENIED SPI has been enabled.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_init(struct _spi_s_sync_dev *dev, void *const hw);
+
+/**
+ *  \brief Initialize SPI for access with interrupts
+ *  Disable, reset the hardware and the software struct.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_deinit(struct _spi_s_sync_dev *dev);
+
+/**
+ *  \brief Enable SPI for access without interrupts
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI hardware not ready (resetting).
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_enable(struct _spi_s_sync_dev *dev);
+
+/**
+ *  \brief Disable SPI for access without interrupts
+ *  Disable SPI. Deactivate all CS pins if works as master.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \return Operation status.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_disable(struct _spi_s_sync_dev *dev);
+
+/**
+ *  \brief Set SPI transfer mode
+ *  Set SPI transfer mode (\ref spi_transfer_mode),
+ *  which controls clock polarity and clock phase.
+ *  Mode 0: leading edge is rising edge, data sample on leading edge.
+ *  Mode 1: leading edge is rising edge, data sample on trailing edge.
+ *  Mode 2: leading edge is falling edge, data sample on leading edge.
+ *  Mode 3: leading edge is falling edge, data sample on trailing edge.
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] mode The SPI transfer mode.
+ *  \return Operation status.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_set_mode(struct _spi_s_sync_dev *dev, const enum spi_transfer_mode mode);
+
+/**
+ *  \brief Set SPI baudrate
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] char_size The character size, see \ref spi_char_size.
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_set_char_size(struct _spi_s_sync_dev *dev, const enum spi_char_size char_size);
+
+/**
+ *  \brief Set SPI data order
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] dord SPI data order (LSB/MSB first).
+ *  \return Operation status.
+ *  \retval ERR_INVALID_ARG The character size is not supported.
+ *  \retval ERR_BUSY SPI is not ready to accept new setting.
+ *  \retval 0 Operation done successfully.
+ */
+int32_t _spi_s_sync_set_data_order(struct _spi_s_sync_dev *dev, const enum spi_data_order dord);
+
+/**
+ * \brief Enable interrupt on character output
+ *
+ * Enable interrupt when a new character can be written
+ * to the SPI device.
+ *
+ * \param[in] dev   Pointer to the SPI device instance
+ * \param[in] state true  = enable output interrupt
+ *                  false = disable output interrupt
+ *
+ * \return Status code
+ * \retval 0 Ok status
+ */
+int32_t _spi_s_sync_enable_tx(struct _spi_s_sync_dev *dev, bool state);
+
+/**
+ * \brief Enable interrupt on character input
+ *
+ * Enable interrupt when a new character is ready to be
+ * read from the SPI device.
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ * \param[in] state true  = enable input interrupts
+ *                  false = disable input interrupt
+ *
+ * \return Status code
+ * \retval 0 OK Status
+ */
+int32_t _spi_s_sync_enable_rx(struct _spi_s_sync_dev *dev, bool state);
+
+/**
+ *  \brief Read one character to SPI device instance
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *
+ *  \return Character read from SPI module
+ */
+uint16_t _spi_s_sync_read_one(struct _spi_s_sync_dev *dev);
+
+/**
+ *  \brief Write one character to assigned buffer
+ *  \param[in, out] dev Pointer to the SPI device instance.
+ *  \param[in] data
+ *
+ *  \return Status code of write operation
+ *  \retval 0 Write operation OK
+ */
+int32_t _spi_s_sync_write_one(struct _spi_s_sync_dev *dev, uint16_t data);
+
+/**
+ * \brief Check if TX ready
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ *
+ * \return TX ready state
+ * \retval true TX ready
+ * \retval false TX not ready
+ */
+bool _spi_s_sync_is_tx_ready(struct _spi_s_sync_dev *dev);
+
+/**
+ * \brief Check if RX character ready
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ *
+ * \return RX character ready state
+ * \retval true RX character ready
+ * \retval false RX character not ready
+ */
+bool _spi_s_sync_is_rx_ready(struct _spi_s_sync_dev *dev);
+
+/**
+ * \brief Check if SS deactiviation detected
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ *
+ * \return SS deactiviation state
+ * \retval true SS deactiviation detected
+ * \retval false SS deactiviation not detected
+ */
+bool _spi_s_sync_is_ss_deactivated(struct _spi_s_sync_dev *dev);
+
+/**
+ * \brief Check if error is detected
+ *
+ * \param[in] dev  Pointer to the SPI device instance
+ *
+ * \return Error detection state
+ * \retval true Error detected
+ * \retval false Error not detected
+ */
+bool _spi_s_sync_is_error(struct _spi_s_sync_dev *dev);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_S_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_spi_sync.h b/watch-library/hardware/hal/include/hpl_spi_sync.h
new file mode 100644
index 00000000..dc88648f
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_spi_sync.h
@@ -0,0 +1,70 @@
+/**
+ * \file
+ *
+ * \brief Common SPI related functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SPI_SYNC_H_INCLUDED
+#define _HPL_SPI_SYNC_H_INCLUDED
+
+#include <compiler.h>
+#include <utils.h>
+
+#include <hpl_spi.h>
+
+/**
+ * \addtogroup hpl_spi HPL SPI
+ *
+ * \section hpl_spi_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/** SPI driver to support sync HAL */
+struct _spi_sync_dev {
+	/** Pointer to the hardware base or private data for special device. */
+	void *prvt;
+	/** Data size, number of bytes for each character */
+	uint8_t char_size;
+	/** Dummy byte used in master mode when reading the slave */
+	uint16_t dummy_byte;
+};
+
+#ifdef __cplusplus
+}
+#endif
+
+/**@}*/
+#endif /* ifndef _HPL_SPI_SYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_time_measure.h b/watch-library/hardware/hal/include/hpl_time_measure.h
new file mode 100644
index 00000000..5d688df5
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_time_measure.h
@@ -0,0 +1,94 @@
+/**
+ * \file
+ *
+ * \brief Time measure related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_TIME_MEASURE_H_INCLUDED
+#define _HPL_TIME_MEASURE_H_INCLUDED
+
+/**
+ * \addtogroup HPL Time measure
+ *
+ * \section hpl_time_measure_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief System time type
+ */
+typedef uint32_t system_time_t;
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Initialize system time module
+ *
+ * \param[in] hw The pointer to hardware instance to initialize
+ */
+void _system_time_init(void *const hw);
+
+/**
+ * \brief Deinitialize system time module
+ *
+ * \param[in] hw The pointer to hardware instance to initialize
+ */
+void _system_time_deinit(void *const hw);
+
+/**
+ * \brief Get system time
+ *
+ * \param[in] hw The pointer to hardware instance to initialize
+ */
+system_time_t _system_time_get(const void *const hw);
+
+/**
+ * \brief Get maximum possible system time
+ *
+ * \param[in] hw The pointer to hardware instance to initialize
+ */
+system_time_t _system_time_get_max_time_value(const void *const hw);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_TIME_MEASURE_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_timer.h b/watch-library/hardware/hal/include/hpl_timer.h
new file mode 100644
index 00000000..9bdfbb77
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_timer.h
@@ -0,0 +1,160 @@
+/**
+ * \file
+ *
+ * \brief Timer related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_TIMER_H_INCLUDED
+#define _HPL_TIMER_H_INCLUDED
+
+/**
+ * \addtogroup HPL Timer
+ *
+ * \section hpl_timer_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+#include <hpl_irq.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Timer device structure
+ *
+ * The Timer device structure forward declaration.
+ */
+struct _timer_device;
+
+/**
+ * \brief Timer interrupt callbacks
+ */
+struct _timer_callbacks {
+	void (*period_expired)(struct _timer_device *device);
+};
+
+/**
+ * \brief Timer device structure
+ */
+struct _timer_device {
+	struct _timer_callbacks timer_cb;
+	struct _irq_descriptor  irq;
+	void *                  hw;
+};
+
+/**
+ * \brief Timer functions, pointers to low-level functions
+ */
+struct _timer_hpl_interface {
+	int32_t (*init)(struct _timer_device *const device, void *const hw);
+	void (*deinit)(struct _timer_device *const device);
+	void (*start_timer)(struct _timer_device *const device);
+	void (*stop_timer)(struct _timer_device *const device);
+	void (*set_timer_period)(struct _timer_device *const device, const uint32_t clock_cycles);
+	uint32_t (*get_period)(const struct _timer_device *const device);
+	bool (*is_timer_started)(const struct _timer_device *const device);
+	void (*set_timer_irq)(struct _timer_device *const device);
+};
+/**
+ * \brief Initialize TCC
+ *
+ * This function does low level TCC configuration.
+ *
+ * \param[in] device The pointer to timer device instance
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Initialization status.
+ */
+int32_t _timer_init(struct _timer_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize TCC
+ *
+ * \param[in] device The pointer to timer device instance
+ */
+void _timer_deinit(struct _timer_device *const device);
+
+/**
+ * \brief Start hardware timer
+ *
+ * \param[in] device The pointer to timer device instance
+ */
+void _timer_start(struct _timer_device *const device);
+
+/**
+ * \brief Stop hardware timer
+ *
+ * \param[in] device The pointer to timer device instance
+ */
+void _timer_stop(struct _timer_device *const device);
+
+/**
+ * \brief Set timer period
+ *
+ * \param[in] device The pointer to timer device instance
+ */
+void _timer_set_period(struct _timer_device *const device, const uint32_t clock_cycles);
+
+/**
+ * \brief Retrieve timer period
+ *
+ * \param[in] device The pointer to timer device instance
+ *
+ * \return Timer period
+ */
+uint32_t _timer_get_period(const struct _timer_device *const device);
+
+/**
+ * \brief Check if timer is running
+ *
+ * \param[in] device The pointer to timer device instance
+ *
+ * \return Check status.
+ * \retval true The given timer is running
+ * \retval false The given timer is not running
+ */
+bool _timer_is_started(const struct _timer_device *const device);
+
+/**
+ * \brief Set timer IRQ
+ *
+ * \param[in] device The pointer to timer device instance
+ */
+void _timer_set_irq(struct _timer_device *const device);
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_TIMER_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_usart.h b/watch-library/hardware/hal/include/hpl_usart.h
new file mode 100644
index 00000000..0e09501d
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_usart.h
@@ -0,0 +1,113 @@
+/**
+ * \file
+ *
+ * \brief USART related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_USART_H_INCLUDED
+#define _HPL_USART_H_INCLUDED
+
+/**
+ * \addtogroup HPL USART SYNC
+ *
+ * \section hpl_usart_sync_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <compiler.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief USART flow control state
+ */
+union usart_flow_control_state {
+	struct {
+		uint8_t cts : 1;
+		uint8_t rts : 1;
+		uint8_t unavailable : 1;
+		uint8_t reserved : 5;
+	} bit;
+	uint8_t value;
+};
+
+/**
+ * \brief USART baud rate mode
+ */
+enum usart_baud_rate_mode { USART_BAUDRATE_ASYNCH_ARITHMETIC, USART_BAUDRATE_ASYNCH_FRACTIONAL, USART_BAUDRATE_SYNCH };
+
+/**
+ * \brief USART data order
+ */
+enum usart_data_order { USART_DATA_ORDER_MSB = 0, USART_DATA_ORDER_LSB = 1 };
+
+/**
+ * \brief USART mode
+ */
+enum usart_mode { USART_MODE_ASYNCHRONOUS = 0, USART_MODE_SYNCHRONOUS = 1 };
+
+/**
+ * \brief USART parity
+ */
+enum usart_parity {
+	USART_PARITY_EVEN  = 0,
+	USART_PARITY_ODD   = 1,
+	USART_PARITY_NONE  = 2,
+	USART_PARITY_SPACE = 3,
+	USART_PARITY_MARK  = 4
+};
+
+/**
+ * \brief USART stop bits mode
+ */
+enum usart_stop_bits { USART_STOP_BITS_ONE = 0, USART_STOP_BITS_TWO = 1, USART_STOP_BITS_ONE_P_FIVE = 2 };
+
+/**
+ * \brief USART character size
+ */
+enum usart_character_size {
+	USART_CHARACTER_SIZE_8BITS = 0,
+	USART_CHARACTER_SIZE_9BITS = 1,
+	USART_CHARACTER_SIZE_5BITS = 5,
+	USART_CHARACTER_SIZE_6BITS = 6,
+	USART_CHARACTER_SIZE_7BITS = 7
+};
+
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_USART_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_usart_async.h b/watch-library/hardware/hal/include/hpl_usart_async.h
new file mode 100644
index 00000000..3f833d1a
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_usart_async.h
@@ -0,0 +1,270 @@
+/**
+ * \file
+ *
+ * \brief USART related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_USART_ASYNC_H_INCLUDED
+#define _HPL_USART_ASYNC_H_INCLUDED
+
+/**
+ * \addtogroup HPL USART
+ *
+ * \section hpl_usart_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include "hpl_usart.h"
+#include "hpl_irq.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief USART callback types
+ */
+enum _usart_async_callback_type { USART_ASYNC_BYTE_SENT, USART_ASYNC_RX_DONE, USART_ASYNC_TX_DONE, USART_ASYNC_ERROR };
+
+/**
+ * \brief USART device structure
+ *
+ * The USART device structure forward declaration.
+ */
+struct _usart_async_device;
+
+/**
+ * \brief USART interrupt callbacks
+ */
+struct _usart_async_callbacks {
+	void (*tx_byte_sent)(struct _usart_async_device *device);
+	void (*rx_done_cb)(struct _usart_async_device *device, uint8_t data);
+	void (*tx_done_cb)(struct _usart_async_device *device);
+	void (*error_cb)(struct _usart_async_device *device);
+};
+
+/**
+ * \brief USART descriptor device structure
+ */
+struct _usart_async_device {
+	struct _usart_async_callbacks usart_cb;
+	struct _irq_descriptor        irq;
+	void *                        hw;
+};
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Initialize asynchronous USART
+ *
+ * This function does low level USART configuration.
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Initialization status
+ */
+int32_t _usart_async_init(struct _usart_async_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize USART
+ *
+ * This function closes the given USART by disabling its clock.
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_async_deinit(struct _usart_async_device *const device);
+
+/**
+ * \brief Enable usart module
+ *
+ * This function will enable the usart module
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_async_enable(struct _usart_async_device *const device);
+
+/**
+ * \brief Disable usart module
+ *
+ * This function will disable the usart module
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_async_disable(struct _usart_async_device *const device);
+
+/**
+ * \brief Calculate baud rate register value
+ *
+ * \param[in] baud Required baud rate
+ * \param[in] clock_rate clock frequency
+ * \param[in] samples The number of samples
+ * \param[in] mode USART mode
+ * \param[in] fraction A fraction value
+ *
+ * \return Calculated baud rate register value
+ */
+uint16_t _usart_async_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                          const enum usart_baud_rate_mode mode, const uint8_t fraction);
+
+/**
+ * \brief Set baud rate
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] baud_rate A baud rate to set
+ */
+void _usart_async_set_baud_rate(struct _usart_async_device *const device, const uint32_t baud_rate);
+
+/**
+ * \brief Set data order
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] order A data order to set
+ */
+void _usart_async_set_data_order(struct _usart_async_device *const device, const enum usart_data_order order);
+
+/**
+ * \brief Set mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] mode A mode to set
+ */
+void _usart_async_set_mode(struct _usart_async_device *const device, const enum usart_mode mode);
+
+/**
+ * \brief Set parity
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] parity A parity to set
+ */
+void _usart_async_set_parity(struct _usart_async_device *const device, const enum usart_parity parity);
+
+/**
+ * \brief Set stop bits mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] stop_bits A stop bits mode to set
+ */
+void _usart_async_set_stop_bits(struct _usart_async_device *const device, const enum usart_stop_bits stop_bits);
+
+/**
+ * \brief Set character size
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] size A character size to set
+ */
+void _usart_async_set_character_size(struct _usart_async_device *const device, const enum usart_character_size size);
+
+/**
+ * \brief Retrieve usart status
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+uint32_t _usart_async_get_status(const struct _usart_async_device *const device);
+
+/**
+ * \brief Write a byte to the given USART instance
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] data Data to write
+ */
+void _usart_async_write_byte(struct _usart_async_device *const device, uint8_t data);
+
+/**
+ * \brief Check if USART is ready to send next byte
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return Status of the ready check.
+ * \retval true if the USART is ready to send next byte
+ * \retval false if the USART is not ready to send next byte
+ */
+bool _usart_async_is_byte_sent(const struct _usart_async_device *const device);
+
+/**
+ * \brief Set the state of flow control pins
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] state - A state of flow control pins to set
+ */
+void _usart_async_set_flow_control_state(struct _usart_async_device *const    device,
+                                         const union usart_flow_control_state state);
+
+/**
+ * \brief Retrieve the state of flow control pins
+ *
+ * This function retrieves the of flow control pins.
+ *
+ * \return USART_FLOW_CONTROL_STATE_UNAVAILABLE.
+ */
+union usart_flow_control_state _usart_async_get_flow_control_state(const struct _usart_async_device *const device);
+
+/**
+ * \brief Enable data register empty interrupt
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_async_enable_byte_sent_irq(struct _usart_async_device *const device);
+
+/**
+ * \brief Enable transmission complete interrupt
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_async_enable_tx_done_irq(struct _usart_async_device *const device);
+
+/**
+ * \brief Retrieve ordinal number of the given USART hardware instance
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return The ordinal number of the given USART hardware instance
+ */
+uint8_t _usart_async_get_hardware_index(const struct _usart_async_device *const device);
+
+/**
+ * \brief Enable/disable USART interrupt
+ *
+ * param[in] device The pointer to USART device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _usart_async_set_irq_state(struct _usart_async_device *const device, const enum _usart_async_callback_type type,
+                                const bool state);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_USART_ASYNC_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_usart_sync.h b/watch-library/hardware/hal/include/hpl_usart_sync.h
new file mode 100644
index 00000000..abc7264f
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_usart_sync.h
@@ -0,0 +1,254 @@
+/**
+ * \file
+ *
+ * \brief USART related functionality declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_SYNC_USART_H_INCLUDED
+#define _HPL_SYNC_USART_H_INCLUDED
+
+/**
+ * \addtogroup HPL USART SYNC
+ *
+ * \section hpl_usart_sync_rev Revision History
+ * - v1.0.0 Initial Release
+ *
+ *@{
+ */
+
+#include <hpl_usart.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief USART descriptor device structure
+ */
+struct _usart_sync_device {
+	void *hw;
+};
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Initialize synchronous USART
+ *
+ * This function does low level USART configuration.
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return Initialization status
+ */
+int32_t _usart_sync_init(struct _usart_sync_device *const device, void *const hw);
+
+/**
+ * \brief Deinitialize USART
+ *
+ * This function closes the given USART by disabling its clock.
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_sync_deinit(struct _usart_sync_device *const device);
+
+/**
+ * \brief Enable usart module
+ *
+ * This function will enable the usart module
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_sync_enable(struct _usart_sync_device *const device);
+
+/**
+ * \brief Disable usart module
+ *
+ * This function will disable the usart module
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+void _usart_sync_disable(struct _usart_sync_device *const device);
+
+/**
+ * \brief Calculate baud rate register value
+ *
+ * \param[in] baud Required baud rate
+ * \param[in] clock_rate clock frequency
+ * \param[in] samples The number of samples
+ * \param[in] mode USART mode
+ * \param[in] fraction A fraction value
+ *
+ * \return Calculated baud rate register value
+ */
+uint16_t _usart_sync_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                         const enum usart_baud_rate_mode mode, const uint8_t fraction);
+
+/**
+ * \brief Set baud rate
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] baud_rate A baud rate to set
+ */
+void _usart_sync_set_baud_rate(struct _usart_sync_device *const device, const uint32_t baud_rate);
+
+/**
+ * \brief Set data order
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] order A data order to set
+ */
+void _usart_sync_set_data_order(struct _usart_sync_device *const device, const enum usart_data_order order);
+
+/**
+ * \brief Set mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] mode A mode to set
+ */
+void _usart_sync_set_mode(struct _usart_sync_device *const device, const enum usart_mode mode);
+
+/**
+ * \brief Set parity
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] parity A parity to set
+ */
+void _usart_sync_set_parity(struct _usart_sync_device *const device, const enum usart_parity parity);
+
+/**
+ * \brief Set stop bits mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] stop_bits A stop bits mode to set
+ */
+void _usart_sync_set_stop_bits(struct _usart_sync_device *const device, const enum usart_stop_bits stop_bits);
+
+/**
+ * \brief Set character size
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] size A character size to set
+ */
+void _usart_sync_set_character_size(struct _usart_sync_device *const device, const enum usart_character_size size);
+
+/**
+ * \brief Retrieve usart status
+ *
+ * \param[in] device The pointer to USART device instance
+ */
+uint32_t _usart_sync_get_status(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Write a byte to the given USART instance
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] data Data to write
+ */
+void _usart_sync_write_byte(struct _usart_sync_device *const device, uint8_t data);
+
+/**
+ * \brief Read a byte from the given USART instance
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] data Data to write
+ *
+ * \return Data received via USART interface.
+ */
+uint8_t _usart_sync_read_byte(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Check if USART is ready to send next byte
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return Status of the ready check.
+ * \retval true if the USART is ready to send next byte
+ * \retval false if the USART is not ready to send next byte
+ */
+bool _usart_sync_is_ready_to_send(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Check if USART transmitter has sent the byte
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return Status of the ready check.
+ * \retval true if the USART transmitter has sent the byte
+ * \retval false if the USART transmitter has not send the byte
+ */
+bool _usart_sync_is_transmit_done(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Check if there is data received by USART
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return Status of the data received check.
+ * \retval true if the USART has received a byte
+ * \retval false if the USART has not received a byte
+ */
+bool _usart_sync_is_byte_received(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Set the state of flow control pins
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] state - A state of flow control pins to set
+ */
+void _usart_sync_set_flow_control_state(struct _usart_sync_device *const     device,
+                                        const union usart_flow_control_state state);
+
+/**
+ * \brief Retrieve the state of flow control pins
+ *
+ * This function retrieves the of flow control pins.
+ *
+ * \return USART_FLOW_CONTROL_STATE_UNAVAILABLE.
+ */
+union usart_flow_control_state _usart_sync_get_flow_control_state(const struct _usart_sync_device *const device);
+
+/**
+ * \brief Retrieve ordinal number of the given USART hardware instance
+ *
+ * \param[in] device The pointer to USART device instance
+ *
+ * \return The ordinal number of the given USART hardware instance
+ */
+uint8_t _usart_sync_get_hardware_index(const struct _usart_sync_device *const device);
+//@}
+
+#ifdef __cplusplus
+}
+#endif
+/**@}*/
+#endif /* _HPL_SYNC_USART_H_INCLUDED */
diff --git a/watch-library/hardware/hal/include/hpl_user_area.h b/watch-library/hardware/hal/include/hpl_user_area.h
new file mode 100755
index 00000000..1f14098d
--- /dev/null
+++ b/watch-library/hardware/hal/include/hpl_user_area.h
@@ -0,0 +1,123 @@
+/**
+ * \file
+ *
+ * \brief Special user data area access
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_USER_DATA_H_INCLUDED
+#define _HPL_USER_DATA_H_INCLUDED
+
+#include <stdint.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Read data from user data area
+ *
+ * The user data area could be the area that stores user data that is not erased
+ * with the flash contents, e.g.,
+ * - NVM Software Calibration Area of SAM D/L/C family
+ * - User Signature of SAM E/S/V 70
+ *
+ * \param[in]  base   The base address of the user area
+ * \param[in]  offset The byte offset of the data to be read inside the area
+ * \param[out] buf    Pointer to buffer to place the read data
+ * \param[in]  size   Size of data in number of bytes
+ *
+ * \return Operation status or bytes read.
+ * \retval ERR_NONE Data read successfully
+ * \retval ERR_UNSUPPORTED_OP base address not in any supported user area
+ * \retval ERR_BAD_ADDRESS offset not in right area
+ * \retval ERR_INVALID_ARG offset and size exceeds the right area
+ */
+int32_t _user_area_read(const void *base, const uint32_t offset, uint8_t *buf, const uint32_t size);
+
+/**
+ * \brief Read no more than 32 bits data from user data area
+ *
+ * When reading bits, the bitfield can cross 32-bis boundaries.
+ *
+ * \param[in] base       The base address of the user area
+ * \param[in] bit_offset Offset in number of bits
+ * \param[in] n_bits     Number of bits to read
+ * \return data read, assert if anything wrong (address not in user area
+ *         offset, size error, etc.).
+ */
+uint32_t _user_area_read_bits(const void *base, const uint32_t bit_offset, const uint8_t n_bits);
+
+/**
+ * \brief Write data to user data area
+ *
+ * The user data area could be the area that stores user data that is not erased
+ * with the flash contents, e.g.,
+ * - NVM Software Calibration Area of SAM D/L/C family
+ * - User Signature of SAM E/S/V 70
+ *
+ * When assigned offset and size exceeds the data area, error is reported.
+ *
+ * \param[out] base  The base address of the user area
+ * \param[in]  offset The offset of the data to be written inside the area
+ * \param[in]  buf    Pointer to buffer to place the written data
+ * \param[in]  size   Size of data in number of bytes
+ *
+ * \return Operation status or bytes writting.
+ * \retval ERR_NONE Data written successfully
+ * \retval ERR_UNSUPPORTED_OP base address not in any supported user area
+ * \retval ERR_DENIED Security bit is set
+ * \retval ERR_BAD_ADDRESS offset not in right area
+ * \retval ERR_INVALID_ARG offset and size exceeds the right area
+ */
+int32_t _user_area_write(void *base, const uint32_t offset, const uint8_t *buf, const uint32_t size);
+
+/**
+ * \brief Write no more than 32 bits data to user data area
+ *
+ * When writting bits, the bitfield can cross 32-bis boundaries.
+ *
+ * \param[out] base       The base address of the user area
+ * \param[in]  bit_offset Offset in number of bits
+ * \param[in]  bits       The data content
+ * \param[in]  n_bits     Number of bits to write
+ * \return Operation result
+ * \retval ERR_NONE Data written successfully
+ * \retval ERR_UNSUPPORTED_OP base address not in any supported user area
+ * \retval ERR_DENIED Security bit is set
+ * \retval ERR_BAD_ADDRESS offset not in right area
+ * \retval ERR_INVALID_ARG offset and size exceeds the right area
+ */
+int32_t _user_area_write_bits(void *base, const uint32_t bit_offset, const uint32_t bits, const uint8_t n_bits);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HPL_USER_DATA_H_INCLUDED */
diff --git a/watch-library/hardware/hal/src/hal_atomic.c b/watch-library/hardware/hal/src/hal_atomic.c
new file mode 100644
index 00000000..f56418ee
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_atomic.c
@@ -0,0 +1,66 @@
+/**
+ * \file
+ *
+ * \brief Critical sections related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_atomic.h"
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief Disable interrupts, enter critical section
+ */
+void atomic_enter_critical(hal_atomic_t volatile *atomic)
+{
+	*atomic = __get_PRIMASK();
+	__disable_irq();
+	__DMB();
+}
+
+/**
+ * \brief Exit atomic section
+ */
+void atomic_leave_critical(hal_atomic_t volatile *atomic)
+{
+	__DMB();
+	__set_PRIMASK(*atomic);
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t atomic_get_version(void)
+{
+	return DRIVER_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_calendar.c b/watch-library/hardware/hal/src/hal_calendar.c
new file mode 100644
index 00000000..e69de29b
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_calendar.c
diff --git a/watch-library/hardware/hal/src/hal_delay.c b/watch-library/hardware/hal/src/hal_delay.c
new file mode 100644
index 00000000..6f77cc70
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_delay.c
@@ -0,0 +1,80 @@
+/**
+ * \file
+ *
+ * \brief HAL delay related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_irq.h>
+#include <hpl_reset.h>
+#include <hpl_sleep.h>
+#include "hal_delay.h"
+#include <hpl_delay.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief The pointer to a hardware instance used by the driver.
+ */
+static void *hardware;
+
+/**
+ * \brief Initialize Delay driver
+ */
+void delay_init(void *const hw)
+{
+	_delay_init(hardware = hw);
+}
+
+/**
+ * \brief Perform delay in us
+ */
+void delay_us(const uint16_t us)
+{
+	_delay_cycles(hardware, _get_cycles_for_us(us));
+}
+
+/**
+ * \brief Perform delay in ms
+ */
+void delay_ms(const uint16_t ms)
+{
+	_delay_cycles(hardware, _get_cycles_for_ms(ms));
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t delay_get_version(void)
+{
+	return DRIVER_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_ext_irq.c b/watch-library/hardware/hal/src/hal_ext_irq.c
new file mode 100644
index 00000000..2c383b4b
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_ext_irq.c
@@ -0,0 +1,188 @@
+/**
+ * \file
+ *
+ * \brief External interrupt functionality imkplementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_ext_irq.h"
+
+#define EXT_IRQ_AMOUNT 6
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief External IRQ struct
+ */
+struct ext_irq {
+	ext_irq_cb_t cb;
+	uint32_t     pin;
+};
+
+/* Remove KEIL compiling error in case no IRQ line selected */
+#if EXT_IRQ_AMOUNT == 0
+#undef EXT_IRQ_AMOUNT
+#define EXT_IRQ_AMOUNT 1
+#endif
+
+/**
+ * \brief Array of external IRQs callbacks
+ */
+static struct ext_irq ext_irqs[EXT_IRQ_AMOUNT];
+
+static void process_ext_irq(const uint32_t pin);
+
+/**
+ * \brief Initialize external irq component if any
+ */
+int32_t ext_irq_init(void)
+{
+	uint16_t i;
+
+	for (i = 0; i < EXT_IRQ_AMOUNT; i++) {
+		ext_irqs[i].pin = 0xFFFFFFFF;
+		ext_irqs[i].cb  = NULL;
+	}
+
+	return _ext_irq_init(process_ext_irq);
+}
+
+/**
+ * \brief Deinitialize external irq if any
+ */
+int32_t ext_irq_deinit(void)
+{
+	return _ext_irq_deinit();
+}
+
+/**
+ * \brief Register callback for the given external interrupt
+ */
+int32_t ext_irq_register(const uint32_t pin, ext_irq_cb_t cb)
+{
+	uint8_t i = 0, j = 0;
+	bool    found = false;
+
+	for (; i < EXT_IRQ_AMOUNT; i++) {
+		if (ext_irqs[i].pin == pin) {
+			ext_irqs[i].cb = cb;
+			found          = true;
+			break;
+		}
+	}
+
+	if (NULL == cb) {
+		if (!found) {
+			return ERR_INVALID_ARG;
+		}
+		return _ext_irq_enable(pin, false);
+	}
+
+	if (!found) {
+		for (i = 0; i < EXT_IRQ_AMOUNT; i++) {
+			if (NULL == ext_irqs[i].cb) {
+				ext_irqs[i].cb  = cb;
+				ext_irqs[i].pin = pin;
+				found           = true;
+				break;
+			}
+		}
+		for (; (j < EXT_IRQ_AMOUNT) && (i < EXT_IRQ_AMOUNT); j++) {
+			if ((ext_irqs[i].pin < ext_irqs[j].pin) && (ext_irqs[j].pin != 0xFFFFFFFF)) {
+				struct ext_irq tmp = ext_irqs[j];
+
+				ext_irqs[j] = ext_irqs[i];
+				ext_irqs[i] = tmp;
+			}
+		}
+	}
+
+	if (!found) {
+		return ERR_INVALID_ARG;
+	}
+
+	return _ext_irq_enable(pin, true);
+}
+
+/**
+ * \brief Enable external irq
+ */
+int32_t ext_irq_enable(const uint32_t pin)
+{
+	return _ext_irq_enable(pin, true);
+}
+
+/**
+ * \brief Disable external irq
+ */
+int32_t ext_irq_disable(const uint32_t pin)
+{
+	return _ext_irq_enable(pin, false);
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t ext_irq_get_version(void)
+{
+	return DRIVER_VERSION;
+}
+
+/**
+ * \brief Interrupt processing routine
+ *
+ * \param[in] pin The pin which triggered the interrupt
+ */
+static void process_ext_irq(const uint32_t pin)
+{
+	uint8_t lower = 0, middle, upper = EXT_IRQ_AMOUNT;
+
+	while (upper >= lower) {
+		middle = (upper + lower) >> 1;
+		if (middle >= EXT_IRQ_AMOUNT) {
+			return;
+		}
+
+		if (ext_irqs[middle].pin == pin) {
+			if (ext_irqs[middle].cb) {
+				ext_irqs[middle].cb();
+			}
+			return;
+		}
+
+		if (ext_irqs[middle].pin < pin) {
+			lower = middle + 1;
+		} else {
+			upper = middle - 1;
+		}
+	}
+}
diff --git a/watch-library/hardware/hal/src/hal_flash.c b/watch-library/hardware/hal/src/hal_flash.c
new file mode 100755
index 00000000..b1a58b71
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_flash.c
@@ -0,0 +1,314 @@
+/**
+ * \file
+ *
+ * \brief Flash functionality implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_flash.h"
+#include <utils_assert.h>
+#include <utils.h>
+#include <hal_atomic.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+static void flash_ready(struct _flash_device *device);
+static void flash_error(struct _flash_device *device);
+
+static int32_t flash_is_address_aligned(struct flash_descriptor *flash, const uint32_t flash_addr);
+
+/**
+ * \brief Initialize the FLASH HAL instance and hardware for callback mode.
+ */
+int32_t flash_init(struct flash_descriptor *flash, void *const hw)
+{
+	int32_t rc;
+
+	ASSERT(flash && hw);
+
+	rc = _flash_init(&flash->dev, hw);
+	if (rc) {
+		return rc;
+	}
+
+	flash->dev.flash_cb.ready_cb = flash_ready;
+	flash->dev.flash_cb.error_cb = flash_error;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief  Deinitialize the FLASH HAL instance.
+ */
+int32_t flash_deinit(struct flash_descriptor *flash)
+{
+	ASSERT(flash);
+
+	_flash_deinit(&flash->dev);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Reads a number of bytes to a page in the internal Flash
+ */
+int32_t flash_read(struct flash_descriptor *flash, uint32_t src_addr, uint8_t *buffer, uint32_t length)
+{
+	ASSERT(flash && buffer && length);
+
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+
+	/* Check if the address is valid */
+	if ((src_addr > page_size * total_pages) || (src_addr + length > page_size * total_pages)) {
+		return ERR_BAD_ADDRESS;
+	}
+
+	_flash_read(&flash->dev, src_addr, buffer, length);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Updates several bytes to the internal Flash
+ */
+int32_t flash_write(struct flash_descriptor *flash, uint32_t dst_addr, uint8_t *buffer, uint32_t length)
+{
+	ASSERT(flash && buffer && length);
+
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+
+	/* Check if the address is valid */
+	if ((dst_addr > page_size * total_pages) || (dst_addr + length > page_size * total_pages)) {
+		return ERR_BAD_ADDRESS;
+	}
+
+	if (_flash_is_locked(&flash->dev, dst_addr)) {
+		return ERR_DENIED;
+	}
+
+	_flash_write(&flash->dev, dst_addr, buffer, length);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Appends a number of bytes to a page in the internal Flash
+ */
+int32_t flash_append(struct flash_descriptor *flash, uint32_t dst_addr, uint8_t *buffer, uint32_t length)
+{
+	ASSERT(flash && buffer && length);
+
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+
+	/* Check if the address is valid */
+	if ((dst_addr > page_size * total_pages) || (dst_addr + length > page_size * total_pages)) {
+		return ERR_BAD_ADDRESS;
+	}
+
+	if (_flash_is_locked(&flash->dev, dst_addr)) {
+		return ERR_DENIED;
+	}
+
+	_flash_append(&flash->dev, dst_addr, buffer, length);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Execute erase in the internal flash
+ */
+int32_t flash_erase(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums)
+{
+	ASSERT(flash && page_nums);
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+	int32_t  rc;
+
+	rc = flash_is_address_aligned(flash, dst_addr);
+	if (rc) {
+		return rc;
+	}
+
+	if ((page_nums > total_pages) || (dst_addr / page_size + page_nums > total_pages)) {
+		return ERR_INVALID_ARG;
+	}
+
+	_flash_erase(&flash->dev, dst_addr, page_nums);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Register a function as FLASH transfer completion callback
+ */
+int32_t flash_register_callback(struct flash_descriptor *flash, const enum flash_cb_type type, flash_cb_t func)
+{
+	ASSERT(flash);
+
+	switch (type) {
+	case FLASH_CB_READY:
+		flash->callbacks.cb_ready = func;
+		break;
+
+	case FLASH_CB_ERROR:
+		flash->callbacks.cb_error = func;
+		break;
+
+	default:
+		return ERR_INVALID_ARG;
+	}
+
+	_flash_set_irq_state(&flash->dev, (enum _flash_cb_type)type, NULL != func);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Execute lock in the internal flash
+ */
+int32_t flash_lock(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums)
+{
+	ASSERT(flash && page_nums);
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+	int32_t  rc;
+
+	rc = flash_is_address_aligned(flash, dst_addr);
+	if (rc) {
+		return rc;
+	}
+
+	if ((page_nums > total_pages) || (dst_addr / page_size + page_nums > total_pages)) {
+		return ERR_INVALID_ARG;
+	}
+
+	return _flash_lock(&flash->dev, dst_addr, page_nums);
+}
+
+/**
+ * \brief Execute unlock in the internal flash
+ */
+int32_t flash_unlock(struct flash_descriptor *flash, const uint32_t dst_addr, const uint32_t page_nums)
+{
+	ASSERT(flash && page_nums);
+	uint32_t page_size   = _flash_get_page_size(&flash->dev);
+	uint32_t total_pages = _flash_get_total_pages(&flash->dev);
+	int32_t  rc;
+
+	rc = flash_is_address_aligned(flash, dst_addr);
+	if (rc) {
+		return rc;
+	}
+
+	if ((page_nums > total_pages) || (dst_addr / page_size + page_nums > total_pages)) {
+		return ERR_INVALID_ARG;
+	}
+
+	return _flash_unlock(&flash->dev, dst_addr, page_nums);
+}
+
+/**
+ * \brief Get the flash page size.
+ */
+uint32_t flash_get_page_size(struct flash_descriptor *flash)
+{
+	ASSERT(flash);
+	return _flash_get_page_size(&flash->dev);
+}
+
+/**
+ * \brief Get the numbers of flash page.
+ */
+uint32_t flash_get_total_pages(struct flash_descriptor *flash)
+{
+	ASSERT(flash);
+	return _flash_get_total_pages(&flash->dev);
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t flash_get_version(void)
+{
+	return DRIVER_VERSION;
+}
+
+/**
+ * \internal check the address whether it is aligned
+ * \param[in, out] flash        Pointer to the HAL FLASH instance.
+ * \param[in]  flash_addr       address to be check in flash
+ *
+ * \return whether it is valid
+ *  \retval 0 Valid.
+ *  \retval -1 Error, invalid.
+ */
+static int32_t flash_is_address_aligned(struct flash_descriptor *flash, const uint32_t flash_addr)
+{
+	ASSERT(flash);
+
+	uint32_t page_size = _flash_get_page_size(&flash->dev);
+
+	/* Check if the read address not aligned to the start of a page */
+	if (flash_addr & (page_size - 1)) {
+		return ERR_BAD_ADDRESS;
+	}
+	return ERR_NONE;
+}
+
+/**
+ * \internal Ready for a new flash command
+ *
+ * \param[in] device The pointer to flash device structure
+ */
+static void flash_ready(struct _flash_device *device)
+{
+	struct flash_descriptor *const descr = CONTAINER_OF(device, struct flash_descriptor, dev);
+	if (descr->callbacks.cb_ready) {
+		descr->callbacks.cb_ready(descr);
+	}
+}
+
+/**
+ * \internal Error occurs in flash command
+ *
+ * \param[in] device The pointer to flash device structure
+ */
+static void flash_error(struct _flash_device *device)
+{
+	struct flash_descriptor *const descr = CONTAINER_OF(device, struct flash_descriptor, dev);
+	if (descr->callbacks.cb_error) {
+		descr->callbacks.cb_error(descr);
+	}
+}
diff --git a/watch-library/hardware/hal/src/hal_gpio.c b/watch-library/hardware/hal/src/hal_gpio.c
new file mode 100644
index 00000000..00dfea6f
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_gpio.c
@@ -0,0 +1,44 @@
+/**
+ * \file
+ *
+ * \brief Port
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_gpio.h"
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+uint32_t gpio_get_version(void)
+{
+	return DRIVER_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_i2c_m_sync.c b/watch-library/hardware/hal/src/hal_i2c_m_sync.c
new file mode 100644
index 00000000..9be16be4
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_i2c_m_sync.c
@@ -0,0 +1,258 @@
+/**
+ * \file
+ *
+ * \brief I/O I2C related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <hal_i2c_m_sync.h>
+#include <utils.h>
+#include <utils_assert.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief Sync version of I2C I/O read
+ */
+static int32_t i2c_m_sync_read(struct io_descriptor *io, uint8_t *buf, const uint16_t n)
+{
+	struct i2c_m_sync_desc *i2c = CONTAINER_OF(io, struct i2c_m_sync_desc, io);
+	struct _i2c_m_msg       msg;
+	int32_t                 ret;
+
+	msg.addr   = i2c->periph_addr;
+	msg.len    = n;
+	msg.flags  = I2C_M_STOP | I2C_M_RD;
+	msg.buffer = buf;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret) {
+		return ret;
+	}
+
+	return n;
+}
+
+/**
+ * \brief Sync version of I2C I/O write
+ */
+static int32_t i2c_m_sync_write(struct io_descriptor *io, const uint8_t *buf, const uint16_t n)
+{
+	struct i2c_m_sync_desc *i2c = CONTAINER_OF(io, struct i2c_m_sync_desc, io);
+	struct _i2c_m_msg       msg;
+	int32_t                 ret;
+
+	msg.addr   = i2c->periph_addr;
+	msg.len    = n;
+	msg.flags  = I2C_M_STOP;
+	msg.buffer = (uint8_t *)buf;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret) {
+		return ret;
+	}
+
+	return n;
+}
+
+/**
+ * \brief Sync version of i2c initialize
+ */
+int32_t i2c_m_sync_init(struct i2c_m_sync_desc *i2c, void *hw)
+{
+	int32_t init_status;
+	ASSERT(i2c);
+
+	init_status = _i2c_m_sync_init(&i2c->device, hw);
+	if (init_status) {
+		return init_status;
+	}
+
+	/* Init I/O */
+	i2c->io.read  = i2c_m_sync_read;
+	i2c->io.write = i2c_m_sync_write;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief deinitialize
+ */
+int32_t i2c_m_sync_deinit(struct i2c_m_sync_desc *i2c)
+{
+	int32_t status;
+	ASSERT(i2c);
+
+	status = _i2c_m_sync_deinit(&i2c->device);
+	if (status) {
+		return status;
+	}
+
+	i2c->io.read  = NULL;
+	i2c->io.write = NULL;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Sync version of i2c enable
+ */
+int32_t i2c_m_sync_enable(struct i2c_m_sync_desc *i2c)
+{
+	return _i2c_m_sync_enable(&i2c->device);
+}
+
+/**
+ * \brief Sync version of i2c disable
+ */
+int32_t i2c_m_sync_disable(struct i2c_m_sync_desc *i2c)
+{
+	return _i2c_m_sync_disable(&i2c->device);
+}
+
+/**
+ * \brief Sync version of i2c set peripheral address
+ */
+int32_t i2c_m_sync_set_periphaddr(struct i2c_m_sync_desc *i2c, int16_t addr, int32_t addr_len)
+{
+	return i2c->periph_addr = (addr & 0x3ff) | (addr_len & I2C_M_TEN);
+}
+
+/**
+ * \brief Sync version of i2c set baudrate
+ */
+int32_t i2c_m_sync_set_baudrate(struct i2c_m_sync_desc *i2c, uint32_t clkrate, uint32_t baudrate)
+{
+	return _i2c_m_sync_set_baudrate(&i2c->device, clkrate, baudrate);
+}
+
+/**
+ * \brief Sync version of i2c write command
+ */
+int32_t i2c_m_sync_cmd_write(struct i2c_m_sync_desc *i2c, uint8_t reg, uint8_t *buffer, uint8_t length)
+{
+	struct _i2c_m_msg msg;
+	int32_t           ret;
+
+	msg.addr   = i2c->periph_addr;
+	msg.len    = 1;
+	msg.flags  = 0;
+	msg.buffer = &reg;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret != 0) {
+		/* error occurred */
+		return ret;
+	}
+
+	msg.flags  = I2C_M_STOP;
+	msg.buffer = buffer;
+	msg.len    = length;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret != 0) {
+		/* error occurred */
+		return ret;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Sync version of i2c read command
+ */
+int32_t i2c_m_sync_cmd_read(struct i2c_m_sync_desc *i2c, uint8_t reg, uint8_t *buffer, uint8_t length)
+{
+	struct _i2c_m_msg msg;
+	int32_t           ret;
+
+	msg.addr   = i2c->periph_addr;
+	msg.len    = 1;
+	msg.flags  = 0;
+	msg.buffer = &reg;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret != 0) {
+		/* error occurred */
+		return ret;
+	}
+
+	msg.flags  = I2C_M_STOP | I2C_M_RD;
+	msg.buffer = buffer;
+	msg.len    = length;
+
+	ret = _i2c_m_sync_transfer(&i2c->device, &msg);
+
+	if (ret != 0) {
+		/* error occurred */
+		return ret;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Sync version of i2c transfer command
+ */
+int32_t i2c_m_sync_transfer(struct i2c_m_sync_desc *const i2c, struct _i2c_m_msg *msg)
+{
+	return _i2c_m_sync_transfer(&i2c->device, msg);
+}
+
+/**
+ * \brief Sync version of i2c send stop condition command
+ */
+int32_t i2c_m_sync_send_stop(struct i2c_m_sync_desc *const i2c)
+{
+	return _i2c_m_sync_send_stop(&i2c->device);
+}
+
+/**
+ * \brief Retrieve I/O descriptor
+ */
+int32_t i2c_m_sync_get_io_descriptor(struct i2c_m_sync_desc *const i2c, struct io_descriptor **io)
+{
+	*io = &i2c->io;
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t i2c_m_sync_get_version(void)
+{
+	return DRIVER_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_init.c b/watch-library/hardware/hal/src/hal_init.c
new file mode 100644
index 00000000..fb65341f
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_init.c
@@ -0,0 +1,47 @@
+/**
+ * \file
+ *
+ * \brief HAL initialization related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_init.h"
+
+/**
+ * \brief Driver version
+ */
+#define HAL_INIT_VERSION 0x00000001u
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t init_get_version(void)
+{
+	return HAL_INIT_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_io.c b/watch-library/hardware/hal/src/hal_io.c
new file mode 100644
index 00000000..ae787d42
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_io.c
@@ -0,0 +1,58 @@
+/**
+ * \file
+ *
+ * \brief I/O functionality implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hal_io.h>
+#include <utils_assert.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief I/O write interface
+ */
+int32_t io_write(struct io_descriptor *const io_descr, const uint8_t *const buf, const uint16_t length)
+{
+	ASSERT(io_descr && buf);
+	return io_descr->write(io_descr, buf, length);
+}
+
+/**
+ * \brief I/O read interface
+ */
+int32_t io_read(struct io_descriptor *const io_descr, uint8_t *const buf, const uint16_t length)
+{
+	ASSERT(io_descr && buf);
+	return io_descr->read(io_descr, buf, length);
+}
diff --git a/watch-library/hardware/hal/src/hal_rand_sync.c b/watch-library/hardware/hal/src/hal_rand_sync.c
new file mode 100755
index 00000000..8b29ed1b
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_rand_sync.c
@@ -0,0 +1,122 @@
+/**
+ * \file
+ *
+ * \brief Generic Random Number Generator (RNG) functionality declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <utils.h>
+#include "hal_rand_sync.h"
+
+#define HAL_RNG_SYNC_VERSION 0x00000001u
+
+int32_t rand_sync_init(struct rand_sync_desc *const desc, void *const hw)
+{
+	ASSERT(desc);
+
+	return _rand_sync_init(&desc->dev, hw);
+}
+
+void rand_sync_deinit(struct rand_sync_desc *const desc)
+{
+	ASSERT(desc);
+	_rand_sync_deinit(&desc->dev);
+}
+
+int32_t rand_sync_enable(struct rand_sync_desc *const desc)
+{
+	ASSERT(desc);
+	return _rand_sync_enable(&desc->dev);
+}
+
+void rand_sync_disable(struct rand_sync_desc *const desc)
+{
+	ASSERT(desc);
+	_rand_sync_disable(&desc->dev);
+}
+
+int32_t rand_sync_set_seed(struct rand_sync_desc *const desc, const uint32_t seed)
+{
+	ASSERT(desc);
+	return _rand_sync_set_seed(&desc->dev, seed);
+}
+
+/**
+ * \brief Read data bits
+ */
+static uint32_t _rand_sync_read_data(const struct _rand_sync_dev *dev, const uint8_t n_bits)
+{
+	uint8_t r_bits = (dev->n_bits < 1) ? 32 : dev->n_bits;
+	if (r_bits < n_bits) {
+		uint8_t  i;
+		uint32_t d = 0;
+		/* Join read bits */
+		for (i = 0; i < n_bits; i += r_bits) {
+			d |= (uint32_t)(_rand_sync_read_one(dev) << i);
+		}
+		return d;
+	} else {
+		return _rand_sync_read_one(dev);
+	}
+}
+
+uint8_t rand_sync_read8(const struct rand_sync_desc *const desc)
+{
+	ASSERT(desc);
+	return (uint8_t)_rand_sync_read_data(&desc->dev, 8);
+}
+
+uint32_t rand_sync_read32(const struct rand_sync_desc *const desc)
+{
+	ASSERT(desc);
+	return (uint32_t)_rand_sync_read_data(&desc->dev, 32);
+}
+
+void rand_sync_read_buf8(const struct rand_sync_desc *const desc, uint8_t *buf, uint32_t len)
+{
+	uint32_t i;
+	ASSERT(desc && (buf && len));
+	for (i = 0; i < len; i++) {
+		buf[i] = (uint8_t)_rand_sync_read_data(&desc->dev, 8);
+	}
+}
+
+void rand_sync_read_buf32(const struct rand_sync_desc *const desc, uint32_t *buf, uint32_t len)
+{
+	uint32_t i;
+	ASSERT(desc && (buf && len));
+	for (i = 0; i < len; i++) {
+		buf[i] = (uint32_t)_rand_sync_read_data(&desc->dev, 32);
+	}
+}
+
+uint32_t rand_sync_get_version(void)
+{
+	return HAL_RNG_SYNC_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_slcd_sync.c b/watch-library/hardware/hal/src/hal_slcd_sync.c
new file mode 100644
index 00000000..573eb0e2
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_slcd_sync.c
@@ -0,0 +1,150 @@
+/**
+ * \file
+ *
+ * \brief SLCD Segment Liquid Crystal Display Controller(Sync) functionality
+ *        declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hal_slcd_sync.h>
+#include <utils_assert.h>
+
+/**
+ * \brief              Initialize SLCD Descriptor
+ */
+int32_t slcd_sync_init(struct slcd_sync_descriptor *const descr, void *const hw)
+{
+	ASSERT(descr && hw);
+	return _slcd_sync_init(&descr->dev, hw);
+}
+
+/**
+ * \brief              Deinitialize SLCD Descriptor
+ */
+int32_t slcd_sync_deinit(struct slcd_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	return _slcd_sync_deinit(&descr->dev);
+}
+
+/**
+ * \brief              Enable SLCD driver
+ *
+ */
+int32_t slcd_sync_enable(struct slcd_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	return _slcd_sync_enable(&descr->dev);
+}
+/**
+ * \brief              Disable SLCD driver
+ *
+ */
+int32_t slcd_sync_disable(struct slcd_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	return _slcd_sync_disable(&descr->dev);
+}
+/**
+ * \brief              Turn on a Segment
+ */
+int32_t slcd_sync_seg_on(struct slcd_sync_descriptor *const descr, uint32_t seg)
+{
+	ASSERT(descr);
+	return _slcd_sync_seg_on(&descr->dev, seg);
+}
+/**
+ * \brief              Turn off a Segment
+ */
+int32_t slcd_sync_seg_off(struct slcd_sync_descriptor *const descr, uint32_t seg)
+{
+	ASSERT(descr);
+	return _slcd_sync_seg_off(&descr->dev, seg);
+}
+/**
+ * \brief              Blink a Segment
+ */
+int32_t slcd_sync_seg_blink(struct slcd_sync_descriptor *const descr, uint32_t seg, const uint32_t period)
+{
+	ASSERT(descr && period);
+	return _slcd_sync_seg_blink(&descr->dev, seg, period);
+}
+
+/**
+ * \brief              Displays a character
+ */
+int32_t slcd_sync_write_char(struct slcd_sync_descriptor *const descr, const uint8_t character, uint32_t index)
+{
+	ASSERT(descr);
+	return _slcd_sync_write_char(&descr->dev, character, index);
+}
+
+/**
+ * \brief              Displays character string string
+ */
+int32_t slcd_sync_write_string(struct slcd_sync_descriptor *const descr, uint8_t *const str, uint32_t len,
+                               uint32_t index)
+{
+	uint32_t i;
+	ASSERT(descr && len);
+
+	for (i = 0; i < len; i++) {
+		if (_slcd_sync_write_char(&descr->dev, *(str + i), index + i) != ERR_NONE) {
+			return ERR_INVALID_ARG;
+		}
+	}
+	return ERR_NONE;
+}
+/**
+ * \brief               Start animation play by a segment array
+ */
+int32_t slcd_sync_start_animation(struct slcd_sync_descriptor *const descr, const uint32_t segs[], uint32_t len,
+                                  const uint32_t period)
+{
+	ASSERT(descr && segs && len && period);
+	return _slcd_sync_start_animation(&descr->dev, segs, len, period);
+}
+
+/**
+ * \brief               Stop animation play by a segment array
+ */
+int32_t slcd_sync_stop_animation(struct slcd_sync_descriptor *const descr, const uint32_t segs[], uint32_t len)
+{
+	ASSERT(descr && segs && len);
+	return _slcd_sync_stop_animation(&descr->dev, segs, len);
+}
+
+/**
+ * \brief               Set animation Frequency
+ */
+int32_t slcd_sync_set_animation_period(struct slcd_sync_descriptor *const descr, const uint32_t period)
+{
+	ASSERT(descr && period);
+	return _slcd_sync_set_animation_period(&descr->dev, period);
+}
diff --git a/watch-library/hardware/hal/src/hal_sleep.c b/watch-library/hardware/hal/src/hal_sleep.c
new file mode 100644
index 00000000..89472f15
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_sleep.c
@@ -0,0 +1,73 @@
+/**
+ * \file
+ *
+ * \brief Sleep related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_sleep.h"
+#include <hpl_sleep.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+/**
+ * \brief Set the sleep mode of the device and put the MCU to sleep
+ *
+ * For an overview of which systems are disabled in sleep for the different
+ * sleep modes, see the data sheet.
+ *
+ * \param[in] mode Sleep mode to use
+ *
+ * \return The status of a sleep request
+ * \retval -1 The requested sleep mode was invalid or not available
+ * \retval  0 The operation completed successfully, returned after leaving the
+ *            sleep
+ */
+int sleep(const uint8_t mode)
+{
+	if (ERR_NONE != _set_sleep_mode(mode))
+		return ERR_INVALID_ARG;
+
+	_go_to_sleep();
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve the current driver version
+ *
+ * \return Current driver version
+ */
+uint32_t sleep_get_version(void)
+{
+	return DRIVER_VERSION;
+}
diff --git a/watch-library/hardware/hal/src/hal_spi_m_sync.c b/watch-library/hardware/hal/src/hal_spi_m_sync.c
new file mode 100755
index 00000000..1a64296a
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_spi_m_sync.c
@@ -0,0 +1,201 @@
+/**
+ * \file
+ *
+ * \brief I/O SPI related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_spi_m_sync.h"
+#include <utils_assert.h>
+#include <utils.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Driver version
+ */
+#define SPI_M_SYNC_DRIVER_VERSION 0x00000001u
+
+#define SPI_DEACTIVATE_NEXT 0x8000
+
+static int32_t _spi_m_sync_io_write(struct io_descriptor *const io, const uint8_t *const buf, const uint16_t length);
+static int32_t _spi_m_sync_io_read(struct io_descriptor *const io, uint8_t *const buf, const uint16_t length);
+
+/**
+ *  \brief Initialize the SPI HAL instance function pointer for HPL APIs.
+ */
+void spi_m_sync_set_func_ptr(struct spi_m_sync_descriptor *spi, void *const func)
+{
+	ASSERT(spi);
+	spi->func = (struct _spi_m_sync_hpl_interface *)func;
+}
+
+int32_t spi_m_sync_init(struct spi_m_sync_descriptor *spi, void *const hw)
+{
+	int32_t rc = 0;
+	ASSERT(spi && hw);
+	spi->dev.prvt = (void *)hw;
+	rc            = _spi_m_sync_init(&spi->dev, hw);
+
+	if (rc < 0) {
+		return rc;
+	}
+
+	spi->flags    = SPI_DEACTIVATE_NEXT;
+	spi->io.read  = _spi_m_sync_io_read;
+	spi->io.write = _spi_m_sync_io_write;
+
+	return ERR_NONE;
+}
+
+void spi_m_sync_deinit(struct spi_m_sync_descriptor *spi)
+{
+	ASSERT(spi);
+	_spi_m_sync_deinit(&spi->dev);
+}
+
+void spi_m_sync_enable(struct spi_m_sync_descriptor *spi)
+{
+	ASSERT(spi);
+	_spi_m_sync_enable(&spi->dev);
+}
+
+void spi_m_sync_disable(struct spi_m_sync_descriptor *spi)
+{
+	ASSERT(spi);
+	_spi_m_sync_disable(&spi->dev);
+}
+
+int32_t spi_m_sync_set_baudrate(struct spi_m_sync_descriptor *spi, const uint32_t baud_val)
+{
+	ASSERT(spi);
+	return _spi_m_sync_set_baudrate(&spi->dev, baud_val);
+}
+
+int32_t spi_m_sync_set_mode(struct spi_m_sync_descriptor *spi, const enum spi_transfer_mode mode)
+{
+	ASSERT(spi);
+	return _spi_m_sync_set_mode(&spi->dev, mode);
+}
+
+int32_t spi_m_sync_set_char_size(struct spi_m_sync_descriptor *spi, const enum spi_char_size char_size)
+{
+	ASSERT(spi);
+	return _spi_m_sync_set_char_size(&spi->dev, char_size);
+}
+
+int32_t spi_m_sync_set_data_order(struct spi_m_sync_descriptor *spi, const enum spi_data_order dord)
+{
+	ASSERT(spi);
+	return _spi_m_sync_set_data_order(&spi->dev, dord);
+}
+
+/** \brief Do SPI read in polling way
+ *  For SPI master, activate CS, do send 0xFFs and read data, deactivate CS.
+ *
+ *  It blocks until all data read or error.
+ *
+ *  \param[in, out] spi Pointer to the HAL SPI instance.
+ *  \param[out] buf Pointer to the buffer to store read data.
+ *  \param[in] size Size of the data in number of characters.
+ *  \return Operation status.
+ *  \retval size Success.
+ *  \retval >=0 Time out, with number of characters read.
+ */
+static int32_t _spi_m_sync_io_read(struct io_descriptor *io, uint8_t *buf, const uint16_t length)
+{
+	ASSERT(io);
+
+	struct spi_m_sync_descriptor *spi = CONTAINER_OF(io, struct spi_m_sync_descriptor, io);
+	struct spi_xfer               xfer;
+
+	xfer.rxbuf = buf;
+	xfer.txbuf = 0;
+	xfer.size  = length;
+
+	return spi_m_sync_transfer(spi, &xfer);
+}
+
+/** \brief Do SPI data write in polling way
+ *  For SPI master, activate CS, do buffer send and deactivate CS. The data back
+ *  is discarded.
+ *
+ *  The data read back is discarded.
+ *
+ *  It blocks until all data sent or error.
+ *
+ *  \param[in, out] spi Pointer to the HAL SPI instance.
+ *  \param[in] p_xfer Pointer to the transfer information (\ref spi_transfer).
+ *  \return Operation status.
+ *  \retval size Success.
+ *  \retval >=0 Timeout, with number of characters transferred.
+ */
+static int32_t _spi_m_sync_io_write(struct io_descriptor *const io, const uint8_t *const buf, const uint16_t length)
+{
+	ASSERT(io);
+
+	struct spi_m_sync_descriptor *spi = CONTAINER_OF(io, struct spi_m_sync_descriptor, io);
+	struct spi_xfer               xfer;
+
+	xfer.rxbuf = 0;
+	xfer.txbuf = (uint8_t *)buf;
+	xfer.size  = length;
+
+	return spi_m_sync_transfer(spi, &xfer);
+}
+
+int32_t spi_m_sync_transfer(struct spi_m_sync_descriptor *spi, const struct spi_xfer *p_xfer)
+{
+	struct spi_msg msg;
+
+	ASSERT(spi && p_xfer);
+
+	msg.txbuf = p_xfer->txbuf;
+	msg.rxbuf = p_xfer->rxbuf;
+	msg.size  = p_xfer->size;
+	return _spi_m_sync_trans(&spi->dev, &msg);
+}
+
+int32_t spi_m_sync_get_io_descriptor(struct spi_m_sync_descriptor *const spi, struct io_descriptor **io)
+{
+	ASSERT(spi && io);
+	*io = &spi->io;
+	return 0;
+}
+
+uint32_t spi_m_sync_get_version(void)
+{
+	return SPI_M_SYNC_DRIVER_VERSION;
+}
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/watch-library/hardware/hal/src/hal_usart_sync.c b/watch-library/hardware/hal/src/hal_usart_sync.c
new file mode 100755
index 00000000..ab99c1d1
--- /dev/null
+++ b/watch-library/hardware/hal/src/hal_usart_sync.c
@@ -0,0 +1,276 @@
+/**
+ * \file
+ *
+ * \brief I/O USART related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "hal_usart_sync.h"
+#include <utils_assert.h>
+#include <utils.h>
+
+/**
+ * \brief Driver version
+ */
+#define DRIVER_VERSION 0x00000001u
+
+static int32_t usart_sync_write(struct io_descriptor *const io_descr, const uint8_t *const buf, const uint16_t length);
+static int32_t usart_sync_read(struct io_descriptor *const io_descr, uint8_t *const buf, const uint16_t length);
+
+/**
+ * \brief Initialize usart interface
+ */
+int32_t usart_sync_init(struct usart_sync_descriptor *const descr, void *const hw, void *const func)
+{
+	int32_t init_status;
+	ASSERT(descr && hw);
+	init_status = _usart_sync_init(&descr->device, hw);
+	if (init_status) {
+		return init_status;
+	}
+
+	descr->io.read  = usart_sync_read;
+	descr->io.write = usart_sync_write;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Uninitialize usart interface
+ */
+int32_t usart_sync_deinit(struct usart_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	_usart_sync_deinit(&descr->device);
+
+	descr->io.read  = NULL;
+	descr->io.write = NULL;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable usart interface
+ */
+int32_t usart_sync_enable(struct usart_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	_usart_sync_enable(&descr->device);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Disable usart interface
+ */
+int32_t usart_sync_disable(struct usart_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	_usart_sync_disable(&descr->device);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve I/O descriptor
+ */
+int32_t usart_sync_get_io_descriptor(struct usart_sync_descriptor *const descr, struct io_descriptor **io)
+{
+	ASSERT(descr && io);
+
+	*io = &descr->io;
+	return ERR_NONE;
+}
+
+/**
+ * \brief Specify action for flow control pins
+ */
+int32_t usart_sync_set_flow_control(struct usart_sync_descriptor *const  descr,
+                                    const union usart_flow_control_state state)
+{
+	ASSERT(descr);
+	_usart_sync_set_flow_control_state(&descr->device, state);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart baud rate
+ */
+int32_t usart_sync_set_baud_rate(struct usart_sync_descriptor *const descr, const uint32_t baud_rate)
+{
+	ASSERT(descr);
+	_usart_sync_set_baud_rate(&descr->device, baud_rate);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart data order
+ */
+int32_t usart_sync_set_data_order(struct usart_sync_descriptor *const descr, const enum usart_data_order data_order)
+{
+	ASSERT(descr);
+	_usart_sync_set_data_order(&descr->device, data_order);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart mode
+ */
+int32_t usart_sync_set_mode(struct usart_sync_descriptor *const descr, const enum usart_mode mode)
+{
+	ASSERT(descr);
+	_usart_sync_set_mode(&descr->device, mode);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart parity
+ */
+int32_t usart_sync_set_parity(struct usart_sync_descriptor *const descr, const enum usart_parity parity)
+{
+	ASSERT(descr);
+	_usart_sync_set_parity(&descr->device, parity);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart stop bits
+ */
+int32_t usart_sync_set_stopbits(struct usart_sync_descriptor *const descr, const enum usart_stop_bits stop_bits)
+{
+	ASSERT(descr);
+	_usart_sync_set_stop_bits(&descr->device, stop_bits);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set usart character size
+ */
+int32_t usart_sync_set_character_size(struct usart_sync_descriptor *const descr, const enum usart_character_size size)
+{
+	ASSERT(descr);
+	_usart_sync_set_character_size(&descr->device, size);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve the state of flow control pins
+ */
+int32_t usart_sync_flow_control_status(const struct usart_sync_descriptor *const descr,
+                                       union usart_flow_control_state *const     state)
+{
+	ASSERT(descr && state);
+	*state = _usart_sync_get_flow_control_state(&descr->device);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Check if the usart transmitter is empty
+ */
+int32_t usart_sync_is_tx_empty(const struct usart_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	return _usart_sync_is_ready_to_send(&descr->device);
+}
+
+/**
+ * \brief Check if the usart receiver is not empty
+ */
+int32_t usart_sync_is_rx_not_empty(const struct usart_sync_descriptor *const descr)
+{
+	ASSERT(descr);
+	return _usart_sync_is_byte_received(&descr->device);
+}
+
+/**
+ * \brief Retrieve the current driver version
+ */
+uint32_t usart_sync_get_version(void)
+{
+	return DRIVER_VERSION;
+}
+
+/*
+ * \internal Write the given data to usart interface
+ *
+ * \param[in] descr The pointer to an io descriptor
+ * \param[in] buf Data to write to usart
+ * \param[in] length The number of bytes to write
+ *
+ * \return The number of bytes written.
+ */
+static int32_t usart_sync_write(struct io_descriptor *const io_descr, const uint8_t *const buf, const uint16_t length)
+{
+	uint32_t                      offset = 0;
+	struct usart_sync_descriptor *descr  = CONTAINER_OF(io_descr, struct usart_sync_descriptor, io);
+
+	ASSERT(io_descr && buf && length);
+	while (!_usart_sync_is_ready_to_send(&descr->device))
+		;
+	do {
+		_usart_sync_write_byte(&descr->device, buf[offset]);
+		while (!_usart_sync_is_ready_to_send(&descr->device))
+			;
+	} while (++offset < length);
+	while (!_usart_sync_is_transmit_done(&descr->device))
+		;
+	return (int32_t)offset;
+}
+
+/*
+ * \internal Read data from usart interface
+ *
+ * \param[in] descr The pointer to an io descriptor
+ * \param[in] buf A buffer to read data to
+ * \param[in] length The size of a buffer
+ *
+ * \return The number of bytes read.
+ */
+static int32_t usart_sync_read(struct io_descriptor *const io_descr, uint8_t *const buf, const uint16_t length)
+{
+	uint32_t                      offset = 0;
+	struct usart_sync_descriptor *descr  = CONTAINER_OF(io_descr, struct usart_sync_descriptor, io);
+
+	ASSERT(io_descr && buf && length);
+	do {
+		while (!_usart_sync_is_byte_received(&descr->device))
+			;
+		buf[offset] = _usart_sync_read_byte(&descr->device);
+	} while (++offset < length);
+
+	return (int32_t)offset;
+}
diff --git a/watch-library/hardware/hal/utils/include/compiler.h b/watch-library/hardware/hal/utils/include/compiler.h
new file mode 100644
index 00000000..010b2637
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/compiler.h
@@ -0,0 +1,66 @@
+/**
+ * \file
+ *
+ * \brief Header
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+/*
+ * Support and FAQ: visit <a href="https://www.microchip.com/support/">Microchip Support</a>
+ */
+
+/******************************************************************************
+ * compiler.h
+ *
+ * Created: 05.05.2014
+ * Author: N. Fomin
+ ******************************************************************************/
+
+#ifndef _COMPILER_H
+#define _COMPILER_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stddef.h>
+#include <stdint.h>
+#include <stdbool.h>
+
+#ifndef __EMSCRIPTEN__
+#ifndef _UNIT_TEST_
+#include "parts.h"
+#endif
+#endif
+#include "err_codes.h"
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _COMPILER_H */
diff --git a/watch-library/hardware/hal/utils/include/err_codes.h b/watch-library/hardware/hal/utils/include/err_codes.h
new file mode 100644
index 00000000..a7aff018
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/err_codes.h
@@ -0,0 +1,73 @@
+/**
+ * \file
+ *
+ * \brief Error code definitions.
+ *
+ * This file defines various status codes returned by functions,
+ * indicating success or failure as well as what kind of failure.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef ERROR_CODES_H_INCLUDED
+#define ERROR_CODES_H_INCLUDED
+
+#define ERR_NONE 0
+#define ERR_INVALID_DATA -1
+#define ERR_NO_CHANGE -2
+#define ERR_ABORTED -3
+#define ERR_BUSY -4
+#define ERR_SUSPEND -5
+#define ERR_IO -6
+#define ERR_REQ_FLUSHED -7
+#define ERR_TIMEOUT -8
+#define ERR_BAD_DATA -9
+#define ERR_NOT_FOUND -10
+#define ERR_UNSUPPORTED_DEV -11
+#define ERR_NO_MEMORY -12
+#define ERR_INVALID_ARG -13
+#define ERR_BAD_ADDRESS -14
+#define ERR_BAD_FORMAT -15
+#define ERR_BAD_FRQ -16
+#define ERR_DENIED -17
+#define ERR_ALREADY_INITIALIZED -18
+#define ERR_OVERFLOW -19
+#define ERR_NOT_INITIALIZED -20
+#define ERR_SAMPLERATE_UNAVAILABLE -21
+#define ERR_RESOLUTION_UNAVAILABLE -22
+#define ERR_BAUDRATE_UNAVAILABLE -23
+#define ERR_PACKET_COLLISION -24
+#define ERR_PROTOCOL -25
+#define ERR_PIN_MUX_INVALID -26
+#define ERR_UNSUPPORTED_OP -27
+#define ERR_NO_RESOURCE -28
+#define ERR_NOT_READY -29
+#define ERR_FAILURE -30
+#define ERR_WRONG_LENGTH -31
+
+#endif
diff --git a/watch-library/hardware/hal/utils/include/events.h b/watch-library/hardware/hal/utils/include/events.h
new file mode 100644
index 00000000..3ee891a7
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/events.h
@@ -0,0 +1,54 @@
+/**
+ * \file
+ *
+ * \brief Events declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _EVENTS_H_INCLUDED
+#define _EVENTS_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <compiler.h>
+
+/**
+ * \brief List of events. Must start with 0, be unique and follow numerical order.
+ */
+#define EVENT_IS_READY_TO_SLEEP_ID 0
+#define EVENT_PREPARE_TO_SLEEP_ID 1
+#define EVENT_WOKEN_UP_ID 2
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _EVENTS_H_INCLUDED */
diff --git a/watch-library/hardware/hal/utils/include/parts.h b/watch-library/hardware/hal/utils/include/parts.h
new file mode 100644
index 00000000..df30040f
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/parts.h
@@ -0,0 +1,41 @@
+/**
+ * \file
+ *
+ * \brief Atmel part identification macros
+ *
+ * Copyright (c) 2015-2019 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef ATMEL_PARTS_H
+#define ATMEL_PARTS_H
+
+#include "saml22.h"
+
+#include "hri_l22.h"
+
+#endif /* ATMEL_PARTS_H */
diff --git a/watch-library/hardware/hal/utils/include/utils.h b/watch-library/hardware/hal/utils/include/utils.h
new file mode 100644
index 00000000..1cf26996
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils.h
@@ -0,0 +1,368 @@
+/**
+ * \file
+ *
+ * \brief Different macros.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef UTILS_H_INCLUDED
+#define UTILS_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_utils_macro
+ *
+ * @{
+ */
+
+/**
+ * \brief Retrieve pointer to parent structure
+ */
+#define CONTAINER_OF(ptr, type, field_name) ((type *)(((uint8_t *)ptr) - offsetof(type, field_name)))
+
+/**
+ * \brief Retrieve array size
+ */
+#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a)[0]))
+
+/**
+ * \brief Emit the compiler pragma \a arg.
+ *
+ * \param[in] arg  The pragma directive as it would appear after \e \#pragma
+ *             (i.e. not stringified).
+ */
+#define COMPILER_PRAGMA(arg) _Pragma(#arg)
+
+/**
+ * \def COMPILER_PACK_SET(alignment)
+ * \brief Set maximum alignment for subsequent struct and union definitions to \a alignment.
+ */
+#define COMPILER_PACK_SET(alignment) COMPILER_PRAGMA(pack(alignment))
+
+/**
+ * \def COMPILER_PACK_RESET()
+ * \brief Set default alignment for subsequent struct and union definitions.
+ */
+#define COMPILER_PACK_RESET() COMPILER_PRAGMA(pack())
+
+/**
+ * \brief Set aligned boundary.
+ */
+#if defined __GNUC__
+#define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
+#elif defined __ICCARM__
+#define COMPILER_ALIGNED(a) COMPILER_PRAGMA(data_alignment = a)
+#elif defined __CC_ARM
+#define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
+#endif
+
+/**
+ * \brief Flash located data macros
+ */
+#if defined __GNUC__
+#define PROGMEM_DECLARE(type, name) const type name
+#define PROGMEM_T const
+#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
+#define PROGMEM_PTR_T const *
+#define PROGMEM_STRING_T const uint8_t *
+#elif defined __ICCARM__
+#define PROGMEM_DECLARE(type, name) const type name
+#define PROGMEM_T const
+#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
+#define PROGMEM_PTR_T const *
+#define PROGMEM_STRING_T const uint8_t *
+#elif defined __CC_ARM
+#define PROGMEM_DECLARE(type, name) const type name
+#define PROGMEM_T const
+#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
+#define PROGMEM_PTR_T const *
+#define PROGMEM_STRING_T const uint8_t *
+#endif
+
+/**
+ * \brief Optimization
+ */
+#if defined __GNUC__
+#define OPTIMIZE_HIGH __attribute__((optimize(s)))
+#elif defined __CC_ARM
+#define OPTIMIZE_HIGH _Pragma("O3")
+#elif defined __ICCARM__
+#define OPTIMIZE_HIGH _Pragma("optimize=high")
+#endif
+
+/**
+ * \brief RAM located function attribute
+ */
+#if defined(__CC_ARM) /* Keil ?Vision 4 */
+#define RAMFUNC __attribute__((section(".ramfunc")))
+#elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
+#define RAMFUNC __ramfunc
+#elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
+#define RAMFUNC __attribute__((section(".ramfunc")))
+#endif
+
+/**
+ * \brief No-init section.
+ * Place a data object or a function in a no-init section.
+ */
+#if defined(__CC_ARM)
+#define NO_INIT(a) __attribute__((zero_init))
+#elif defined(__ICCARM__)
+#define NO_INIT(a) __no_init
+#elif defined(__GNUC__)
+#define NO_INIT(a) __attribute__((section(".no_init")))
+#endif
+
+/**
+ * \brief Set user-defined section.
+ * Place a data object or a function in a user-defined section.
+ */
+#if defined(__CC_ARM)
+#define COMPILER_SECTION(a) __attribute__((__section__(a)))
+#elif defined(__ICCARM__)
+#define COMPILER_SECTION(a) COMPILER_PRAGMA(location = a)
+#elif defined(__GNUC__)
+#define COMPILER_SECTION(a) __attribute__((__section__(a)))
+#endif
+
+/**
+ * \brief Define WEAK attribute.
+ */
+#if defined(__CC_ARM) /* Keil ?Vision 4 */
+#define WEAK __attribute__((weak))
+#elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
+#define WEAK __weak
+#elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
+#define WEAK __attribute__((weak))
+#endif
+
+/**
+ * \brief Pointer to function
+ */
+typedef void (*FUNC_PTR)(void);
+
+#define LE_BYTE0(a) ((uint8_t)(a))
+#define LE_BYTE1(a) ((uint8_t)((a) >> 8))
+#define LE_BYTE2(a) ((uint8_t)((a) >> 16))
+#define LE_BYTE3(a) ((uint8_t)((a) >> 24))
+
+#define LE_2_U16(p) ((p)[0] + ((p)[1] << 8))
+#define LE_2_U32(p) ((p)[0] + ((p)[1] << 8) + ((p)[2] << 16) + ((p)[3] << 24))
+
+/** \name Zero-Bit Counting
+ *
+ * Under GCC, __builtin_clz and __builtin_ctz behave like macros when
+ * applied to constant expressions (values known at compile time), so they are
+ * more optimized than the use of the corresponding assembly instructions and
+ * they can be used as constant expressions e.g. to initialize objects having
+ * static storage duration, and like the corresponding assembly instructions
+ * when applied to non-constant expressions (values unknown at compile time), so
+ * they are more optimized than an assembly periphrasis. Hence, clz and ctz
+ * ensure a possible and optimized behavior for both constant and non-constant
+ * expressions.
+ *
+ * @{ */
+
+/** \brief Counts the leading zero bits of the given value considered as a 32-bit integer.
+ *
+ * \param[in] u Value of which to count the leading zero bits.
+ *
+ * \return The count of leading zero bits in \a u.
+ */
+#if (defined __GNUC__) || (defined __CC_ARM)
+#define clz(u) __builtin_clz(u)
+#else
+#define clz(u)                                                                                                                                                                                                                                                                                                                                                                                     \
+	(                                                                                                                                                                                                                                                                                                                                                                                              \
+	    ((u) == 0)                                                                                                                                                                                                                                                                                                                                                                                 \
+	        ? 32                                                                                                                                                                                                                                                                                                                                                                                   \
+	        : ((u) & (1ul << 31))                                                                                                                                                                                                                                                                                                                                                                  \
+	              ? 0                                                                                                                                                                                                                                                                                                                                                                              \
+	              : ((u) & (1ul << 30))                                                                                                                                                                                                                                                                                                                                                            \
+	                    ? 1                                                                                                                                                                                                                                                                                                                                                                        \
+	                    : ((u) & (1ul << 29))                                                                                                                                                                                                                                                                                                                                                      \
+	                          ? 2                                                                                                                                                                                                                                                                                                                                                                  \
+	                          : ((u) & (1ul << 28))                                                                                                                                                                                                                                                                                                                                                \
+	                                ? 3                                                                                                                                                                                                                                                                                                                                                            \
+	                                : ((u) & (1ul << 27))                                                                                                                                                                                                                                                                                                                                          \
+	                                      ? 4                                                                                                                                                                                                                                                                                                                                                      \
+	                                      : ((u) & (1ul << 26))                                                                                                                                                                                                                                                                                                                                    \
+	                                            ? 5                                                                                                                                                                                                                                                                                                                                                \
+	                                            : ((u) & (1ul << 25))                                                                                                                                                                                                                                                                                                                              \
+	                                                  ? 6                                                                                                                                                                                                                                                                                                                                          \
+	                                                  : ((u) & (1ul << 24))                                                                                                                                                                                                                                                                                                                        \
+	                                                        ? 7                                                                                                                                                                                                                                                                                                                                    \
+	                                                        : ((u) & (1ul << 23))                                                                                                                                                                                                                                                                                                                  \
+	                                                              ? 8                                                                                                                                                                                                                                                                                                                              \
+	                                                              : ((u) & (1ul << 22))                                                                                                                                                                                                                                                                                                            \
+	                                                                    ? 9                                                                                                                                                                                                                                                                                                                        \
+	                                                                    : ((u) & (1ul << 21))                                                                                                                                                                                                                                                                                                      \
+	                                                                          ? 10                                                                                                                                                                                                                                                                                                                 \
+	                                                                          : ((u) & (1ul << 20))                                                                                                                                                                                                                                                                                                \
+	                                                                                ? 11                                                                                                                                                                                                                                                                                                           \
+	                                                                                : ((u) & (1ul << 19))                                                                                                                                                                                                                                                                                          \
+	                                                                                      ? 12                                                                                                                                                                                                                                                                                                     \
+	                                                                                      : ((u) & (1ul << 18))                                                                                                                                                                                                                                                                                    \
+	                                                                                            ? 13                                                                                                                                                                                                                                                                                               \
+	                                                                                            : ((u) & (1ul << 17)) ? 14                                                                                                                                                                                                                                                                         \
+	                                                                                                                  : ((u) & (1ul << 16)) ? 15                                                                                                                                                                                                                                                   \
+	                                                                                                                                        : ((u) & (1ul << 15)) ? 16                                                                                                                                                                                                                             \
+	                                                                                                                                                              : ((u) & (1ul << 14)) ? 17                                                                                                                                                                                                       \
+	                                                                                                                                                                                    : ((u) & (1ul << 13)) ? 18                                                                                                                                                                                 \
+	                                                                                                                                                                                                          : ((u) & (1ul << 12)) ? 19                                                                                                                                                           \
+	                                                                                                                                                                                                                                : ((u)                                                                                                                                                         \
+	                                                                                                                                                                                                                                   & (1ul                                                                                                                                                      \
+	                                                                                                                                                                                                                                      << 11))                                                                                                                                                  \
+	                                                                                                                                                                                                                                      ? 20                                                                                                                                                     \
+	                                                                                                                                                                                                                                      : ((u)                                                                                                                                                   \
+	                                                                                                                                                                                                                                         & (1ul                                                                                                                                                \
+	                                                                                                                                                                                                                                            << 10))                                                                                                                                            \
+	                                                                                                                                                                                                                                            ? 21                                                                                                                                               \
+	                                                                                                                                                                                                                                            : ((u)                                                                                                                                             \
+	                                                                                                                                                                                                                                               & (1ul                                                                                                                                          \
+	                                                                                                                                                                                                                                                  << 9))                                                                                                                                       \
+	                                                                                                                                                                                                                                                  ? 22                                                                                                                                         \
+	                                                                                                                                                                                                                                                  : ((u)                                                                                                                                       \
+	                                                                                                                                                                                                                                                     & (1ul                                                                                                                                    \
+	                                                                                                                                                                                                                                                        << 8))                                                                                                                                 \
+	                                                                                                                                                                                                                                                        ? 23                                                                                                                                   \
+	                                                                                                                                                                                                                                                        : ((u) & (1ul << 7)) ? 24                                                                                                              \
+	                                                                                                                                                                                                                                                                             : ((u) & (1ul << 6)) ? 25                                                                                         \
+	                                                                                                                                                                                                                                                                                                  : ((u)                                                                                       \
+	                                                                                                                                                                                                                                                                                                     & (1ul                                                                                    \
+	                                                                                                                                                                                                                                                                                                        << 5))                                                                                 \
+	                                                                                                                                                                                                                                                                                                        ? 26                                                                                   \
+	                                                                                                                                                                                                                                                                                                        : ((u) & (1ul << 4)) ? 27                                                              \
+	                                                                                                                                                                                                                                                                                                                             : ((u) & (1ul << 3)) ? 28                                         \
+	                                                                                                                                                                                                                                                                                                                                                  : ((u) & (1ul << 2)) ? 29                    \
+	                                                                                                                                                                                                                                                                                                                                                                       : (                     \
+	                                                                                                                                                                                                                                                                                                                                                                             (u) & (1ul << 1)) \
+	                                                                                                                                                                                                                                                                                                                                                                             ? 30              \
+	                                                                                                                                                                                                                                                                                                                                                                             : 31)
+#endif
+
+/** \brief Counts the trailing zero bits of the given value considered as a 32-bit integer.
+ *
+ * \param[in] u Value of which to count the trailing zero bits.
+ *
+ * \return The count of trailing zero bits in \a u.
+ */
+#if (defined __GNUC__) || (defined __CC_ARM)
+#define ctz(u) __builtin_ctz(u)
+#else
+#define ctz(u)                                                                                                                                                                                                                                                                                                   \
+	(                                                                                                                                                                                                                                                                                                            \
+	    (u) & (1ul << 0)                                                                                                                                                                                                                                                                                         \
+	        ? 0                                                                                                                                                                                                                                                                                                  \
+	        : (u) & (1ul << 1)                                                                                                                                                                                                                                                                                   \
+	              ? 1                                                                                                                                                                                                                                                                                            \
+	              : (u) & (1ul << 2)                                                                                                                                                                                                                                                                             \
+	                    ? 2                                                                                                                                                                                                                                                                                      \
+	                    : (u) & (1ul << 3)                                                                                                                                                                                                                                                                       \
+	                          ? 3                                                                                                                                                                                                                                                                                \
+	                          : (u) & (1ul << 4)                                                                                                                                                                                                                                                                 \
+	                                ? 4                                                                                                                                                                                                                                                                          \
+	                                : (u) & (1ul << 5)                                                                                                                                                                                                                                                           \
+	                                      ? 5                                                                                                                                                                                                                                                                    \
+	                                      : (u) & (1ul << 6)                                                                                                                                                                                                                                                     \
+	                                            ? 6                                                                                                                                                                                                                                                              \
+	                                            : (u) & (1ul << 7)                                                                                                                                                                                                                                               \
+	                                                  ? 7                                                                                                                                                                                                                                                        \
+	                                                  : (u) & (1ul << 8)                                                                                                                                                                                                                                         \
+	                                                        ? 8                                                                                                                                                                                                                                                  \
+	                                                        : (u) & (1ul << 9)                                                                                                                                                                                                                                   \
+	                                                              ? 9                                                                                                                                                                                                                                            \
+	                                                              : (u) & (1ul << 10)                                                                                                                                                                                                                            \
+	                                                                    ? 10                                                                                                                                                                                                                                     \
+	                                                                    : (u) & (1ul << 11)                                                                                                                                                                                                                      \
+	                                                                          ? 11                                                                                                                                                                                                                               \
+	                                                                          : (u) & (1ul << 12)                                                                                                                                                                                                                \
+	                                                                                ? 12                                                                                                                                                                                                                         \
+	                                                                                : (u) & (1ul << 13)                                                                                                                                                                                                          \
+	                                                                                      ? 13                                                                                                                                                                                                                   \
+	                                                                                      : (u) & (1ul << 14)                                                                                                                                                                                                    \
+	                                                                                            ? 14                                                                                                                                                                                                             \
+	                                                                                            : (u) & (1ul << 15)                                                                                                                                                                                              \
+	                                                                                                  ? 15                                                                                                                                                                                                       \
+	                                                                                                  : (u) & (1ul << 16)                                                                                                                                                                                        \
+	                                                                                                        ? 16                                                                                                                                                                                                 \
+	                                                                                                        : (u) & (1ul << 17)                                                                                                                                                                                  \
+	                                                                                                              ? 17                                                                                                                                                                                           \
+	                                                                                                              : (u) & (1ul << 18)                                                                                                                                                                            \
+	                                                                                                                    ? 18                                                                                                                                                                                     \
+	                                                                                                                    : (u) & (1ul << 19) ? 19                                                                                                                                                                 \
+	                                                                                                                                        : (u) & (1ul << 20) ? 20                                                                                                                                             \
+	                                                                                                                                                            : (u) & (1ul << 21) ? 21                                                                                                                         \
+	                                                                                                                                                                                : (u) & (1ul << 22) ? 22                                                                                                     \
+	                                                                                                                                                                                                    : (u) & (1ul << 23) ? 23                                                                                 \
+	                                                                                                                                                                                                                        : (u) & (1ul << 24) ? 24                                                             \
+	                                                                                                                                                                                                                                            : (u) & (1ul << 25) ? 25                                         \
+	                                                                                                                                                                                                                                                                : (u) & (1ul << 26) ? 26                     \
+	                                                                                                                                                                                                                                                                                    : (u) & (1ul << 27) ? 27 \
+	                                                                                                                                                                                                                                                                                                        : (u) & (1ul << 28) ? 28 : (u) & (1ul << 29) ? 29 : (u) & (1ul << 30) ? 30 : (u) & (1ul << 31) ? 31 : 32)
+#endif
+/** @} */
+
+/**
+ * \brief Counts the number of bits in a mask (no more than 32 bits)
+ * \param[in] mask Mask of which to count the bits.
+ */
+#define size_of_mask(mask) (32 - clz(mask) - ctz(mask))
+
+/**
+ * \brief Retrieve the start position of bits mask (no more than 32 bits)
+ * \param[in] mask Mask of which to retrieve the start position.
+ */
+#define pos_of_mask(mask) ctz(mask)
+
+/**
+ * \brief Return division result of a/b and round up the result to the closest
+ *        number divisible by "b"
+ */
+#define round_up(a, b) (((a)-1) / (b) + 1)
+
+/**
+ * \brief Get the minimum of x and y
+ */
+#define min(x, y) ((x) > (y) ? (y) : (x))
+
+/**
+ * \brief Get the maximum of x and y
+ */
+#define max(x, y) ((x) > (y) ? (x) : (y))
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* UTILS_H_INCLUDED */
diff --git a/watch-library/hardware/hal/utils/include/utils_assert.h b/watch-library/hardware/hal/utils/include/utils_assert.h
new file mode 100644
index 00000000..c2328d6c
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_assert.h
@@ -0,0 +1,93 @@
+/**
+ * \file
+ *
+ * \brief Asserts related functionality.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _ASSERT_H_INCLUDED
+#define _ASSERT_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <compiler.h>
+
+#ifndef USE_SIMPLE_ASSERT
+//# define USE_SIMPLE_ASSERT
+#endif
+
+/**
+ * \brief Assert macro
+ *
+ * This macro is used to throw asserts. It can be mapped to different function
+ * based on debug level.
+ *
+ * \param[in] condition A condition to be checked;
+ *                      assert is thrown if the given condition is false
+ */
+#define ASSERT(condition) ASSERT_IMPL((condition), __FILE__, __LINE__)
+
+#ifdef DEBUG
+
+#ifdef USE_SIMPLE_ASSERT
+#define ASSERT_IMPL(condition, file, line)                                                                             \
+	if (!(condition))                                                                                                  \
+		__asm("BKPT #0");
+#else
+#define ASSERT_IMPL(condition, file, line) assert((condition), file, line)
+#endif
+
+#else /* DEBUG */
+
+#ifdef USE_SIMPLE_ASSERT
+#define ASSERT_IMPL(condition, file, line) ((void)0)
+#else
+#define ASSERT_IMPL(condition, file, line) ((void)0)
+#endif
+
+#endif /* DEBUG */
+
+/**
+ * \brief Assert function
+ *
+ * This function is used to throw asserts.
+ *
+ * \param[in] condition A condition to be checked; assert is thrown if the given
+ *                      condition is false
+ * \param[in] file File name
+ * \param[in] line Line number
+ */
+void assert(const bool condition, const char *const file, const int line);
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* _ASSERT_H_INCLUDED */
diff --git a/watch-library/hardware/hal/utils/include/utils_decrement_macro.h b/watch-library/hardware/hal/utils/include/utils_decrement_macro.h
new file mode 100644
index 00000000..2b524699
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_decrement_macro.h
@@ -0,0 +1,309 @@
+/**
+ * \file
+ *
+ * \brief Decrement macro.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_DECREMENT_MACRO_H
+#define _UTILS_DECREMENT_MACRO_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Compile time decrement, result value is entire integer literal
+ *
+ * \param[in] val - value to be decremented
+ */
+#define DEC_VALUE(val) DEC_##val
+
+// Preprocessor increment implementation
+#define DEC_256 255
+#define DEC_255 254
+#define DEC_254 253
+#define DEC_253 252
+#define DEC_252 251
+#define DEC_251 250
+#define DEC_250 249
+#define DEC_249 248
+#define DEC_248 247
+#define DEC_247 246
+#define DEC_246 245
+#define DEC_245 244
+#define DEC_244 243
+#define DEC_243 242
+#define DEC_242 241
+#define DEC_241 240
+#define DEC_240 239
+#define DEC_239 238
+#define DEC_238 237
+#define DEC_237 236
+#define DEC_236 235
+#define DEC_235 234
+#define DEC_234 233
+#define DEC_233 232
+#define DEC_232 231
+#define DEC_231 230
+#define DEC_230 229
+#define DEC_229 228
+#define DEC_228 227
+#define DEC_227 226
+#define DEC_226 225
+#define DEC_225 224
+#define DEC_224 223
+#define DEC_223 222
+#define DEC_222 221
+#define DEC_221 220
+#define DEC_220 219
+#define DEC_219 218
+#define DEC_218 217
+#define DEC_217 216
+#define DEC_216 215
+#define DEC_215 214
+#define DEC_214 213
+#define DEC_213 212
+#define DEC_212 211
+#define DEC_211 210
+#define DEC_210 209
+#define DEC_209 208
+#define DEC_208 207
+#define DEC_207 206
+#define DEC_206 205
+#define DEC_205 204
+#define DEC_204 203
+#define DEC_203 202
+#define DEC_202 201
+#define DEC_201 200
+#define DEC_200 199
+#define DEC_199 198
+#define DEC_198 197
+#define DEC_197 196
+#define DEC_196 195
+#define DEC_195 194
+#define DEC_194 193
+#define DEC_193 192
+#define DEC_192 191
+#define DEC_191 190
+#define DEC_190 189
+#define DEC_189 188
+#define DEC_188 187
+#define DEC_187 186
+#define DEC_186 185
+#define DEC_185 184
+#define DEC_184 183
+#define DEC_183 182
+#define DEC_182 181
+#define DEC_181 180
+#define DEC_180 179
+#define DEC_179 178
+#define DEC_178 177
+#define DEC_177 176
+#define DEC_176 175
+#define DEC_175 174
+#define DEC_174 173
+#define DEC_173 172
+#define DEC_172 171
+#define DEC_171 170
+#define DEC_170 169
+#define DEC_169 168
+#define DEC_168 167
+#define DEC_167 166
+#define DEC_166 165
+#define DEC_165 164
+#define DEC_164 163
+#define DEC_163 162
+#define DEC_162 161
+#define DEC_161 160
+#define DEC_160 159
+#define DEC_159 158
+#define DEC_158 157
+#define DEC_157 156
+#define DEC_156 155
+#define DEC_155 154
+#define DEC_154 153
+#define DEC_153 152
+#define DEC_152 151
+#define DEC_151 150
+#define DEC_150 149
+#define DEC_149 148
+#define DEC_148 147
+#define DEC_147 146
+#define DEC_146 145
+#define DEC_145 144
+#define DEC_144 143
+#define DEC_143 142
+#define DEC_142 141
+#define DEC_141 140
+#define DEC_140 139
+#define DEC_139 138
+#define DEC_138 137
+#define DEC_137 136
+#define DEC_136 135
+#define DEC_135 134
+#define DEC_134 133
+#define DEC_133 132
+#define DEC_132 131
+#define DEC_131 130
+#define DEC_130 129
+#define DEC_129 128
+#define DEC_128 127
+#define DEC_127 126
+#define DEC_126 125
+#define DEC_125 124
+#define DEC_124 123
+#define DEC_123 122
+#define DEC_122 121
+#define DEC_121 120
+#define DEC_120 119
+#define DEC_119 118
+#define DEC_118 117
+#define DEC_117 116
+#define DEC_116 115
+#define DEC_115 114
+#define DEC_114 113
+#define DEC_113 112
+#define DEC_112 111
+#define DEC_111 110
+#define DEC_110 109
+#define DEC_109 108
+#define DEC_108 107
+#define DEC_107 106
+#define DEC_106 105
+#define DEC_105 104
+#define DEC_104 103
+#define DEC_103 102
+#define DEC_102 101
+#define DEC_101 100
+#define DEC_100 99
+#define DEC_99 98
+#define DEC_98 97
+#define DEC_97 96
+#define DEC_96 95
+#define DEC_95 94
+#define DEC_94 93
+#define DEC_93 92
+#define DEC_92 91
+#define DEC_91 90
+#define DEC_90 89
+#define DEC_89 88
+#define DEC_88 87
+#define DEC_87 86
+#define DEC_86 85
+#define DEC_85 84
+#define DEC_84 83
+#define DEC_83 82
+#define DEC_82 81
+#define DEC_81 80
+#define DEC_80 79
+#define DEC_79 78
+#define DEC_78 77
+#define DEC_77 76
+#define DEC_76 75
+#define DEC_75 74
+#define DEC_74 73
+#define DEC_73 72
+#define DEC_72 71
+#define DEC_71 70
+#define DEC_70 69
+#define DEC_69 68
+#define DEC_68 67
+#define DEC_67 66
+#define DEC_66 65
+#define DEC_65 64
+#define DEC_64 63
+#define DEC_63 62
+#define DEC_62 61
+#define DEC_61 60
+#define DEC_60 59
+#define DEC_59 58
+#define DEC_58 57
+#define DEC_57 56
+#define DEC_56 55
+#define DEC_55 54
+#define DEC_54 53
+#define DEC_53 52
+#define DEC_52 51
+#define DEC_51 50
+#define DEC_50 49
+#define DEC_49 48
+#define DEC_48 47
+#define DEC_47 46
+#define DEC_46 45
+#define DEC_45 44
+#define DEC_44 43
+#define DEC_43 42
+#define DEC_42 41
+#define DEC_41 40
+#define DEC_40 39
+#define DEC_39 38
+#define DEC_38 37
+#define DEC_37 36
+#define DEC_36 35
+#define DEC_35 34
+#define DEC_34 33
+#define DEC_33 32
+#define DEC_32 31
+#define DEC_31 30
+#define DEC_30 29
+#define DEC_29 28
+#define DEC_28 27
+#define DEC_27 26
+#define DEC_26 25
+#define DEC_25 24
+#define DEC_24 23
+#define DEC_23 22
+#define DEC_22 21
+#define DEC_21 20
+#define DEC_20 19
+#define DEC_19 18
+#define DEC_18 17
+#define DEC_17 16
+#define DEC_16 15
+#define DEC_15 14
+#define DEC_14 13
+#define DEC_13 12
+#define DEC_12 11
+#define DEC_11 10
+#define DEC_10 9
+#define DEC_9 8
+#define DEC_8 7
+#define DEC_7 6
+#define DEC_6 5
+#define DEC_5 4
+#define DEC_4 3
+#define DEC_3 2
+#define DEC_2 1
+#define DEC_1 0
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* _UTILS_DECREMENT_MACRO_H */
diff --git a/watch-library/hardware/hal/utils/include/utils_event.h b/watch-library/hardware/hal/utils/include/utils_event.h
new file mode 100644
index 00000000..13067c4f
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_event.h
@@ -0,0 +1,115 @@
+/**
+ * \file
+ *
+ * \brief Events declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_EVENT_H_INCLUDED
+#define _UTILS_EVENT_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <utils.h>
+#include <utils_list.h>
+#include <events.h>
+
+/**
+ * \brief The maximum amount of events
+ */
+#define EVENT_MAX_AMOUNT 8
+
+/**
+ * \brief The size of event mask used, it is EVENT_MAX_AMOUNT rounded up to the
+ *        closest number divisible by 8.
+ */
+#define EVENT_MASK_SIZE (round_up(EVENT_MAX_AMOUNT, 8))
+
+/**
+ * \brief The type of event ID. IDs should start with 0 and be in numerical order.
+ */
+typedef uint8_t event_id_t;
+
+/**
+ * \brief The type of returned parameter. This type is big enough to contain
+ *        pointer to data on any platform.
+ */
+typedef uintptr_t event_data_t;
+
+/**
+ * \brief The type of returned parameter. This type is big enough to contain
+ *        pointer to data on any platform.
+ */
+typedef void (*event_cb_t)(event_id_t id, event_data_t data);
+
+/**
+ * \brief Event structure
+ */
+struct event {
+	struct list_element elem;                  /*! The pointer to next event */
+	uint8_t             mask[EVENT_MASK_SIZE]; /*! Mask of event IDs callback is called for */
+	event_cb_t          cb;                    /*! Callback to be called when an event occurs */
+};
+
+/**
+ * \brief Subscribe to event
+ *
+ * \param[in] event The pointer to event structure
+ * \param[in] id The event ID to subscribe to
+ * \param[in] cb The callback function to call when the given event occurs
+ *
+ * \return The status of subscription
+ */
+int32_t event_subscribe(struct event *const event, const event_id_t id, event_cb_t cb);
+
+/**
+ * \brief Remove event from subscription
+ *
+ * \param[in] event The pointer to event structure
+ * \param[in] id The event ID to remove subscription from
+ *
+ * \return The status of subscription removing
+ */
+int32_t event_unsubscribe(struct event *const event, const event_id_t id);
+
+/**
+ * \brief Post event
+ *
+ * \param[in] id The event ID to post
+ * \param[in] data The event data to be passed to event subscribers
+ */
+void event_post(const event_id_t id, const event_data_t data);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _UTILS_EVENT_H_INCLUDED */
diff --git a/watch-library/hardware/hal/utils/include/utils_increment_macro.h b/watch-library/hardware/hal/utils/include/utils_increment_macro.h
new file mode 100644
index 00000000..464c6cbb
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_increment_macro.h
@@ -0,0 +1,308 @@
+/**
+ * \file
+ *
+ * \brief Increment macro.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_INCREMENT_MACRO_H
+#define _UTILS_INCREMENT_MACRO_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \brief Compile time increment, result value is entire integer literal
+ *
+ * \param[in] val - value to be incremented (254 max)
+ */
+#define INC_VALUE(val) SP_INC_##val
+
+// Preprocessor increment implementation
+#define SP_INC_0 1
+#define SP_INC_1 2
+#define SP_INC_2 3
+#define SP_INC_3 4
+#define SP_INC_4 5
+#define SP_INC_5 6
+#define SP_INC_6 7
+#define SP_INC_7 8
+#define SP_INC_8 9
+#define SP_INC_9 10
+#define SP_INC_10 11
+#define SP_INC_11 12
+#define SP_INC_12 13
+#define SP_INC_13 14
+#define SP_INC_14 15
+#define SP_INC_15 16
+#define SP_INC_16 17
+#define SP_INC_17 18
+#define SP_INC_18 19
+#define SP_INC_19 20
+#define SP_INC_20 21
+#define SP_INC_21 22
+#define SP_INC_22 23
+#define SP_INC_23 24
+#define SP_INC_24 25
+#define SP_INC_25 26
+#define SP_INC_26 27
+#define SP_INC_27 28
+#define SP_INC_28 29
+#define SP_INC_29 30
+#define SP_INC_30 31
+#define SP_INC_31 32
+#define SP_INC_32 33
+#define SP_INC_33 34
+#define SP_INC_34 35
+#define SP_INC_35 36
+#define SP_INC_36 37
+#define SP_INC_37 38
+#define SP_INC_38 39
+#define SP_INC_39 40
+#define SP_INC_40 41
+#define SP_INC_41 42
+#define SP_INC_42 43
+#define SP_INC_43 44
+#define SP_INC_44 45
+#define SP_INC_45 46
+#define SP_INC_46 47
+#define SP_INC_47 48
+#define SP_INC_48 49
+#define SP_INC_49 50
+#define SP_INC_50 51
+#define SP_INC_51 52
+#define SP_INC_52 53
+#define SP_INC_53 54
+#define SP_INC_54 55
+#define SP_INC_55 56
+#define SP_INC_56 57
+#define SP_INC_57 58
+#define SP_INC_58 59
+#define SP_INC_59 60
+#define SP_INC_60 61
+#define SP_INC_61 62
+#define SP_INC_62 63
+#define SP_INC_63 64
+#define SP_INC_64 65
+#define SP_INC_65 66
+#define SP_INC_66 67
+#define SP_INC_67 68
+#define SP_INC_68 69
+#define SP_INC_69 70
+#define SP_INC_70 71
+#define SP_INC_71 72
+#define SP_INC_72 73
+#define SP_INC_73 74
+#define SP_INC_74 75
+#define SP_INC_75 76
+#define SP_INC_76 77
+#define SP_INC_77 78
+#define SP_INC_78 79
+#define SP_INC_79 80
+#define SP_INC_80 81
+#define SP_INC_81 82
+#define SP_INC_82 83
+#define SP_INC_83 84
+#define SP_INC_84 85
+#define SP_INC_85 86
+#define SP_INC_86 87
+#define SP_INC_87 88
+#define SP_INC_88 89
+#define SP_INC_89 90
+#define SP_INC_90 91
+#define SP_INC_91 92
+#define SP_INC_92 93
+#define SP_INC_93 94
+#define SP_INC_94 95
+#define SP_INC_95 96
+#define SP_INC_96 97
+#define SP_INC_97 98
+#define SP_INC_98 99
+#define SP_INC_99 100
+#define SP_INC_100 101
+#define SP_INC_101 102
+#define SP_INC_102 103
+#define SP_INC_103 104
+#define SP_INC_104 105
+#define SP_INC_105 106
+#define SP_INC_106 107
+#define SP_INC_107 108
+#define SP_INC_108 109
+#define SP_INC_109 110
+#define SP_INC_110 111
+#define SP_INC_111 112
+#define SP_INC_112 113
+#define SP_INC_113 114
+#define SP_INC_114 115
+#define SP_INC_115 116
+#define SP_INC_116 117
+#define SP_INC_117 118
+#define SP_INC_118 119
+#define SP_INC_119 120
+#define SP_INC_120 121
+#define SP_INC_121 122
+#define SP_INC_122 123
+#define SP_INC_123 124
+#define SP_INC_124 125
+#define SP_INC_125 126
+#define SP_INC_126 127
+#define SP_INC_127 128
+#define SP_INC_128 129
+#define SP_INC_129 130
+#define SP_INC_130 131
+#define SP_INC_131 132
+#define SP_INC_132 133
+#define SP_INC_133 134
+#define SP_INC_134 135
+#define SP_INC_135 136
+#define SP_INC_136 137
+#define SP_INC_137 138
+#define SP_INC_138 139
+#define SP_INC_139 140
+#define SP_INC_140 141
+#define SP_INC_141 142
+#define SP_INC_142 143
+#define SP_INC_143 144
+#define SP_INC_144 145
+#define SP_INC_145 146
+#define SP_INC_146 147
+#define SP_INC_147 148
+#define SP_INC_148 149
+#define SP_INC_149 150
+#define SP_INC_150 151
+#define SP_INC_151 152
+#define SP_INC_152 153
+#define SP_INC_153 154
+#define SP_INC_154 155
+#define SP_INC_155 156
+#define SP_INC_156 157
+#define SP_INC_157 158
+#define SP_INC_158 159
+#define SP_INC_159 160
+#define SP_INC_160 161
+#define SP_INC_161 162
+#define SP_INC_162 163
+#define SP_INC_163 164
+#define SP_INC_164 165
+#define SP_INC_165 166
+#define SP_INC_166 167
+#define SP_INC_167 168
+#define SP_INC_168 169
+#define SP_INC_169 170
+#define SP_INC_170 171
+#define SP_INC_171 172
+#define SP_INC_172 173
+#define SP_INC_173 174
+#define SP_INC_174 175
+#define SP_INC_175 176
+#define SP_INC_176 177
+#define SP_INC_177 178
+#define SP_INC_178 179
+#define SP_INC_179 180
+#define SP_INC_180 181
+#define SP_INC_181 182
+#define SP_INC_182 183
+#define SP_INC_183 184
+#define SP_INC_184 185
+#define SP_INC_185 186
+#define SP_INC_186 187
+#define SP_INC_187 188
+#define SP_INC_188 189
+#define SP_INC_189 190
+#define SP_INC_190 191
+#define SP_INC_191 192
+#define SP_INC_192 193
+#define SP_INC_193 194
+#define SP_INC_194 195
+#define SP_INC_195 196
+#define SP_INC_196 197
+#define SP_INC_197 198
+#define SP_INC_198 199
+#define SP_INC_199 200
+#define SP_INC_200 201
+#define SP_INC_201 202
+#define SP_INC_202 203
+#define SP_INC_203 204
+#define SP_INC_204 205
+#define SP_INC_205 206
+#define SP_INC_206 207
+#define SP_INC_207 208
+#define SP_INC_208 209
+#define SP_INC_209 210
+#define SP_INC_210 211
+#define SP_INC_211 212
+#define SP_INC_212 213
+#define SP_INC_213 214
+#define SP_INC_214 215
+#define SP_INC_215 216
+#define SP_INC_216 217
+#define SP_INC_217 218
+#define SP_INC_218 219
+#define SP_INC_219 220
+#define SP_INC_220 221
+#define SP_INC_221 222
+#define SP_INC_222 223
+#define SP_INC_223 224
+#define SP_INC_224 225
+#define SP_INC_225 226
+#define SP_INC_226 227
+#define SP_INC_227 228
+#define SP_INC_228 229
+#define SP_INC_229 230
+#define SP_INC_230 231
+#define SP_INC_231 232
+#define SP_INC_232 233
+#define SP_INC_233 234
+#define SP_INC_234 235
+#define SP_INC_235 236
+#define SP_INC_236 237
+#define SP_INC_237 238
+#define SP_INC_238 239
+#define SP_INC_239 240
+#define SP_INC_240 241
+#define SP_INC_241 242
+#define SP_INC_242 243
+#define SP_INC_243 244
+#define SP_INC_244 245
+#define SP_INC_245 246
+#define SP_INC_246 247
+#define SP_INC_247 248
+#define SP_INC_248 249
+#define SP_INC_249 250
+#define SP_INC_250 251
+#define SP_INC_251 252
+#define SP_INC_252 253
+#define SP_INC_253 254
+#define SP_INC_254 255
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* _UTILS_INCREMENT_MACRO_H */
diff --git a/watch-library/hardware/hal/utils/include/utils_list.h b/watch-library/hardware/hal/utils/include/utils_list.h
new file mode 100644
index 00000000..977e8cca
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_list.h
@@ -0,0 +1,164 @@
+/**
+ * \file
+ *
+ * \brief List declaration.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_LIST_H_INCLUDED
+#define _UTILS_LIST_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup doc_driver_hal_utils_list
+ *
+ * @{
+ */
+
+#include <compiler.h>
+
+/**
+ * \brief List element type
+ */
+struct list_element {
+	struct list_element *next;
+};
+
+/**
+ * \brief List head type
+ */
+struct list_descriptor {
+	struct list_element *head;
+};
+
+/**
+ * \brief Reset list
+ *
+ * \param[in] list The pointer to a list descriptor
+ */
+static inline void list_reset(struct list_descriptor *const list)
+{
+	list->head = NULL;
+}
+
+/**
+ * \brief Retrieve list head
+ *
+ * \param[in] list The pointer to a list descriptor
+ *
+ * \return A pointer to the head of the given list or NULL if the list is
+ * empty
+ */
+static inline void *list_get_head(const struct list_descriptor *const list)
+{
+	return (void *)list->head;
+}
+
+/**
+ * \brief Retrieve next list head
+ *
+ * \param[in] list The pointer to a list element
+ *
+ * \return A pointer to the next list element or NULL if there is not next
+ * element
+ */
+static inline void *list_get_next_element(const void *const element)
+{
+	return element ? ((struct list_element *)element)->next : NULL;
+}
+
+/**
+ * \brief Insert an element as list head
+ *
+ * \param[in] list The pointer to a list element
+ * \param[in] element An element to insert to the given list
+ */
+void list_insert_as_head(struct list_descriptor *const list, void *const element);
+
+/**
+ * \brief Insert an element after the given list element
+ *
+ * \param[in] after An element to insert after
+ * \param[in] element Element to insert to the given list
+ */
+void list_insert_after(void *const after, void *const element);
+
+/**
+ * \brief Insert an element at list end
+ *
+ * \param[in] after An element to insert after
+ * \param[in] element Element to insert to the given list
+ */
+void list_insert_at_end(struct list_descriptor *const list, void *const element);
+
+/**
+ * \brief Check whether an element belongs to a list
+ *
+ * \param[in] list The pointer to a list
+ * \param[in] element An element to check
+ *
+ * \return The result of checking
+ * \retval true If the given element is an element of the given list
+ * \retval false Otherwise
+ */
+bool is_list_element(const struct list_descriptor *const list, const void *const element);
+
+/**
+ * \brief Removes list head
+ *
+ * This function removes the list head and sets the next element after the list
+ * head as a new list head.
+ *
+ * \param[in] list The pointer to a list
+ *
+ * \return The pointer to the new list head of NULL if the list head is NULL
+ */
+void *list_remove_head(struct list_descriptor *const list);
+
+/**
+ * \brief Removes the list element
+ *
+ * \param[in] list The pointer to a list
+ * \param[in] element An element to remove
+ *
+ * \return The result of element removing
+ * \retval true The given element is removed from the given list
+ * \retval false The given element is not an element of the given list
+ */
+bool list_delete_element(struct list_descriptor *const list, const void *const element);
+
+/**@}*/
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* _UTILS_LIST_H_INCLUDED */
diff --git a/watch-library/hardware/hal/utils/include/utils_recursion_macro.h b/watch-library/hardware/hal/utils/include/utils_recursion_macro.h
new file mode 100644
index 00000000..294314c4
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_recursion_macro.h
@@ -0,0 +1,69 @@
+/**
+ * \file
+ *
+ * \brief Recursion macro.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_RECURSION_MACRO_H
+#define _UTILS_RECURSION_MACRO_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/*
+ * \brief Macro recursion
+ *
+ * \param[in] macro Macro to be repeated recursively
+ * \param[in] arg A recursive threshold, building on this to decline by times
+ *                defined with parameter n
+ * \param[in] n The number of repetitious calls to macro
+ */
+#define RECURSION_MACRO(macro, arg, n) RECURSION_MACRO_I(macro, arg, n)
+
+/*
+ * \brief Second level is needed to get integer literal from "n" if it is
+ *        defined as macro
+ */
+#define RECURSION_MACRO_I(macro, arg, n) RECURSION##n(macro, arg)
+
+#define RECURSION0(macro, arg)
+#define RECURSION1(macro, arg) RECURSION0(macro, DEC_VALUE(arg)) macro(arg, 0)
+#define RECURSION2(macro, arg) RECURSION1(macro, DEC_VALUE(arg)) macro(arg, 1)
+#define RECURSION3(macro, arg) RECURSION2(macro, DEC_VALUE(arg)) macro(arg, 2)
+#define RECURSION4(macro, arg) RECURSION3(macro, DEC_VALUE(arg)) macro(arg, 3)
+#define RECURSION5(macro, arg) RECURSION4(macro, DEC_VALUE(arg)) macro(arg, 4)
+
+#ifdef __cplusplus
+}
+#endif
+
+#include <utils_decrement_macro.h>
+#endif /* _UTILS_RECURSION_MACRO_H */
diff --git a/watch-library/hardware/hal/utils/include/utils_repeat_macro.h b/watch-library/hardware/hal/utils/include/utils_repeat_macro.h
new file mode 100644
index 00000000..89e6f52d
--- /dev/null
+++ b/watch-library/hardware/hal/utils/include/utils_repeat_macro.h
@@ -0,0 +1,322 @@
+/**
+ * \file
+ *
+ * \brief Repeat macro.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _UTILS_REPEAT_MACRO_H
+#define _UTILS_REPEAT_MACRO_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/*
+ * \brief Sequently repeates specified macro for n times (255 max).
+ *
+ * Specified macro shall have two arguments:  macro(arg, i)
+ *   arg - user defined argument, which have the same value for all iterations.
+ *   i - iteration number; numbering begins from zero and increments on each
+ *   iteration.
+ *
+ * \param[in] macro - macro to be repeated
+ * \param[in] arg - user defined argument for repeated macro
+ * \param[in] n - total number of iterations (255 max)
+ */
+#define REPEAT_MACRO(macro, arg, n) REPEAT_MACRO_I(macro, arg, n)
+
+/*
+ * \brief Second level is needed to get integer literal from "n" if it is
+ *        defined as macro
+ */
+#define REPEAT_MACRO_I(macro, arg, n) REPEAT##n(macro, arg, 0)
+
+#define REPEAT1(macro, arg, n) macro(arg, n)
+#define REPEAT2(macro, arg, n) macro(arg, n) REPEAT1(macro, arg, INC_VALUE(n))
+#define REPEAT3(macro, arg, n) macro(arg, n) REPEAT2(macro, arg, INC_VALUE(n))
+#define REPEAT4(macro, arg, n) macro(arg, n) REPEAT3(macro, arg, INC_VALUE(n))
+#define REPEAT5(macro, arg, n) macro(arg, n) REPEAT4(macro, arg, INC_VALUE(n))
+#define REPEAT6(macro, arg, n) macro(arg, n) REPEAT5(macro, arg, INC_VALUE(n))
+#define REPEAT7(macro, arg, n) macro(arg, n) REPEAT6(macro, arg, INC_VALUE(n))
+#define REPEAT8(macro, arg, n) macro(arg, n) REPEAT7(macro, arg, INC_VALUE(n))
+#define REPEAT9(macro, arg, n) macro(arg, n) REPEAT8(macro, arg, INC_VALUE(n))
+#define REPEAT10(macro, arg, n) macro(arg, n) REPEAT9(macro, arg, INC_VALUE(n))
+#define REPEAT11(macro, arg, n) macro(arg, n) REPEAT10(macro, arg, INC_VALUE(n))
+#define REPEAT12(macro, arg, n) macro(arg, n) REPEAT11(macro, arg, INC_VALUE(n))
+#define REPEAT13(macro, arg, n) macro(arg, n) REPEAT12(macro, arg, INC_VALUE(n))
+#define REPEAT14(macro, arg, n) macro(arg, n) REPEAT13(macro, arg, INC_VALUE(n))
+#define REPEAT15(macro, arg, n) macro(arg, n) REPEAT14(macro, arg, INC_VALUE(n))
+#define REPEAT16(macro, arg, n) macro(arg, n) REPEAT15(macro, arg, INC_VALUE(n))
+#define REPEAT17(macro, arg, n) macro(arg, n) REPEAT16(macro, arg, INC_VALUE(n))
+#define REPEAT18(macro, arg, n) macro(arg, n) REPEAT17(macro, arg, INC_VALUE(n))
+#define REPEAT19(macro, arg, n) macro(arg, n) REPEAT18(macro, arg, INC_VALUE(n))
+#define REPEAT20(macro, arg, n) macro(arg, n) REPEAT19(macro, arg, INC_VALUE(n))
+#define REPEAT21(macro, arg, n) macro(arg, n) REPEAT20(macro, arg, INC_VALUE(n))
+#define REPEAT22(macro, arg, n) macro(arg, n) REPEAT21(macro, arg, INC_VALUE(n))
+#define REPEAT23(macro, arg, n) macro(arg, n) REPEAT22(macro, arg, INC_VALUE(n))
+#define REPEAT24(macro, arg, n) macro(arg, n) REPEAT23(macro, arg, INC_VALUE(n))
+#define REPEAT25(macro, arg, n) macro(arg, n) REPEAT24(macro, arg, INC_VALUE(n))
+#define REPEAT26(macro, arg, n) macro(arg, n) REPEAT25(macro, arg, INC_VALUE(n))
+#define REPEAT27(macro, arg, n) macro(arg, n) REPEAT26(macro, arg, INC_VALUE(n))
+#define REPEAT28(macro, arg, n) macro(arg, n) REPEAT27(macro, arg, INC_VALUE(n))
+#define REPEAT29(macro, arg, n) macro(arg, n) REPEAT28(macro, arg, INC_VALUE(n))
+#define REPEAT30(macro, arg, n) macro(arg, n) REPEAT29(macro, arg, INC_VALUE(n))
+#define REPEAT31(macro, arg, n) macro(arg, n) REPEAT30(macro, arg, INC_VALUE(n))
+#define REPEAT32(macro, arg, n) macro(arg, n) REPEAT31(macro, arg, INC_VALUE(n))
+#define REPEAT33(macro, arg, n) macro(arg, n) REPEAT32(macro, arg, INC_VALUE(n))
+#define REPEAT34(macro, arg, n) macro(arg, n) REPEAT33(macro, arg, INC_VALUE(n))
+#define REPEAT35(macro, arg, n) macro(arg, n) REPEAT34(macro, arg, INC_VALUE(n))
+#define REPEAT36(macro, arg, n) macro(arg, n) REPEAT35(macro, arg, INC_VALUE(n))
+#define REPEAT37(macro, arg, n) macro(arg, n) REPEAT36(macro, arg, INC_VALUE(n))
+#define REPEAT38(macro, arg, n) macro(arg, n) REPEAT37(macro, arg, INC_VALUE(n))
+#define REPEAT39(macro, arg, n) macro(arg, n) REPEAT38(macro, arg, INC_VALUE(n))
+#define REPEAT40(macro, arg, n) macro(arg, n) REPEAT39(macro, arg, INC_VALUE(n))
+#define REPEAT41(macro, arg, n) macro(arg, n) REPEAT40(macro, arg, INC_VALUE(n))
+#define REPEAT42(macro, arg, n) macro(arg, n) REPEAT41(macro, arg, INC_VALUE(n))
+#define REPEAT43(macro, arg, n) macro(arg, n) REPEAT42(macro, arg, INC_VALUE(n))
+#define REPEAT44(macro, arg, n) macro(arg, n) REPEAT43(macro, arg, INC_VALUE(n))
+#define REPEAT45(macro, arg, n) macro(arg, n) REPEAT44(macro, arg, INC_VALUE(n))
+#define REPEAT46(macro, arg, n) macro(arg, n) REPEAT45(macro, arg, INC_VALUE(n))
+#define REPEAT47(macro, arg, n) macro(arg, n) REPEAT46(macro, arg, INC_VALUE(n))
+#define REPEAT48(macro, arg, n) macro(arg, n) REPEAT47(macro, arg, INC_VALUE(n))
+#define REPEAT49(macro, arg, n) macro(arg, n) REPEAT48(macro, arg, INC_VALUE(n))
+#define REPEAT50(macro, arg, n) macro(arg, n) REPEAT49(macro, arg, INC_VALUE(n))
+#define REPEAT51(macro, arg, n) macro(arg, n) REPEAT50(macro, arg, INC_VALUE(n))
+#define REPEAT52(macro, arg, n) macro(arg, n) REPEAT51(macro, arg, INC_VALUE(n))
+#define REPEAT53(macro, arg, n) macro(arg, n) REPEAT52(macro, arg, INC_VALUE(n))
+#define REPEAT54(macro, arg, n) macro(arg, n) REPEAT53(macro, arg, INC_VALUE(n))
+#define REPEAT55(macro, arg, n) macro(arg, n) REPEAT54(macro, arg, INC_VALUE(n))
+#define REPEAT56(macro, arg, n) macro(arg, n) REPEAT55(macro, arg, INC_VALUE(n))
+#define REPEAT57(macro, arg, n) macro(arg, n) REPEAT56(macro, arg, INC_VALUE(n))
+#define REPEAT58(macro, arg, n) macro(arg, n) REPEAT57(macro, arg, INC_VALUE(n))
+#define REPEAT59(macro, arg, n) macro(arg, n) REPEAT58(macro, arg, INC_VALUE(n))
+#define REPEAT60(macro, arg, n) macro(arg, n) REPEAT59(macro, arg, INC_VALUE(n))
+#define REPEAT61(macro, arg, n) macro(arg, n) REPEAT60(macro, arg, INC_VALUE(n))
+#define REPEAT62(macro, arg, n) macro(arg, n) REPEAT61(macro, arg, INC_VALUE(n))
+#define REPEAT63(macro, arg, n) macro(arg, n) REPEAT62(macro, arg, INC_VALUE(n))
+#define REPEAT64(macro, arg, n) macro(arg, n) REPEAT63(macro, arg, INC_VALUE(n))
+#define REPEAT65(macro, arg, n) macro(arg, n) REPEAT64(macro, arg, INC_VALUE(n))
+#define REPEAT66(macro, arg, n) macro(arg, n) REPEAT65(macro, arg, INC_VALUE(n))
+#define REPEAT67(macro, arg, n) macro(arg, n) REPEAT66(macro, arg, INC_VALUE(n))
+#define REPEAT68(macro, arg, n) macro(arg, n) REPEAT67(macro, arg, INC_VALUE(n))
+#define REPEAT69(macro, arg, n) macro(arg, n) REPEAT68(macro, arg, INC_VALUE(n))
+#define REPEAT70(macro, arg, n) macro(arg, n) REPEAT69(macro, arg, INC_VALUE(n))
+#define REPEAT71(macro, arg, n) macro(arg, n) REPEAT70(macro, arg, INC_VALUE(n))
+#define REPEAT72(macro, arg, n) macro(arg, n) REPEAT71(macro, arg, INC_VALUE(n))
+#define REPEAT73(macro, arg, n) macro(arg, n) REPEAT72(macro, arg, INC_VALUE(n))
+#define REPEAT74(macro, arg, n) macro(arg, n) REPEAT73(macro, arg, INC_VALUE(n))
+#define REPEAT75(macro, arg, n) macro(arg, n) REPEAT74(macro, arg, INC_VALUE(n))
+#define REPEAT76(macro, arg, n) macro(arg, n) REPEAT75(macro, arg, INC_VALUE(n))
+#define REPEAT77(macro, arg, n) macro(arg, n) REPEAT76(macro, arg, INC_VALUE(n))
+#define REPEAT78(macro, arg, n) macro(arg, n) REPEAT77(macro, arg, INC_VALUE(n))
+#define REPEAT79(macro, arg, n) macro(arg, n) REPEAT78(macro, arg, INC_VALUE(n))
+#define REPEAT80(macro, arg, n) macro(arg, n) REPEAT79(macro, arg, INC_VALUE(n))
+#define REPEAT81(macro, arg, n) macro(arg, n) REPEAT80(macro, arg, INC_VALUE(n))
+#define REPEAT82(macro, arg, n) macro(arg, n) REPEAT81(macro, arg, INC_VALUE(n))
+#define REPEAT83(macro, arg, n) macro(arg, n) REPEAT82(macro, arg, INC_VALUE(n))
+#define REPEAT84(macro, arg, n) macro(arg, n) REPEAT83(macro, arg, INC_VALUE(n))
+#define REPEAT85(macro, arg, n) macro(arg, n) REPEAT84(macro, arg, INC_VALUE(n))
+#define REPEAT86(macro, arg, n) macro(arg, n) REPEAT85(macro, arg, INC_VALUE(n))
+#define REPEAT87(macro, arg, n) macro(arg, n) REPEAT86(macro, arg, INC_VALUE(n))
+#define REPEAT88(macro, arg, n) macro(arg, n) REPEAT87(macro, arg, INC_VALUE(n))
+#define REPEAT89(macro, arg, n) macro(arg, n) REPEAT88(macro, arg, INC_VALUE(n))
+#define REPEAT90(macro, arg, n) macro(arg, n) REPEAT89(macro, arg, INC_VALUE(n))
+#define REPEAT91(macro, arg, n) macro(arg, n) REPEAT90(macro, arg, INC_VALUE(n))
+#define REPEAT92(macro, arg, n) macro(arg, n) REPEAT91(macro, arg, INC_VALUE(n))
+#define REPEAT93(macro, arg, n) macro(arg, n) REPEAT92(macro, arg, INC_VALUE(n))
+#define REPEAT94(macro, arg, n) macro(arg, n) REPEAT93(macro, arg, INC_VALUE(n))
+#define REPEAT95(macro, arg, n) macro(arg, n) REPEAT94(macro, arg, INC_VALUE(n))
+#define REPEAT96(macro, arg, n) macro(arg, n) REPEAT95(macro, arg, INC_VALUE(n))
+#define REPEAT97(macro, arg, n) macro(arg, n) REPEAT96(macro, arg, INC_VALUE(n))
+#define REPEAT98(macro, arg, n) macro(arg, n) REPEAT97(macro, arg, INC_VALUE(n))
+#define REPEAT99(macro, arg, n) macro(arg, n) REPEAT98(macro, arg, INC_VALUE(n))
+#define REPEAT100(macro, arg, n) macro(arg, n) REPEAT99(macro, arg, INC_VALUE(n))
+#define REPEAT101(macro, arg, n) macro(arg, n) REPEAT100(macro, arg, INC_VALUE(n))
+#define REPEAT102(macro, arg, n) macro(arg, n) REPEAT101(macro, arg, INC_VALUE(n))
+#define REPEAT103(macro, arg, n) macro(arg, n) REPEAT102(macro, arg, INC_VALUE(n))
+#define REPEAT104(macro, arg, n) macro(arg, n) REPEAT103(macro, arg, INC_VALUE(n))
+#define REPEAT105(macro, arg, n) macro(arg, n) REPEAT104(macro, arg, INC_VALUE(n))
+#define REPEAT106(macro, arg, n) macro(arg, n) REPEAT105(macro, arg, INC_VALUE(n))
+#define REPEAT107(macro, arg, n) macro(arg, n) REPEAT106(macro, arg, INC_VALUE(n))
+#define REPEAT108(macro, arg, n) macro(arg, n) REPEAT107(macro, arg, INC_VALUE(n))
+#define REPEAT109(macro, arg, n) macro(arg, n) REPEAT108(macro, arg, INC_VALUE(n))
+#define REPEAT110(macro, arg, n) macro(arg, n) REPEAT109(macro, arg, INC_VALUE(n))
+#define REPEAT111(macro, arg, n) macro(arg, n) REPEAT110(macro, arg, INC_VALUE(n))
+#define REPEAT112(macro, arg, n) macro(arg, n) REPEAT111(macro, arg, INC_VALUE(n))
+#define REPEAT113(macro, arg, n) macro(arg, n) REPEAT112(macro, arg, INC_VALUE(n))
+#define REPEAT114(macro, arg, n) macro(arg, n) REPEAT113(macro, arg, INC_VALUE(n))
+#define REPEAT115(macro, arg, n) macro(arg, n) REPEAT114(macro, arg, INC_VALUE(n))
+#define REPEAT116(macro, arg, n) macro(arg, n) REPEAT115(macro, arg, INC_VALUE(n))
+#define REPEAT117(macro, arg, n) macro(arg, n) REPEAT116(macro, arg, INC_VALUE(n))
+#define REPEAT118(macro, arg, n) macro(arg, n) REPEAT117(macro, arg, INC_VALUE(n))
+#define REPEAT119(macro, arg, n) macro(arg, n) REPEAT118(macro, arg, INC_VALUE(n))
+#define REPEAT120(macro, arg, n) macro(arg, n) REPEAT119(macro, arg, INC_VALUE(n))
+#define REPEAT121(macro, arg, n) macro(arg, n) REPEAT120(macro, arg, INC_VALUE(n))
+#define REPEAT122(macro, arg, n) macro(arg, n) REPEAT121(macro, arg, INC_VALUE(n))
+#define REPEAT123(macro, arg, n) macro(arg, n) REPEAT122(macro, arg, INC_VALUE(n))
+#define REPEAT124(macro, arg, n) macro(arg, n) REPEAT123(macro, arg, INC_VALUE(n))
+#define REPEAT125(macro, arg, n) macro(arg, n) REPEAT124(macro, arg, INC_VALUE(n))
+#define REPEAT126(macro, arg, n) macro(arg, n) REPEAT125(macro, arg, INC_VALUE(n))
+#define REPEAT127(macro, arg, n) macro(arg, n) REPEAT126(macro, arg, INC_VALUE(n))
+#define REPEAT128(macro, arg, n) macro(arg, n) REPEAT127(macro, arg, INC_VALUE(n))
+#define REPEAT129(macro, arg, n) macro(arg, n) REPEAT128(macro, arg, INC_VALUE(n))
+#define REPEAT130(macro, arg, n) macro(arg, n) REPEAT129(macro, arg, INC_VALUE(n))
+#define REPEAT131(macro, arg, n) macro(arg, n) REPEAT130(macro, arg, INC_VALUE(n))
+#define REPEAT132(macro, arg, n) macro(arg, n) REPEAT131(macro, arg, INC_VALUE(n))
+#define REPEAT133(macro, arg, n) macro(arg, n) REPEAT132(macro, arg, INC_VALUE(n))
+#define REPEAT134(macro, arg, n) macro(arg, n) REPEAT133(macro, arg, INC_VALUE(n))
+#define REPEAT135(macro, arg, n) macro(arg, n) REPEAT134(macro, arg, INC_VALUE(n))
+#define REPEAT136(macro, arg, n) macro(arg, n) REPEAT135(macro, arg, INC_VALUE(n))
+#define REPEAT137(macro, arg, n) macro(arg, n) REPEAT136(macro, arg, INC_VALUE(n))
+#define REPEAT138(macro, arg, n) macro(arg, n) REPEAT137(macro, arg, INC_VALUE(n))
+#define REPEAT139(macro, arg, n) macro(arg, n) REPEAT138(macro, arg, INC_VALUE(n))
+#define REPEAT140(macro, arg, n) macro(arg, n) REPEAT139(macro, arg, INC_VALUE(n))
+#define REPEAT141(macro, arg, n) macro(arg, n) REPEAT140(macro, arg, INC_VALUE(n))
+#define REPEAT142(macro, arg, n) macro(arg, n) REPEAT141(macro, arg, INC_VALUE(n))
+#define REPEAT143(macro, arg, n) macro(arg, n) REPEAT142(macro, arg, INC_VALUE(n))
+#define REPEAT144(macro, arg, n) macro(arg, n) REPEAT143(macro, arg, INC_VALUE(n))
+#define REPEAT145(macro, arg, n) macro(arg, n) REPEAT144(macro, arg, INC_VALUE(n))
+#define REPEAT146(macro, arg, n) macro(arg, n) REPEAT145(macro, arg, INC_VALUE(n))
+#define REPEAT147(macro, arg, n) macro(arg, n) REPEAT146(macro, arg, INC_VALUE(n))
+#define REPEAT148(macro, arg, n) macro(arg, n) REPEAT147(macro, arg, INC_VALUE(n))
+#define REPEAT149(macro, arg, n) macro(arg, n) REPEAT148(macro, arg, INC_VALUE(n))
+#define REPEAT150(macro, arg, n) macro(arg, n) REPEAT149(macro, arg, INC_VALUE(n))
+#define REPEAT151(macro, arg, n) macro(arg, n) REPEAT150(macro, arg, INC_VALUE(n))
+#define REPEAT152(macro, arg, n) macro(arg, n) REPEAT151(macro, arg, INC_VALUE(n))
+#define REPEAT153(macro, arg, n) macro(arg, n) REPEAT152(macro, arg, INC_VALUE(n))
+#define REPEAT154(macro, arg, n) macro(arg, n) REPEAT153(macro, arg, INC_VALUE(n))
+#define REPEAT155(macro, arg, n) macro(arg, n) REPEAT154(macro, arg, INC_VALUE(n))
+#define REPEAT156(macro, arg, n) macro(arg, n) REPEAT155(macro, arg, INC_VALUE(n))
+#define REPEAT157(macro, arg, n) macro(arg, n) REPEAT156(macro, arg, INC_VALUE(n))
+#define REPEAT158(macro, arg, n) macro(arg, n) REPEAT157(macro, arg, INC_VALUE(n))
+#define REPEAT159(macro, arg, n) macro(arg, n) REPEAT158(macro, arg, INC_VALUE(n))
+#define REPEAT160(macro, arg, n) macro(arg, n) REPEAT159(macro, arg, INC_VALUE(n))
+#define REPEAT161(macro, arg, n) macro(arg, n) REPEAT160(macro, arg, INC_VALUE(n))
+#define REPEAT162(macro, arg, n) macro(arg, n) REPEAT161(macro, arg, INC_VALUE(n))
+#define REPEAT163(macro, arg, n) macro(arg, n) REPEAT162(macro, arg, INC_VALUE(n))
+#define REPEAT164(macro, arg, n) macro(arg, n) REPEAT163(macro, arg, INC_VALUE(n))
+#define REPEAT165(macro, arg, n) macro(arg, n) REPEAT164(macro, arg, INC_VALUE(n))
+#define REPEAT166(macro, arg, n) macro(arg, n) REPEAT165(macro, arg, INC_VALUE(n))
+#define REPEAT167(macro, arg, n) macro(arg, n) REPEAT166(macro, arg, INC_VALUE(n))
+#define REPEAT168(macro, arg, n) macro(arg, n) REPEAT167(macro, arg, INC_VALUE(n))
+#define REPEAT169(macro, arg, n) macro(arg, n) REPEAT168(macro, arg, INC_VALUE(n))
+#define REPEAT170(macro, arg, n) macro(arg, n) REPEAT169(macro, arg, INC_VALUE(n))
+#define REPEAT171(macro, arg, n) macro(arg, n) REPEAT170(macro, arg, INC_VALUE(n))
+#define REPEAT172(macro, arg, n) macro(arg, n) REPEAT171(macro, arg, INC_VALUE(n))
+#define REPEAT173(macro, arg, n) macro(arg, n) REPEAT172(macro, arg, INC_VALUE(n))
+#define REPEAT174(macro, arg, n) macro(arg, n) REPEAT173(macro, arg, INC_VALUE(n))
+#define REPEAT175(macro, arg, n) macro(arg, n) REPEAT174(macro, arg, INC_VALUE(n))
+#define REPEAT176(macro, arg, n) macro(arg, n) REPEAT175(macro, arg, INC_VALUE(n))
+#define REPEAT177(macro, arg, n) macro(arg, n) REPEAT176(macro, arg, INC_VALUE(n))
+#define REPEAT178(macro, arg, n) macro(arg, n) REPEAT177(macro, arg, INC_VALUE(n))
+#define REPEAT179(macro, arg, n) macro(arg, n) REPEAT178(macro, arg, INC_VALUE(n))
+#define REPEAT180(macro, arg, n) macro(arg, n) REPEAT179(macro, arg, INC_VALUE(n))
+#define REPEAT181(macro, arg, n) macro(arg, n) REPEAT180(macro, arg, INC_VALUE(n))
+#define REPEAT182(macro, arg, n) macro(arg, n) REPEAT181(macro, arg, INC_VALUE(n))
+#define REPEAT183(macro, arg, n) macro(arg, n) REPEAT182(macro, arg, INC_VALUE(n))
+#define REPEAT184(macro, arg, n) macro(arg, n) REPEAT183(macro, arg, INC_VALUE(n))
+#define REPEAT185(macro, arg, n) macro(arg, n) REPEAT184(macro, arg, INC_VALUE(n))
+#define REPEAT186(macro, arg, n) macro(arg, n) REPEAT185(macro, arg, INC_VALUE(n))
+#define REPEAT187(macro, arg, n) macro(arg, n) REPEAT186(macro, arg, INC_VALUE(n))
+#define REPEAT188(macro, arg, n) macro(arg, n) REPEAT187(macro, arg, INC_VALUE(n))
+#define REPEAT189(macro, arg, n) macro(arg, n) REPEAT188(macro, arg, INC_VALUE(n))
+#define REPEAT190(macro, arg, n) macro(arg, n) REPEAT189(macro, arg, INC_VALUE(n))
+#define REPEAT191(macro, arg, n) macro(arg, n) REPEAT190(macro, arg, INC_VALUE(n))
+#define REPEAT192(macro, arg, n) macro(arg, n) REPEAT191(macro, arg, INC_VALUE(n))
+#define REPEAT193(macro, arg, n) macro(arg, n) REPEAT192(macro, arg, INC_VALUE(n))
+#define REPEAT194(macro, arg, n) macro(arg, n) REPEAT193(macro, arg, INC_VALUE(n))
+#define REPEAT195(macro, arg, n) macro(arg, n) REPEAT194(macro, arg, INC_VALUE(n))
+#define REPEAT196(macro, arg, n) macro(arg, n) REPEAT195(macro, arg, INC_VALUE(n))
+#define REPEAT197(macro, arg, n) macro(arg, n) REPEAT196(macro, arg, INC_VALUE(n))
+#define REPEAT198(macro, arg, n) macro(arg, n) REPEAT197(macro, arg, INC_VALUE(n))
+#define REPEAT199(macro, arg, n) macro(arg, n) REPEAT198(macro, arg, INC_VALUE(n))
+#define REPEAT200(macro, arg, n) macro(arg, n) REPEAT199(macro, arg, INC_VALUE(n))
+#define REPEAT201(macro, arg, n) macro(arg, n) REPEAT200(macro, arg, INC_VALUE(n))
+#define REPEAT202(macro, arg, n) macro(arg, n) REPEAT201(macro, arg, INC_VALUE(n))
+#define REPEAT203(macro, arg, n) macro(arg, n) REPEAT202(macro, arg, INC_VALUE(n))
+#define REPEAT204(macro, arg, n) macro(arg, n) REPEAT203(macro, arg, INC_VALUE(n))
+#define REPEAT205(macro, arg, n) macro(arg, n) REPEAT204(macro, arg, INC_VALUE(n))
+#define REPEAT206(macro, arg, n) macro(arg, n) REPEAT205(macro, arg, INC_VALUE(n))
+#define REPEAT207(macro, arg, n) macro(arg, n) REPEAT206(macro, arg, INC_VALUE(n))
+#define REPEAT208(macro, arg, n) macro(arg, n) REPEAT207(macro, arg, INC_VALUE(n))
+#define REPEAT209(macro, arg, n) macro(arg, n) REPEAT208(macro, arg, INC_VALUE(n))
+#define REPEAT210(macro, arg, n) macro(arg, n) REPEAT209(macro, arg, INC_VALUE(n))
+#define REPEAT211(macro, arg, n) macro(arg, n) REPEAT210(macro, arg, INC_VALUE(n))
+#define REPEAT212(macro, arg, n) macro(arg, n) REPEAT211(macro, arg, INC_VALUE(n))
+#define REPEAT213(macro, arg, n) macro(arg, n) REPEAT212(macro, arg, INC_VALUE(n))
+#define REPEAT214(macro, arg, n) macro(arg, n) REPEAT213(macro, arg, INC_VALUE(n))
+#define REPEAT215(macro, arg, n) macro(arg, n) REPEAT214(macro, arg, INC_VALUE(n))
+#define REPEAT216(macro, arg, n) macro(arg, n) REPEAT215(macro, arg, INC_VALUE(n))
+#define REPEAT217(macro, arg, n) macro(arg, n) REPEAT216(macro, arg, INC_VALUE(n))
+#define REPEAT218(macro, arg, n) macro(arg, n) REPEAT217(macro, arg, INC_VALUE(n))
+#define REPEAT219(macro, arg, n) macro(arg, n) REPEAT218(macro, arg, INC_VALUE(n))
+#define REPEAT220(macro, arg, n) macro(arg, n) REPEAT219(macro, arg, INC_VALUE(n))
+#define REPEAT221(macro, arg, n) macro(arg, n) REPEAT220(macro, arg, INC_VALUE(n))
+#define REPEAT222(macro, arg, n) macro(arg, n) REPEAT221(macro, arg, INC_VALUE(n))
+#define REPEAT223(macro, arg, n) macro(arg, n) REPEAT222(macro, arg, INC_VALUE(n))
+#define REPEAT224(macro, arg, n) macro(arg, n) REPEAT223(macro, arg, INC_VALUE(n))
+#define REPEAT225(macro, arg, n) macro(arg, n) REPEAT224(macro, arg, INC_VALUE(n))
+#define REPEAT226(macro, arg, n) macro(arg, n) REPEAT225(macro, arg, INC_VALUE(n))
+#define REPEAT227(macro, arg, n) macro(arg, n) REPEAT226(macro, arg, INC_VALUE(n))
+#define REPEAT228(macro, arg, n) macro(arg, n) REPEAT227(macro, arg, INC_VALUE(n))
+#define REPEAT229(macro, arg, n) macro(arg, n) REPEAT228(macro, arg, INC_VALUE(n))
+#define REPEAT230(macro, arg, n) macro(arg, n) REPEAT229(macro, arg, INC_VALUE(n))
+#define REPEAT231(macro, arg, n) macro(arg, n) REPEAT230(macro, arg, INC_VALUE(n))
+#define REPEAT232(macro, arg, n) macro(arg, n) REPEAT231(macro, arg, INC_VALUE(n))
+#define REPEAT233(macro, arg, n) macro(arg, n) REPEAT232(macro, arg, INC_VALUE(n))
+#define REPEAT234(macro, arg, n) macro(arg, n) REPEAT233(macro, arg, INC_VALUE(n))
+#define REPEAT235(macro, arg, n) macro(arg, n) REPEAT234(macro, arg, INC_VALUE(n))
+#define REPEAT236(macro, arg, n) macro(arg, n) REPEAT235(macro, arg, INC_VALUE(n))
+#define REPEAT237(macro, arg, n) macro(arg, n) REPEAT236(macro, arg, INC_VALUE(n))
+#define REPEAT238(macro, arg, n) macro(arg, n) REPEAT237(macro, arg, INC_VALUE(n))
+#define REPEAT239(macro, arg, n) macro(arg, n) REPEAT238(macro, arg, INC_VALUE(n))
+#define REPEAT240(macro, arg, n) macro(arg, n) REPEAT239(macro, arg, INC_VALUE(n))
+#define REPEAT241(macro, arg, n) macro(arg, n) REPEAT240(macro, arg, INC_VALUE(n))
+#define REPEAT242(macro, arg, n) macro(arg, n) REPEAT241(macro, arg, INC_VALUE(n))
+#define REPEAT243(macro, arg, n) macro(arg, n) REPEAT242(macro, arg, INC_VALUE(n))
+#define REPEAT244(macro, arg, n) macro(arg, n) REPEAT243(macro, arg, INC_VALUE(n))
+#define REPEAT245(macro, arg, n) macro(arg, n) REPEAT244(macro, arg, INC_VALUE(n))
+#define REPEAT246(macro, arg, n) macro(arg, n) REPEAT245(macro, arg, INC_VALUE(n))
+#define REPEAT247(macro, arg, n) macro(arg, n) REPEAT246(macro, arg, INC_VALUE(n))
+#define REPEAT248(macro, arg, n) macro(arg, n) REPEAT247(macro, arg, INC_VALUE(n))
+#define REPEAT249(macro, arg, n) macro(arg, n) REPEAT248(macro, arg, INC_VALUE(n))
+#define REPEAT250(macro, arg, n) macro(arg, n) REPEAT249(macro, arg, INC_VALUE(n))
+#define REPEAT251(macro, arg, n) macro(arg, n) REPEAT250(macro, arg, INC_VALUE(n))
+#define REPEAT252(macro, arg, n) macro(arg, n) REPEAT251(macro, arg, INC_VALUE(n))
+#define REPEAT253(macro, arg, n) macro(arg, n) REPEAT252(macro, arg, INC_VALUE(n))
+#define REPEAT254(macro, arg, n) macro(arg, n) REPEAT253(macro, arg, INC_VALUE(n))
+#define REPEAT255(macro, arg, n) macro(arg, n) REPEAT254(macro, arg, INC_VALUE(n))
+
+#ifdef __cplusplus
+}
+#endif
+
+#include <utils_increment_macro.h>
+#endif /* _UTILS_REPEAT_MACRO_H */
diff --git a/watch-library/hardware/hal/utils/src/utils_assert.c b/watch-library/hardware/hal/utils/src/utils_assert.c
new file mode 100644
index 00000000..b376c970
--- /dev/null
+++ b/watch-library/hardware/hal/utils/src/utils_assert.c
@@ -0,0 +1,46 @@
+/**
+ * \file
+ *
+ * \brief Asserts related functionality.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <utils_assert.h>
+
+/**
+ * \brief Assert function
+ */
+void assert(const bool condition, const char *const file, const int line)
+{
+	if (!(condition)) {
+		__asm("BKPT #0");
+	}
+	(void)file;
+	(void)line;
+}
diff --git a/watch-library/hardware/hal/utils/src/utils_event.c b/watch-library/hardware/hal/utils/src/utils_event.c
new file mode 100644
index 00000000..d1af9d0c
--- /dev/null
+++ b/watch-library/hardware/hal/utils/src/utils_event.c
@@ -0,0 +1,125 @@
+/**
+ * \file
+ *
+ * \brief Events implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <utils_event.h>
+#include <utils_assert.h>
+#include <string.h>
+
+#define EVENT_WORD_BITS (sizeof(event_word_t) * 8)
+
+static struct list_descriptor events;
+static uint8_t                subscribed[EVENT_MASK_SIZE];
+
+int32_t event_subscribe(struct event *const event, const event_id_t id, event_cb_t cb)
+{
+	/* get byte and bit number of the given event in the event mask */
+	const uint8_t position = id >> 3;
+	const uint8_t mask     = 1 << (id & 0x7);
+
+	ASSERT(event && cb && (id < EVENT_MAX_AMOUNT));
+
+	if (event->mask[position] & mask) {
+		return ERR_NO_CHANGE; /* Already subscribed */
+	}
+
+	if (!is_list_element(&events, event)) {
+		memset(event->mask, 0, EVENT_MASK_SIZE);
+		list_insert_as_head(&events, event);
+	}
+	event->cb = cb;
+	event->mask[position] |= mask;
+
+	subscribed[position] |= mask;
+
+	return ERR_NONE;
+}
+
+int32_t event_unsubscribe(struct event *const event, const event_id_t id)
+{
+	/* get byte and bit number of the given event in the event mask */
+	const uint8_t       position = id >> 3;
+	const uint8_t       mask     = 1 << (id & 0x7);
+	const struct event *current;
+	uint8_t             i;
+
+	ASSERT(event && (id < EVENT_MAX_AMOUNT));
+
+	if (!(event->mask[position] & mask)) {
+		return ERR_NO_CHANGE; /* Already unsubscribed */
+	}
+
+	event->mask[position] &= ~mask;
+
+	/* Check if there are more subscribers */
+	for ((current = (const struct event *)list_get_head(&events)); current;
+	     current = (const struct event *)list_get_next_element(current)) {
+		if (current->mask[position] & mask) {
+			break;
+		}
+	}
+	if (!current) {
+		subscribed[position] &= ~mask;
+	}
+
+	/* Remove event from the list. Can be unsave, document it! */
+	for (i = 0; i < ARRAY_SIZE(event->mask); i++) {
+		if (event->mask[i]) {
+			return ERR_NONE;
+		}
+	}
+	list_delete_element(&events, event);
+
+	return ERR_NONE;
+}
+
+void event_post(const event_id_t id, const event_data_t data)
+{
+	/* get byte and bit number of the given event in the event mask */
+	const uint8_t       position = id >> 3;
+	const uint8_t       mask     = 1 << (id & 0x7);
+	const struct event *current;
+
+	ASSERT((id < EVENT_MAX_AMOUNT));
+
+	if (!(subscribed[position] & mask)) {
+		return; /* No subscribers */
+	}
+
+	/* Find all subscribers */
+	for ((current = (const struct event *)list_get_head(&events)); current;
+	     current = (const struct event *)list_get_next_element(current)) {
+		if (current->mask[position] & mask) {
+			current->cb(id, data);
+		}
+	}
+}
diff --git a/watch-library/hardware/hal/utils/src/utils_list.c b/watch-library/hardware/hal/utils/src/utils_list.c
new file mode 100644
index 00000000..4006a019
--- /dev/null
+++ b/watch-library/hardware/hal/utils/src/utils_list.c
@@ -0,0 +1,136 @@
+/**
+ * \file
+ *
+ * \brief List functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <utils_list.h>
+#include <utils_assert.h>
+
+/**
+ * \brief Check whether element belongs to list
+ */
+bool is_list_element(const struct list_descriptor *const list, const void *const element)
+{
+	struct list_element *it;
+	for (it = list->head; it; it = it->next) {
+		if (it == element) {
+			return true;
+		}
+	}
+
+	return false;
+}
+
+/**
+ * \brief Insert an element as list head
+ */
+void list_insert_as_head(struct list_descriptor *const list, void *const element)
+{
+	ASSERT(!is_list_element(list, element));
+
+	((struct list_element *)element)->next = list->head;
+	list->head                             = (struct list_element *)element;
+}
+
+/**
+ * \brief Insert an element after the given list element
+ */
+void list_insert_after(void *const after, void *const element)
+{
+	((struct list_element *)element)->next = ((struct list_element *)after)->next;
+	((struct list_element *)after)->next   = (struct list_element *)element;
+}
+
+/**
+ * \brief Insert an element at list end
+ */
+void list_insert_at_end(struct list_descriptor *const list, void *const element)
+{
+	struct list_element *it = list->head;
+
+	ASSERT(!is_list_element(list, element));
+
+	if (!list->head) {
+		list->head                             = (struct list_element *)element;
+		((struct list_element *)element)->next = NULL;
+		return;
+	}
+
+	while (it->next) {
+		it = it->next;
+	}
+	it->next                               = (struct list_element *)element;
+	((struct list_element *)element)->next = NULL;
+}
+
+/**
+ * \brief Removes list head
+ */
+void *list_remove_head(struct list_descriptor *const list)
+{
+	if (list->head) {
+		struct list_element *tmp = list->head;
+
+		list->head = list->head->next;
+		return (void *)tmp;
+	}
+
+	return NULL;
+}
+
+/**
+ * \brief Removes list element
+ */
+bool list_delete_element(struct list_descriptor *const list, const void *const element)
+{
+	if (!element) {
+		return false;
+	}
+
+	if (list->head == element) {
+		list->head = list->head->next;
+		return true;
+	} else {
+		struct list_element *it = list->head;
+
+		while (it && it->next != element) {
+			it = it->next;
+		}
+		if (it) {
+			it->next = ((struct list_element *)element)->next;
+			return true;
+		}
+	}
+
+	return false;
+}
+
+//@}
diff --git a/watch-library/hardware/hal/utils/src/utils_syscalls.c b/watch-library/hardware/hal/utils/src/utils_syscalls.c
new file mode 100644
index 00000000..79e2f1fe
--- /dev/null
+++ b/watch-library/hardware/hal/utils/src/utils_syscalls.c
@@ -0,0 +1,152 @@
+/**
+ * \file
+ *
+ * \brief Syscalls for SAM0 (GCC).
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <stdio.h>
+#include <stdarg.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#undef errno
+extern int errno;
+extern int _end;
+
+extern caddr_t _sbrk(int incr);
+extern int     link(char *old, char *_new);
+extern int     _close(int file);
+extern int     _fstat(int file, struct stat *st);
+extern int     _isatty(int file);
+extern int     _lseek(int file, int ptr, int dir);
+extern void    _exit(int status);
+extern void    _kill(int pid, int sig);
+extern int     _getpid(void);
+
+/**
+ * \brief Replacement of C library of _sbrk
+ */
+extern caddr_t _sbrk(int incr)
+{
+	static unsigned char *heap = NULL;
+	unsigned char *       prev_heap;
+
+	if (heap == NULL) {
+		heap = (unsigned char *)&_end;
+	}
+	prev_heap = heap;
+
+	heap += incr;
+
+	return (caddr_t)prev_heap;
+}
+
+/**
+ * \brief Replacement of C library of link
+ */
+extern int link(char *old, char *_new)
+{
+	(void)old, (void)_new;
+	return -1;
+}
+
+/**
+ * \brief Replacement of C library of _close
+ */
+extern int _close(int file)
+{
+	(void)file;
+	return -1;
+}
+
+/**
+ * \brief Replacement of C library of _fstat
+ */
+extern int _fstat(int file, struct stat *st)
+{
+	(void)file;
+	st->st_mode = S_IFCHR;
+
+	return 0;
+}
+
+/**
+ * \brief Replacement of C library of _isatty
+ */
+extern int _isatty(int file)
+{
+	(void)file;
+	return 1;
+}
+
+/**
+ * \brief Replacement of C library of _lseek
+ */
+extern int _lseek(int file, int ptr, int dir)
+{
+	(void)file, (void)ptr, (void)dir;
+	return 0;
+}
+
+/**
+ * \brief Replacement of C library of _exit
+ */
+extern void _exit(int status)
+{
+	printf("Exiting with status %d.\n", status);
+
+	for (;;)
+		;
+}
+
+/**
+ * \brief Replacement of C library of _kill
+ */
+extern void _kill(int pid, int sig)
+{
+	(void)pid, (void)sig;
+	return;
+}
+
+/**
+ * \brief Replacement of C library of _getpid
+ */
+extern int _getpid(void)
+{
+	return -1;
+}
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/watch-library/hardware/hpl/core/hpl_core_m0plus_base.c b/watch-library/hardware/hpl/core/hpl_core_m0plus_base.c
new file mode 100644
index 00000000..cad2a662
--- /dev/null
+++ b/watch-library/hardware/hpl/core/hpl_core_m0plus_base.c
@@ -0,0 +1,202 @@
+/**
+ * \file
+ *
+ * \brief Core related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_core.h>
+#include <hpl_irq.h>
+#include <hpl_reset.h>
+#include <hpl_sleep.h>
+#include <hpl_delay.h>
+#ifndef _UNIT_TEST_
+#include <utils.h>
+#endif
+#include <utils_assert.h>
+#include <peripheral_clk_config.h>
+
+#ifndef CONF_CPU_FREQUENCY
+#define CONF_CPU_FREQUENCY 1000000
+#endif
+
+#if CONF_CPU_FREQUENCY < 1000
+#define CPU_FREQ_POWER 3
+#elif CONF_CPU_FREQUENCY < 10000
+#define CPU_FREQ_POWER 4
+#elif CONF_CPU_FREQUENCY < 100000
+#define CPU_FREQ_POWER 5
+#elif CONF_CPU_FREQUENCY < 1000000
+#define CPU_FREQ_POWER 6
+#elif CONF_CPU_FREQUENCY < 10000000
+#define CPU_FREQ_POWER 7
+#elif CONF_CPU_FREQUENCY < 100000000
+#define CPU_FREQ_POWER 8
+#endif
+
+/**
+ * \brief The array of interrupt handlers
+ */
+struct _irq_descriptor *_irq_table[PERIPH_COUNT_IRQn];
+
+/**
+ * \brief Reset MCU
+ */
+void _reset_mcu(void)
+{
+	NVIC_SystemReset();
+}
+
+/**
+ * \brief Put MCU to sleep
+ */
+void _go_to_sleep(void)
+{
+	__DSB();
+	__WFI();
+}
+
+/**
+ * \brief Retrieve current IRQ number
+ */
+uint8_t _irq_get_current(void)
+{
+	return (uint8_t)__get_IPSR() - 16;
+}
+
+/**
+ * \brief Disable the given IRQ
+ */
+void _irq_disable(uint8_t n)
+{
+	NVIC_DisableIRQ((IRQn_Type)n);
+}
+
+/**
+ * \brief Set the given IRQ
+ */
+void _irq_set(uint8_t n)
+{
+	NVIC_SetPendingIRQ((IRQn_Type)n);
+}
+
+/**
+ * \brief Clear the given IRQ
+ */
+void _irq_clear(uint8_t n)
+{
+	NVIC_ClearPendingIRQ((IRQn_Type)n);
+}
+
+/**
+ * \brief Enable the given IRQ
+ */
+void _irq_enable(uint8_t n)
+{
+	NVIC_EnableIRQ((IRQn_Type)n);
+}
+
+/**
+ * \brief Register IRQ handler
+ */
+void _irq_register(const uint8_t n, struct _irq_descriptor *const irq)
+{
+	ASSERT(n < PERIPH_COUNT_IRQn);
+
+	_irq_table[n] = irq;
+}
+
+/**
+ * \brief Default interrupt handler for unused IRQs.
+ */
+void Default_Handler(void)
+{
+	while (1) {
+	}
+}
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of us
+ */
+static inline uint32_t _get_cycles_for_us_internal(const uint16_t us, const uint32_t freq, const uint8_t power)
+{
+	switch (power) {
+	case 8:
+		return (us * (freq / 100000) - 1) / 10 + 1;
+	case 7:
+		return (us * (freq / 10000) - 1) / 100 + 1;
+	case 6:
+		return (us * (freq / 1000) - 1) / 1000 + 1;
+	case 5:
+		return (us * (freq / 100) - 1) / 10000 + 1;
+	case 4:
+		return (us * (freq / 10) - 1) / 100000 + 1;
+	default:
+		return (us * freq - 1) / 1000000 + 1;
+	}
+}
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of us
+ */
+uint32_t _get_cycles_for_us(const uint16_t us)
+{
+	int32_t freq = hri_usbdevice_get_CTRLA_ENABLE_bit(USB) ? 8000000 : 4000000;
+	return _get_cycles_for_us_internal(us, freq, CPU_FREQ_POWER);
+}
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of ms
+ */
+static inline uint32_t _get_cycles_for_ms_internal(const uint16_t ms, const uint32_t freq, const uint8_t power)
+{
+	switch (power) {
+	case 8:
+		return (ms * (freq / 100000)) * 100;
+	case 7:
+		return (ms * (freq / 10000)) * 10;
+	case 6:
+		return (ms * (freq / 1000));
+	case 5:
+		return (ms * (freq / 100) - 1) / 10 + 1;
+	case 4:
+		return (ms * (freq / 10) - 1) / 100 + 1;
+	default:
+		return (ms * freq - 1) / 1000 + 1;
+	}
+}
+
+/**
+ * \brief Retrieve the amount of cycles to delay for the given amount of ms
+ */
+uint32_t _get_cycles_for_ms(const uint16_t ms)
+{
+	int32_t freq = hri_usbdevice_get_CTRLA_ENABLE_bit(USB) ? 8000000 : 4000000;
+	return _get_cycles_for_ms_internal(ms, freq, CPU_FREQ_POWER);
+}
diff --git a/watch-library/hardware/hpl/core/hpl_core_port.h b/watch-library/hardware/hpl/core/hpl_core_port.h
new file mode 100644
index 00000000..33c18dd0
--- /dev/null
+++ b/watch-library/hardware/hpl/core/hpl_core_port.h
@@ -0,0 +1,63 @@
+/**
+ * \file
+ *
+ * \brief Core related functionality implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_CORE_PORT_H_INCLUDED
+#define _HPL_CORE_PORT_H_INCLUDED
+
+#include <peripheral_clk_config.h>
+
+/* It's possible to include this file in ARM ASM files (e.g., in FreeRTOS IAR
+ * portable implement, portasm.s -> FreeRTOSConfig.h -> hpl_core_port.h),
+ * there will be assembling errors.
+ * So the following things are not included for assembling.
+ */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+
+#ifndef _UNIT_TEST_
+#include <compiler.h>
+#endif
+
+/**
+ * \brief Check if it's in ISR handling
+ * \return \c true if it's in ISR
+ */
+static inline bool _is_in_isr(void)
+{
+	return (SCB->ICSR & SCB_ICSR_VECTACTIVE_Msk);
+}
+
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+void Default_Handler(void);
+
+#endif /* _HPL_CORE_PORT_H_INCLUDED */
diff --git a/watch-library/hardware/hpl/core/hpl_init.c b/watch-library/hardware/hpl/core/hpl_init.c
new file mode 100644
index 00000000..900cf420
--- /dev/null
+++ b/watch-library/hardware/hpl/core/hpl_init.c
@@ -0,0 +1,74 @@
+/**
+ * \file
+ *
+ * \brief HPL initialization related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_gpio.h>
+#include <hpl_init.h>
+#include <hpl_gclk_base.h>
+#include <hpl_mclk_config.h>
+
+#include <hpl_dma.h>
+#include <hpl_dmac_config.h>
+
+/* Referenced GCLKs (out of 0~4), should be initialized firstly
+ */
+#define _GCLK_INIT_1ST 0x00000000
+/* Not referenced GCLKs, initialized last */
+#define _GCLK_INIT_LAST 0x0000001F
+
+/**
+ * \brief Initialize the hardware abstraction layer
+ */
+void _init_chip(void)
+{
+	hri_nvmctrl_set_CTRLB_RWS_bf(NVMCTRL, CONF_NVM_WAIT_STATE);
+
+	_set_performance_level(2);
+
+	_osc32kctrl_init_sources();
+	_oscctrl_init_sources();
+	_mclk_init();
+#if _GCLK_INIT_1ST
+	_gclk_init_generators_by_fref(_GCLK_INIT_1ST);
+#endif
+	_oscctrl_init_referenced_generators();
+	_gclk_init_generators_by_fref(_GCLK_INIT_LAST);
+
+#if CONF_DMAC_ENABLE
+	hri_mclk_set_AHBMASK_DMAC_bit(MCLK);
+	_dma_init();
+#endif
+
+#if (CONF_PORT_EVCTRL_PORT_0 | CONF_PORT_EVCTRL_PORT_1 | CONF_PORT_EVCTRL_PORT_2 | CONF_PORT_EVCTRL_PORT_3)
+	_port_event_init();
+#endif
+}
diff --git a/watch-library/hardware/hpl/dmac/hpl_dmac.c b/watch-library/hardware/hpl/dmac/hpl_dmac.c
new file mode 100644
index 00000000..c12e0254
--- /dev/null
+++ b/watch-library/hardware/hpl/dmac/hpl_dmac.c
@@ -0,0 +1,244 @@
+
+/**
+ * \file
+ *
+ * \brief Generic DMAC related functionality.
+ *
+ * Copyright (c) 2016-2019 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <compiler.h>
+#include <hpl_dma.h>
+#include <hpl_dmac_config.h>
+#include <utils.h>
+#include <utils_assert.h>
+#include <utils_repeat_macro.h>
+
+#if CONF_DMAC_ENABLE
+
+/* Section containing first descriptors for all DMAC channels */
+COMPILER_ALIGNED(16)
+DmacDescriptor _descriptor_section[DMAC_CH_NUM] SECTION_DMAC_DESCRIPTOR;
+
+/* Section containing current descriptors for all DMAC channels */
+COMPILER_ALIGNED(16)
+DmacDescriptor _write_back_section[DMAC_CH_NUM] SECTION_DMAC_DESCRIPTOR;
+
+/* Array containing callbacks for DMAC channels */
+static struct _dma_resource _resources[DMAC_CH_NUM];
+
+/* This macro DMAC configuration */
+#define DMAC_CHANNEL_CFG(i, n)                                                                                         \
+	{(CONF_DMAC_RUNSTDBY_##n << DMAC_CHCTRLA_RUNSTDBY_Pos) | (CONF_DMAC_ENABLE_##n << DMAC_CHCTRLA_ENABLE_Pos),        \
+	 DMAC_CHCTRLB_TRIGACT(CONF_DMAC_TRIGACT_##n) | DMAC_CHCTRLB_TRIGSRC(CONF_DMAC_TRIGSRC_##n)                         \
+	     | DMAC_CHCTRLB_LVL(CONF_DMAC_LVL_##n) | (CONF_DMAC_EVOE_##n << DMAC_CHCTRLB_EVOE_Pos)                         \
+	     | (CONF_DMAC_EVIE_##n << DMAC_CHCTRLB_EVIE_Pos) | DMAC_CHCTRLB_EVACT(CONF_DMAC_EVACT_##n),                    \
+	 DMAC_BTCTRL_STEPSIZE(CONF_DMAC_STEPSIZE_##n) | (CONF_DMAC_STEPSEL_##n << DMAC_BTCTRL_STEPSEL_Pos)                 \
+	     | (CONF_DMAC_DSTINC_##n << DMAC_BTCTRL_DSTINC_Pos) | (CONF_DMAC_SRCINC_##n << DMAC_BTCTRL_SRCINC_Pos)         \
+	     | DMAC_BTCTRL_BEATSIZE(CONF_DMAC_BEATSIZE_##n) | DMAC_BTCTRL_BLOCKACT(CONF_DMAC_BLOCKACT_##n)                 \
+	     | DMAC_BTCTRL_EVOSEL(CONF_DMAC_EVOSEL_##n)},
+
+/* DMAC channel configuration */
+struct dmac_channel_cfg {
+	uint8_t  ctrla;
+	uint32_t ctrlb;
+	uint16_t btctrl;
+};
+
+/* DMAC channel configurations */
+const static struct dmac_channel_cfg _cfgs[] = {REPEAT_MACRO(DMAC_CHANNEL_CFG, i, DMAC_CH_NUM)};
+
+/**
+ * \brief Initialize DMAC
+ */
+int32_t _dma_init(void)
+{
+	uint8_t i = 0;
+
+	hri_dmac_clear_CTRL_DMAENABLE_bit(DMAC);
+	hri_dmac_clear_CTRL_CRCENABLE_bit(DMAC);
+	hri_dmac_set_CHCTRLA_SWRST_bit(DMAC);
+
+	hri_dmac_write_CTRL_reg(DMAC,
+	                        (CONF_DMAC_LVLEN0 << DMAC_CTRL_LVLEN0_Pos) | (CONF_DMAC_LVLEN1 << DMAC_CTRL_LVLEN1_Pos)
+	                            | (CONF_DMAC_LVLEN2 << DMAC_CTRL_LVLEN2_Pos)
+	                            | (CONF_DMAC_LVLEN3 << DMAC_CTRL_LVLEN3_Pos));
+	hri_dmac_write_DBGCTRL_DBGRUN_bit(DMAC, CONF_DMAC_DBGRUN);
+
+	hri_dmac_write_QOSCTRL_reg(DMAC,
+	                           DMAC_QOSCTRL_WRBQOS(CONF_DMAC_WRBQOS) | DMAC_QOSCTRL_FQOS(CONF_DMAC_FQOS)
+	                               | DMAC_QOSCTRL_DQOS(CONF_DMAC_DQOS));
+
+	hri_dmac_write_PRICTRL0_reg(
+	    DMAC,
+	    DMAC_PRICTRL0_LVLPRI0(CONF_DMAC_LVLPRI0) | DMAC_PRICTRL0_LVLPRI1(CONF_DMAC_LVLPRI1)
+	        | DMAC_PRICTRL0_LVLPRI2(CONF_DMAC_LVLPRI2) | DMAC_PRICTRL0_LVLPRI3(CONF_DMAC_LVLPRI3)
+	        | (CONF_DMAC_RRLVLEN0 << DMAC_PRICTRL0_RRLVLEN0_Pos) | (CONF_DMAC_RRLVLEN1 << DMAC_PRICTRL0_RRLVLEN1_Pos)
+	        | (CONF_DMAC_RRLVLEN2 << DMAC_PRICTRL0_RRLVLEN2_Pos) | (CONF_DMAC_RRLVLEN3 << DMAC_PRICTRL0_RRLVLEN3_Pos));
+	hri_dmac_write_BASEADDR_reg(DMAC, (uint32_t)_descriptor_section);
+	hri_dmac_write_WRBADDR_reg(DMAC, (uint32_t)_write_back_section);
+
+	for (; i < DMAC_CH_NUM; i++) {
+		hri_dmac_write_CHID_reg(DMAC, i);
+
+		hri_dmac_write_CHCTRLA_RUNSTDBY_bit(DMAC, _cfgs[i].ctrla & DMAC_CHCTRLA_RUNSTDBY);
+
+		hri_dmac_write_CHCTRLB_reg(DMAC, _cfgs[i].ctrlb);
+		hri_dmacdescriptor_write_BTCTRL_reg(&_descriptor_section[i], _cfgs[i].btctrl);
+		hri_dmacdescriptor_write_DESCADDR_reg(&_descriptor_section[i], 0x0);
+	}
+
+	NVIC_DisableIRQ(DMAC_IRQn);
+	NVIC_ClearPendingIRQ(DMAC_IRQn);
+	NVIC_EnableIRQ(DMAC_IRQn);
+
+	hri_dmac_set_CTRL_DMAENABLE_bit(DMAC);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable/disable DMA interrupt
+ */
+void _dma_set_irq_state(const uint8_t channel, const enum _dma_callback_type type, const bool state)
+{
+	hri_dmac_write_CHID_reg(DMAC, channel);
+
+	if (DMA_TRANSFER_COMPLETE_CB == type) {
+		hri_dmac_write_CHINTEN_TCMPL_bit(DMAC, state);
+	} else if (DMA_TRANSFER_ERROR_CB == type) {
+		hri_dmac_write_CHINTEN_TERR_bit(DMAC, state);
+	}
+}
+
+int32_t _dma_set_destination_address(const uint8_t channel, const void *const dst)
+{
+	hri_dmacdescriptor_write_DSTADDR_reg(&_descriptor_section[channel], (uint32_t)dst);
+
+	return ERR_NONE;
+}
+
+int32_t _dma_set_source_address(const uint8_t channel, const void *const src)
+{
+	hri_dmacdescriptor_write_SRCADDR_reg(&_descriptor_section[channel], (uint32_t)src);
+
+	return ERR_NONE;
+}
+
+int32_t _dma_set_next_descriptor(const uint8_t current_channel, const uint8_t next_channel)
+{
+	hri_dmacdescriptor_write_DESCADDR_reg(&_descriptor_section[current_channel],
+	                                      (uint32_t)&_descriptor_section[next_channel]);
+
+	return ERR_NONE;
+}
+
+int32_t _dma_srcinc_enable(const uint8_t channel, const bool enable)
+{
+	hri_dmacdescriptor_write_BTCTRL_SRCINC_bit(&_descriptor_section[channel], enable);
+
+	return ERR_NONE;
+}
+
+int32_t _dma_set_data_amount(const uint8_t channel, const uint32_t amount)
+{
+	uint32_t address   = hri_dmacdescriptor_read_DSTADDR_reg(&_descriptor_section[channel]);
+	uint8_t  beat_size = hri_dmacdescriptor_read_BTCTRL_BEATSIZE_bf(&_descriptor_section[channel]);
+
+	if (hri_dmacdescriptor_get_BTCTRL_DSTINC_bit(&_descriptor_section[channel])) {
+		hri_dmacdescriptor_write_DSTADDR_reg(&_descriptor_section[channel], address + amount * (1 << beat_size));
+	}
+
+	address = hri_dmacdescriptor_read_SRCADDR_reg(&_descriptor_section[channel]);
+
+	if (hri_dmacdescriptor_get_BTCTRL_SRCINC_bit(&_descriptor_section[channel])) {
+		hri_dmacdescriptor_write_SRCADDR_reg(&_descriptor_section[channel], address + amount * (1 << beat_size));
+	}
+
+	hri_dmacdescriptor_write_BTCNT_reg(&_descriptor_section[channel], amount);
+
+	return ERR_NONE;
+}
+
+int32_t _dma_enable_transaction(const uint8_t channel, const bool software_trigger)
+{
+	hri_dmac_write_CHID_reg(DMAC, channel);
+	hri_dmacdescriptor_set_BTCTRL_VALID_bit(&_descriptor_section[channel]);
+	hri_dmac_set_CHCTRLA_ENABLE_bit(DMAC);
+	if (software_trigger) {
+		hri_dmac_set_SWTRIGCTRL_reg(DMAC, 1 << channel);
+	}
+
+	return ERR_NONE;
+}
+
+int32_t _dma_get_channel_resource(struct _dma_resource **resource, const uint8_t channel)
+{
+	*resource = &_resources[channel];
+
+	return ERR_NONE;
+}
+
+int32_t _dma_dstinc_enable(const uint8_t channel, const bool enable)
+{
+	hri_dmacdescriptor_write_BTCTRL_DSTINC_bit(&_descriptor_section[channel], enable);
+
+	return ERR_NONE;
+}
+
+/**
+ * \internal DMAC interrupt handler
+ */
+static inline void _dmac_handler(void)
+{
+	uint8_t               channel         = hri_dmac_read_INTPEND_ID_bf(DMAC);
+	uint8_t               current_channel = hri_dmac_read_CHID_reg(DMAC);
+	uint8_t               flag_status;
+	struct _dma_resource *tmp_resource = &_resources[channel];
+
+	hri_dmac_write_CHID_reg(DMAC, channel);
+	flag_status = hri_dmac_get_CHINTFLAG_reg(DMAC, DMAC_CHINTFLAG_MASK);
+
+	if (flag_status & DMAC_CHINTFLAG_TERR) {
+		hri_dmac_clear_CHINTFLAG_TERR_bit(DMAC);
+		tmp_resource->dma_cb.error(tmp_resource);
+	} else if (flag_status & DMAC_CHINTFLAG_TCMPL) {
+		hri_dmac_clear_CHINTFLAG_TCMPL_bit(DMAC);
+		tmp_resource->dma_cb.transfer_done(tmp_resource);
+	}
+	hri_dmac_write_CHID_reg(DMAC, current_channel);
+}
+
+/**
+ * \brief DMAC interrupt handler
+ */
+void DMAC_Handler(void)
+{
+	_dmac_handler();
+}
+
+#endif /* CONF_DMAC_ENABLE */
diff --git a/watch-library/hardware/hpl/eic/hpl_eic.c b/watch-library/hardware/hpl/eic/hpl_eic.c
new file mode 100644
index 00000000..2bd31615
--- /dev/null
+++ b/watch-library/hardware/hpl/eic/hpl_eic.c
@@ -0,0 +1,255 @@
+
+/**
+ * \file
+ *
+ * \brief EIC related functionality implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <compiler.h>
+#include <hpl_eic_config.h>
+#include <hpl_ext_irq.h>
+#include <string.h>
+#include <utils.h>
+#include <utils_assert.h>
+
+#ifdef __MINGW32__
+#define ffs __builtin_ffs
+#endif
+#if defined(__CC_ARM) || defined(__ICCARM__)
+/* Find the first bit set */
+static int ffs(int v)
+{
+	int i, bit = 1;
+	for (i = 0; i < sizeof(int) * 8; i++) {
+		if (v & bit) {
+			return i + 1;
+		}
+		bit <<= 1;
+	}
+	return 0;
+}
+#endif
+
+/**
+ * \brief Invalid external interrupt and pin numbers
+ */
+#define INVALID_EXTINT_NUMBER 0xFF
+#define INVALID_PIN_NUMBER 0xFFFFFFFF
+
+#ifndef CONFIG_EIC_EXTINT_MAP
+/** Dummy mapping to pass compiling. */
+#define CONFIG_EIC_EXTINT_MAP                                                                                          \
+	{                                                                                                                  \
+		INVALID_EXTINT_NUMBER, INVALID_PIN_NUMBER                                                                      \
+	}
+#endif
+
+#define EXT_IRQ_AMOUNT 6
+
+/**
+ * \brief EXTINTx and pin number map
+ */
+struct _eic_map {
+	uint8_t  extint;
+	uint32_t pin;
+};
+
+/**
+ * \brief PIN and EXTINT map for enabled external interrupts
+ */
+static const struct _eic_map _map[] = {CONFIG_EIC_EXTINT_MAP};
+
+/**
+ * \brief The callback to upper layer's interrupt processing routine
+ */
+static void (*callback)(const uint32_t pin);
+
+static void _ext_irq_handler(void);
+
+/**
+ * \brief Initialize external interrupt module
+ */
+int32_t _ext_irq_init(void (*cb)(const uint32_t pin))
+{
+	if (!hri_eic_is_syncing(EIC, EIC_SYNCBUSY_SWRST)) {
+		if (hri_eic_get_CTRLA_reg(EIC, EIC_CTRLA_ENABLE)) {
+			hri_eic_clear_CTRLA_ENABLE_bit(EIC);
+			hri_eic_wait_for_sync(EIC, EIC_SYNCBUSY_ENABLE);
+		}
+		hri_eic_write_CTRLA_reg(EIC, EIC_CTRLA_SWRST);
+	}
+	hri_eic_wait_for_sync(EIC, EIC_SYNCBUSY_SWRST);
+
+	hri_eic_write_CTRLA_CKSEL_bit(EIC, CONF_EIC_CKSEL);
+
+	hri_eic_write_NMICTRL_reg(EIC,
+	                          (CONF_EIC_NMIFILTEN << EIC_NMICTRL_NMIFILTEN_Pos)
+	                              | EIC_NMICTRL_NMISENSE(CONF_EIC_NMISENSE) | EIC_ASYNCH_ASYNCH(CONF_EIC_NMIASYNCH)
+	                              | 0);
+
+	hri_eic_write_EVCTRL_reg(EIC,
+	                         (CONF_EIC_EXTINTEO0 << 0) | (CONF_EIC_EXTINTEO1 << 1) | (CONF_EIC_EXTINTEO2 << 2)
+	                             | (CONF_EIC_EXTINTEO3 << 3) | (CONF_EIC_EXTINTEO4 << 4) | (CONF_EIC_EXTINTEO5 << 5)
+	                             | (CONF_EIC_EXTINTEO6 << 6) | (CONF_EIC_EXTINTEO7 << 7) | (CONF_EIC_EXTINTEO8 << 8)
+	                             | (CONF_EIC_EXTINTEO9 << 9) | (CONF_EIC_EXTINTEO10 << 10) | (CONF_EIC_EXTINTEO11 << 11)
+	                             | (CONF_EIC_EXTINTEO12 << 12) | (CONF_EIC_EXTINTEO13 << 13)
+	                             | (CONF_EIC_EXTINTEO14 << 14) | (CONF_EIC_EXTINTEO15 << 15) | 0);
+	hri_eic_write_ASYNCH_reg(EIC,
+	                         (CONF_EIC_ASYNCH0 << 0) | (CONF_EIC_ASYNCH1 << 1) | (CONF_EIC_ASYNCH2 << 2)
+	                             | (CONF_EIC_ASYNCH3 << 3) | (CONF_EIC_ASYNCH4 << 4) | (CONF_EIC_ASYNCH5 << 5)
+	                             | (CONF_EIC_ASYNCH6 << 6) | (CONF_EIC_ASYNCH7 << 7) | (CONF_EIC_ASYNCH8 << 8)
+	                             | (CONF_EIC_ASYNCH9 << 9) | (CONF_EIC_ASYNCH10 << 10) | (CONF_EIC_ASYNCH11 << 11)
+	                             | (CONF_EIC_ASYNCH12 << 12) | (CONF_EIC_ASYNCH13 << 13) | (CONF_EIC_ASYNCH14 << 14)
+	                             | (CONF_EIC_ASYNCH15 << 15) | 0);
+
+	hri_eic_write_CONFIG_reg(EIC,
+	                         0,
+	                         (CONF_EIC_FILTEN0 << EIC_CONFIG_FILTEN0_Pos) | EIC_CONFIG_SENSE0(CONF_EIC_SENSE0)
+	                             | (CONF_EIC_FILTEN1 << EIC_CONFIG_FILTEN1_Pos) | EIC_CONFIG_SENSE1(CONF_EIC_SENSE1)
+	                             | (CONF_EIC_FILTEN2 << EIC_CONFIG_FILTEN2_Pos) | EIC_CONFIG_SENSE2(CONF_EIC_SENSE2)
+	                             | (CONF_EIC_FILTEN3 << EIC_CONFIG_FILTEN3_Pos) | EIC_CONFIG_SENSE3(CONF_EIC_SENSE3)
+	                             | (CONF_EIC_FILTEN4 << EIC_CONFIG_FILTEN4_Pos) | EIC_CONFIG_SENSE4(CONF_EIC_SENSE4)
+	                             | (CONF_EIC_FILTEN5 << EIC_CONFIG_FILTEN5_Pos) | EIC_CONFIG_SENSE5(CONF_EIC_SENSE5)
+	                             | (CONF_EIC_FILTEN6 << EIC_CONFIG_FILTEN6_Pos) | EIC_CONFIG_SENSE6(CONF_EIC_SENSE6)
+	                             | (CONF_EIC_FILTEN7 << EIC_CONFIG_FILTEN7_Pos) | EIC_CONFIG_SENSE7(CONF_EIC_SENSE7)
+	                             | 0);
+
+	hri_eic_write_CONFIG_reg(EIC,
+	                         1,
+	                         (CONF_EIC_FILTEN8 << EIC_CONFIG_FILTEN0_Pos) | EIC_CONFIG_SENSE0(CONF_EIC_SENSE8)
+	                             | (CONF_EIC_FILTEN9 << EIC_CONFIG_FILTEN1_Pos) | EIC_CONFIG_SENSE1(CONF_EIC_SENSE9)
+	                             | (CONF_EIC_FILTEN10 << EIC_CONFIG_FILTEN2_Pos) | EIC_CONFIG_SENSE2(CONF_EIC_SENSE10)
+	                             | (CONF_EIC_FILTEN11 << EIC_CONFIG_FILTEN3_Pos) | EIC_CONFIG_SENSE3(CONF_EIC_SENSE11)
+	                             | (CONF_EIC_FILTEN12 << EIC_CONFIG_FILTEN4_Pos) | EIC_CONFIG_SENSE4(CONF_EIC_SENSE12)
+	                             | (CONF_EIC_FILTEN13 << EIC_CONFIG_FILTEN5_Pos) | EIC_CONFIG_SENSE5(CONF_EIC_SENSE13)
+	                             | (CONF_EIC_FILTEN14 << EIC_CONFIG_FILTEN6_Pos) | EIC_CONFIG_SENSE6(CONF_EIC_SENSE14)
+	                             | (CONF_EIC_FILTEN15 << EIC_CONFIG_FILTEN7_Pos) | EIC_CONFIG_SENSE7(CONF_EIC_SENSE15)
+	                             | 0);
+
+	hri_eic_set_CTRLA_ENABLE_bit(EIC);
+	NVIC_DisableIRQ(EIC_IRQn);
+	NVIC_ClearPendingIRQ(EIC_IRQn);
+	NVIC_EnableIRQ(EIC_IRQn);
+
+	callback = cb;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief De-initialize external interrupt module
+ */
+int32_t _ext_irq_deinit(void)
+{
+	NVIC_DisableIRQ(EIC_IRQn);
+	callback = NULL;
+
+	hri_eic_clear_CTRLA_ENABLE_bit(EIC);
+	hri_eic_set_CTRLA_SWRST_bit(EIC);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable / disable external irq
+ */
+int32_t _ext_irq_enable(const uint32_t pin, const bool enable)
+{
+	uint8_t extint = INVALID_EXTINT_NUMBER;
+	uint8_t i      = 0;
+
+	for (; i < ARRAY_SIZE(_map); i++) {
+		if (_map[i].pin == pin) {
+			extint = _map[i].extint;
+			break;
+		}
+	}
+	if (INVALID_EXTINT_NUMBER == extint) {
+		return -1;
+	}
+
+	if (enable) {
+		hri_eic_set_INTEN_reg(EIC, 1ul << extint);
+	} else {
+		hri_eic_clear_INTEN_reg(EIC, 1ul << extint);
+		hri_eic_clear_INTFLAG_reg(EIC, 1ul << extint);
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Inter EIC interrupt handler
+ */
+static void _ext_irq_handler(void)
+{
+	volatile uint32_t flags = hri_eic_read_INTFLAG_reg(EIC);
+	int8_t            pos;
+	uint32_t          pin = INVALID_PIN_NUMBER;
+
+	hri_eic_clear_INTFLAG_reg(EIC, flags);
+
+	ASSERT(callback);
+
+	while (flags) {
+		pos = ffs(flags) - 1;
+		while (-1 != pos) {
+			uint8_t lower = 0, middle, upper = EXT_IRQ_AMOUNT;
+
+			while (upper >= lower) {
+				middle = (upper + lower) >> 1;
+				if (_map[middle].extint == pos) {
+					pin = _map[middle].pin;
+					break;
+				}
+				if (_map[middle].extint < pos) {
+					lower = middle + 1;
+				} else {
+					upper = middle - 1;
+				}
+			}
+
+			if (INVALID_PIN_NUMBER != pin) {
+				callback(pin);
+			}
+			flags &= ~(1ul << pos);
+			pos = ffs(flags) - 1;
+		}
+		flags = hri_eic_read_INTFLAG_reg(EIC);
+		hri_eic_clear_INTFLAG_reg(EIC, flags);
+	}
+}
+
+/**
+ * \brief EIC interrupt handler
+ */
+void EIC_Handler(void)
+{
+	_ext_irq_handler();
+}
diff --git a/watch-library/hardware/hpl/gclk/hpl_gclk.c b/watch-library/hardware/hpl/gclk/hpl_gclk.c
new file mode 100644
index 00000000..be66ef77
--- /dev/null
+++ b/watch-library/hardware/hpl/gclk/hpl_gclk.c
@@ -0,0 +1,164 @@
+
+/**
+ * \file
+ *
+ * \brief Generic Clock Controller related functionality.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_gclk_config.h>
+#include <hpl_gclk_base.h>
+#include <hpl_init.h>
+#include <utils_assert.h>
+
+/* Compatible naming definition */
+#ifndef GCLK_GENCTRL_SRC_DPLL
+#define GCLK_GENCTRL_SRC_DPLL GCLK_GENCTRL_SRC_FDPLL
+#endif
+
+/**
+ * \brief Initializes generators
+ */
+void _gclk_init_generators(void)
+{
+
+#if CONF_GCLK_GENERATOR_0_CONFIG == 1
+	hri_gclk_write_GENCTRL_reg(
+	    GCLK,
+	    0,
+	    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_0_DIV) | (CONF_GCLK_GEN_0_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+	        | (CONF_GCLK_GEN_0_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_0_OE << GCLK_GENCTRL_OE_Pos)
+	        | (CONF_GCLK_GEN_0_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_0_IDC << GCLK_GENCTRL_IDC_Pos)
+	        | (CONF_GCLK_GENERATOR_0_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_0_SOURCE);
+#endif
+
+#if CONF_GCLK_GENERATOR_1_CONFIG == 1
+	hri_gclk_write_GENCTRL_reg(
+	    GCLK,
+	    1,
+	    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_1_DIV) | (CONF_GCLK_GEN_1_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+	        | (CONF_GCLK_GEN_1_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_1_OE << GCLK_GENCTRL_OE_Pos)
+	        | (CONF_GCLK_GEN_1_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_1_IDC << GCLK_GENCTRL_IDC_Pos)
+	        | (CONF_GCLK_GENERATOR_1_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_1_SOURCE);
+#endif
+
+#if CONF_GCLK_GENERATOR_2_CONFIG == 1
+	hri_gclk_write_GENCTRL_reg(
+	    GCLK,
+	    2,
+	    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_2_DIV) | (CONF_GCLK_GEN_2_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+	        | (CONF_GCLK_GEN_2_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_2_OE << GCLK_GENCTRL_OE_Pos)
+	        | (CONF_GCLK_GEN_2_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_2_IDC << GCLK_GENCTRL_IDC_Pos)
+	        | (CONF_GCLK_GENERATOR_2_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_2_SOURCE);
+#endif
+
+#if CONF_GCLK_GENERATOR_3_CONFIG == 1
+	hri_gclk_write_GENCTRL_reg(
+	    GCLK,
+	    3,
+	    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_3_DIV) | (CONF_GCLK_GEN_3_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+	        | (CONF_GCLK_GEN_3_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_3_OE << GCLK_GENCTRL_OE_Pos)
+	        | (CONF_GCLK_GEN_3_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_3_IDC << GCLK_GENCTRL_IDC_Pos)
+	        | (CONF_GCLK_GENERATOR_3_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_3_SOURCE);
+#endif
+
+#if CONF_GCLK_GENERATOR_4_CONFIG == 1
+	hri_gclk_write_GENCTRL_reg(
+	    GCLK,
+	    4,
+	    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_4_DIV) | (CONF_GCLK_GEN_4_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+	        | (CONF_GCLK_GEN_4_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_4_OE << GCLK_GENCTRL_OE_Pos)
+	        | (CONF_GCLK_GEN_4_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_4_IDC << GCLK_GENCTRL_IDC_Pos)
+	        | (CONF_GCLK_GENERATOR_4_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_4_SOURCE);
+#endif
+}
+
+void _gclk_init_generators_by_fref(uint32_t bm)
+{
+
+#if CONF_GCLK_GENERATOR_0_CONFIG == 1
+	if (bm & (1ul << 0)) {
+		hri_gclk_write_GENCTRL_reg(
+		    GCLK,
+		    0,
+		    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_0_DIV) | (CONF_GCLK_GEN_0_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+		        | (CONF_GCLK_GEN_0_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_0_OE << GCLK_GENCTRL_OE_Pos)
+		        | (CONF_GCLK_GEN_0_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_0_IDC << GCLK_GENCTRL_IDC_Pos)
+		        | (CONF_GCLK_GENERATOR_0_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_0_SOURCE);
+	}
+#endif
+
+#if CONF_GCLK_GENERATOR_1_CONFIG == 1
+	if (bm & (1ul << 1)) {
+		hri_gclk_write_GENCTRL_reg(
+		    GCLK,
+		    1,
+		    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_1_DIV) | (CONF_GCLK_GEN_1_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+		        | (CONF_GCLK_GEN_1_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_1_OE << GCLK_GENCTRL_OE_Pos)
+		        | (CONF_GCLK_GEN_1_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_1_IDC << GCLK_GENCTRL_IDC_Pos)
+		        | (CONF_GCLK_GENERATOR_1_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_1_SOURCE);
+	}
+#endif
+
+#if CONF_GCLK_GENERATOR_2_CONFIG == 1
+	if (bm & (1ul << 2)) {
+		hri_gclk_write_GENCTRL_reg(
+		    GCLK,
+		    2,
+		    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_2_DIV) | (CONF_GCLK_GEN_2_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+		        | (CONF_GCLK_GEN_2_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_2_OE << GCLK_GENCTRL_OE_Pos)
+		        | (CONF_GCLK_GEN_2_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_2_IDC << GCLK_GENCTRL_IDC_Pos)
+		        | (CONF_GCLK_GENERATOR_2_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_2_SOURCE);
+	}
+#endif
+
+#if CONF_GCLK_GENERATOR_3_CONFIG == 1
+	if (bm & (1ul << 3)) {
+		hri_gclk_write_GENCTRL_reg(
+		    GCLK,
+		    3,
+		    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_3_DIV) | (CONF_GCLK_GEN_3_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+		        | (CONF_GCLK_GEN_3_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_3_OE << GCLK_GENCTRL_OE_Pos)
+		        | (CONF_GCLK_GEN_3_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_3_IDC << GCLK_GENCTRL_IDC_Pos)
+		        | (CONF_GCLK_GENERATOR_3_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_3_SOURCE);
+	}
+#endif
+
+#if CONF_GCLK_GENERATOR_4_CONFIG == 1
+	if (bm & (1ul << 4)) {
+		hri_gclk_write_GENCTRL_reg(
+		    GCLK,
+		    4,
+		    GCLK_GENCTRL_DIV(CONF_GCLK_GEN_4_DIV) | (CONF_GCLK_GEN_4_RUNSTDBY << GCLK_GENCTRL_RUNSTDBY_Pos)
+		        | (CONF_GCLK_GEN_4_DIVSEL << GCLK_GENCTRL_DIVSEL_Pos) | (CONF_GCLK_GEN_4_OE << GCLK_GENCTRL_OE_Pos)
+		        | (CONF_GCLK_GEN_4_OOV << GCLK_GENCTRL_OOV_Pos) | (CONF_GCLK_GEN_4_IDC << GCLK_GENCTRL_IDC_Pos)
+		        | (CONF_GCLK_GENERATOR_4_CONFIG << GCLK_GENCTRL_GENEN_Pos) | CONF_GCLK_GEN_4_SOURCE);
+	}
+#endif
+}
diff --git a/watch-library/hardware/hpl/gclk/hpl_gclk_base.h b/watch-library/hardware/hpl/gclk/hpl_gclk_base.h
new file mode 100644
index 00000000..3e7d2825
--- /dev/null
+++ b/watch-library/hardware/hpl/gclk/hpl_gclk_base.h
@@ -0,0 +1,87 @@
+/**
+ * \file
+ *
+ * \brief Generic Clock Controller.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HPL_GCLK_H_INCLUDED
+#define _HPL_GCLK_H_INCLUDED
+
+#include <compiler.h>
+#ifdef _UNIT_TEST_
+#include <hri_gclk1_v210_mock.h>
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+ * \addtogroup gclk_group GCLK Hardware Proxy Layer
+ *
+ * \section gclk_hpl_rev Revision History
+ * - v0.0.0.1 Initial Commit
+ *
+ *@{
+ */
+
+/**
+ * \name HPL functions
+ */
+//@{
+/**
+ * \brief Enable clock on the given channel with the given clock source
+ *
+ * This function maps the given clock source to the given clock channel
+ * and enables channel.
+ *
+ * \param[in] channel The channel to enable clock for
+ * \param[in] source The clock source for the given channel
+ */
+static inline void _gclk_enable_channel(const uint8_t channel, const uint8_t source)
+{
+
+	hri_gclk_write_PCHCTRL_reg(GCLK, channel, source | GCLK_PCHCTRL_CHEN);
+}
+
+/**
+ * \brief Initialize GCLK generators by function references
+ * \param[in] bm Bit mapping for referenced generators,
+ *               a bit 1 in position triggers generator initialization.
+ */
+void _gclk_init_generators_by_fref(uint32_t bm);
+
+//@}
+/**@}*/
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HPL_GCLK_H_INCLUDED */
diff --git a/watch-library/hardware/hpl/mclk/hpl_mclk.c b/watch-library/hardware/hpl/mclk/hpl_mclk.c
new file mode 100644
index 00000000..46e7c853
--- /dev/null
+++ b/watch-library/hardware/hpl/mclk/hpl_mclk.c
@@ -0,0 +1,46 @@
+/**
+ * \file
+ *
+ * \brief SAM Main Clock.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <compiler.h>
+#include <hpl_mclk_config.h>
+#include <hpl_init.h>
+
+/**
+ * \brief Initialize master clock generator
+ */
+void _mclk_init(void)
+{
+	void *hw = (void *)MCLK;
+	hri_mclk_write_BUPDIV_reg(hw, MCLK_BUPDIV_BUPDIV(CONF_MCLK_BUPDIV));
+	hri_mclk_write_CPUDIV_reg(hw, MCLK_CPUDIV_CPUDIV(CONF_MCLK_CPUDIV));
+}
diff --git a/watch-library/hardware/hpl/nvmctrl/hpl_nvmctrl.c b/watch-library/hardware/hpl/nvmctrl/hpl_nvmctrl.c
new file mode 100755
index 00000000..c1d42c5e
--- /dev/null
+++ b/watch-library/hardware/hpl/nvmctrl/hpl_nvmctrl.c
@@ -0,0 +1,782 @@
+
+/**
+ * \file
+ *
+ * \brief Non-Volatile Memory Controller
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_flash.h>
+#include <hpl_user_area.h>
+#include <string.h>
+#include <utils_assert.h>
+#include <utils.h>
+#include <hpl_nvmctrl_config.h>
+
+#define NVM_MEMORY ((volatile uint16_t *)FLASH_ADDR)
+
+/**
+ * \brief NVM configuration type
+ */
+struct nvm_configuration {
+	hri_nvmctrl_ctrlb_reg_t ctrlb; /*!< Control B Register */
+};
+
+/**
+ * \brief Array of NVM configurations
+ */
+static struct nvm_configuration _nvm
+    = {(CONF_NVM_CACHE << NVMCTRL_CTRLB_CACHEDIS_Pos) | (CONF_NVM_READ_MODE << NVMCTRL_CTRLB_READMODE_Pos)
+       | (CONF_NVM_SLEEPPRM << NVMCTRL_CTRLB_SLEEPPRM_Pos)};
+
+/*!< Pointer to hpl device */
+static struct _flash_device *_nvm_dev = NULL;
+
+static void _flash_erase_row(void *const hw, const uint32_t dst_addr, uint32_t nvmctrl_cmd);
+static void _flash_program(void *const hw, const uint32_t dst_addr, const uint8_t *buffer, const uint16_t size,
+                           uint32_t nvmctrl_cmd);
+
+/**
+ * \brief Initialize NVM
+ */
+int32_t _flash_init(struct _flash_device *const device, void *const hw)
+{
+	ASSERT(device && (hw == NVMCTRL));
+	uint32_t ctrlb;
+
+	device->hw = hw;
+	ctrlb      = _nvm.ctrlb & ~(NVMCTRL_CTRLB_RWS_Msk | NVMCTRL_CTRLB_MANW);
+	ctrlb |= hri_nvmctrl_get_CTRLB_reg(device->hw, NVMCTRL_CTRLB_RWS_Msk | NVMCTRL_CTRLB_MANW);
+	hri_nvmctrl_write_CTRLB_reg(device->hw, ctrlb);
+
+	_nvm_dev = device;
+	NVIC_DisableIRQ(NVMCTRL_IRQn);
+	NVIC_ClearPendingIRQ(NVMCTRL_IRQn);
+	NVIC_EnableIRQ(NVMCTRL_IRQn);
+	return ERR_NONE;
+}
+
+/**
+ * \brief De-initialize NVM
+ */
+void _flash_deinit(struct _flash_device *const device)
+{
+	device->hw = NULL;
+	NVIC_DisableIRQ(NVMCTRL_IRQn);
+}
+
+/**
+ * \brief Get the flash page size.
+ */
+uint32_t _flash_get_page_size(struct _flash_device *const device)
+{
+	(void)device;
+	return (uint32_t)NVMCTRL_PAGE_SIZE;
+}
+
+/**
+ * \brief Get the numbers of flash page.
+ */
+uint32_t _flash_get_total_pages(struct _flash_device *const device)
+{
+	(void)device;
+	return (uint32_t)FLASH_NB_OF_PAGES;
+}
+
+/**
+ * \brief Get the number of wait states for read and write operations.
+ */
+uint8_t _flash_get_wait_state(struct _flash_device *const device)
+{
+	return hri_nvmctrl_get_CTRLB_reg(device->hw, NVMCTRL_CTRLB_RWS_Msk);
+}
+
+/**
+ * \brief Set the number of wait states for read and write operations.
+ */
+void _flash_set_wait_state(struct _flash_device *const device, uint8_t state)
+{
+	hri_nvmctrl_write_CTRLB_RWS_bf(device->hw, state);
+}
+
+/**
+ * \brief Reads a number of bytes to a page in the internal Flash.
+ */
+void _flash_read(struct _flash_device *const device, const uint32_t src_addr, uint8_t *buffer, uint32_t length)
+{
+	uint32_t nvm_address = src_addr / 2;
+	uint32_t i;
+	uint16_t data;
+
+	/* Check if the module is busy */
+	while (!hri_nvmctrl_get_interrupt_READY_bit(device->hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Clear flags */
+	hri_nvmctrl_clear_STATUS_reg(device->hw, NVMCTRL_STATUS_MASK);
+
+	/* Check whether byte address is word-aligned*/
+	if (src_addr % 2) {
+		data      = NVM_MEMORY[nvm_address++];
+		buffer[0] = data >> 8;
+		i         = 1;
+	} else {
+		i = 0;
+	}
+
+	/* NVM _must_ be accessed as a series of 16-bit words, perform manual copy
+	 * to ensure alignment */
+	while (i < length) {
+		data      = NVM_MEMORY[nvm_address++];
+		buffer[i] = (data & 0xFF);
+		if (i < (length - 1)) {
+			buffer[i + 1] = (data >> 8);
+		}
+		i += 2;
+	}
+}
+
+/**
+ * \brief Writes a number of bytes to a page in the internal Flash.
+ */
+void _flash_write(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length)
+{
+	uint8_t  tmp_buffer[NVMCTRL_ROW_PAGES][NVMCTRL_PAGE_SIZE];
+	uint32_t row_start_addr, row_end_addr;
+	uint32_t i, j, k;
+	uint32_t wr_start_addr = dst_addr;
+
+	do {
+		row_start_addr = wr_start_addr & ~((NVMCTRL_PAGE_SIZE * NVMCTRL_ROW_PAGES) - 1);
+		row_end_addr   = row_start_addr + NVMCTRL_ROW_PAGES * NVMCTRL_PAGE_SIZE - 1;
+
+		/* store the erase data into temp buffer before write */
+		for (i = 0; i < NVMCTRL_ROW_PAGES; i++) {
+			_flash_read(device, row_start_addr + i * NVMCTRL_PAGE_SIZE, tmp_buffer[i], NVMCTRL_PAGE_SIZE);
+		}
+
+		/* temp buffer update */
+		j = (wr_start_addr - row_start_addr) / NVMCTRL_PAGE_SIZE;
+		k = wr_start_addr - row_start_addr - j * NVMCTRL_PAGE_SIZE;
+		while ((wr_start_addr <= row_end_addr) && (length > 0)) {
+			tmp_buffer[j][k] = *buffer;
+			k                = (k + 1) % NVMCTRL_PAGE_SIZE;
+			if (0 == k) {
+				j++;
+			}
+			wr_start_addr++;
+			buffer++;
+			length--;
+		}
+
+		/* erase row before write */
+		_flash_erase_row(device->hw, row_start_addr, NVMCTRL_CTRLA_CMD_ER);
+
+		/* write buffer to flash */
+		for (i = 0; i < NVMCTRL_ROW_PAGES; i++) {
+			_flash_program(device->hw,
+			               row_start_addr + i * NVMCTRL_PAGE_SIZE,
+			               tmp_buffer[i],
+			               NVMCTRL_PAGE_SIZE,
+			               NVMCTRL_CTRLA_CMD_WP);
+		}
+
+	} while (row_end_addr < (wr_start_addr + length - 1));
+}
+
+/**
+ * \brief Appends a number of bytes in the internal Flash.
+ */
+void _flash_append(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length)
+{
+	uint32_t page_start_addr = dst_addr & ~(NVMCTRL_PAGE_SIZE - 1);
+	uint32_t size;
+	uint32_t offset = 0;
+
+	if (dst_addr != page_start_addr) {
+		/* Need to write some data to the end of a page */
+		size = min(length, NVMCTRL_PAGE_SIZE - (dst_addr - page_start_addr));
+		_flash_program(device->hw, dst_addr, buffer, size, NVMCTRL_CTRLA_CMD_WP);
+		page_start_addr += NVMCTRL_PAGE_SIZE;
+		offset += size;
+	}
+
+	while (offset < length) {
+		size = min(length - offset, NVMCTRL_PAGE_SIZE);
+		_flash_program(device->hw, page_start_addr, buffer + offset, size, NVMCTRL_CTRLA_CMD_WP);
+		page_start_addr += NVMCTRL_PAGE_SIZE;
+		offset += size;
+	}
+}
+
+/**
+ * \brief Execute erase in the internal flash
+ */
+void _flash_erase(struct _flash_device *const device, uint32_t dst_addr, uint32_t page_nums)
+{
+	uint8_t  tmp_buffer[NVMCTRL_PAGE_SIZE];
+	uint32_t row_start_addr;
+	uint32_t i;
+
+	row_start_addr = dst_addr & ~((NVMCTRL_PAGE_SIZE * NVMCTRL_ROW_PAGES) - 1);
+
+	memset(tmp_buffer, 0xFF, NVMCTRL_PAGE_SIZE);
+
+	/* when address is not aligned with row start address */
+	if (dst_addr != row_start_addr) {
+		row_start_addr += NVMCTRL_ROW_PAGES * NVMCTRL_PAGE_SIZE;
+		for (i = 0; i < NVMCTRL_ROW_PAGES - 1; i++) {
+			_flash_write(device, dst_addr, tmp_buffer, NVMCTRL_PAGE_SIZE);
+			if (--page_nums == 0) {
+				return;
+			}
+			dst_addr += NVMCTRL_PAGE_SIZE;
+			if (dst_addr == row_start_addr) {
+				break;
+			}
+		}
+	}
+
+	while (page_nums >= NVMCTRL_ROW_PAGES) {
+		_flash_erase_row(device->hw, row_start_addr, NVMCTRL_CTRLA_CMD_ER);
+		row_start_addr += NVMCTRL_ROW_PAGES * NVMCTRL_PAGE_SIZE;
+		page_nums -= NVMCTRL_ROW_PAGES;
+	}
+
+	if (page_nums != 0) {
+		for (i = 0; i < page_nums; i++) {
+			_flash_write(device, row_start_addr, tmp_buffer, NVMCTRL_PAGE_SIZE);
+			row_start_addr += NVMCTRL_PAGE_SIZE;
+		}
+	}
+}
+
+/**
+ * \brief Execute lock in the internal flash
+ */
+int32_t _flash_lock(struct _flash_device *const device, const uint32_t dst_addr, uint32_t page_nums)
+{
+	uint32_t region_pages;
+	uint32_t row_start_addr;
+
+	region_pages   = (uint32_t)NVMCTRL_FLASH_SIZE / (16 * NVMCTRL_PAGE_SIZE);
+	row_start_addr = dst_addr & ~((NVMCTRL_PAGE_SIZE * NVMCTRL_ROW_PAGES) - 1);
+
+	if ((page_nums != region_pages) || (dst_addr != row_start_addr)) {
+		return ERR_INVALID_ARG;
+	}
+
+	while (!hri_nvmctrl_get_interrupt_READY_bit(device->hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Clear flags */
+	hri_nvmctrl_clear_STATUS_reg(device->hw, NVMCTRL_STATUS_MASK);
+
+	hri_nvmctrl_write_ADDR_reg(device->hw, dst_addr / 2);
+	hri_nvmctrl_write_CTRLA_reg(device->hw, NVMCTRL_CTRLA_CMD_LR | NVMCTRL_CTRLA_CMDEX_KEY);
+
+	return (int32_t)NVMCTRL_FLASH_SIZE / (16 * NVMCTRL_PAGE_SIZE);
+}
+
+/**
+ * \brief Execute unlock in the internal flash
+ */
+int32_t _flash_unlock(struct _flash_device *const device, const uint32_t dst_addr, uint32_t page_nums)
+{
+	uint32_t region_pages;
+	uint32_t row_start_addr;
+
+	region_pages   = (uint32_t)NVMCTRL_FLASH_SIZE / (16 * NVMCTRL_PAGE_SIZE);
+	row_start_addr = dst_addr & ~((NVMCTRL_PAGE_SIZE * NVMCTRL_ROW_PAGES) - 1);
+
+	if ((page_nums != region_pages) || (dst_addr != row_start_addr)) {
+		return ERR_INVALID_ARG;
+	}
+
+	while (!hri_nvmctrl_get_interrupt_READY_bit(device->hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Clear flags */
+	hri_nvmctrl_clear_STATUS_reg(device->hw, NVMCTRL_STATUS_MASK);
+
+	hri_nvmctrl_write_ADDR_reg(device->hw, dst_addr / 2);
+	hri_nvmctrl_write_CTRLA_reg(device->hw, NVMCTRL_CTRLA_CMD_UR | NVMCTRL_CTRLA_CMDEX_KEY);
+
+	return (int32_t)NVMCTRL_FLASH_SIZE / (16 * NVMCTRL_PAGE_SIZE);
+}
+
+/**
+ * \brief check whether the region which is pointed by address
+ */
+bool _flash_is_locked(struct _flash_device *const device, const uint32_t dst_addr)
+{
+	uint16_t region_id;
+
+	/* Get region for given page */
+	region_id = dst_addr / (NVMCTRL_FLASH_SIZE / 16);
+
+	return !(hri_nvmctrl_get_LOCK_reg(device->hw, 1 << region_id));
+}
+
+/**
+ * \brief Enable/disable Flash interrupt
+ */
+void _flash_set_irq_state(struct _flash_device *const device, const enum _flash_cb_type type, const bool state)
+{
+	ASSERT(device);
+
+	if (FLASH_DEVICE_CB_READY == type) {
+		hri_nvmctrl_write_INTEN_READY_bit(device->hw, state);
+	} else if (FLASH_DEVICE_CB_ERROR == type) {
+		hri_nvmctrl_write_INTEN_ERROR_bit(device->hw, state);
+	}
+}
+
+/**
+ * \internal   erase a row in flash
+ * \param[in]  hw            The pointer to hardware instance
+ * \param[in]  dst_addr      Destination page address to erase
+ */
+static void _flash_erase_row(void *const hw, const uint32_t dst_addr, uint32_t nvmctrl_cmd)
+{
+	while (!hri_nvmctrl_get_interrupt_READY_bit(hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Clear flags */
+	hri_nvmctrl_clear_STATUS_reg(hw, NVMCTRL_STATUS_MASK);
+
+	/* Set address and command */
+	hri_nvmctrl_write_ADDR_reg(hw, dst_addr / 2);
+	hri_nvmctrl_write_CTRLA_reg(hw, nvmctrl_cmd | NVMCTRL_CTRLA_CMDEX_KEY);
+}
+
+/**
+ * \internal   write a page in flash
+ * \param[in]  hw            The pointer to hardware instance
+ * \param[in]  dst_addr      Destination page address to write
+ * \param[in]  buffer        Pointer to buffer where the data to
+ *                           write is stored
+ * \param[in] size           The size of data to write to a page
+ */
+static void _flash_program(void *const hw, const uint32_t dst_addr, const uint8_t *buffer, const uint16_t size,
+                           uint32_t nvmctrl_cmd)
+{
+	ASSERT(!(dst_addr % 2));
+
+	uint32_t nvm_address = dst_addr / 2;
+	uint16_t i, data;
+
+	while (!hri_nvmctrl_get_interrupt_READY_bit(hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	hri_nvmctrl_write_CTRLA_reg(hw, NVMCTRL_CTRLA_CMD_PBC | NVMCTRL_CTRLA_CMDEX_KEY);
+
+	while (!hri_nvmctrl_get_interrupt_READY_bit(hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Clear flags */
+	hri_nvmctrl_clear_STATUS_reg(hw, NVMCTRL_STATUS_MASK);
+
+	for (i = 0; i < size; i += 2) {
+		data = buffer[i];
+		if (i < NVMCTRL_PAGE_SIZE - 1) {
+			data |= (buffer[i + 1] << 8);
+		}
+		NVM_MEMORY[nvm_address++] = data;
+	}
+
+	while (!hri_nvmctrl_get_interrupt_READY_bit(hw)) {
+		/* Wait until this module isn't busy */
+	}
+
+	hri_nvmctrl_write_ADDR_reg(hw, dst_addr / 2);
+	hri_nvmctrl_write_CTRLA_reg(hw, nvmctrl_cmd | NVMCTRL_CTRLA_CMDEX_KEY);
+}
+
+/**
+ * \internal NVM interrupt handler
+ */
+void NVMCTRL_Handler(void)
+{
+	void *const hw = _nvm_dev->hw;
+
+	if (hri_nvmctrl_get_interrupt_READY_bit(hw)) {
+		if (NULL != _nvm_dev->flash_cb.ready_cb) {
+			_nvm_dev->flash_cb.ready_cb(_nvm_dev);
+		}
+	} else if (hri_nvmctrl_get_interrupt_ERROR_bit(hw)) {
+		hri_nvmctrl_clear_interrupt_ERROR_bit(hw);
+		if (NULL != _nvm_dev->flash_cb.error_cb) {
+			_nvm_dev->flash_cb.error_cb(_nvm_dev);
+		}
+	}
+}
+
+/*
+The NVM User Row contains calibration data that are automatically read at device
+power on.
+The NVM User Row can be read at address 0x804000.
+*/
+#ifndef _NVM_USER_ROW_BASE
+#define _NVM_USER_ROW_BASE 0x804000
+#endif
+#define _NVM_USER_ROW_N_BITS 64
+#define _NVM_USER_ROW_N_BYTES (_NVM_USER_ROW_N_BITS / 8)
+#define _NVM_USER_ROW_END (((uint8_t *)_NVM_USER_ROW_BASE) + _NVM_USER_ROW_N_BYTES - 1)
+#define _IS_NVM_USER_ROW(b)                                                                                            \
+	(((uint8_t *)(b) >= (uint8_t *)(_NVM_USER_ROW_BASE)) && ((uint8_t *)(b) <= (uint8_t *)(_NVM_USER_ROW_END)))
+#define _IN_NVM_USER_ROW(b, o) (((uint8_t *)(b) + (o)) <= (uint8_t *)(_NVM_USER_ROW_END))
+
+/*
+The NVM Software Calibration Area can be read at address 0x806020.
+The NVM Software Calibration Area can not be written.
+*/
+#ifndef _NVM_SW_CALIB_AREA_BASE
+#define _NVM_SW_CALIB_AREA_BASE 0x806020
+#endif
+#define _NVM_SW_CALIB_AREA_N_BITS 128
+#define _NVM_SW_CALIB_AREA_N_BYTES (_NVM_SW_CALIB_AREA_N_BITS / 8)
+#define _NVM_SW_CALIB_AREA_END (((uint8_t *)_NVM_SW_CALIB_AREA_BASE) + _NVM_SW_CALIB_AREA_N_BYTES - 1)
+#define _IS_NVM_SW_CALIB_AREA(b)                                                                                       \
+	(((uint8_t *)(b) >= (uint8_t *)_NVM_SW_CALIB_AREA_BASE) && ((uint8_t *)(b) <= (uint8_t *)_NVM_SW_CALIB_AREA_END))
+#define _IN_NVM_SW_CALIB_AREA(b, o) (((uint8_t *)(b) + (o)) <= (uint8_t *)(_NVM_SW_CALIB_AREA_END))
+
+/**
+ * \internal Read left aligned data bits
+ * \param[in] base       Base address for the data
+ * \param[in] bit_offset Offset for the bitfield start
+ * \param[in] n_bits     Number of bits in the bitfield
+ */
+static inline uint32_t _user_area_read_l32_bits(const volatile uint32_t *base, const uint32_t bit_offset,
+                                                const uint8_t n_bits)
+{
+	return base[bit_offset >> 5] & ((1 << n_bits) - 1);
+}
+
+/**
+ * \internal Read right aligned data bits
+ * \param[in] base       Base address for the data
+ * \param[in] bit_offset Offset for the bitfield start
+ * \param[in] n_bits     Number of bits in the bitfield
+ */
+static inline uint32_t _user_area_read_r32_bits(const volatile uint32_t *base, const uint32_t bit_offset,
+                                                const uint8_t n_bits)
+{
+	return (base[bit_offset >> 5] >> (bit_offset & 0x1F)) & ((1 << n_bits) - 1);
+}
+
+int32_t _user_area_read(const void *base, const uint32_t offset, uint8_t *buf, uint32_t size)
+{
+	ASSERT(buf);
+
+	/** Parameter check. */
+	if (_IS_NVM_USER_ROW(base)) {
+		if (!_IN_NVM_USER_ROW(base, offset)) {
+			return ERR_BAD_ADDRESS;
+		}
+		/* Cut off if request too many bytes */
+		if (!_IN_NVM_USER_ROW(base, offset + size - 1)) {
+			return ERR_INVALID_ARG;
+		}
+	} else if (_IS_NVM_SW_CALIB_AREA(base)) {
+		if (!_IN_NVM_SW_CALIB_AREA(base, offset)) {
+			return ERR_BAD_ADDRESS;
+		}
+		/* Cut off if request too many bytes */
+		if (!_IN_NVM_SW_CALIB_AREA(base, offset + size - 1)) {
+			return ERR_INVALID_ARG;
+		}
+	} else {
+		return ERR_UNSUPPORTED_OP;
+	}
+
+	/* Copy data */
+	memcpy(buf, ((uint8_t *)base) + offset, size);
+	return ERR_NONE;
+}
+
+uint32_t _user_area_read_bits(const void *base, const uint32_t bit_offset, const uint8_t n_bits)
+{
+	volatile uint32_t *mem_base = (volatile uint32_t *)base;
+	uint32_t           l_off, l_bits;
+	uint32_t           r_off, r_bits;
+
+	/** Parameter check. */
+	if (_IS_NVM_USER_ROW(base)) {
+		ASSERT(_IN_NVM_USER_ROW(base, bit_offset >> 3) && _IN_NVM_USER_ROW(base, (bit_offset + n_bits - 1) >> 3));
+	} else if (_IS_NVM_SW_CALIB_AREA(base)) {
+		ASSERT(_IN_NVM_SW_CALIB_AREA(base, bit_offset >> 3)
+		       && _IN_NVM_SW_CALIB_AREA(base, (bit_offset + n_bits - 1) >> 3));
+	} else {
+		ASSERT(false);
+	}
+
+	/* Since the bitfield can cross 32-bits boundaries,
+	 * left and right bits are read from 32-bit aligned address
+	 * and then combined together. */
+	l_off  = bit_offset & (~(32 - 1));
+	r_off  = l_off + 32;
+	l_bits = 32 - (bit_offset & (32 - 1));
+	if (n_bits > l_bits) {
+		r_bits = n_bits - l_bits;
+	} else {
+		l_bits = n_bits;
+		r_bits = 0;
+	}
+	return _user_area_read_r32_bits(mem_base, bit_offset, l_bits)
+	       + (_user_area_read_l32_bits(mem_base, r_off, r_bits) << l_bits);
+}
+
+/** \internal Write 64-bit user row
+ *  \param[in] _row Pointer to 64-bit user row data.
+ */
+static int32_t _user_row_write_exec(const uint32_t *_row)
+{
+	Nvmctrl *hw    = NVMCTRL;
+	uint32_t ctrlb = hri_nvmctrl_read_CTRLB_reg(NVMCTRL);
+
+	/* Denie if Security Bit is set */
+	if (hri_nvmctrl_get_STATUS_reg(hw, NVMCTRL_STATUS_SB)) {
+		return ERR_DENIED;
+	}
+
+	/* Do Save */
+
+	/* - Prepare. */
+	while (!hri_nvmctrl_get_INTFLAG_reg(hw, NVMCTRL_INTFLAG_READY)) {
+		/* Wait until this module isn't busy */
+	}
+	hri_nvmctrl_clear_STATUS_reg(hw, NVMCTRL_STATUS_MASK);
+	hri_nvmctrl_set_CTRLB_MANW_bit(hw);
+
+	/* - Erase AUX row. */
+	hri_nvmctrl_write_ADDR_reg(hw, (hri_nvmctrl_addr_reg_t)(_NVM_USER_ROW_BASE / 2));
+	hri_nvmctrl_write_CTRLA_reg(hw, NVMCTRL_CTRLA_CMD_EAR | NVMCTRL_CTRLA_CMDEX_KEY);
+	while (!hri_nvmctrl_get_INTFLAG_reg(hw, NVMCTRL_INTFLAG_READY)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* - Page buffer clear & write. */
+	hri_nvmctrl_write_CTRLA_reg(hw, NVMCTRL_CTRLA_CMD_PBC | NVMCTRL_CTRLA_CMDEX_KEY);
+	while (!hri_nvmctrl_get_INTFLAG_reg(hw, NVMCTRL_INTFLAG_READY)) {
+		/* Wait until this module isn't busy */
+	}
+	*((uint32_t *)NVMCTRL_AUX0_ADDRESS)       = _row[0];
+	*(((uint32_t *)NVMCTRL_AUX0_ADDRESS) + 1) = _row[1];
+
+	/* - Write AUX row. */
+	hri_nvmctrl_write_ADDR_reg(hw, (hri_nvmctrl_addr_reg_t)(_NVM_USER_ROW_BASE / 2));
+	hri_nvmctrl_write_CTRLA_reg(hw, NVMCTRL_CTRLA_CMD_WAP | NVMCTRL_CTRLA_CMDEX_KEY);
+	while (!hri_nvmctrl_get_INTFLAG_reg(hw, NVMCTRL_INTFLAG_READY)) {
+		/* Wait until this module isn't busy */
+	}
+
+	/* Restore CTRLB */
+	hri_nvmctrl_write_CTRLB_reg(NVMCTRL, ctrlb);
+
+	return ERR_NONE;
+}
+
+int32_t _user_area_write(void *base, const uint32_t offset, const uint8_t *buf, const uint32_t size)
+{
+	uint32_t _row[2]; /* Copy of user row. */
+
+	/** Parameter check. */
+	if (_IS_NVM_USER_ROW(base)) {
+		if (!_IN_NVM_USER_ROW(base, offset)) {
+			return ERR_BAD_ADDRESS;
+		} else if (!_IN_NVM_USER_ROW(base, offset + size - 1)) {
+			return ERR_INVALID_ARG;
+		}
+	} else if (_IS_NVM_SW_CALIB_AREA(base)) {
+		return ERR_DENIED;
+	} else {
+		return ERR_UNSUPPORTED_OP;
+	}
+
+	memcpy(_row, base, 8);                       /* Store previous data. */
+	memcpy((uint8_t *)_row + offset, buf, size); /* Modify with buf data. */
+
+	return _user_row_write_exec(_row);
+}
+
+int32_t _user_area_write_bits(void *base, const uint32_t bit_offset, const uint32_t bits, const uint8_t n_bits)
+{
+	uint32_t _row[2]; /* Copy of user row. */
+	uint32_t l_off, l_bits;
+	uint32_t r_off, r_bits;
+
+	/** Parameter check. */
+	if (_IS_NVM_USER_ROW(base)) {
+		if (!_IN_NVM_USER_ROW(base, bit_offset >> 3)) {
+			return ERR_BAD_ADDRESS;
+		} else if (!_IN_NVM_USER_ROW(base, (bit_offset + n_bits - 1) >> 3)) {
+			return ERR_INVALID_ARG;
+		}
+	} else if (_IS_NVM_SW_CALIB_AREA(base)) {
+		return ERR_DENIED;
+	} else {
+		return ERR_UNSUPPORTED_OP;
+	}
+
+	/* Since the bitfield can cross 32-bits boundaries,
+	 * left and right bits are splitted for 32-bit aligned address
+	 * and then saved. */
+	l_off  = bit_offset & (~(32 - 1));
+	r_off  = l_off + 32;
+	l_bits = 32 - (bit_offset & (32 - 1));
+	if (n_bits > l_bits) {
+		r_bits = n_bits - l_bits;
+	} else {
+		l_bits = n_bits;
+		r_bits = 0;
+	}
+
+	memcpy(_row, base, 8); /* Store previous data. */
+	if (l_bits) {
+		uint32_t l_mask = ((1 << l_bits) - 1) << (bit_offset & (32 - 1));
+		_row[bit_offset >> 5] &= ~l_mask;
+		_row[bit_offset >> 5] |= (bits << (bit_offset & (32 - 1))) & l_mask;
+	}
+	if (r_bits) {
+		uint32_t r_mask = (1 << r_bits) - 1;
+		_row[r_off >> 5] &= ~r_mask;
+		_row[r_off >> 5] |= bits >> l_bits;
+	}
+	return _user_row_write_exec(_row);
+}
+
+/**
+ * \brief Return if given address is in Flash RWWEE array range.
+ */
+static bool _is_valid_rww_flash_address(uint32_t addr)
+{
+#define RWWEE_ADDR_START NVMCTRL_RWW_EEPROM_ADDR
+#define RWWEE_ADDR_END (NVMCTRL_RWW_EEPROM_ADDR + NVMCTRL_PAGE_SIZE * NVMCTRL_RWWEE_PAGES)
+
+	if ((addr < NVMCTRL_RWW_EEPROM_ADDR)
+	    || (addr > (NVMCTRL_RWW_EEPROM_ADDR + NVMCTRL_PAGE_SIZE * NVMCTRL_RWWEE_PAGES))) {
+		return false;
+	}
+	return true;
+}
+
+/**
+ * \brief Get the RWWEE flash page size.
+ */
+uint32_t _rww_flash_get_page_size(struct _flash_device *const device)
+{
+	(void)device;
+	return (uint32_t)NVMCTRL_PAGE_SIZE;
+}
+
+/**
+ * \brief Get the total page numbers of RWWEE flash.
+ */
+uint32_t _rww_flash_get_total_pages(struct _flash_device *const device)
+{
+	(void)device;
+	return (uint32_t)NVMCTRL_RWWEE_PAGES;
+}
+
+/**
+ * \brief Reads a number of bytes in the internal RWWEE Flash.
+ */
+int32_t _rww_flash_read(struct _flash_device *const device, const uint32_t src_addr, uint8_t *buffer, uint32_t length)
+{
+	/* Check if the address is valid */
+	if (!_is_valid_rww_flash_address(src_addr) || !_is_valid_rww_flash_address(src_addr + length)) {
+		return ERR_BAD_ADDRESS;
+	}
+
+	_flash_read(device, src_addr, buffer, length);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Writes a number of bytes in the internal RWWEE Flash.
+ */
+int32_t _rww_flash_write(struct _flash_device *const device, const uint32_t dst_addr, uint8_t *buffer, uint32_t length)
+{
+	uint8_t  tmp_buffer[NVMCTRL_ROW_PAGES][NVMCTRL_PAGE_SIZE];
+	uint32_t row_start_addr, row_end_addr;
+	uint32_t i, j, k;
+	uint32_t wr_start_addr = dst_addr;
+
+	/* Check if the address is valid */
+	if (!_is_valid_rww_flash_address(dst_addr) || !_is_valid_rww_flash_address(dst_addr + length)) {
+		return ERR_BAD_ADDRESS;
+	}
+
+	do {
+		row_start_addr = wr_start_addr & ~((NVMCTRL_PAGE_SIZE * NVMCTRL_ROW_PAGES) - 1);
+		row_end_addr   = row_start_addr + NVMCTRL_ROW_PAGES * NVMCTRL_PAGE_SIZE - 1;
+
+		/* store the erase data into temp buffer before write */
+		for (i = 0; i < NVMCTRL_ROW_PAGES; i++) {
+			_rww_flash_read(device, row_start_addr + i * NVMCTRL_PAGE_SIZE, tmp_buffer[i], NVMCTRL_PAGE_SIZE);
+		}
+
+		/* temp buffer update */
+		j = (wr_start_addr - row_start_addr) / NVMCTRL_PAGE_SIZE;
+		k = wr_start_addr - row_start_addr - j * NVMCTRL_PAGE_SIZE;
+		while ((wr_start_addr <= row_end_addr) && (length > 0)) {
+			tmp_buffer[j][k] = *buffer;
+			k                = (k + 1) % NVMCTRL_PAGE_SIZE;
+			if (0 == k) {
+				j++;
+			}
+			wr_start_addr++;
+			buffer++;
+			length--;
+		}
+
+		/* erase row before write */
+		_flash_erase_row(device->hw, row_start_addr, NVMCTRL_CTRLA_CMD_RWWEEER);
+
+		/* write buffer to flash */
+		for (i = 0; i < NVMCTRL_ROW_PAGES; i++) {
+			_flash_program(device->hw,
+			               row_start_addr + i * NVMCTRL_PAGE_SIZE,
+			               tmp_buffer[i],
+			               NVMCTRL_PAGE_SIZE,
+			               NVMCTRL_CTRLA_CMD_RWWEEWP);
+		}
+
+	} while (row_end_addr < (wr_start_addr + length - 1));
+
+	return ERR_NONE;
+}
diff --git a/watch-library/hardware/hpl/osc32kctrl/hpl_osc32kctrl.c b/watch-library/hardware/hpl/osc32kctrl/hpl_osc32kctrl.c
new file mode 100644
index 00000000..b6c624cc
--- /dev/null
+++ b/watch-library/hardware/hpl/osc32kctrl/hpl_osc32kctrl.c
@@ -0,0 +1,86 @@
+/**
+ * \file
+ *
+ * \brief SAM 32k Oscillators Controller.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <hpl_init.h>
+#include <compiler.h>
+#include <hpl_osc32kctrl_config.h>
+
+/**
+ * \brief Initialize 32 kHz clock sources
+ */
+void _osc32kctrl_init_sources(void)
+{
+	void *   hw    = (void *)OSC32KCTRL;
+	uint16_t calib = 0;
+
+#if CONF_XOSC32K_CONFIG == 1
+	hri_osc32kctrl_write_XOSC32K_reg(
+	    hw,
+	    OSC32KCTRL_XOSC32K_STARTUP(CONF_XOSC32K_STARTUP) | (CONF_XOSC32K_ONDEMAND << OSC32KCTRL_XOSC32K_ONDEMAND_Pos)
+	        | (CONF_XOSC32K_RUNSTDBY << OSC32KCTRL_XOSC32K_RUNSTDBY_Pos)
+	        | (CONF_XOSC32K_EN1K << OSC32KCTRL_XOSC32K_EN1K_Pos) | (CONF_XOSC32K_EN32K << OSC32KCTRL_XOSC32K_EN32K_Pos)
+	        | (CONF_XOSC32K_XTALEN << OSC32KCTRL_XOSC32K_XTALEN_Pos)
+	        | (CONF_XOSC32K_ENABLE << OSC32KCTRL_XOSC32K_ENABLE_Pos));
+
+	hri_osc32kctrl_write_CFDCTRL_reg(hw,
+	                                 (CONF_XOSC32K_CFDEN << OSC32KCTRL_CFDCTRL_CFDEN_Pos)
+	                                     | (CONF_XOSC32K_SWBEN << OSC32KCTRL_CFDCTRL_SWBACK_Pos));
+
+	hri_osc32kctrl_write_EVCTRL_reg(hw, (CONF_XOSC32K_CFDEO << OSC32KCTRL_EVCTRL_CFDEO_Pos));
+#endif
+
+#if CONF_OSCULP32K_CONFIG == 1
+	calib = hri_osc32kctrl_read_OSCULP32K_CALIB_bf(hw);
+	hri_osc32kctrl_write_OSCULP32K_reg(hw,
+#if CONF_OSC32K_CALIB_ENABLE == 1
+	                                   OSC32KCTRL_OSCULP32K_CALIB(CONF_OSC32K_CALIB)
+#else
+	                                   OSC32KCTRL_OSCULP32K_CALIB(calib)
+#endif
+	);
+#endif
+
+#if CONF_XOSC32K_CONFIG
+#if CONF_XOSC32K_ENABLE == 1 && CONF_XOSC32K_ONDEMAND == 0
+	while (!hri_osc32kctrl_get_STATUS_XOSC32KRDY_bit(hw))
+		;
+#endif
+#if CONF_OSCULP32K_ULP32KSW == 1
+	hri_osc32kctrl_set_OSCULP32K_reg(hw, OSC32KCTRL_OSCULP32K_ULP32KSW);
+	while (!hri_osc32kctrl_get_STATUS_ULP32KSW_bit(hw))
+		;
+#endif
+#endif
+
+	hri_osc32kctrl_write_RTCCTRL_reg(hw, OSC32KCTRL_RTCCTRL_RTCSEL(CONF_RTCCTRL));
+	(void)calib;
+}
diff --git a/watch-library/hardware/hpl/oscctrl/hpl_oscctrl.c b/watch-library/hardware/hpl/oscctrl/hpl_oscctrl.c
new file mode 100644
index 00000000..e11d70d8
--- /dev/null
+++ b/watch-library/hardware/hpl/oscctrl/hpl_oscctrl.c
@@ -0,0 +1,179 @@
+
+/**
+ * \file
+ *
+ * \brief SAM Oscillators Controller.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <compiler.h>
+#include <hpl_init.h>
+#include <hpl_oscctrl_config.h>
+
+/**
+ * \brief Initialize clock sources
+ */
+void _oscctrl_init_sources(void)
+{
+	void *hw = (void *)OSCCTRL;
+
+#if CONF_XOSC_CONFIG == 1
+	hri_oscctrl_write_XOSCCTRL_reg(
+	    hw,
+	    OSCCTRL_XOSCCTRL_STARTUP(CONF_XOSC_STARTUP) | (0 << OSCCTRL_XOSCCTRL_AMPGC_Pos)
+	        | OSCCTRL_XOSCCTRL_GAIN(CONF_XOSC_GAIN) | (0 << OSCCTRL_XOSCCTRL_ONDEMAND_Pos)
+	        | (CONF_XOSC_RUNSTDBY << OSCCTRL_XOSCCTRL_RUNSTDBY_Pos) | (CONF_XOSC_SWBEN << OSCCTRL_XOSCCTRL_SWBEN_Pos)
+	        | (CONF_XOSC_CFDEN << OSCCTRL_XOSCCTRL_CFDEN_Pos) | (CONF_XOSC_XTALEN << OSCCTRL_XOSCCTRL_XTALEN_Pos)
+	        | (CONF_XOSC_ENABLE << OSCCTRL_XOSCCTRL_ENABLE_Pos));
+
+	hri_oscctrl_write_EVCTRL_reg(hw, (CONF_XOSC_CFDEO << OSCCTRL_EVCTRL_CFDEO_Pos));
+#endif
+
+#if CONF_OSC16M_CONFIG == 1
+	hri_oscctrl_write_OSC16MCTRL_reg(hw,
+	                                 (CONF_OSC16M_ONDEMAND << OSCCTRL_OSC16MCTRL_ONDEMAND_Pos)
+	                                     | (CONF_OSC16M_RUNSTDBY << OSCCTRL_OSC16MCTRL_RUNSTDBY_Pos)
+	                                     | (CONF_OSC16M_ENABLE << OSCCTRL_OSC16MCTRL_ENABLE_Pos)
+	                                     | OSCCTRL_OSC16MCTRL_FSEL(CONF_OSC16M_FSEL));
+#endif
+
+#if CONF_XOSC_CONFIG == 1
+#if CONF_XOSC_ENABLE == 1
+	while (!hri_oscctrl_get_STATUS_XOSCRDY_bit(hw))
+		;
+#endif
+#if CONF_XOSC_AMPGC == 1
+	hri_oscctrl_set_XOSCCTRL_AMPGC_bit(hw);
+#endif
+#if CONF_XOSC_ONDEMAND == 1
+	hri_oscctrl_set_XOSCCTRL_ONDEMAND_bit(hw);
+#endif
+#endif
+
+#if CONF_OSC16M_CONFIG == 1
+#if CONF_OSC16M_ENABLE == 1
+	while (!hri_oscctrl_get_STATUS_OSC16MRDY_bit(hw))
+		;
+#endif
+#if CONF_OSC16M_ONDEMAND == 1
+	hri_oscctrl_set_OSC16MCTRL_ONDEMAND_bit(hw);
+#endif
+#endif
+	(void)hw;
+}
+
+void _oscctrl_init_referenced_generators(void)
+{
+	void *                     hw  = (void *)OSCCTRL;
+	hri_oscctrl_dfllctrl_reg_t tmp = 0;
+
+#if CONF_DFLL_CONFIG == 1
+#if CONF_DFLL_OVERWRITE_CALIBRATION == 0
+#define NVM_DFLL_COARSE_POS 26
+#define NVM_DFLL_COARSE_SIZE 6
+	uint32_t coarse;
+	coarse = *((uint32_t *)(NVMCTRL_OTP5)) >> NVM_DFLL_COARSE_POS;
+#endif
+#if CONF_DFLL_USBCRM != 1 && CONF_DFLL_MODE != 0
+	hri_gclk_write_PCHCTRL_reg(GCLK, 0, (1 << GCLK_PCHCTRL_CHEN_Pos) | GCLK_PCHCTRL_GEN(CONF_DFLL_GCLK));
+#endif
+	hri_oscctrl_write_DFLLCTRL_reg(hw, OSCCTRL_DFLLCTRL_ENABLE);
+	while (!hri_oscctrl_get_STATUS_DFLLRDY_bit(hw))
+		;
+	hri_oscctrl_write_DFLLMUL_reg(hw,
+	                              OSCCTRL_DFLLMUL_CSTEP(CONF_DFLL_CSTEP) | OSCCTRL_DFLLMUL_FSTEP(CONF_DFLL_FSTEP)
+	                                  | OSCCTRL_DFLLMUL_MUL(CONF_DFLL_MUL));
+	while (!hri_oscctrl_get_STATUS_DFLLRDY_bit(hw))
+		;
+
+#if CONF_DFLL_OVERWRITE_CALIBRATION == 0
+	/* FINE is set to fixed value, which defined by DFLL48M Characteristics */
+	hri_oscctrl_write_DFLLVAL_reg(hw, OSCCTRL_DFLLVAL_COARSE(coarse) | OSCCTRL_DFLLVAL_FINE(512));
+#else
+	hri_oscctrl_write_DFLLVAL_reg(hw, OSCCTRL_DFLLVAL_COARSE(CONF_DFLL_COARSE) | OSCCTRL_DFLLVAL_FINE(CONF_DFLL_FINE));
+#endif
+
+	tmp = (CONF_DFLL_WAITLOCK << OSCCTRL_DFLLCTRL_WAITLOCK_Pos) | (CONF_DFLL_BPLCKC << OSCCTRL_DFLLCTRL_BPLCKC_Pos)
+	      | (CONF_DFLL_QLDIS << OSCCTRL_DFLLCTRL_QLDIS_Pos) | (CONF_DFLL_CCDIS << OSCCTRL_DFLLCTRL_CCDIS_Pos)
+	      | (CONF_DFLL_RUNSTDBY << OSCCTRL_DFLLCTRL_RUNSTDBY_Pos) | (CONF_DFLL_USBCRM << OSCCTRL_DFLLCTRL_USBCRM_Pos)
+	      | (CONF_DFLL_LLAW << OSCCTRL_DFLLCTRL_LLAW_Pos) | (CONF_DFLL_STABLE << OSCCTRL_DFLLCTRL_STABLE_Pos)
+	      | (CONF_DFLL_MODE << OSCCTRL_DFLLCTRL_MODE_Pos) | (CONF_DFLL_ENABLE << OSCCTRL_DFLLCTRL_ENABLE_Pos);
+	hri_oscctrl_write_DFLLCTRL_reg(hw, tmp);
+
+#endif
+
+#if CONF_DPLL_CONFIG == 1
+#if CONF_DPLL_REFCLK == 2
+	hri_gclk_write_PCHCTRL_reg(GCLK, 1, (1 << GCLK_PCHCTRL_CHEN_Pos) | GCLK_PCHCTRL_GEN(CONF_DPLL_GCLK));
+#endif
+	hri_oscctrl_write_DPLLRATIO_reg(
+	    hw, OSCCTRL_DPLLRATIO_LDRFRAC(CONF_DPLL_LDRFRAC) | OSCCTRL_DPLLRATIO_LDR(CONF_DPLL_LDR));
+	hri_oscctrl_write_DPLLCTRLB_reg(
+	    hw,
+	    OSCCTRL_DPLLCTRLB_DIV(CONF_DPLL_DIV) | (CONF_DPLL_LBYPASS << OSCCTRL_DPLLCTRLB_LBYPASS_Pos)
+	        | OSCCTRL_DPLLCTRLB_LTIME(CONF_DPLL_LTIME) | OSCCTRL_DPLLCTRLB_REFCLK(CONF_DPLL_REFCLK)
+	        | (CONF_DPLL_WUF << OSCCTRL_DPLLCTRLB_WUF_Pos) | (CONF_DPLL_LPEN << OSCCTRL_DPLLCTRLB_LPEN_Pos)
+	        | OSCCTRL_DPLLCTRLB_FILTER(CONF_DPLL_FILTER));
+	hri_oscctrl_write_DPLLPRESC_reg(hw, OSCCTRL_DPLLPRESC_PRESC(CONF_DPLL_PRESC));
+	hri_oscctrl_write_DPLLCTRLA_reg(hw,
+	                                (0 << OSCCTRL_DPLLCTRLA_ONDEMAND_Pos)
+	                                    | (CONF_DPLL_RUNSTDBY << OSCCTRL_DPLLCTRLA_RUNSTDBY_Pos)
+	                                    | (CONF_DPLL_ENABLE << OSCCTRL_DPLLCTRLA_ENABLE_Pos));
+#endif
+
+#if CONF_DFLL_CONFIG == 1
+	if (hri_oscctrl_get_DFLLCTRL_MODE_bit(hw)) {
+		hri_oscctrl_status_reg_t status_mask = OSCCTRL_STATUS_DFLLRDY | OSCCTRL_STATUS_DFLLLCKC;
+
+		while (hri_oscctrl_get_STATUS_reg(hw, status_mask) != status_mask)
+			;
+	} else {
+		while (!hri_oscctrl_get_STATUS_DFLLRDY_bit(hw))
+			;
+	}
+#if CONF_DFLL_ONDEMAND == 1
+	hri_oscctrl_set_DFLLCTRL_ONDEMAND_bit(hw);
+#endif
+#endif
+
+#if CONF_DPLL_CONFIG == 1
+#if CONF_DPLL_ENABLE == 1
+	while (!(hri_oscctrl_get_DPLLSTATUS_LOCK_bit(hw) || hri_oscctrl_get_DPLLSTATUS_CLKRDY_bit(hw)))
+		;
+#endif
+#if CONF_DPLL_ONDEMAND == 1
+	hri_oscctrl_set_DPLLCTRLA_ONDEMAND_bit(hw);
+#endif
+#endif
+
+#if CONF_DFLL_CONFIG == 1
+	while (hri_gclk_read_SYNCBUSY_reg(GCLK))
+		;
+#endif
+	(void)hw, (void)tmp;
+}
diff --git a/watch-library/hardware/hpl/pm/hpl_pm.c b/watch-library/hardware/hpl/pm/hpl_pm.c
new file mode 100644
index 00000000..d6439f1d
--- /dev/null
+++ b/watch-library/hardware/hpl/pm/hpl_pm.c
@@ -0,0 +1,77 @@
+
+/**
+ * \file
+ *
+ * \brief SAM Power manager
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_sleep.h>
+#include <hpl_reset.h>
+#include <hpl_init.h>
+
+/**
+ * \brief Retrieve the reset reason
+ */
+enum reset_reason _get_reset_reason(void)
+{
+	return (enum reset_reason)hri_rstc_read_RCAUSE_reg(RSTC);
+}
+
+/**
+ * \brief Set the sleep mode for the device
+ */
+int32_t _set_sleep_mode(const uint8_t mode)
+{
+	switch (mode) {
+	case 2: /* IDLE */
+	case 4: /* STANDBY */
+	case 5: /* BACKUP */
+	case 6: /* OFF */
+		hri_pm_write_SLEEPCFG_SLEEPMODE_bf(PM, mode);
+		break;
+	default:
+		return ERR_INVALID_ARG;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set performance level
+ */
+void _set_performance_level(const uint8_t level)
+{
+	if (hri_pm_get_PLCFG_PLSEL_bf(PM, PM_PLCFG_PLSEL_Msk) != level) {
+		hri_pm_clear_INTFLAG_reg(PM, 0xFF);
+		hri_pm_write_PLCFG_PLSEL_bf(PM, level);
+		while (!hri_pm_read_INTFLAG_reg(PM))
+			;
+	}
+}
diff --git a/watch-library/hardware/hpl/pm/hpl_pm_base.h b/watch-library/hardware/hpl/pm/hpl_pm_base.h
new file mode 100644
index 00000000..5a50a914
--- /dev/null
+++ b/watch-library/hardware/hpl/pm/hpl_pm_base.h
@@ -0,0 +1,45 @@
+/**
+ * \file
+ *
+ * \brief SAM Power manager
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ */
+
+#ifndef _HPL_PM_BASE_H_INCLUDED
+#define _HPL_PM_BASE_H_INCLUDED
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <utils_assert.h>
+
+#ifdef __cplusplus
+}
+#endif
+#endif /* _HPL_PM_BASE_H_INCLUDED */
diff --git a/watch-library/hardware/hpl/port/hpl_gpio_base.h b/watch-library/hardware/hpl/port/hpl_gpio_base.h
new file mode 100644
index 00000000..3cc1981f
--- /dev/null
+++ b/watch-library/hardware/hpl/port/hpl_gpio_base.h
@@ -0,0 +1,170 @@
+
+/**
+ * \file
+ *
+ * \brief SAM PORT.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <compiler.h>
+#include <hpl_gpio.h>
+#include <utils_assert.h>
+#include <hpl_port_config.h>
+
+/**
+ * \brief Set direction on port with mask
+ */
+static inline void _gpio_set_direction(const enum gpio_port port, const uint32_t mask,
+                                       const enum gpio_direction direction)
+{
+	switch (direction) {
+	case GPIO_DIRECTION_OFF:
+		hri_port_clear_DIR_reg(PORT_IOBUS, port, mask);
+		hri_port_write_WRCONFIG_reg(PORT, port, PORT_WRCONFIG_WRPINCFG | (mask & 0xffff));
+		hri_port_write_WRCONFIG_reg(
+		    PORT, port, PORT_WRCONFIG_HWSEL | PORT_WRCONFIG_WRPINCFG | ((mask & 0xffff0000) >> 16));
+		break;
+
+	case GPIO_DIRECTION_IN:
+		hri_port_clear_DIR_reg(PORT_IOBUS, port, mask);
+		hri_port_write_WRCONFIG_reg(PORT, port, PORT_WRCONFIG_WRPINCFG | PORT_WRCONFIG_INEN | (mask & 0xffff));
+		hri_port_write_WRCONFIG_reg(PORT,
+		                            port,
+		                            PORT_WRCONFIG_HWSEL | PORT_WRCONFIG_WRPINCFG | PORT_WRCONFIG_INEN
+		                                | ((mask & 0xffff0000) >> 16));
+		break;
+
+	case GPIO_DIRECTION_OUT:
+		hri_port_set_DIR_reg(PORT_IOBUS, port, mask);
+		hri_port_write_WRCONFIG_reg(PORT, port, PORT_WRCONFIG_WRPINCFG | (mask & 0xffff));
+		hri_port_write_WRCONFIG_reg(
+		    PORT, port, PORT_WRCONFIG_HWSEL | PORT_WRCONFIG_WRPINCFG | ((mask & 0xffff0000) >> 16));
+		break;
+
+	default:
+		ASSERT(false);
+	}
+}
+
+/**
+ * \brief Set output level on port with mask
+ */
+static inline void _gpio_set_level(const enum gpio_port port, const uint32_t mask, const bool level)
+{
+	if (level) {
+		hri_port_set_OUT_reg(PORT_IOBUS, port, mask);
+	} else {
+		hri_port_clear_OUT_reg(PORT_IOBUS, port, mask);
+	}
+}
+
+/**
+ * \brief Change output level to the opposite with mask
+ */
+static inline void _gpio_toggle_level(const enum gpio_port port, const uint32_t mask)
+{
+	hri_port_toggle_OUT_reg(PORT_IOBUS, port, mask);
+}
+
+/**
+ * \brief Get input levels on all port pins
+ */
+static inline uint32_t _gpio_get_level(const enum gpio_port port)
+{
+	uint32_t tmp;
+
+	CRITICAL_SECTION_ENTER();
+
+	uint32_t dir_tmp = hri_port_read_DIR_reg(PORT_IOBUS, port);
+
+	tmp = hri_port_read_IN_reg(PORT, port) & ~dir_tmp;
+	tmp |= hri_port_read_OUT_reg(PORT_IOBUS, port) & dir_tmp;
+
+	CRITICAL_SECTION_LEAVE();
+
+	return tmp;
+}
+
+/**
+ * \brief Set pin pull mode
+ */
+static inline void _gpio_set_pin_pull_mode(const enum gpio_port port, const uint8_t pin,
+                                           const enum gpio_pull_mode pull_mode)
+{
+	switch (pull_mode) {
+	case GPIO_PULL_OFF:
+		hri_port_clear_PINCFG_PULLEN_bit(PORT, port, pin);
+		break;
+
+	case GPIO_PULL_UP:
+		hri_port_clear_DIR_reg(PORT_IOBUS, port, 1U << pin);
+		hri_port_set_PINCFG_PULLEN_bit(PORT, port, pin);
+		hri_port_set_OUT_reg(PORT_IOBUS, port, 1U << pin);
+		break;
+
+	case GPIO_PULL_DOWN:
+		hri_port_clear_DIR_reg(PORT_IOBUS, port, 1U << pin);
+		hri_port_set_PINCFG_PULLEN_bit(PORT, port, pin);
+		hri_port_clear_OUT_reg(PORT_IOBUS, port, 1U << pin);
+		break;
+
+	default:
+		ASSERT(false);
+		break;
+	}
+}
+
+/**
+ * \brief Set gpio pin function
+ */
+static inline void _gpio_set_pin_function(const uint32_t gpio, const uint32_t function)
+{
+	uint8_t port = GPIO_PORT(gpio);
+	uint8_t pin  = GPIO_PIN(gpio);
+
+	if (function == GPIO_PIN_FUNCTION_OFF) {
+		hri_port_write_PINCFG_PMUXEN_bit(PORT, port, pin, false);
+
+	} else {
+		hri_port_write_PINCFG_PMUXEN_bit(PORT, port, pin, true);
+
+		if (pin & 1) {
+			// Odd numbered pin
+			hri_port_write_PMUX_PMUXO_bf(PORT, port, pin >> 1, function & 0xffff);
+		} else {
+			// Even numbered pin
+			hri_port_write_PMUX_PMUXE_bf(PORT, port, pin >> 1, function & 0xffff);
+		}
+	}
+}
+
+static inline void _port_event_init()
+{
+	hri_port_set_EVCTRL_reg(PORT, 0, CONF_PORTA_EVCTRL);
+	hri_port_set_EVCTRL_reg(PORT, 1, CONF_PORTB_EVCTRL);
+}
diff --git a/watch-library/hardware/hpl/sercom/hpl_sercom.c b/watch-library/hardware/hpl/sercom/hpl_sercom.c
new file mode 100644
index 00000000..f01476dc
--- /dev/null
+++ b/watch-library/hardware/hpl/sercom/hpl_sercom.c
@@ -0,0 +1,2932 @@
+
+/**
+ * \file
+ *
+ * \brief SAM Serial Communication Interface
+ *
+ * Copyright (c) 2014-2019 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+#include <hpl_dma.h>
+#include <hpl_i2c_m_async.h>
+#include <hpl_i2c_m_sync.h>
+#include <hpl_i2c_s_async.h>
+#include <hpl_sercom_config.h>
+#include <hpl_spi_m_async.h>
+#include <hpl_spi_m_sync.h>
+#include <hpl_spi_s_async.h>
+#include <hpl_spi_s_sync.h>
+#include <hpl_usart_async.h>
+#include <hpl_usart_sync.h>
+#include <utils.h>
+#include <utils_assert.h>
+
+#ifndef CONF_SERCOM_0_USART_ENABLE
+#define CONF_SERCOM_0_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_1_USART_ENABLE
+#define CONF_SERCOM_1_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_2_USART_ENABLE
+#define CONF_SERCOM_2_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_3_USART_ENABLE
+#define CONF_SERCOM_3_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_4_USART_ENABLE
+#define CONF_SERCOM_4_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_5_USART_ENABLE
+#define CONF_SERCOM_5_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_6_USART_ENABLE
+#define CONF_SERCOM_6_USART_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_7_USART_ENABLE
+#define CONF_SERCOM_7_USART_ENABLE 0
+#endif
+
+/** Amount of SERCOM that is used as USART. */
+#define SERCOM_USART_AMOUNT                                                                                            \
+	(CONF_SERCOM_0_USART_ENABLE + CONF_SERCOM_1_USART_ENABLE + CONF_SERCOM_2_USART_ENABLE + CONF_SERCOM_3_USART_ENABLE \
+	 + CONF_SERCOM_4_USART_ENABLE + CONF_SERCOM_5_USART_ENABLE + CONF_SERCOM_6_USART_ENABLE                            \
+	 + CONF_SERCOM_7_USART_ENABLE)
+
+/**
+ * \brief Macro is used to fill usart configuration structure based on
+ * its number
+ *
+ * \param[in] n The number of structures
+ */
+#define SERCOM_CONFIGURATION(n)                                                                                        \
+	{                                                                                                                  \
+		n,                                                                                                             \
+		    SERCOM_USART_CTRLA_MODE(CONF_SERCOM_##n##_USART_MODE)                                                      \
+		        | (CONF_SERCOM_##n##_USART_RUNSTDBY << SERCOM_USART_CTRLA_RUNSTDBY_Pos)                                \
+		        | (CONF_SERCOM_##n##_USART_IBON << SERCOM_USART_CTRLA_IBON_Pos)                                        \
+		        | SERCOM_USART_CTRLA_SAMPR(CONF_SERCOM_##n##_USART_SAMPR)                                              \
+		        | SERCOM_USART_CTRLA_TXPO(CONF_SERCOM_##n##_USART_TXPO)                                                \
+		        | SERCOM_USART_CTRLA_RXPO(CONF_SERCOM_##n##_USART_RXPO)                                                \
+		        | SERCOM_USART_CTRLA_SAMPA(CONF_SERCOM_##n##_USART_SAMPA)                                              \
+		        | SERCOM_USART_CTRLA_FORM(CONF_SERCOM_##n##_USART_FORM)                                                \
+		        | (CONF_SERCOM_##n##_USART_CMODE << SERCOM_USART_CTRLA_CMODE_Pos)                                      \
+		        | (CONF_SERCOM_##n##_USART_CPOL << SERCOM_USART_CTRLA_CPOL_Pos)                                        \
+		        | (CONF_SERCOM_##n##_USART_DORD << SERCOM_USART_CTRLA_DORD_Pos),                                       \
+		    SERCOM_USART_CTRLB_CHSIZE(CONF_SERCOM_##n##_USART_CHSIZE)                                                  \
+		        | (CONF_SERCOM_##n##_USART_SBMODE << SERCOM_USART_CTRLB_SBMODE_Pos)                                    \
+		        | (CONF_SERCOM_##n##_USART_CLODEN << SERCOM_USART_CTRLB_COLDEN_Pos)                                    \
+		        | (CONF_SERCOM_##n##_USART_SFDE << SERCOM_USART_CTRLB_SFDE_Pos)                                        \
+		        | (CONF_SERCOM_##n##_USART_ENC << SERCOM_USART_CTRLB_ENC_Pos)                                          \
+		        | (CONF_SERCOM_##n##_USART_PMODE << SERCOM_USART_CTRLB_PMODE_Pos)                                      \
+		        | (CONF_SERCOM_##n##_USART_TXEN << SERCOM_USART_CTRLB_TXEN_Pos)                                        \
+		        | (CONF_SERCOM_##n##_USART_RXEN << SERCOM_USART_CTRLB_RXEN_Pos),                                       \
+		    (uint16_t)(CONF_SERCOM_##n##_USART_BAUD_RATE), CONF_SERCOM_##n##_USART_FRACTIONAL,                         \
+		    CONF_SERCOM_##n##_USART_RECEIVE_PULSE_LENGTH, CONF_SERCOM_##n##_USART_DEBUG_STOP_MODE,                     \
+	}
+
+/**
+ * \brief SERCOM USART configuration type
+ */
+struct usart_configuration {
+	uint8_t                       number;
+	hri_sercomusart_ctrla_reg_t   ctrl_a;
+	hri_sercomusart_ctrlb_reg_t   ctrl_b;
+	hri_sercomusart_baud_reg_t    baud;
+	uint8_t                       fractional;
+	hri_sercomusart_rxpl_reg_t    rxpl;
+	hri_sercomusart_dbgctrl_reg_t debug_ctrl;
+};
+
+#if SERCOM_USART_AMOUNT < 1
+/** Dummy array to pass compiling. */
+static struct usart_configuration _usarts[1] = {{0}};
+#else
+/**
+ * \brief Array of SERCOM USART configurations
+ */
+static struct usart_configuration _usarts[] = {
+#if CONF_SERCOM_0_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(0),
+#endif
+#if CONF_SERCOM_1_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(1),
+#endif
+#if CONF_SERCOM_2_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(2),
+#endif
+#if CONF_SERCOM_3_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(3),
+#endif
+#if CONF_SERCOM_4_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(4),
+#endif
+#if CONF_SERCOM_5_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(5),
+#endif
+#if CONF_SERCOM_6_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(6),
+#endif
+#if CONF_SERCOM_7_USART_ENABLE == 1
+    SERCOM_CONFIGURATION(7),
+#endif
+};
+#endif
+
+static uint8_t _get_sercom_index(const void *const hw);
+static uint8_t _sercom_get_irq_num(const void *const hw);
+static void    _sercom_init_irq_param(const void *const hw, void *dev);
+static uint8_t _sercom_get_hardware_index(const void *const hw);
+
+static int32_t     _usart_init(void *const hw);
+static inline void _usart_deinit(void *const hw);
+static uint16_t    _usart_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                              const enum usart_baud_rate_mode mode, const uint8_t fraction);
+static void        _usart_set_baud_rate(void *const hw, const uint32_t baud_rate);
+static void        _usart_set_data_order(void *const hw, const enum usart_data_order order);
+static void        _usart_set_mode(void *const hw, const enum usart_mode mode);
+static void        _usart_set_parity(void *const hw, const enum usart_parity parity);
+static void        _usart_set_stop_bits(void *const hw, const enum usart_stop_bits stop_bits);
+static void        _usart_set_character_size(void *const hw, const enum usart_character_size size);
+
+/**
+ * \brief Initialize synchronous SERCOM USART
+ */
+int32_t _usart_sync_init(struct _usart_sync_device *const device, void *const hw)
+{
+	ASSERT(device);
+
+	device->hw = hw;
+
+	return _usart_init(hw);
+}
+
+/**
+ * \brief Initialize asynchronous SERCOM USART
+ */
+int32_t _usart_async_init(struct _usart_async_device *const device, void *const hw)
+{
+	int32_t init_status;
+
+	ASSERT(device);
+
+	init_status = _usart_init(hw);
+	if (init_status) {
+		return init_status;
+	}
+	device->hw = hw;
+	_sercom_init_irq_param(hw, (void *)device);
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_EnableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief De-initialize SERCOM USART
+ */
+void _usart_sync_deinit(struct _usart_sync_device *const device)
+{
+	_usart_deinit(device->hw);
+}
+
+/**
+ * \brief De-initialize SERCOM USART
+ */
+void _usart_async_deinit(struct _usart_async_device *const device)
+{
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(device->hw));
+	_usart_deinit(device->hw);
+}
+
+/**
+ * \brief Calculate baud rate register value
+ */
+uint16_t _usart_sync_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                         const enum usart_baud_rate_mode mode, const uint8_t fraction)
+{
+	return _usart_calculate_baud_rate(baud, clock_rate, samples, mode, fraction);
+}
+
+/**
+ * \brief Calculate baud rate register value
+ */
+uint16_t _usart_async_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                          const enum usart_baud_rate_mode mode, const uint8_t fraction)
+{
+	return _usart_calculate_baud_rate(baud, clock_rate, samples, mode, fraction);
+}
+
+/**
+ * \brief Enable SERCOM module
+ */
+void _usart_sync_enable(struct _usart_sync_device *const device)
+{
+	hri_sercomusart_set_CTRLA_ENABLE_bit(device->hw);
+}
+
+/**
+ * \brief Enable SERCOM module
+ */
+void _usart_async_enable(struct _usart_async_device *const device)
+{
+	hri_sercomusart_set_CTRLA_ENABLE_bit(device->hw);
+}
+
+/**
+ * \brief Disable SERCOM module
+ */
+void _usart_sync_disable(struct _usart_sync_device *const device)
+{
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(device->hw);
+}
+
+/**
+ * \brief Disable SERCOM module
+ */
+void _usart_async_disable(struct _usart_async_device *const device)
+{
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(device->hw);
+}
+
+/**
+ * \brief Set baud rate
+ */
+void _usart_sync_set_baud_rate(struct _usart_sync_device *const device, const uint32_t baud_rate)
+{
+	_usart_set_baud_rate(device->hw, baud_rate);
+}
+
+/**
+ * \brief Set baud rate
+ */
+void _usart_async_set_baud_rate(struct _usart_async_device *const device, const uint32_t baud_rate)
+{
+	_usart_set_baud_rate(device->hw, baud_rate);
+}
+
+/**
+ * \brief Set data order
+ */
+void _usart_sync_set_data_order(struct _usart_sync_device *const device, const enum usart_data_order order)
+{
+	_usart_set_data_order(device->hw, order);
+}
+
+/**
+ * \brief Set data order
+ */
+void _usart_async_set_data_order(struct _usart_async_device *const device, const enum usart_data_order order)
+{
+	_usart_set_data_order(device->hw, order);
+}
+
+/**
+ * \brief Set mode
+ */
+void _usart_sync_set_mode(struct _usart_sync_device *const device, const enum usart_mode mode)
+{
+	_usart_set_mode(device->hw, mode);
+}
+
+/**
+ * \brief Set mode
+ */
+void _usart_async_set_mode(struct _usart_async_device *const device, const enum usart_mode mode)
+{
+	_usart_set_mode(device->hw, mode);
+}
+
+/**
+ * \brief Set parity
+ */
+void _usart_sync_set_parity(struct _usart_sync_device *const device, const enum usart_parity parity)
+{
+	_usart_set_parity(device->hw, parity);
+}
+
+/**
+ * \brief Set parity
+ */
+void _usart_async_set_parity(struct _usart_async_device *const device, const enum usart_parity parity)
+{
+	_usart_set_parity(device->hw, parity);
+}
+
+/**
+ * \brief Set stop bits mode
+ */
+void _usart_sync_set_stop_bits(struct _usart_sync_device *const device, const enum usart_stop_bits stop_bits)
+{
+	_usart_set_stop_bits(device->hw, stop_bits);
+}
+
+/**
+ * \brief Set stop bits mode
+ */
+void _usart_async_set_stop_bits(struct _usart_async_device *const device, const enum usart_stop_bits stop_bits)
+{
+	_usart_set_stop_bits(device->hw, stop_bits);
+}
+
+/**
+ * \brief Set character size
+ */
+void _usart_sync_set_character_size(struct _usart_sync_device *const device, const enum usart_character_size size)
+{
+	_usart_set_character_size(device->hw, size);
+}
+
+/**
+ * \brief Set character size
+ */
+void _usart_async_set_character_size(struct _usart_async_device *const device, const enum usart_character_size size)
+{
+	_usart_set_character_size(device->hw, size);
+}
+
+/**
+ * \brief Retrieve SERCOM usart status
+ */
+uint32_t _usart_sync_get_status(const struct _usart_sync_device *const device)
+{
+	return hri_sercomusart_read_STATUS_reg(device->hw);
+}
+
+/**
+ * \brief Retrieve SERCOM usart status
+ */
+uint32_t _usart_async_get_status(const struct _usart_async_device *const device)
+{
+	return hri_sercomusart_read_STATUS_reg(device->hw);
+}
+
+/**
+ * \brief Write a byte to the given SERCOM USART instance
+ */
+void _usart_sync_write_byte(struct _usart_sync_device *const device, uint8_t data)
+{
+	hri_sercomusart_write_DATA_reg(device->hw, data);
+}
+
+/**
+ * \brief Write a byte to the given SERCOM USART instance
+ */
+void _usart_async_write_byte(struct _usart_async_device *const device, uint8_t data)
+{
+	hri_sercomusart_write_DATA_reg(device->hw, data);
+}
+
+/**
+ * \brief Read a byte from the given SERCOM USART instance
+ */
+uint8_t _usart_sync_read_byte(const struct _usart_sync_device *const device)
+{
+	return hri_sercomusart_read_DATA_reg(device->hw);
+}
+
+/**
+ * \brief Check if USART is ready to send next byte
+ */
+bool _usart_sync_is_ready_to_send(const struct _usart_sync_device *const device)
+{
+	return hri_sercomusart_get_interrupt_DRE_bit(device->hw);
+}
+
+/**
+ * \brief Check if USART transmission complete
+ */
+bool _usart_sync_is_transmit_done(const struct _usart_sync_device *const device)
+{
+	return hri_sercomusart_get_interrupt_TXC_bit(device->hw);
+}
+
+/**
+ * \brief Check if USART is ready to send next byte
+ */
+bool _usart_async_is_byte_sent(const struct _usart_async_device *const device)
+{
+	return hri_sercomusart_get_interrupt_DRE_bit(device->hw);
+}
+
+/**
+ * \brief Check if there is data received by USART
+ */
+bool _usart_sync_is_byte_received(const struct _usart_sync_device *const device)
+{
+	return hri_sercomusart_get_interrupt_RXC_bit(device->hw);
+}
+
+/**
+ * \brief Set the state of flow control pins
+ */
+void _usart_sync_set_flow_control_state(struct _usart_sync_device *const     device,
+                                        const union usart_flow_control_state state)
+{
+	(void)device;
+	(void)state;
+}
+
+/**
+ * \brief Set the state of flow control pins
+ */
+void _usart_async_set_flow_control_state(struct _usart_async_device *const    device,
+                                         const union usart_flow_control_state state)
+{
+	(void)device;
+	(void)state;
+}
+
+/**
+ * \brief Retrieve the state of flow control pins
+ */
+union usart_flow_control_state _usart_sync_get_flow_control_state(const struct _usart_sync_device *const device)
+{
+	(void)device;
+	union usart_flow_control_state state;
+
+	state.value           = 0;
+	state.bit.unavailable = 1;
+	return state;
+}
+
+/**
+ * \brief Retrieve the state of flow control pins
+ */
+union usart_flow_control_state _usart_async_get_flow_control_state(const struct _usart_async_device *const device)
+{
+	(void)device;
+	union usart_flow_control_state state;
+
+	state.value           = 0;
+	state.bit.unavailable = 1;
+	return state;
+}
+
+/**
+ * \brief Enable data register empty interrupt
+ */
+void _usart_async_enable_byte_sent_irq(struct _usart_async_device *const device)
+{
+	hri_sercomusart_set_INTEN_DRE_bit(device->hw);
+}
+
+/**
+ * \brief Enable transmission complete interrupt
+ */
+void _usart_async_enable_tx_done_irq(struct _usart_async_device *const device)
+{
+	hri_sercomusart_set_INTEN_TXC_bit(device->hw);
+}
+
+/**
+ * \brief Retrieve ordinal number of the given sercom hardware instance
+ */
+static uint8_t _sercom_get_hardware_index(const void *const hw)
+{
+#ifdef _UNIT_TEST_
+	return ((uint32_t)hw - (uint32_t)SERCOM0) / sizeof(Sercom);
+#endif
+
+	return ((uint32_t)hw - (uint32_t)SERCOM0) >> 10;
+}
+
+/**
+ * \brief Retrieve ordinal number of the given SERCOM USART hardware instance
+ */
+uint8_t _usart_sync_get_hardware_index(const struct _usart_sync_device *const device)
+{
+	return _sercom_get_hardware_index(device->hw);
+}
+
+/**
+ * \brief Retrieve ordinal number of the given SERCOM USART hardware instance
+ */
+uint8_t _usart_async_get_hardware_index(const struct _usart_async_device *const device)
+{
+	return _sercom_get_hardware_index(device->hw);
+}
+
+/**
+ * \brief Enable/disable USART interrupt
+ */
+void _usart_async_set_irq_state(struct _usart_async_device *const device, const enum _usart_async_callback_type type,
+                                const bool state)
+{
+	ASSERT(device);
+
+	if (USART_ASYNC_BYTE_SENT == type || USART_ASYNC_TX_DONE == type) {
+		hri_sercomusart_write_INTEN_DRE_bit(device->hw, state);
+		hri_sercomusart_write_INTEN_TXC_bit(device->hw, state);
+	} else if (USART_ASYNC_RX_DONE == type) {
+		hri_sercomusart_write_INTEN_RXC_bit(device->hw, state);
+	} else if (USART_ASYNC_ERROR == type) {
+		hri_sercomusart_write_INTEN_ERROR_bit(device->hw, state);
+	}
+}
+
+/**
+ * \internal Retrieve ordinal number of the given sercom hardware instance
+ *
+ * \param[in] hw The pointer to hardware instance
+
+ * \return The ordinal number of the given sercom hardware instance
+ */
+static uint8_t _get_sercom_index(const void *const hw)
+{
+	uint8_t sercom_offset = _sercom_get_hardware_index(hw);
+	uint8_t i;
+
+	for (i = 0; i < ARRAY_SIZE(_usarts); i++) {
+		if (_usarts[i].number == sercom_offset) {
+			return i;
+		}
+	}
+
+	ASSERT(false);
+	return 0;
+}
+
+/**
+ * \brief Init irq param with the given sercom hardware instance
+ */
+static void _sercom_init_irq_param(const void *const hw, void *dev)
+{
+	(void)hw;
+	(void)dev;
+}
+
+/**
+ * \internal Initialize SERCOM USART
+ *
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return The status of initialization
+ */
+static int32_t _usart_init(void *const hw)
+{
+	uint8_t i = _get_sercom_index(hw);
+
+	if (!hri_sercomusart_is_syncing(hw, SERCOM_USART_SYNCBUSY_SWRST)) {
+		uint32_t mode = _usarts[i].ctrl_a & SERCOM_USART_CTRLA_MODE_Msk;
+		if (hri_sercomusart_get_CTRLA_reg(hw, SERCOM_USART_CTRLA_ENABLE)) {
+			hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+			hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+		}
+		hri_sercomusart_write_CTRLA_reg(hw, SERCOM_USART_CTRLA_SWRST | mode);
+	}
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST);
+
+	hri_sercomusart_write_CTRLA_reg(hw, _usarts[i].ctrl_a);
+	hri_sercomusart_write_CTRLB_reg(hw, _usarts[i].ctrl_b);
+	if ((_usarts[i].ctrl_a & SERCOM_USART_CTRLA_SAMPR(0x1)) || (_usarts[i].ctrl_a & SERCOM_USART_CTRLA_SAMPR(0x3))) {
+		((Sercom *)hw)->USART.BAUD.FRAC.BAUD = _usarts[i].baud;
+		((Sercom *)hw)->USART.BAUD.FRAC.FP   = _usarts[i].fractional;
+	} else {
+		hri_sercomusart_write_BAUD_reg(hw, _usarts[i].baud);
+	}
+
+	hri_sercomusart_write_RXPL_reg(hw, _usarts[i].rxpl);
+	hri_sercomusart_write_DBGCTRL_reg(hw, _usarts[i].debug_ctrl);
+
+	return ERR_NONE;
+}
+
+/**
+ * \internal De-initialize SERCOM USART
+ *
+ * \param[in] hw The pointer to hardware instance
+ */
+static inline void _usart_deinit(void *const hw)
+{
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+	hri_sercomusart_set_CTRLA_SWRST_bit(hw);
+}
+
+/**
+ * \internal Calculate baud rate register value
+ *
+ * \param[in] baud Required baud rate
+ * \param[in] clock_rate SERCOM clock frequency
+ * \param[in] samples The number of samples
+ * \param[in] mode USART mode
+ * \param[in] fraction A fraction value
+ *
+ * \return Calculated baud rate register value
+ */
+static uint16_t _usart_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples,
+                                           const enum usart_baud_rate_mode mode, const uint8_t fraction)
+{
+	if (USART_BAUDRATE_ASYNCH_ARITHMETIC == mode) {
+		return 65536 - ((uint64_t)65536 * samples * baud) / clock_rate;
+	}
+
+	if (USART_BAUDRATE_ASYNCH_FRACTIONAL == mode) {
+		return clock_rate / baud / samples + SERCOM_USART_BAUD_FRACFP_FP(fraction);
+	}
+
+	if (USART_BAUDRATE_SYNCH == mode) {
+		return clock_rate / baud / 2 - 1;
+	}
+
+	return 0;
+}
+
+/**
+ * \internal Set baud rate
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] baud_rate A baud rate to set
+ */
+static void _usart_set_baud_rate(void *const hw, const uint32_t baud_rate)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+	hri_sercomusart_write_BAUD_reg(hw, baud_rate);
+	CRITICAL_SECTION_LEAVE()
+
+	hri_sercomusart_write_CTRLA_ENABLE_bit(hw, enabled);
+}
+
+/**
+ * \internal Set data order
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] order A data order to set
+ */
+static void _usart_set_data_order(void *const hw, const enum usart_data_order order)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+	hri_sercomusart_write_CTRLA_DORD_bit(hw, order);
+	CRITICAL_SECTION_LEAVE()
+
+	hri_sercomusart_write_CTRLA_ENABLE_bit(hw, enabled);
+}
+
+/**
+ * \internal Set mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] mode A mode to set
+ */
+static void _usart_set_mode(void *const hw, const enum usart_mode mode)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+	hri_sercomusart_write_CTRLA_CMODE_bit(hw, mode);
+	CRITICAL_SECTION_LEAVE()
+
+	hri_sercomusart_write_CTRLA_ENABLE_bit(hw, enabled);
+}
+
+/**
+ * \internal Set parity
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] parity A parity to set
+ */
+static void _usart_set_parity(void *const hw, const enum usart_parity parity)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+
+	if (USART_PARITY_NONE != parity) {
+		hri_sercomusart_set_CTRLA_FORM_bf(hw, 1);
+	} else {
+		hri_sercomusart_clear_CTRLA_FORM_bf(hw, 1);
+	}
+
+	hri_sercomusart_write_CTRLB_PMODE_bit(hw, parity);
+	CRITICAL_SECTION_LEAVE()
+
+	hri_sercomusart_write_CTRLA_ENABLE_bit(hw, enabled);
+}
+
+/**
+ * \internal Set stop bits mode
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] stop_bits A stop bits mode to set
+ */
+static void _usart_set_stop_bits(void *const hw, const enum usart_stop_bits stop_bits)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+	hri_sercomusart_write_CTRLB_SBMODE_bit(hw, stop_bits);
+	CRITICAL_SECTION_LEAVE()
+
+	hri_sercomusart_write_CTRLA_ENABLE_bit(hw, enabled);
+}
+
+/**
+ * \internal Set character size
+ *
+ * \param[in] device The pointer to USART device instance
+ * \param[in] size A character size to set
+ */
+static void _usart_set_character_size(void *const hw, const enum usart_character_size size)
+{
+	bool enabled = hri_sercomusart_get_CTRLA_ENABLE_bit(hw);
+
+	hri_sercomusart_clear_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_ENABLE);
+	hri_sercomusart_write_CTRLB_CHSIZE_bf(hw, size);
+	CRITICAL_SECTION_LEAVE()
+
+	if (enabled) {
+		hri_sercomusart_set_CTRLA_ENABLE_bit(hw);
+	}
+}
+
+	/* Sercom I2C implementation */
+
+#ifndef CONF_SERCOM_0_I2CM_ENABLE
+#define CONF_SERCOM_0_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_1_I2CM_ENABLE
+#define CONF_SERCOM_1_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_2_I2CM_ENABLE
+#define CONF_SERCOM_2_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_3_I2CM_ENABLE
+#define CONF_SERCOM_3_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_4_I2CM_ENABLE
+#define CONF_SERCOM_4_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_5_I2CM_ENABLE
+#define CONF_SERCOM_5_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_6_I2CM_ENABLE
+#define CONF_SERCOM_6_I2CM_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_7_I2CM_ENABLE
+#define CONF_SERCOM_7_I2CM_ENABLE 0
+#endif
+
+/** Amount of SERCOM that is used as I2C Master. */
+#define SERCOM_I2CM_AMOUNT                                                                                             \
+	(CONF_SERCOM_0_I2CM_ENABLE + CONF_SERCOM_1_I2CM_ENABLE + CONF_SERCOM_2_I2CM_ENABLE + CONF_SERCOM_3_I2CM_ENABLE     \
+	 + CONF_SERCOM_4_I2CM_ENABLE + CONF_SERCOM_5_I2CM_ENABLE + CONF_SERCOM_6_I2CM_ENABLE + CONF_SERCOM_7_I2CM_ENABLE)
+
+/**
+ * \brief Macro is used to fill i2cm configuration structure based on
+ * its number
+ *
+ * \param[in] n The number of structures
+ */
+#define I2CM_CONFIGURATION(n)                                                                                          \
+	{                                                                                                                  \
+		(n),                                                                                                           \
+		    (SERCOM_I2CM_CTRLA_MODE_I2C_MASTER) | (CONF_SERCOM_##n##_I2CM_RUNSTDBY << SERCOM_I2CM_CTRLA_RUNSTDBY_Pos)  \
+		        | (CONF_SERCOM_##n##_I2CM_SPEED << SERCOM_I2CM_CTRLA_SPEED_Pos)                                        \
+		        | (CONF_SERCOM_##n##_I2CM_MEXTTOEN << SERCOM_I2CM_CTRLA_MEXTTOEN_Pos)                                  \
+		        | (CONF_SERCOM_##n##_I2CM_SEXTTOEN << SERCOM_I2CM_CTRLA_SEXTTOEN_Pos)                                  \
+		        | (CONF_SERCOM_##n##_I2CM_INACTOUT << SERCOM_I2CM_CTRLA_INACTOUT_Pos)                                  \
+		        | (CONF_SERCOM_##n##_I2CM_LOWTOUT << SERCOM_I2CM_CTRLA_LOWTOUTEN_Pos)                                  \
+		        | (CONF_SERCOM_##n##_I2CM_SDAHOLD << SERCOM_I2CM_CTRLA_SDAHOLD_Pos),                                   \
+		    SERCOM_I2CM_CTRLB_SMEN, (uint32_t)(CONF_SERCOM_##n##_I2CM_BAUD_RATE),                                      \
+		    CONF_SERCOM_##n##_I2CM_DEBUG_STOP_MODE, CONF_SERCOM_##n##_I2CM_TRISE, CONF_GCLK_SERCOM##n##_CORE_FREQUENCY \
+	}
+
+#define ERROR_FLAG (1 << 7)
+#define SB_FLAG (1 << 1)
+#define MB_FLAG (1 << 0)
+
+#define CMD_STOP 0x3
+#define I2C_IDLE 0x1
+#define I2C_SM 0x0
+#define I2C_FM 0x1
+#define I2C_HS 0x2
+#define TEN_ADDR_FRAME 0x78
+#define TEN_ADDR_MASK 0x3ff
+#define SEVEN_ADDR_MASK 0x7f
+
+/**
+ * \brief SERCOM I2CM configuration type
+ */
+struct i2cm_configuration {
+	uint8_t                      number;
+	hri_sercomi2cm_ctrla_reg_t   ctrl_a;
+	hri_sercomi2cm_ctrlb_reg_t   ctrl_b;
+	hri_sercomi2cm_baud_reg_t    baud;
+	hri_sercomi2cm_dbgctrl_reg_t dbgctrl;
+	uint16_t                     trise;
+	uint32_t                     clk; /* SERCOM peripheral clock frequency */
+};
+
+static inline int32_t _i2c_m_enable_implementation(void *hw);
+static int32_t        _i2c_m_sync_init_impl(struct _i2c_m_service *const service, void *const hw);
+
+#if SERCOM_I2CM_AMOUNT < 1
+/** Dummy array to pass compiling. */
+static struct i2cm_configuration _i2cms[1] = {{0}};
+#else
+/**
+ * \brief Array of SERCOM I2CM configurations
+ */
+static struct i2cm_configuration _i2cms[] = {
+#if CONF_SERCOM_0_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(0),
+#endif
+#if CONF_SERCOM_1_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(1),
+#endif
+#if CONF_SERCOM_2_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(2),
+#endif
+#if CONF_SERCOM_3_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(3),
+#endif
+#if CONF_SERCOM_4_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(4),
+#endif
+#if CONF_SERCOM_5_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(5),
+#endif
+#if CONF_SERCOM_6_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(6),
+#endif
+#if CONF_SERCOM_7_I2CM_ENABLE == 1
+    I2CM_CONFIGURATION(7),
+#endif
+};
+#endif
+
+/**
+ * \internal Retrieve ordinal number of the given sercom hardware instance
+ *
+ * \param[in] hw The pointer to hardware instance
+
+ * \return The ordinal number of the given sercom hardware instance
+ */
+static int8_t _get_i2cm_index(const void *const hw)
+{
+	uint8_t sercom_offset = _sercom_get_hardware_index(hw);
+	uint8_t i;
+
+	for (i = 0; i < ARRAY_SIZE(_i2cms); i++) {
+		if (_i2cms[i].number == sercom_offset) {
+			return i;
+		}
+	}
+
+	ASSERT(false);
+	return -1;
+}
+
+static inline void _sercom_i2c_send_stop(void *const hw)
+{
+	hri_sercomi2cm_set_CTRLB_CMD_bf(hw, CMD_STOP);
+}
+
+/**
+ * \brief SERCOM I2CM analyze hardware status and transfer next byte
+ */
+static inline int32_t _sercom_i2c_sync_analyse_flags(void *const hw, uint32_t flags, struct _i2c_m_msg *const msg)
+{
+	int      sclsm  = hri_sercomi2cm_get_CTRLA_SCLSM_bit(hw);
+	uint16_t status = hri_sercomi2cm_read_STATUS_reg(hw);
+
+	if (flags & MB_FLAG) {
+		/* tx error */
+		if (status & SERCOM_I2CM_STATUS_ARBLOST) {
+			hri_sercomi2cm_clear_interrupt_MB_bit(hw);
+			msg->flags |= I2C_M_FAIL;
+			msg->flags &= ~I2C_M_BUSY;
+
+			if (status & SERCOM_I2CM_STATUS_BUSERR) {
+				return I2C_ERR_BUS;
+			}
+
+			return I2C_ERR_BAD_ADDRESS;
+		} else {
+			if (status & SERCOM_I2CM_STATUS_RXNACK) {
+
+				/* Slave rejects to receive more data */
+				if (msg->len > 0) {
+					msg->flags |= I2C_M_FAIL;
+				}
+
+				if (msg->flags & I2C_M_STOP) {
+					_sercom_i2c_send_stop(hw);
+				}
+
+				msg->flags &= ~I2C_M_BUSY;
+
+				return I2C_NACK;
+			}
+
+			if (msg->flags & I2C_M_TEN) {
+				hri_sercomi2cm_write_ADDR_reg(hw,
+				                              ((((msg->addr & TEN_ADDR_MASK) >> 8) | TEN_ADDR_FRAME) << 1) | I2C_M_RD
+				                                  | (hri_sercomi2cm_read_ADDR_reg(hw) & SERCOM_I2CM_ADDR_HS));
+				msg->flags &= ~I2C_M_TEN;
+
+				return I2C_OK;
+			}
+
+			if (msg->len == 0) {
+				if (msg->flags & I2C_M_STOP) {
+					_sercom_i2c_send_stop(hw);
+				}
+
+				msg->flags &= ~I2C_M_BUSY;
+			} else {
+				hri_sercomi2cm_write_DATA_reg(hw, *msg->buffer);
+				msg->buffer++;
+				msg->len--;
+			}
+
+			return I2C_OK;
+		}
+	} else if (flags & SB_FLAG) {
+		if ((msg->len) && !(status & SERCOM_I2CM_STATUS_RXNACK)) {
+			msg->len--;
+
+			/* last byte, send nack */
+			if ((msg->len == 0 && !sclsm) || (msg->len == 1 && sclsm)) {
+				hri_sercomi2cm_set_CTRLB_ACKACT_bit(hw);
+			}
+
+			if (msg->len == 0) {
+				if (msg->flags & I2C_M_STOP) {
+					hri_sercomi2cm_clear_CTRLB_SMEN_bit(hw);
+					_sercom_i2c_send_stop(hw);
+				}
+
+				msg->flags &= ~I2C_M_BUSY;
+			}
+
+			/* Accessing DATA.DATA auto-triggers I2C bus operations.
+			 * The operation performed depends on the state of
+			 * CTRLB.ACKACT, CTRLB.SMEN
+			 **/
+			*msg->buffer++ = hri_sercomi2cm_read_DATA_reg(hw);
+		} else {
+			hri_sercomi2cm_clear_interrupt_SB_bit(hw);
+			return I2C_NACK;
+		}
+
+		hri_sercomi2cm_clear_interrupt_SB_bit(hw);
+	}
+
+	return I2C_OK;
+}
+
+/**
+ * \brief Enable the i2c master module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_async_enable(struct _i2c_m_async_device *const i2c_dev)
+{
+	ASSERT(i2c_dev);
+
+	return _i2c_m_enable_implementation(i2c_dev->hw);
+}
+
+/**
+ * \brief Disable the i2c master module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_async_disable(struct _i2c_m_async_device *const i2c_dev)
+{
+	void *hw = i2c_dev->hw;
+
+	ASSERT(i2c_dev);
+	ASSERT(i2c_dev->hw);
+
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	hri_sercomi2cm_clear_CTRLA_ENABLE_bit(hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set baudrate of master
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ * \param[in] clkrate The clock rate of i2c master, in KHz
+ * \param[in] baudrate The baud rate desired for i2c master, in KHz
+ */
+int32_t _i2c_m_async_set_baudrate(struct _i2c_m_async_device *const i2c_dev, uint32_t clkrate, uint32_t baudrate)
+{
+	uint32_t tmp;
+	void *   hw = i2c_dev->hw;
+
+	if (hri_sercomi2cm_get_CTRLA_ENABLE_bit(hw)) {
+		return ERR_DENIED;
+	}
+
+	tmp     = _get_i2cm_index(hw);
+	clkrate = _i2cms[tmp].clk / 1000;
+
+	if (i2c_dev->service.mode == I2C_STANDARD_MODE) {
+		tmp = (uint32_t)((clkrate - 10 * baudrate - baudrate * clkrate * (i2c_dev->service.trise * 0.000000001))
+		                 / (2 * baudrate));
+		hri_sercomi2cm_write_BAUD_BAUD_bf(hw, tmp);
+	} else if (i2c_dev->service.mode == I2C_FASTMODE) {
+		tmp = (uint32_t)((clkrate - 10 * baudrate - baudrate * clkrate * (i2c_dev->service.trise * 0.000000001))
+		                 / (2 * baudrate));
+		hri_sercomi2cm_write_BAUD_BAUD_bf(hw, tmp);
+	} else if (i2c_dev->service.mode == I2C_HIGHSPEED_MODE) {
+		tmp = (clkrate - 2 * baudrate) / (2 * baudrate);
+		hri_sercomi2cm_write_BAUD_HSBAUD_bf(hw, tmp);
+	} else {
+		/* error baudrate */
+		return ERR_INVALID_ARG;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve IRQ number for the given hardware instance
+ */
+static uint8_t _sercom_get_irq_num(const void *const hw)
+{
+	return SERCOM0_IRQn + _sercom_get_hardware_index(hw);
+}
+
+/**
+ * \brief Initialize sercom i2c module to use in async mode
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_async_init(struct _i2c_m_async_device *const i2c_dev, void *const hw)
+{
+	int32_t init_status;
+
+	ASSERT(i2c_dev);
+
+	i2c_dev->hw = hw;
+
+	init_status = _i2c_m_sync_init_impl(&i2c_dev->service, hw);
+	if (init_status) {
+		return init_status;
+	}
+
+	_sercom_init_irq_param(hw, (void *)i2c_dev);
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_EnableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Deinitialize sercom i2c module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_async_deinit(struct _i2c_m_async_device *const i2c_dev)
+{
+	ASSERT(i2c_dev);
+
+	hri_sercomi2cm_clear_CTRLA_ENABLE_bit(i2c_dev->hw);
+	hri_sercomi2cm_set_CTRLA_SWRST_bit(i2c_dev->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Transfer the slave address to bus, which will start the transfer
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+static int32_t _sercom_i2c_send_address(struct _i2c_m_async_device *const i2c_dev)
+{
+	void *             hw    = i2c_dev->hw;
+	struct _i2c_m_msg *msg   = &i2c_dev->service.msg;
+	int                sclsm = hri_sercomi2cm_get_CTRLA_SCLSM_bit(hw);
+
+	ASSERT(i2c_dev);
+
+	if (msg->len == 1 && sclsm) {
+		hri_sercomi2cm_set_CTRLB_ACKACT_bit(hw);
+	} else {
+		hri_sercomi2cm_clear_CTRLB_ACKACT_bit(hw);
+	}
+
+	/* ten bit address */
+	if (msg->addr & I2C_M_TEN) {
+		if (msg->flags & I2C_M_RD) {
+			msg->flags |= I2C_M_TEN;
+		}
+
+		hri_sercomi2cm_write_ADDR_reg(hw,
+		                              ((msg->addr & TEN_ADDR_MASK) << 1) | SERCOM_I2CM_ADDR_TENBITEN
+		                                  | (hri_sercomi2cm_read_ADDR_reg(hw) & SERCOM_I2CM_ADDR_HS));
+	} else {
+		hri_sercomi2cm_write_ADDR_reg(hw,
+		                              ((msg->addr & SEVEN_ADDR_MASK) << 1) | (msg->flags & I2C_M_RD ? I2C_M_RD : 0x0)
+		                                  | (hri_sercomi2cm_read_ADDR_reg(hw) & SERCOM_I2CM_ADDR_HS));
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Transfer data specified by msg
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ * \param[in] msg The pointer to i2c message
+ *
+ * \return Transfer status.
+ * \retval 0 Transfer success
+ * \retval <0 Transfer fail, return the error code
+ */
+int32_t _i2c_m_async_transfer(struct _i2c_m_async_device *i2c_dev, struct _i2c_m_msg *msg)
+{
+	int ret;
+
+	ASSERT(i2c_dev);
+	ASSERT(i2c_dev->hw);
+	ASSERT(msg);
+
+	if (msg->len == 0) {
+		return ERR_NONE;
+	}
+
+	if (i2c_dev->service.msg.flags & I2C_M_BUSY) {
+		return ERR_BUSY;
+	}
+
+	msg->flags |= I2C_M_BUSY;
+	i2c_dev->service.msg = *msg;
+	hri_sercomi2cm_set_CTRLB_SMEN_bit(i2c_dev->hw);
+
+	ret = _sercom_i2c_send_address(i2c_dev);
+
+	if (ret) {
+		i2c_dev->service.msg.flags &= ~I2C_M_BUSY;
+
+		return ret;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set callback to be called in interrupt handler
+ *
+ * \param[in] i2c_dev The pointer to master i2c device
+ * \param[in] type The callback type
+ * \param[in] func The callback function pointer
+ */
+int32_t _i2c_m_async_register_callback(struct _i2c_m_async_device *const i2c_dev, enum _i2c_m_async_callback_type type,
+                                       FUNC_PTR func)
+{
+	switch (type) {
+	case I2C_M_ASYNC_DEVICE_ERROR:
+		i2c_dev->cb.error = (_i2c_error_cb_t)func;
+		break;
+	case I2C_M_ASYNC_DEVICE_TX_COMPLETE:
+		i2c_dev->cb.tx_complete = (_i2c_complete_cb_t)func;
+		break;
+	case I2C_M_ASYNC_DEVICE_RX_COMPLETE:
+		i2c_dev->cb.rx_complete = (_i2c_complete_cb_t)func;
+		break;
+	default:
+		/* error */
+		break;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set stop condition on I2C
+ *
+ * \param i2c_dev Pointer to master i2c device
+ *
+ * \return Operation status
+ * \retval I2C_OK Operation was successfull
+ */
+int32_t _i2c_m_async_send_stop(struct _i2c_m_async_device *const i2c_dev)
+{
+	void *hw = i2c_dev->hw;
+
+	_sercom_i2c_send_stop(hw);
+
+	return I2C_OK;
+}
+
+/**
+ * \brief Get number of bytes left in transfer buffer
+ *
+ * \param i2c_dev Pointer to i2c master device
+ *
+ * \return Bytes left in buffer
+ * \retval =>0 Bytes left in buffer
+ */
+int32_t _i2c_m_async_get_bytes_left(struct _i2c_m_async_device *const i2c_dev)
+{
+	if (i2c_dev->service.msg.flags & I2C_M_BUSY) {
+		return i2c_dev->service.msg.len;
+	}
+
+	return 0;
+}
+
+/**
+ * \brief Initialize sercom i2c module to use in sync mode
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_sync_init(struct _i2c_m_sync_device *const i2c_dev, void *const hw)
+{
+	ASSERT(i2c_dev);
+
+	i2c_dev->hw = hw;
+
+	return _i2c_m_sync_init_impl(&i2c_dev->service, hw);
+}
+
+/**
+ * \brief Deinitialize sercom i2c module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_sync_deinit(struct _i2c_m_sync_device *const i2c_dev)
+{
+	ASSERT(i2c_dev);
+
+	hri_sercomi2cm_clear_CTRLA_ENABLE_bit(i2c_dev->hw);
+	hri_sercomi2cm_set_CTRLA_SWRST_bit(i2c_dev->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable the i2c master module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_sync_enable(struct _i2c_m_sync_device *const i2c_dev)
+{
+	ASSERT(i2c_dev);
+
+	return _i2c_m_enable_implementation(i2c_dev->hw);
+}
+
+/**
+ * \brief Disable the i2c master module
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+int32_t _i2c_m_sync_disable(struct _i2c_m_sync_device *const i2c_dev)
+{
+	void *hw = i2c_dev->hw;
+
+	ASSERT(i2c_dev);
+	ASSERT(i2c_dev->hw);
+
+	hri_sercomi2cm_clear_CTRLA_ENABLE_bit(hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Set baudrate of master
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ * \param[in] clkrate The clock rate of i2c master, in KHz
+ * \param[in] baudrate The baud rate desired for i2c master, in KHz
+ */
+int32_t _i2c_m_sync_set_baudrate(struct _i2c_m_sync_device *const i2c_dev, uint32_t clkrate, uint32_t baudrate)
+{
+	uint32_t tmp;
+	void *   hw = i2c_dev->hw;
+
+	if (hri_sercomi2cm_get_CTRLA_ENABLE_bit(hw)) {
+		return ERR_DENIED;
+	}
+
+	tmp     = _get_i2cm_index(hw);
+	clkrate = _i2cms[tmp].clk / 1000;
+
+	if (i2c_dev->service.mode == I2C_STANDARD_MODE) {
+		tmp = (uint32_t)((clkrate - 10 * baudrate - baudrate * clkrate * (i2c_dev->service.trise * 0.000000001))
+		                 / (2 * baudrate));
+		hri_sercomi2cm_write_BAUD_BAUD_bf(hw, tmp);
+	} else if (i2c_dev->service.mode == I2C_FASTMODE) {
+		tmp = (uint32_t)((clkrate - 10 * baudrate - baudrate * clkrate * (i2c_dev->service.trise * 0.000000001))
+		                 / (2 * baudrate));
+		hri_sercomi2cm_write_BAUD_BAUD_bf(hw, tmp);
+	} else if (i2c_dev->service.mode == I2C_HIGHSPEED_MODE) {
+		tmp = (clkrate - 2 * baudrate) / (2 * baudrate);
+		hri_sercomi2cm_write_BAUD_HSBAUD_bf(hw, tmp);
+	} else {
+		/* error baudrate */
+		return ERR_INVALID_ARG;
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable/disable I2C master interrupt
+ */
+void _i2c_m_async_set_irq_state(struct _i2c_m_async_device *const device, const enum _i2c_m_async_callback_type type,
+                                const bool state)
+{
+	if (I2C_M_ASYNC_DEVICE_TX_COMPLETE == type || I2C_M_ASYNC_DEVICE_RX_COMPLETE == type) {
+		hri_sercomi2cm_write_INTEN_SB_bit(device->hw, state);
+		hri_sercomi2cm_write_INTEN_MB_bit(device->hw, state);
+	} else if (I2C_M_ASYNC_DEVICE_ERROR == type) {
+		hri_sercomi2cm_write_INTEN_ERROR_bit(device->hw, state);
+	}
+}
+
+/**
+ * \brief Wait for bus response
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ * \param[in] flags Store the hardware response
+ *
+ * \return Bus response status.
+ * \retval 0 Bus response status OK
+ * \retval <0 Bus response fail
+ */
+inline static int32_t _sercom_i2c_sync_wait_bus(struct _i2c_m_sync_device *const i2c_dev, uint32_t *flags)
+{
+	uint32_t timeout = 65535;
+	void *   hw      = i2c_dev->hw;
+
+	do {
+		*flags = hri_sercomi2cm_read_INTFLAG_reg(hw);
+
+		if (timeout-- == 0) {
+			return I2C_ERR_BUS;
+		}
+	} while (!(*flags & MB_FLAG) && !(*flags & SB_FLAG));
+
+	return I2C_OK;
+}
+
+/**
+ * \brief Send the slave address to bus, which will start the transfer
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ */
+static int32_t _sercom_i2c_sync_send_address(struct _i2c_m_sync_device *const i2c_dev)
+{
+	void *             hw    = i2c_dev->hw;
+	struct _i2c_m_msg *msg   = &i2c_dev->service.msg;
+	int                sclsm = hri_sercomi2cm_get_CTRLA_SCLSM_bit(hw);
+	uint32_t           flags;
+
+	ASSERT(i2c_dev);
+
+	if (msg->len == 1 && sclsm) {
+		hri_sercomi2cm_set_CTRLB_ACKACT_bit(hw);
+	} else {
+		hri_sercomi2cm_clear_CTRLB_ACKACT_bit(hw);
+	}
+
+	/* ten bit address */
+	if (msg->addr & I2C_M_TEN) {
+		if (msg->flags & I2C_M_RD) {
+			msg->flags |= I2C_M_TEN;
+		}
+
+		hri_sercomi2cm_write_ADDR_reg(hw,
+		                              ((msg->addr & TEN_ADDR_MASK) << 1) | SERCOM_I2CM_ADDR_TENBITEN
+		                                  | (hri_sercomi2cm_read_ADDR_reg(hw) & SERCOM_I2CM_ADDR_HS));
+	} else {
+		hri_sercomi2cm_write_ADDR_reg(hw,
+		                              ((msg->addr & SEVEN_ADDR_MASK) << 1) | (msg->flags & I2C_M_RD ? I2C_M_RD : 0x0)
+		                                  | (hri_sercomi2cm_read_ADDR_reg(hw) & SERCOM_I2CM_ADDR_HS));
+	}
+
+	_sercom_i2c_sync_wait_bus(i2c_dev, &flags);
+	return _sercom_i2c_sync_analyse_flags(hw, flags, msg);
+}
+
+/**
+ * \brief Transfer data specified by msg
+ *
+ * \param[in] i2c_dev The pointer to i2c device
+ * \param[in] msg The pointer to i2c message
+ *
+ * \return Transfer status.
+ * \retval 0 Transfer success
+ * \retval <0 Transfer fail or partial fail, return the error code
+ */
+int32_t _i2c_m_sync_transfer(struct _i2c_m_sync_device *const i2c_dev, struct _i2c_m_msg *msg)
+{
+	uint32_t flags;
+	int      ret;
+	void *   hw = i2c_dev->hw;
+
+	ASSERT(i2c_dev);
+	ASSERT(i2c_dev->hw);
+	ASSERT(msg);
+
+	if (i2c_dev->service.msg.flags & I2C_M_BUSY) {
+		return I2C_ERR_BUSY;
+	}
+
+	msg->flags |= I2C_M_BUSY;
+	i2c_dev->service.msg = *msg;
+	hri_sercomi2cm_set_CTRLB_SMEN_bit(hw);
+
+	ret = _sercom_i2c_sync_send_address(i2c_dev);
+
+	if (ret) {
+		i2c_dev->service.msg.flags &= ~I2C_M_BUSY;
+
+		return ret;
+	}
+
+	while (i2c_dev->service.msg.flags & I2C_M_BUSY) {
+		ret = _sercom_i2c_sync_wait_bus(i2c_dev, &flags);
+
+		if (ret) {
+			if (msg->flags & I2C_M_STOP) {
+				_sercom_i2c_send_stop(hw);
+			}
+
+			i2c_dev->service.msg.flags &= ~I2C_M_BUSY;
+
+			return ret;
+		}
+
+		ret = _sercom_i2c_sync_analyse_flags(hw, flags, &i2c_dev->service.msg);
+	}
+
+	return ret;
+}
+
+int32_t _i2c_m_sync_send_stop(struct _i2c_m_sync_device *const i2c_dev)
+{
+	void *hw = i2c_dev->hw;
+
+	_sercom_i2c_send_stop(hw);
+
+	return I2C_OK;
+}
+
+static inline int32_t _i2c_m_enable_implementation(void *const hw)
+{
+	int timeout         = 65535;
+	int timeout_attempt = 4;
+
+	ASSERT(hw);
+
+	/* Enable interrupts */
+	hri_sercomi2cm_set_CTRLA_ENABLE_bit(hw);
+
+	while (hri_sercomi2cm_read_STATUS_BUSSTATE_bf(hw) != I2C_IDLE) {
+		timeout--;
+
+		if (timeout <= 0) {
+			if (--timeout_attempt)
+				timeout = 65535;
+			else
+				return I2C_ERR_BUSY;
+			hri_sercomi2cm_clear_STATUS_reg(hw, SERCOM_I2CM_STATUS_BUSSTATE(I2C_IDLE));
+		}
+	}
+	return ERR_NONE;
+}
+
+static int32_t _i2c_m_sync_init_impl(struct _i2c_m_service *const service, void *const hw)
+{
+	uint8_t i = _get_i2cm_index(hw);
+
+	if (!hri_sercomi2cm_is_syncing(hw, SERCOM_I2CM_SYNCBUSY_SWRST)) {
+		uint32_t mode = _i2cms[i].ctrl_a & SERCOM_I2CM_CTRLA_MODE_Msk;
+		if (hri_sercomi2cm_get_CTRLA_reg(hw, SERCOM_I2CM_CTRLA_ENABLE)) {
+			hri_sercomi2cm_clear_CTRLA_ENABLE_bit(hw);
+			hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_ENABLE);
+		}
+		hri_sercomi2cm_write_CTRLA_reg(hw, SERCOM_I2CM_CTRLA_SWRST | mode);
+	}
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST);
+
+	hri_sercomi2cm_write_CTRLA_reg(hw, _i2cms[i].ctrl_a);
+	hri_sercomi2cm_write_CTRLB_reg(hw, _i2cms[i].ctrl_b);
+	hri_sercomi2cm_write_BAUD_reg(hw, _i2cms[i].baud);
+
+	service->mode = (_i2cms[i].ctrl_a & SERCOM_I2CM_CTRLA_SPEED_Msk) >> SERCOM_I2CM_CTRLA_SPEED_Pos;
+	hri_sercomi2cm_write_ADDR_HS_bit(hw, service->mode < I2C_HS ? 0 : 1);
+
+	service->trise = _i2cms[i].trise;
+
+	return ERR_NONE;
+}
+
+	/* SERCOM I2C slave */
+
+#ifndef CONF_SERCOM_0_I2CS_ENABLE
+#define CONF_SERCOM_0_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_1_I2CS_ENABLE
+#define CONF_SERCOM_1_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_2_I2CS_ENABLE
+#define CONF_SERCOM_2_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_3_I2CS_ENABLE
+#define CONF_SERCOM_3_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_4_I2CS_ENABLE
+#define CONF_SERCOM_4_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_5_I2CS_ENABLE
+#define CONF_SERCOM_5_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_6_I2CS_ENABLE
+#define CONF_SERCOM_6_I2CS_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_7_I2CS_ENABLE
+#define CONF_SERCOM_7_I2CS_ENABLE 0
+#endif
+
+/** Amount of SERCOM that is used as I2C Slave. */
+#define SERCOM_I2CS_AMOUNT                                                                                             \
+	(CONF_SERCOM_0_I2CS_ENABLE + CONF_SERCOM_1_I2CS_ENABLE + CONF_SERCOM_2_I2CS_ENABLE + CONF_SERCOM_3_I2CS_ENABLE     \
+	 + CONF_SERCOM_4_I2CS_ENABLE + CONF_SERCOM_5_I2CS_ENABLE + CONF_SERCOM_6_I2CS_ENABLE + CONF_SERCOM_7_I2CS_ENABLE)
+
+/**
+ * \brief Macro is used to fill I2C slave configuration structure based on
+ * its number
+ *
+ * \param[in] n The number of structures
+ */
+#define I2CS_CONFIGURATION(n)                                                                                          \
+	{                                                                                                                  \
+		n,                                                                                                             \
+		    SERCOM_I2CM_CTRLA_MODE_I2C_SLAVE | (CONF_SERCOM_##n##_I2CS_RUNSTDBY << SERCOM_I2CS_CTRLA_RUNSTDBY_Pos)     \
+		        | SERCOM_I2CS_CTRLA_SDAHOLD(CONF_SERCOM_##n##_I2CS_SDAHOLD)                                            \
+		        | (CONF_SERCOM_##n##_I2CS_SEXTTOEN << SERCOM_I2CS_CTRLA_SEXTTOEN_Pos)                                  \
+		        | (CONF_SERCOM_##n##_I2CS_SPEED << SERCOM_I2CS_CTRLA_SPEED_Pos)                                        \
+		        | (CONF_SERCOM_##n##_I2CS_SCLSM << SERCOM_I2CS_CTRLA_SCLSM_Pos)                                        \
+		        | (CONF_SERCOM_##n##_I2CS_LOWTOUT << SERCOM_I2CS_CTRLA_LOWTOUTEN_Pos),                                 \
+		    SERCOM_I2CS_CTRLB_SMEN | SERCOM_I2CS_CTRLB_AACKEN | SERCOM_I2CS_CTRLB_AMODE(CONF_SERCOM_##n##_I2CS_AMODE), \
+		    (CONF_SERCOM_##n##_I2CS_GENCEN << SERCOM_I2CS_ADDR_GENCEN_Pos)                                             \
+		        | SERCOM_I2CS_ADDR_ADDR(CONF_SERCOM_##n##_I2CS_ADDRESS)                                                \
+		        | (CONF_SERCOM_##n##_I2CS_TENBITEN << SERCOM_I2CS_ADDR_TENBITEN_Pos)                                   \
+		        | SERCOM_I2CS_ADDR_ADDRMASK(CONF_SERCOM_##n##_I2CS_ADDRESS_MASK)                                       \
+	}
+
+/**
+ * \brief Macro to check 10-bit addressing
+ */
+#define I2CS_7BIT_ADDRESSING_MASK 0x7F
+
+static int32_t     _i2c_s_init(void *const hw);
+static int8_t      _get_i2c_s_index(const void *const hw);
+static inline void _i2c_s_deinit(void *const hw);
+static int32_t     _i2c_s_set_address(void *const hw, const uint16_t address);
+
+/**
+ * \brief SERCOM I2C slave configuration type
+ */
+struct i2cs_configuration {
+	uint8_t                    number;
+	hri_sercomi2cs_ctrla_reg_t ctrl_a;
+	hri_sercomi2cs_ctrlb_reg_t ctrl_b;
+	hri_sercomi2cs_addr_reg_t  address;
+};
+
+#if SERCOM_I2CS_AMOUNT < 1
+/** Dummy array for compiling. */
+static struct i2cs_configuration _i2css[1] = {{0}};
+#else
+/**
+ * \brief Array of SERCOM I2C slave configurations
+ */
+static struct i2cs_configuration _i2css[] = {
+#if CONF_SERCOM_0_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(0),
+#endif
+#if CONF_SERCOM_1_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(1),
+#endif
+#if CONF_SERCOM_2_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(2),
+#endif
+#if CONF_SERCOM_3_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(3),
+#endif
+#if CONF_SERCOM_4_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(4),
+#endif
+#if CONF_SERCOM_5_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(5),
+#endif
+#if CONF_SERCOM_6_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(6),
+#endif
+#if CONF_SERCOM_7_I2CS_ENABLE == 1
+    I2CS_CONFIGURATION(7),
+#endif
+};
+#endif
+
+/**
+ * \brief Initialize synchronous I2C slave
+ */
+int32_t _i2c_s_sync_init(struct _i2c_s_sync_device *const device, void *const hw)
+{
+	int32_t status;
+
+	ASSERT(device);
+
+	status = _i2c_s_init(hw);
+	if (status) {
+		return status;
+	}
+	device->hw = hw;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Initialize asynchronous I2C slave
+ */
+int32_t _i2c_s_async_init(struct _i2c_s_async_device *const device, void *const hw)
+{
+	int32_t init_status;
+
+	ASSERT(device);
+
+	init_status = _i2c_s_init(hw);
+	if (init_status) {
+		return init_status;
+	}
+
+	device->hw = hw;
+	_sercom_init_irq_param(hw, (void *)device);
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_EnableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	// Enable Address Match and PREC interrupt by default.
+	hri_sercomi2cs_set_INTEN_AMATCH_bit(hw);
+	hri_sercomi2cs_set_INTEN_PREC_bit(hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Deinitialize synchronous I2C
+ */
+int32_t _i2c_s_sync_deinit(struct _i2c_s_sync_device *const device)
+{
+	_i2c_s_deinit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Deinitialize asynchronous I2C
+ */
+int32_t _i2c_s_async_deinit(struct _i2c_s_async_device *const device)
+{
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(device->hw));
+	_i2c_s_deinit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable I2C module
+ */
+int32_t _i2c_s_sync_enable(struct _i2c_s_sync_device *const device)
+{
+	hri_sercomi2cs_set_CTRLA_ENABLE_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable I2C module
+ */
+int32_t _i2c_s_async_enable(struct _i2c_s_async_device *const device)
+{
+	hri_sercomi2cs_set_CTRLA_ENABLE_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Disable I2C module
+ */
+int32_t _i2c_s_sync_disable(struct _i2c_s_sync_device *const device)
+{
+	hri_sercomi2cs_clear_CTRLA_ENABLE_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Disable I2C module
+ */
+int32_t _i2c_s_async_disable(struct _i2c_s_async_device *const device)
+{
+	hri_sercomi2cs_clear_CTRLA_ENABLE_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Check if 10-bit addressing mode is on
+ */
+int32_t _i2c_s_sync_is_10bit_addressing_on(const struct _i2c_s_sync_device *const device)
+{
+	return hri_sercomi2cs_get_ADDR_TENBITEN_bit(device->hw);
+}
+
+/**
+ * \brief Check if 10-bit addressing mode is on
+ */
+int32_t _i2c_s_async_is_10bit_addressing_on(const struct _i2c_s_async_device *const device)
+{
+	return hri_sercomi2cs_get_ADDR_TENBITEN_bit(device->hw);
+}
+
+/**
+ * \brief Set I2C slave address
+ */
+int32_t _i2c_s_sync_set_address(struct _i2c_s_sync_device *const device, const uint16_t address)
+{
+	return _i2c_s_set_address(device->hw, address);
+}
+
+/**
+ * \brief Set I2C slave address
+ */
+int32_t _i2c_s_async_set_address(struct _i2c_s_async_device *const device, const uint16_t address)
+{
+	return _i2c_s_set_address(device->hw, address);
+}
+
+/**
+ * \brief Write a byte to the given I2C instance
+ */
+void _i2c_s_sync_write_byte(struct _i2c_s_sync_device *const device, const uint8_t data)
+{
+	hri_sercomi2cs_write_DATA_reg(device->hw, data);
+}
+
+/**
+ * \brief Write a byte to the given I2C instance
+ */
+void _i2c_s_async_write_byte(struct _i2c_s_async_device *const device, const uint8_t data)
+{
+	hri_sercomi2cs_write_DATA_reg(device->hw, data);
+}
+
+/**
+ * \brief Read a byte from the given I2C instance
+ */
+uint8_t _i2c_s_sync_read_byte(const struct _i2c_s_sync_device *const device)
+{
+	return hri_sercomi2cs_read_DATA_reg(device->hw);
+}
+
+/**
+ * \brief Check if I2C is ready to send next byt
+ */
+bool _i2c_s_sync_is_byte_sent(const struct _i2c_s_sync_device *const device)
+{
+	return hri_sercomi2cs_get_interrupt_DRDY_bit(device->hw);
+}
+
+/**
+ * \brief Check if there is data received by I2C
+ */
+bool _i2c_s_sync_is_byte_received(const struct _i2c_s_sync_device *const device)
+{
+	return hri_sercomi2cs_get_interrupt_DRDY_bit(device->hw);
+}
+
+/**
+ * \brief Retrieve I2C slave status
+ */
+i2c_s_status_t _i2c_s_sync_get_status(const struct _i2c_s_sync_device *const device)
+{
+	return hri_sercomi2cs_read_STATUS_reg(device->hw);
+}
+
+/**
+ * \brief Clear the Data Ready interrupt flag
+ */
+int32_t _i2c_s_sync_clear_data_ready_flag(const struct _i2c_s_sync_device *const device)
+{
+	hri_sercomi2cs_clear_INTFLAG_DRDY_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Retrieve I2C slave status
+ */
+i2c_s_status_t _i2c_s_async_get_status(const struct _i2c_s_async_device *const device)
+{
+	return hri_sercomi2cs_read_STATUS_reg(device->hw);
+}
+
+/**
+ * \brief Abort data transmission
+ */
+int32_t _i2c_s_async_abort_transmission(const struct _i2c_s_async_device *const device)
+{
+	hri_sercomi2cs_clear_INTEN_DRDY_bit(device->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief Enable/disable I2C slave interrupt
+ */
+int32_t _i2c_s_async_set_irq_state(struct _i2c_s_async_device *const device, const enum _i2c_s_async_callback_type type,
+                                   const bool state)
+{
+	ASSERT(device);
+
+	if (I2C_S_DEVICE_TX == type || I2C_S_DEVICE_RX_COMPLETE == type) {
+		hri_sercomi2cs_write_INTEN_DRDY_bit(device->hw, state);
+	} else if (I2C_S_DEVICE_ERROR == type) {
+		hri_sercomi2cs_write_INTEN_ERROR_bit(device->hw, state);
+	}
+
+	return ERR_NONE;
+}
+
+/**
+ * \internal Initalize i2c slave hardware
+ *
+ * \param[in] p The pointer to hardware instance
+ *
+ *\ return status of initialization
+ */
+static int32_t _i2c_s_init(void *const hw)
+{
+	int8_t i = _get_i2c_s_index(hw);
+	if (i == -1) {
+		return ERR_INVALID_ARG;
+	}
+
+	if (!hri_sercomi2cs_is_syncing(hw, SERCOM_I2CS_CTRLA_SWRST)) {
+		uint32_t mode = _i2css[i].ctrl_a & SERCOM_I2CS_CTRLA_MODE_Msk;
+		if (hri_sercomi2cs_get_CTRLA_reg(hw, SERCOM_I2CS_CTRLA_ENABLE)) {
+			hri_sercomi2cs_clear_CTRLA_ENABLE_bit(hw);
+			hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_ENABLE);
+		}
+		hri_sercomi2cs_write_CTRLA_reg(hw, SERCOM_I2CS_CTRLA_SWRST | mode);
+	}
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST);
+
+	hri_sercomi2cs_write_CTRLA_reg(hw, _i2css[i].ctrl_a);
+	hri_sercomi2cs_write_CTRLB_reg(hw, _i2css[i].ctrl_b);
+	hri_sercomi2cs_write_ADDR_reg(hw, _i2css[i].address);
+
+	return ERR_NONE;
+}
+
+/**
+ * \internal Retrieve ordinal number of the given sercom hardware instance
+ *
+ * \param[in] hw The pointer to hardware instance
+ *
+ * \return The ordinal number of the given sercom hardware instance
+ */
+static int8_t _get_i2c_s_index(const void *const hw)
+{
+	uint8_t sercom_offset = _sercom_get_hardware_index(hw);
+	uint8_t i;
+
+	for (i = 0; i < ARRAY_SIZE(_i2css); i++) {
+		if (_i2css[i].number == sercom_offset) {
+			return i;
+		}
+	}
+
+	ASSERT(false);
+	return -1;
+}
+
+/**
+ * \internal De-initialize i2c slave
+ *
+ * \param[in] hw The pointer to hardware instance
+ */
+static inline void _i2c_s_deinit(void *const hw)
+{
+	hri_sercomi2cs_clear_CTRLA_ENABLE_bit(hw);
+	hri_sercomi2cs_set_CTRLA_SWRST_bit(hw);
+}
+
+/**
+ * \internal De-initialize i2c slave
+ *
+ * \param[in] hw The pointer to hardware instance
+ * \param[in] address Address to set
+ */
+static int32_t _i2c_s_set_address(void *const hw, const uint16_t address)
+{
+	bool enabled;
+
+	enabled = hri_sercomi2cs_get_CTRLA_ENABLE_bit(hw);
+
+	CRITICAL_SECTION_ENTER()
+	hri_sercomi2cs_clear_CTRLA_ENABLE_bit(hw);
+	hri_sercomi2cs_write_ADDR_ADDR_bf(hw, address);
+	CRITICAL_SECTION_LEAVE()
+
+	if (enabled) {
+		hri_sercomi2cs_set_CTRLA_ENABLE_bit(hw);
+	}
+
+	return ERR_NONE;
+}
+
+	/* Sercom SPI implementation */
+
+#ifndef SERCOM_USART_CTRLA_MODE_SPI_SLAVE
+#define SERCOM_USART_CTRLA_MODE_SPI_SLAVE (2 << 2)
+#endif
+
+#define SPI_DEV_IRQ_MODE 0x8000
+
+#define _SPI_CS_PORT_EXTRACT(cs) (((cs) >> 0) & 0xFF)
+#define _SPI_CS_PIN_EXTRACT(cs) (((cs) >> 8) & 0xFF)
+
+COMPILER_PACK_SET(1)
+/** Initialization configuration of registers. */
+struct sercomspi_regs_cfg {
+	uint32_t ctrla;
+	uint32_t ctrlb;
+	uint32_t addr;
+	uint8_t  baud;
+	uint8_t  dbgctrl;
+	uint16_t dummy_byte;
+	uint8_t  n;
+};
+COMPILER_PACK_RESET()
+
+/** Build configuration from header macros. */
+#define SERCOMSPI_REGS(n)                                                                                              \
+	{                                                                                                                  \
+		(((CONF_SERCOM_##n##_SPI_DORD) << SERCOM_SPI_CTRLA_DORD_Pos)                                                   \
+		 | (CONF_SERCOM_##n##_SPI_CPOL << SERCOM_SPI_CTRLA_CPOL_Pos)                                                   \
+		 | (CONF_SERCOM_##n##_SPI_CPHA << SERCOM_SPI_CTRLA_CPHA_Pos)                                                   \
+		 | (CONF_SERCOM_##n##_SPI_AMODE_EN ? SERCOM_SPI_CTRLA_FORM(2) : SERCOM_SPI_CTRLA_FORM(0))                      \
+		 | SERCOM_SPI_CTRLA_DOPO(CONF_SERCOM_##n##_SPI_TXPO) | SERCOM_SPI_CTRLA_DIPO(CONF_SERCOM_##n##_SPI_RXPO)       \
+		 | (CONF_SERCOM_##n##_SPI_IBON << SERCOM_SPI_CTRLA_IBON_Pos)                                                   \
+		 | (CONF_SERCOM_##n##_SPI_RUNSTDBY << SERCOM_SPI_CTRLA_RUNSTDBY_Pos)                                           \
+		 | SERCOM_SPI_CTRLA_MODE(CONF_SERCOM_##n##_SPI_MODE)), /* ctrla */                                             \
+		    ((CONF_SERCOM_##n##_SPI_RXEN << SERCOM_SPI_CTRLB_RXEN_Pos)                                                 \
+		     | (CONF_SERCOM_##n##_SPI_MSSEN << SERCOM_SPI_CTRLB_MSSEN_Pos)                                             \
+		     | (CONF_SERCOM_##n##_SPI_SSDE << SERCOM_SPI_CTRLB_SSDE_Pos)                                               \
+		     | (CONF_SERCOM_##n##_SPI_PLOADEN << SERCOM_SPI_CTRLB_PLOADEN_Pos)                                         \
+		     | SERCOM_SPI_CTRLB_AMODE(CONF_SERCOM_##n##_SPI_AMODE)                                                     \
+		     | SERCOM_SPI_CTRLB_CHSIZE(CONF_SERCOM_##n##_SPI_CHSIZE)), /* ctrlb */                                     \
+		    (SERCOM_SPI_ADDR_ADDR(CONF_SERCOM_##n##_SPI_ADDR)                                                          \
+		     | SERCOM_SPI_ADDR_ADDRMASK(CONF_SERCOM_##n##_SPI_ADDRMASK)),      /* addr */                              \
+		    ((uint8_t)CONF_SERCOM_##n##_SPI_BAUD_RATE),                        /* baud */                              \
+		    (CONF_SERCOM_##n##_SPI_DBGSTOP << SERCOM_SPI_DBGCTRL_DBGSTOP_Pos), /* dbgctrl */                           \
+		    CONF_SERCOM_##n##_SPI_DUMMYBYTE,                                   /* Dummy byte for SPI master mode */    \
+		    n                                                                  /* sercom number */                     \
+	}
+
+#ifndef CONF_SERCOM_0_SPI_ENABLE
+#define CONF_SERCOM_0_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_1_SPI_ENABLE
+#define CONF_SERCOM_1_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_2_SPI_ENABLE
+#define CONF_SERCOM_2_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_3_SPI_ENABLE
+#define CONF_SERCOM_3_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_4_SPI_ENABLE
+#define CONF_SERCOM_4_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_5_SPI_ENABLE
+#define CONF_SERCOM_5_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_6_SPI_ENABLE
+#define CONF_SERCOM_6_SPI_ENABLE 0
+#endif
+#ifndef CONF_SERCOM_7_SPI_ENABLE
+#define CONF_SERCOM_7_SPI_ENABLE 0
+#endif
+
+/** Amount of SERCOM that is used as SPI */
+#define SERCOM_SPI_AMOUNT                                                                                              \
+	(CONF_SERCOM_0_SPI_ENABLE + CONF_SERCOM_1_SPI_ENABLE + CONF_SERCOM_2_SPI_ENABLE + CONF_SERCOM_3_SPI_ENABLE         \
+	 + CONF_SERCOM_4_SPI_ENABLE + CONF_SERCOM_5_SPI_ENABLE + CONF_SERCOM_6_SPI_ENABLE + CONF_SERCOM_7_SPI_ENABLE)
+
+#if SERCOM_SPI_AMOUNT < 1
+/** Dummy array for compiling. */
+static const struct sercomspi_regs_cfg sercomspi_regs[1] = {{0}};
+#else
+/** The SERCOM SPI configurations of SERCOM that is used as SPI. */
+static const struct sercomspi_regs_cfg sercomspi_regs[] = {
+#if CONF_SERCOM_0_SPI_ENABLE
+    SERCOMSPI_REGS(0),
+#endif
+#if CONF_SERCOM_1_SPI_ENABLE
+    SERCOMSPI_REGS(1),
+#endif
+#if CONF_SERCOM_2_SPI_ENABLE
+    SERCOMSPI_REGS(2),
+#endif
+#if CONF_SERCOM_3_SPI_ENABLE
+    SERCOMSPI_REGS(3),
+#endif
+#if CONF_SERCOM_4_SPI_ENABLE
+    SERCOMSPI_REGS(4),
+#endif
+#if CONF_SERCOM_5_SPI_ENABLE
+    SERCOMSPI_REGS(5),
+#endif
+#if CONF_SERCOM_6_SPI_ENABLE
+    SERCOMSPI_REGS(6),
+#endif
+#if CONF_SERCOM_7_SPI_ENABLE
+    SERCOMSPI_REGS(7),
+#endif
+};
+#endif
+
+/** \internal De-initialize SERCOM SPI
+ *
+ *  \param[in] hw Pointer to the hardware register base.
+ *
+ * \return De-initialization status
+ */
+static int32_t _spi_deinit(void *const hw)
+{
+	hri_sercomspi_clear_CTRLA_ENABLE_bit(hw);
+	hri_sercomspi_set_CTRLA_SWRST_bit(hw);
+
+	return ERR_NONE;
+}
+
+/** \internal Enable SERCOM SPI
+ *
+ *  \param[in] hw Pointer to the hardware register base.
+ *
+ * \return Enabling status
+ */
+static int32_t _spi_sync_enable(void *const hw)
+{
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST)) {
+		return ERR_BUSY;
+	}
+
+	hri_sercomspi_set_CTRLA_ENABLE_bit(hw);
+
+	return ERR_NONE;
+}
+
+/** \internal Enable SERCOM SPI
+ *
+ *  \param[in] hw Pointer to the hardware register base.
+ *
+ * \return Enabling status
+ */
+static int32_t _spi_async_enable(void *const hw)
+{
+	_spi_sync_enable(hw);
+	NVIC_EnableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	return ERR_NONE;
+}
+
+/** \internal Disable SERCOM SPI
+ *
+ *  \param[in] hw Pointer to the hardware register base.
+ *
+ * \return Disabling status
+ */
+static int32_t _spi_sync_disable(void *const hw)
+{
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST)) {
+		return ERR_BUSY;
+	}
+	hri_sercomspi_clear_CTRLA_ENABLE_bit(hw);
+
+	return ERR_NONE;
+}
+
+/** \internal Disable SERCOM SPI
+ *
+ *  \param[in] hw Pointer to the hardware register base.
+ *
+ * \return Disabling status
+ */
+static int32_t _spi_async_disable(void *const hw)
+{
+	_spi_sync_disable(hw);
+	hri_sercomspi_clear_INTEN_reg(
+	    hw, SERCOM_SPI_INTFLAG_ERROR | SERCOM_SPI_INTFLAG_RXC | SERCOM_SPI_INTFLAG_TXC | SERCOM_SPI_INTFLAG_DRE);
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	return ERR_NONE;
+}
+
+/** \internal Set SERCOM SPI mode
+ *
+ * \param[in] hw Pointer to the hardware register base.
+ * \param[in] mode The mode to set
+ *
+ * \return Setting mode status
+ */
+static int32_t _spi_set_mode(void *const hw, const enum spi_transfer_mode mode)
+{
+	uint32_t ctrla;
+
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE)) {
+		return ERR_BUSY;
+	}
+
+	ctrla = hri_sercomspi_read_CTRLA_reg(hw);
+	ctrla &= ~(SERCOM_SPI_CTRLA_CPOL | SERCOM_SPI_CTRLA_CPHA);
+	ctrla |= (mode & 0x3u) << SERCOM_SPI_CTRLA_CPHA_Pos;
+	hri_sercomspi_write_CTRLA_reg(hw, ctrla);
+
+	return ERR_NONE;
+}
+
+/** \internal Set SERCOM SPI baudrate
+ *
+ * \param[in] hw Pointer to the hardware register base.
+ * \param[in] baud_val The baudrate to set
+ *
+ * \return Setting baudrate status
+ */
+static int32_t _spi_set_baudrate(void *const hw, const uint32_t baud_val)
+{
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST)) {
+		return ERR_BUSY;
+	}
+
+	hri_sercomspi_write_BAUD_reg(hw, baud_val);
+
+	return ERR_NONE;
+}
+
+/** \internal Set SERCOM SPI char size
+ *
+ * \param[in] hw Pointer to the hardware register base.
+ * \param[in] baud_val The baudrate to set
+ * \param[out] size Stored char size
+ *
+ * \return Setting char size status
+ */
+static int32_t _spi_set_char_size(void *const hw, const enum spi_char_size char_size, uint8_t *const size)
+{
+	/* Only 8-bit or 9-bit accepted */
+	if (!(char_size == SPI_CHAR_SIZE_8 || char_size == SPI_CHAR_SIZE_9)) {
+		return ERR_INVALID_ARG;
+	}
+
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_CTRLB)) {
+		return ERR_BUSY;
+	}
+
+	hri_sercomspi_write_CTRLB_CHSIZE_bf(hw, char_size);
+	*size = (char_size == SPI_CHAR_SIZE_8) ? 1 : 2;
+
+	return ERR_NONE;
+}
+
+/** \internal Set SERCOM SPI data order
+ *
+ * \param[in] hw Pointer to the hardware register base.
+ * \param[in] baud_val The baudrate to set
+ *
+ * \return Setting data order status
+ */
+static int32_t _spi_set_data_order(void *const hw, const enum spi_data_order dord)
+{
+	uint32_t ctrla;
+
+	if (hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST)) {
+		return ERR_BUSY;
+	}
+
+	ctrla = hri_sercomspi_read_CTRLA_reg(hw);
+
+	if (dord == SPI_DATA_ORDER_LSB_1ST) {
+		ctrla |= SERCOM_SPI_CTRLA_DORD;
+	} else {
+		ctrla &= ~SERCOM_SPI_CTRLA_DORD;
+	}
+	hri_sercomspi_write_CTRLA_reg(hw, ctrla);
+
+	return ERR_NONE;
+}
+
+/** \brief Load SERCOM registers to init for SPI master mode
+ *  The settings will be applied with default master mode, unsupported things
+ *  are ignored.
+ *  \param[in, out] hw Pointer to the hardware register base.
+ *  \param[in] regs Pointer to register configuration values.
+ */
+static inline void _spi_load_regs_master(void *const hw, const struct sercomspi_regs_cfg *regs)
+{
+	ASSERT(hw && regs);
+	hri_sercomspi_write_CTRLA_reg(
+	    hw, regs->ctrla & ~(SERCOM_SPI_CTRLA_IBON | SERCOM_SPI_CTRLA_ENABLE | SERCOM_SPI_CTRLA_SWRST));
+	hri_sercomspi_write_CTRLB_reg(
+	    hw,
+	    (regs->ctrlb
+	     & ~(SERCOM_SPI_CTRLB_MSSEN | SERCOM_SPI_CTRLB_AMODE_Msk | SERCOM_SPI_CTRLB_SSDE | SERCOM_SPI_CTRLB_PLOADEN))
+	        | (SERCOM_SPI_CTRLB_RXEN));
+	hri_sercomspi_write_BAUD_reg(hw, regs->baud);
+	hri_sercomspi_write_DBGCTRL_reg(hw, regs->dbgctrl);
+}
+
+/** \brief Load SERCOM registers to init for SPI slave mode
+ *  The settings will be applied with default slave mode, unsupported things
+ *  are ignored.
+ *  \param[in, out] hw Pointer to the hardware register base.
+ *  \param[in] regs Pointer to register configuration values.
+ */
+static inline void _spi_load_regs_slave(void *const hw, const struct sercomspi_regs_cfg *regs)
+{
+	ASSERT(hw && regs);
+	hri_sercomspi_write_CTRLA_reg(
+	    hw, regs->ctrla & ~(SERCOM_SPI_CTRLA_IBON | SERCOM_SPI_CTRLA_ENABLE | SERCOM_SPI_CTRLA_SWRST));
+	hri_sercomspi_write_CTRLB_reg(hw,
+	                              (regs->ctrlb & ~(SERCOM_SPI_CTRLB_MSSEN))
+	                                  | (SERCOM_SPI_CTRLB_RXEN | SERCOM_SPI_CTRLB_SSDE | SERCOM_SPI_CTRLB_PLOADEN));
+	hri_sercomspi_write_ADDR_reg(hw, regs->addr);
+	hri_sercomspi_write_DBGCTRL_reg(hw, regs->dbgctrl);
+	while (hri_sercomspi_is_syncing(hw, 0xFFFFFFFF))
+		;
+}
+
+/** \brief Return the pointer to register settings of specific SERCOM
+ *  \param[in] hw_addr The hardware register base address.
+ *  \return Pointer to register settings of specific SERCOM.
+ */
+static inline const struct sercomspi_regs_cfg *_spi_get_regs(const uint32_t hw_addr)
+{
+	uint8_t n = _sercom_get_hardware_index((const void *)hw_addr);
+	uint8_t i;
+
+	for (i = 0; i < sizeof(sercomspi_regs) / sizeof(struct sercomspi_regs_cfg); i++) {
+		if (sercomspi_regs[i].n == n) {
+			return &sercomspi_regs[i];
+		}
+	}
+
+	return NULL;
+}
+
+int32_t _spi_m_sync_init(struct _spi_m_sync_dev *dev, void *const hw)
+{
+	const struct sercomspi_regs_cfg *regs = _spi_get_regs((uint32_t)hw);
+
+	ASSERT(dev && hw);
+
+	if (regs == NULL) {
+		return ERR_INVALID_ARG;
+	}
+
+	if (!hri_sercomspi_is_syncing(hw, SERCOM_SPI_SYNCBUSY_SWRST)) {
+		uint32_t mode = regs->ctrla & SERCOM_SPI_CTRLA_MODE_Msk;
+		if (hri_sercomspi_get_CTRLA_reg(hw, SERCOM_SPI_CTRLA_ENABLE)) {
+			hri_sercomspi_clear_CTRLA_ENABLE_bit(hw);
+			hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_ENABLE);
+		}
+		hri_sercomspi_write_CTRLA_reg(hw, SERCOM_SPI_CTRLA_SWRST | mode);
+	}
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST);
+
+	dev->prvt = hw;
+
+	if ((regs->ctrla & SERCOM_SPI_CTRLA_MODE_Msk) == SERCOM_USART_CTRLA_MODE_SPI_SLAVE) {
+		_spi_load_regs_slave(hw, regs);
+	} else {
+		_spi_load_regs_master(hw, regs);
+	}
+
+	/* Load character size from default hardware configuration */
+	dev->char_size = ((regs->ctrlb & SERCOM_SPI_CTRLB_CHSIZE_Msk) == 0) ? 1 : 2;
+
+	dev->dummy_byte = regs->dummy_byte;
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_sync_init(struct _spi_s_sync_dev *dev, void *const hw)
+{
+	return _spi_m_sync_init(dev, hw);
+}
+
+int32_t _spi_m_async_init(struct _spi_async_dev *dev, void *const hw)
+{
+	struct _spi_async_dev *spid = dev;
+	/* Do hardware initialize. */
+	int32_t rc = _spi_m_sync_init((struct _spi_m_sync_dev *)dev, hw);
+
+	if (rc < 0) {
+		return rc;
+	}
+
+	_sercom_init_irq_param(hw, (void *)dev);
+	/* Initialize callbacks: must use them */
+	spid->callbacks.complete = NULL;
+	spid->callbacks.rx       = NULL;
+	spid->callbacks.tx       = NULL;
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(hw));
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_init(struct _spi_s_async_dev *dev, void *const hw)
+{
+	return _spi_m_async_init(dev, hw);
+}
+
+int32_t _spi_m_async_deinit(struct _spi_async_dev *dev)
+{
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(dev->prvt));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(dev->prvt));
+
+	return _spi_deinit(dev->prvt);
+}
+
+int32_t _spi_s_async_deinit(struct _spi_s_async_dev *dev)
+{
+	NVIC_DisableIRQ((IRQn_Type)_sercom_get_irq_num(dev->prvt));
+	NVIC_ClearPendingIRQ((IRQn_Type)_sercom_get_irq_num(dev->prvt));
+
+	return _spi_deinit(dev->prvt);
+}
+
+int32_t _spi_m_sync_deinit(struct _spi_m_sync_dev *dev)
+{
+	return _spi_deinit(dev->prvt);
+}
+
+int32_t _spi_s_sync_deinit(struct _spi_s_sync_dev *dev)
+{
+	return _spi_deinit(dev->prvt);
+}
+
+int32_t _spi_m_sync_enable(struct _spi_m_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_sync_enable(dev->prvt);
+}
+
+int32_t _spi_s_sync_enable(struct _spi_s_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_sync_enable(dev->prvt);
+}
+
+int32_t _spi_m_async_enable(struct _spi_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_async_enable(dev->prvt);
+}
+
+int32_t _spi_s_async_enable(struct _spi_s_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_async_enable(dev->prvt);
+}
+
+int32_t _spi_m_sync_disable(struct _spi_m_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_sync_disable(dev->prvt);
+}
+
+int32_t _spi_s_sync_disable(struct _spi_s_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_sync_disable(dev->prvt);
+}
+
+int32_t _spi_m_async_disable(struct _spi_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_async_disable(dev->prvt);
+}
+
+int32_t _spi_s_async_disable(struct _spi_s_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_async_disable(dev->prvt);
+}
+
+int32_t _spi_m_sync_set_mode(struct _spi_m_sync_dev *dev, const enum spi_transfer_mode mode)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_mode(dev->prvt, mode);
+}
+
+int32_t _spi_m_async_set_mode(struct _spi_async_dev *dev, const enum spi_transfer_mode mode)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_mode(dev->prvt, mode);
+}
+
+int32_t _spi_s_async_set_mode(struct _spi_s_async_dev *dev, const enum spi_transfer_mode mode)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_mode(dev->prvt, mode);
+}
+
+int32_t _spi_s_sync_set_mode(struct _spi_s_sync_dev *dev, const enum spi_transfer_mode mode)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_mode(dev->prvt, mode);
+}
+
+int32_t _spi_calc_baud_val(struct spi_dev *dev, const uint32_t clk, const uint32_t baud)
+{
+	int32_t rc;
+	ASSERT(dev);
+	(void)dev;
+
+	/* Not accept 0es */
+	if (clk == 0 || baud == 0) {
+		return ERR_INVALID_ARG;
+	}
+
+	/* Check baudrate range of current assigned clock */
+	if (!(baud <= (clk >> 1) && baud >= (clk >> 8))) {
+		return ERR_INVALID_ARG;
+	}
+
+	rc = ((clk >> 1) / baud) - 1;
+	return rc;
+}
+
+int32_t _spi_m_sync_set_baudrate(struct _spi_m_sync_dev *dev, const uint32_t baud_val)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_baudrate(dev->prvt, baud_val);
+}
+
+int32_t _spi_m_async_set_baudrate(struct _spi_async_dev *dev, const uint32_t baud_val)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_baudrate(dev->prvt, baud_val);
+}
+
+int32_t _spi_m_sync_set_char_size(struct _spi_m_sync_dev *dev, const enum spi_char_size char_size)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_char_size(dev->prvt, char_size, &dev->char_size);
+}
+
+int32_t _spi_m_async_set_char_size(struct _spi_async_dev *dev, const enum spi_char_size char_size)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_char_size(dev->prvt, char_size, &dev->char_size);
+}
+
+int32_t _spi_s_async_set_char_size(struct _spi_s_async_dev *dev, const enum spi_char_size char_size)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_char_size(dev->prvt, char_size, &dev->char_size);
+}
+
+int32_t _spi_s_sync_set_char_size(struct _spi_s_sync_dev *dev, const enum spi_char_size char_size)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_char_size(dev->prvt, char_size, &dev->char_size);
+}
+
+int32_t _spi_m_sync_set_data_order(struct _spi_m_sync_dev *dev, const enum spi_data_order dord)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_data_order(dev->prvt, dord);
+}
+
+int32_t _spi_m_async_set_data_order(struct _spi_async_dev *dev, const enum spi_data_order dord)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_data_order(dev->prvt, dord);
+}
+
+int32_t _spi_s_async_set_data_order(struct _spi_s_async_dev *dev, const enum spi_data_order dord)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_data_order(dev->prvt, dord);
+}
+
+int32_t _spi_s_sync_set_data_order(struct _spi_s_sync_dev *dev, const enum spi_data_order dord)
+{
+	ASSERT(dev && dev->prvt);
+
+	return _spi_set_data_order(dev->prvt, dord);
+}
+
+/** Wait until SPI bus idle. */
+static inline void _spi_wait_bus_idle(void *const hw)
+{
+	while (!(hri_sercomspi_get_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_TXC | SERCOM_SPI_INTFLAG_DRE))) {
+		;
+	}
+	hri_sercomspi_clear_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_TXC | SERCOM_SPI_INTFLAG_DRE);
+}
+
+/** Holds run time information for message sync transaction. */
+struct _spi_trans_ctrl {
+	/** Pointer to transmitting data buffer. */
+	uint8_t *txbuf;
+	/** Pointer to receiving data buffer. */
+	uint8_t *rxbuf;
+	/** Count number of data transmitted. */
+	uint32_t txcnt;
+	/** Count number of data received. */
+	uint32_t rxcnt;
+	/** Data character size. */
+	uint8_t char_size;
+};
+
+/** Check interrupt flag of RXC and update transaction runtime information. */
+static inline bool _spi_rx_check_and_receive(void *const hw, const uint32_t iflag, struct _spi_trans_ctrl *ctrl)
+{
+	uint32_t data;
+
+	if (!(iflag & SERCOM_SPI_INTFLAG_RXC)) {
+		return false;
+	}
+
+	data = hri_sercomspi_read_DATA_reg(hw);
+
+	if (ctrl->rxbuf) {
+		*ctrl->rxbuf++ = (uint8_t)data;
+
+		if (ctrl->char_size > 1) {
+			*ctrl->rxbuf++ = (uint8_t)(data >> 8);
+		}
+	}
+
+	ctrl->rxcnt++;
+
+	return true;
+}
+
+/** Check interrupt flag of DRE and update transaction runtime information. */
+static inline void _spi_tx_check_and_send(void *const hw, const uint32_t iflag, struct _spi_trans_ctrl *ctrl,
+                                          uint16_t dummy)
+{
+	uint32_t data;
+
+	if (!(SERCOM_SPI_INTFLAG_DRE & iflag)) {
+		return;
+	}
+
+	if (ctrl->txbuf) {
+		data = *ctrl->txbuf++;
+
+		if (ctrl->char_size > 1) {
+			data |= (*ctrl->txbuf) << 8;
+			ctrl->txbuf++;
+		}
+	} else {
+		data = dummy;
+	}
+
+	ctrl->txcnt++;
+	hri_sercomspi_write_DATA_reg(hw, data);
+}
+
+/** Check interrupt flag of ERROR and update transaction runtime information. */
+static inline int32_t _spi_err_check(const uint32_t iflag, void *const hw)
+{
+	if (SERCOM_SPI_INTFLAG_ERROR & iflag) {
+		hri_sercomspi_clear_STATUS_reg(hw, ~0);
+		hri_sercomspi_clear_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_ERROR);
+		return ERR_OVERFLOW;
+	}
+
+	return ERR_NONE;
+}
+
+int32_t _spi_m_sync_trans(struct _spi_m_sync_dev *dev, const struct spi_msg *msg)
+{
+	void *                 hw   = dev->prvt;
+	int32_t                rc   = 0;
+	struct _spi_trans_ctrl ctrl = {msg->txbuf, msg->rxbuf, 0, 0, dev->char_size};
+
+	ASSERT(dev && hw);
+
+	/* If settings are not applied (pending), we can not go on */
+	if (hri_sercomspi_is_syncing(
+	        hw, (SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE | SERCOM_SPI_SYNCBUSY_CTRLB))) {
+		return ERR_BUSY;
+	}
+
+	/* SPI must be enabled to start synchronous transfer */
+	if (!hri_sercomspi_get_CTRLA_ENABLE_bit(hw)) {
+		return ERR_NOT_INITIALIZED;
+	}
+
+	for (;;) {
+		uint32_t iflag = hri_sercomspi_read_INTFLAG_reg(hw);
+
+		if (!_spi_rx_check_and_receive(hw, iflag, &ctrl)) {
+			/* In master mode, do not start next byte before previous byte received
+			 * to make better output waveform */
+			if (ctrl.rxcnt >= ctrl.txcnt) {
+				_spi_tx_check_and_send(hw, iflag, &ctrl, dev->dummy_byte);
+			}
+		}
+
+		rc = _spi_err_check(iflag, hw);
+
+		if (rc < 0) {
+			break;
+		}
+		if (ctrl.txcnt >= msg->size && ctrl.rxcnt >= msg->size) {
+			rc = ctrl.txcnt;
+			break;
+		}
+	}
+	/* Wait until SPI bus idle */
+	_spi_wait_bus_idle(hw);
+
+	return rc;
+}
+
+int32_t _spi_m_async_enable_tx(struct _spi_async_dev *dev, bool state)
+{
+	void *hw = dev->prvt;
+
+	ASSERT(dev && hw);
+
+	if (state) {
+		hri_sercomspi_set_INTEN_DRE_bit(hw);
+	} else {
+		hri_sercomspi_clear_INTEN_DRE_bit(hw);
+	}
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_enable_tx(struct _spi_s_async_dev *dev, bool state)
+{
+	return _spi_m_async_enable_tx(dev, state);
+}
+
+int32_t _spi_m_async_enable_rx(struct _spi_async_dev *dev, bool state)
+{
+	void *hw = dev->prvt;
+
+	ASSERT(dev);
+	ASSERT(hw);
+
+	if (state) {
+		hri_sercomspi_set_INTEN_RXC_bit(hw);
+	} else {
+		hri_sercomspi_clear_INTEN_RXC_bit(hw);
+	}
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_enable_rx(struct _spi_s_async_dev *dev, bool state)
+{
+	return _spi_m_async_enable_rx(dev, state);
+}
+
+int32_t _spi_m_async_enable_tx_complete(struct _spi_async_dev *dev, bool state)
+{
+	ASSERT(dev && dev->prvt);
+
+	if (state) {
+		hri_sercomspi_set_INTEN_TXC_bit(dev->prvt);
+	} else {
+		hri_sercomspi_clear_INTEN_TXC_bit(dev->prvt);
+	}
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_enable_ss_detect(struct _spi_s_async_dev *dev, bool state)
+{
+	return _spi_m_async_enable_tx_complete(dev, state);
+}
+
+int32_t _spi_m_async_write_one(struct _spi_async_dev *dev, uint16_t data)
+{
+	ASSERT(dev && dev->prvt);
+
+	hri_sercomspi_write_DATA_reg(dev->prvt, data);
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_write_one(struct _spi_s_async_dev *dev, uint16_t data)
+{
+	ASSERT(dev && dev->prvt);
+
+	hri_sercomspi_write_DATA_reg(dev->prvt, data);
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_sync_write_one(struct _spi_s_sync_dev *dev, uint16_t data)
+{
+	ASSERT(dev && dev->prvt);
+
+	hri_sercomspi_write_DATA_reg(dev->prvt, data);
+
+	return ERR_NONE;
+}
+
+uint16_t _spi_m_async_read_one(struct _spi_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return hri_sercomspi_read_DATA_reg(dev->prvt);
+}
+
+uint16_t _spi_s_async_read_one(struct _spi_s_async_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return hri_sercomspi_read_DATA_reg(dev->prvt);
+}
+
+uint16_t _spi_s_sync_read_one(struct _spi_s_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return hri_sercomspi_read_DATA_reg(dev->prvt);
+}
+
+int32_t _spi_m_async_register_callback(struct _spi_async_dev *dev, const enum _spi_async_dev_cb_type cb_type,
+                                       const FUNC_PTR func)
+{
+	typedef void (*func_t)(void);
+	struct _spi_async_dev *spid = dev;
+
+	ASSERT(dev && (cb_type < SPI_DEV_CB_N));
+
+	func_t *p_ls  = (func_t *)&spid->callbacks;
+	p_ls[cb_type] = (func_t)func;
+
+	return ERR_NONE;
+}
+
+int32_t _spi_s_async_register_callback(struct _spi_s_async_dev *dev, const enum _spi_s_async_dev_cb_type cb_type,
+                                       const FUNC_PTR func)
+{
+	return _spi_m_async_register_callback(dev, cb_type, func);
+}
+
+bool _spi_s_sync_is_tx_ready(struct _spi_s_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return hri_sercomi2cm_get_INTFLAG_reg(dev->prvt, SERCOM_SPI_INTFLAG_DRE);
+}
+
+bool _spi_s_sync_is_rx_ready(struct _spi_s_sync_dev *dev)
+{
+	ASSERT(dev && dev->prvt);
+
+	return hri_sercomi2cm_get_INTFLAG_reg(dev->prvt, SERCOM_SPI_INTFLAG_RXC);
+}
+
+bool _spi_s_sync_is_ss_deactivated(struct _spi_s_sync_dev *dev)
+{
+	void *hw = dev->prvt;
+
+	ASSERT(dev && hw);
+
+	if (hri_sercomi2cm_get_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_TXC)) {
+		hri_sercomspi_clear_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_TXC);
+		return true;
+	}
+	return false;
+}
+
+bool _spi_s_sync_is_error(struct _spi_s_sync_dev *dev)
+{
+	void *hw = dev->prvt;
+
+	ASSERT(dev && hw);
+
+	if (hri_sercomi2cm_get_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_ERROR)) {
+		hri_sercomspi_clear_STATUS_reg(hw, SERCOM_SPI_STATUS_BUFOVF);
+		hri_sercomspi_clear_INTFLAG_reg(hw, SERCOM_SPI_INTFLAG_ERROR);
+		return true;
+	}
+	return false;
+}
+
+/**
+ * \brief Enable/disable SPI master interrupt
+ *
+ * param[in] device The pointer to SPI master device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _spi_m_async_set_irq_state(struct _spi_async_dev *const device, const enum _spi_async_dev_cb_type type,
+                                const bool state)
+{
+	ASSERT(device);
+
+	if (SPI_DEV_CB_ERROR == type) {
+		hri_sercomspi_write_INTEN_ERROR_bit(device->prvt, state);
+	}
+}
+
+/**
+ * \brief Enable/disable SPI slave interrupt
+ *
+ * param[in] device The pointer to SPI slave device instance
+ * param[in] type The type of interrupt to disable/enable if applicable
+ * param[in] state Enable or disable
+ */
+void _spi_s_async_set_irq_state(struct _spi_async_dev *const device, const enum _spi_async_dev_cb_type type,
+                                const bool state)
+{
+	_spi_m_async_set_irq_state(device, type, state);
+}
diff --git a/watch-library/hardware/hpl/slcd/hpl_slcd.c b/watch-library/hardware/hpl/slcd/hpl_slcd.c
new file mode 100644
index 00000000..0f58b1f5
--- /dev/null
+++ b/watch-library/hardware/hpl/slcd/hpl_slcd.c
@@ -0,0 +1,289 @@
+/**
+ * \file
+ *
+ * \brief SLCD Segment Liquid Crystal Display Controller(Sync) functionality
+ *        Implementation.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <utils_assert.h>
+#include <hpl_slcd_sync.h>
+#include <hpl_slcd_config.h>
+
+static int32_t _slcd_sync_set_segment(struct _slcd_sync_device *dev, const uint32_t com, const uint32_t seg,
+                                      const bool on);
+
+/**
+ * \brief SLCD configuration type
+ */
+struct slcd_configuration {
+	hri_slcd_ctrla_reg_t ctrla; /*!< Control A Register */
+	hri_slcd_ctrlb_reg_t ctrlb; /*!< Control B Register */
+	hri_slcd_ctrlc_reg_t ctrlc; /*!< Control C Register */
+	hri_slcd_ctrld_reg_t ctrld; /*!< Control D Register */
+};
+
+/**
+ * \brief Array of AC configurations
+ */
+static struct slcd_configuration _slcd
+    = {SLCD_CTRLA_DUTY(CONF_SLCD_COM_NUM) | CONF_SLCD_WMOD << SLCD_CTRLA_WMOD_Pos
+           | CONF_SLCD_RUNSTDBY << SLCD_CTRLA_RUNSTDBY_Pos | SLCD_CTRLA_PRESC(CONF_SLCD_PRESC)
+           | SLCD_CTRLA_CKDIV(CONF_SLCD_CKDIV) | SLCD_CTRLA_BIAS(CONF_SLCD_BIAS)
+           | CONF_SLCD_XVLCD << SLCD_CTRLA_XVLCD_Pos | SLCD_CTRLA_PRF(CONF_SLCD_PRF) | SLCD_CTRLA_RRF(CONF_SLCD_RRF),
+       CONF_SLCD_BBEN << SLCD_CTRLB_BBEN_Pos | SLCD_CTRLB_BBD(CONF_SLCD_BBD - 1),
+       SLCD_CTRLC_CTST(CONF_SLCD_CONTRAST_ADJUST),
+       SLCD_CTRLD_DISPEN};
+/**
+ * \brief              Initialize SLCD Device Descriptor
+ */
+int32_t _slcd_sync_init(struct _slcd_sync_device *dev, void *const hw)
+{
+	if (!hri_slcd_is_syncing(hw, SLCD_SYNCBUSY_SWRST)) {
+		if (hri_slcd_get_CTRLA_ENABLE_bit(hw)) {
+			hri_slcd_clear_CTRLA_ENABLE_bit(hw);
+			hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_ENABLE);
+		}
+		hri_slcd_write_CTRLA_reg(hw, SLCD_CTRLA_SWRST);
+	}
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST);
+
+	dev->hw = hw;
+	hri_slcd_write_CTRLA_reg(hw, _slcd.ctrla);
+	hri_slcd_write_CTRLB_reg(hw, _slcd.ctrlb);
+	hri_slcd_write_CTRLC_reg(hw, _slcd.ctrlc);
+	hri_slcd_write_CTRLD_reg(hw, _slcd.ctrld);
+	hri_slcd_write_LPENL_reg(hw, CONF_SLCD_LPENL);
+	hri_slcd_write_LPENH_reg(hw, CONF_SLCD_LPENH);
+	hri_slcd_write_SDATAL0_reg(hw, 0);
+	hri_slcd_write_SDATAH0_reg(hw, 0);
+	hri_slcd_write_SDATAL1_reg(hw, 0);
+	hri_slcd_write_SDATAH1_reg(hw, 0);
+	hri_slcd_write_SDATAL2_reg(hw, 0);
+	hri_slcd_write_SDATAH2_reg(hw, 0);
+	hri_slcd_write_SDATAL3_reg(hw, 0);
+	hri_slcd_write_SDATAH3_reg(hw, 0);
+	hri_slcd_write_SDATAL4_reg(hw, 0);
+	hri_slcd_write_SDATAH4_reg(hw, 0);
+	hri_slcd_write_SDATAL5_reg(hw, 0);
+	hri_slcd_write_SDATAH5_reg(hw, 0);
+	hri_slcd_write_SDATAL6_reg(hw, 0);
+	hri_slcd_write_SDATAH6_reg(hw, 0);
+	hri_slcd_write_SDATAL7_reg(hw, 0);
+	hri_slcd_write_SDATAH7_reg(hw, 0);
+	hri_slcd_set_BCFG_MODE_bit(dev->hw);
+	return ERR_NONE;
+}
+
+/**
+ * \brief              DeInitialize SLCD Device Descriptor
+ */
+int32_t _slcd_sync_deinit(struct _slcd_sync_device *dev)
+{
+	hri_slcd_clear_CTRLA_ENABLE_bit(dev->hw);
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_ENABLE);
+	hri_slcd_set_CTRLA_SWRST_bit(dev->hw);
+	dev->hw = NULL;
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief              Enable SLCD driver
+ *
+ * \param[in] dev      SLCD device descriptor to be enabled
+ */
+int32_t _slcd_sync_enable(struct _slcd_sync_device *dev)
+{
+	hri_slcd_set_CTRLA_ENABLE_bit(dev->hw);
+	return ERR_NONE;
+}
+
+/**
+ * \brief              Disable SLCD driver
+ */
+int32_t _slcd_sync_disable(struct _slcd_sync_device *dev)
+{
+	hri_slcd_clear_CTRLA_ENABLE_bit(dev->hw);
+	return ERR_NONE;
+}
+
+/**
+ * \brief               Turn on a Segment
+ */
+int32_t _slcd_sync_seg_on(struct _slcd_sync_device *dev, uint32_t seg)
+{
+	return _slcd_sync_set_segment(dev, SLCD_COMNUM(seg), SLCD_SEGNUM(seg), true);
+}
+
+/**
+ * \brief               Turn off a Segment
+ */
+int32_t _slcd_sync_seg_off(struct _slcd_sync_device *dev, uint32_t seg)
+{
+	return _slcd_sync_set_segment(dev, SLCD_COMNUM(seg), SLCD_SEGNUM(seg), false);
+}
+
+/**
+ * \brief               Blink a Segment
+ */
+int32_t _slcd_sync_seg_blink(struct _slcd_sync_device *dev, uint32_t seg, const uint32_t period)
+{
+	if ((SLCD_COMNUM(seg) >= CONF_SLCD_COM_NUM) || (SLCD_SEGNUM(seg) >= CONF_SLCD_SEG_NUM)) {
+		return ERR_INVALID_ARG;
+	}
+	/* COM[0..7], Seg[0,1] support blink */
+	if (SLCD_SEGNUM(seg) >= 2) {
+		return ERR_INVALID_ARG;
+	}
+	/* Verify period */
+	if (period > SLCD_FC_MAX_MS || period < SLCD_FC_MIN_MS) {
+		return ERR_INVALID_ARG;
+	}
+	/* Set Period, use Frame Counter 0 for blink */
+	hri_slcd_clear_CTRLD_FC0EN_bit(dev->hw);
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_CTRLD);
+	if (period <= SLCD_FC_BYPASS_MAX_MS) {
+		hri_slcd_set_FC0_reg(dev->hw, SLCD_FC0_PB | ((period / (1000 / SLCD_FRAME_FREQUENCY)) - 1));
+	} else {
+		hri_slcd_set_FC0_reg(dev->hw, (((period / (1000 / SLCD_FRAME_FREQUENCY)) / 8 - 1)));
+	}
+	hri_slcd_set_CTRLD_FC0EN_bit(dev->hw);
+
+	/* Set Blink Segments */
+	_slcd_sync_set_segment(dev, SLCD_COMNUM(seg), SLCD_SEGNUM(seg), true);
+	hri_slcd_clear_CTRLD_BLINK_bit(dev->hw);
+
+	hri_slcd_clear_CTRLA_ENABLE_bit(dev->hw);
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_ENABLE);
+
+	/* Update BCFG */
+	if (SLCD_SEGNUM(seg) == 0) {
+		hri_slcd_set_BCFG_BSS0_bf(dev->hw, 1 << SLCD_COMNUM(seg));
+	} else {
+		hri_slcd_set_BCFG_BSS1_bf(dev->hw, 1 << SLCD_COMNUM(seg));
+	}
+	hri_slcd_set_CTRLA_ENABLE_bit(dev->hw);
+	hri_slcd_set_CTRLD_BLINK_bit(dev->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief               Start animation play by a segment array
+ */
+int32_t _slcd_sync_start_animation(struct _slcd_sync_device *dev, const uint32_t segs[], uint32_t len,
+                                   const uint32_t period)
+{
+	uint32_t i;
+	uint32_t csrlen = 0;
+	if (len > 16) {
+		return ERR_INVALID_ARG;
+	}
+	/* COM[0..7], Seg[2,3] support animation */
+	for (i = 0; i < len; i++) {
+		if ((SLCD_SEGNUM(segs[i]) != 2 && SLCD_SEGNUM(segs[i]) != 3)) {
+			return ERR_INVALID_ARG;
+		}
+	}
+	/* Verify period */
+	if (period > SLCD_FC_MAX_MS || period < SLCD_FC_MIN_MS) {
+		return ERR_INVALID_ARG;
+	}
+	/* Set Period */
+	_slcd_sync_set_animation_period(dev, period);
+
+	/* Set animation segments */
+	hri_slcd_clear_CTRLA_ENABLE_bit(dev->hw);
+	hri_slcd_clear_CTRLD_CSREN_bit(dev->hw);
+
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_ENABLE | SLCD_SYNCBUSY_CTRLD);
+	hri_slcd_set_CSRCFG_FCS_bf(dev->hw, 1);
+	hri_slcd_write_CSRCFG_DATA_bf(dev->hw, 0);
+	for (i = 0; i < len; i++) {
+		hri_slcd_set_CSRCFG_DATA_bf(dev->hw, (1 << ((SLCD_COMNUM(segs[i]) * 2) + (SLCD_SEGNUM(segs[i]) - 2))));
+		if (((SLCD_COMNUM(segs[i]) * 2) + (SLCD_SEGNUM(segs[i]) - 2)) > csrlen) {
+			csrlen = (SLCD_COMNUM(segs[i]) * 2) + (SLCD_SEGNUM(segs[i]) - 2);
+		}
+	}
+	hri_slcd_set_CSRCFG_SIZE_bf(dev->hw, csrlen + 1);
+	hri_slcd_set_BCFG_MODE_bit(dev->hw);
+	hri_slcd_set_CTRLD_CSREN_bit(dev->hw);
+	hri_slcd_set_CTRLA_ENABLE_bit(dev->hw);
+
+	return ERR_NONE;
+}
+
+/**
+ * \brief               Stop animation play by a segment array
+ */
+int32_t _slcd_sync_stop_animation(struct _slcd_sync_device *dev, const uint32_t segs[], uint32_t len)
+{
+	/* Not used because of the current version is not supported, Reserved */
+	(void)segs;
+	(void)len;
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_CTRLD);
+	hri_slcd_clear_CTRLD_CSREN_bit(dev->hw);
+	return ERR_NONE;
+}
+
+/**
+ * \brief               Set animation Frequency
+ */
+int32_t _slcd_sync_set_animation_period(struct _slcd_sync_device *dev, const uint32_t period)
+{
+	hri_slcd_clear_CTRLD_FC1EN_bit(dev->hw);
+	hri_slcd_wait_for_sync(dev->hw, SLCD_SYNCBUSY_CTRLD);
+	/* Use Frame Counter 1 for blink */
+	if (period <= SLCD_FC_BYPASS_MAX_MS) {
+		hri_slcd_set_FC1_reg(dev->hw, SLCD_FC1_PB | ((period / (1000 / SLCD_FRAME_FREQUENCY)) - 1));
+	} else {
+		hri_slcd_set_FC1_reg(dev->hw, (((period / (1000 / SLCD_FRAME_FREQUENCY)) / 8 - 1)));
+	}
+	hri_slcd_set_CTRLD_FC1EN_bit(dev->hw);
+	return ERR_NONE;
+}
+
+static int32_t _slcd_sync_set_segment(struct _slcd_sync_device *dev, const uint32_t com, const uint32_t seg,
+                                      const bool on)
+{
+	if ((SLCD_COMNUM(seg) >= CONF_SLCD_COM_NUM) || (SLCD_SEGNUM(seg) >= CONF_SLCD_SEG_NUM)) {
+		return ERR_INVALID_ARG;
+	}
+	/* Use register instead hri interface to optimization code */
+	if (on) {
+		((uint32_t *)&(((Slcd *)dev->hw)->SDATAL0))[(com * 2) + (seg >> 5)]
+		    |= (seg < 32) ? (1 << seg) : (1 << (seg >> 5));
+	} else {
+		((uint32_t *)&(((Slcd *)dev->hw)->SDATAL0))[(com * 2) + (seg >> 5)]
+		    &= ~((seg < 32) ? (1 << seg) : (1 << (seg >> 5)));
+	}
+
+	return ERR_NONE;
+}
diff --git a/watch-library/hardware/hpl/slcd/hpl_slcd_cm.h b/watch-library/hardware/hpl/slcd/hpl_slcd_cm.h
new file mode 100644
index 00000000..66dbde93
--- /dev/null
+++ b/watch-library/hardware/hpl/slcd/hpl_slcd_cm.h
@@ -0,0 +1,59 @@
+/**
+ * \file
+ *
+ * \brief SLCD Character Mapping declaration.
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef HPL_SLCD_CM_H_INCLUDED
+#define HPL_SLCD_CM_H_INCLUDED
+
+#include <stdint.h>
+
+/* Character Mapping Struct */
+struct slcd_char_mapping {
+	uint32_t character : 8; /*!< ASCII character */
+	uint32_t mapping : 24;  /*!< Mapping value */
+};
+
+/* SLCD Character settting Struct */
+struct slcd_char_setting {
+	uint8_t com_index; /*!< Common terminal index, start from 0 */
+	uint8_t seg_index; /*!< Segment terminal index, start from 0 */
+	uint8_t nseg;      /*!< Number of Segment, this field is used to
+	                        indentify which segments line will be
+	                        used. For example, if char mapping from
+	                        COM1/SEG2 and nseg=2,size=7, then
+	                        COM1/SEG2, COM1/SEG3, COM2/SEG2,
+	                        COM2/SEG3, COM3/SEG2, COM3/SEG3,
+	                        COM4/SEG2 will be used for mapping
+	                        */
+	uint8_t size;      /*!< char size, typical is 7/14/16 */
+};
+#endif /* HPL_SLCD_CM_H_INCLUDED */
diff --git a/watch-library/hardware/hpl/systick/hpl_systick.c b/watch-library/hardware/hpl/systick/hpl_systick.c
new file mode 100644
index 00000000..c2f3b29e
--- /dev/null
+++ b/watch-library/hardware/hpl/systick/hpl_systick.c
@@ -0,0 +1,104 @@
+
+/**
+ * \file
+ *
+ * \brief SysTick related functionality implementation.
+ *
+ * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <hpl_time_measure.h>
+#include <hpl_systick_config.h>
+#include <hpl_delay.h>
+
+/**
+ * \brief Initialize system time module
+ */
+void _system_time_init(void *const hw)
+{
+	(void)hw;
+	SysTick->LOAD = (0xFFFFFF << SysTick_LOAD_RELOAD_Pos);
+	SysTick->CTRL = (1 << SysTick_CTRL_ENABLE_Pos) | (CONF_SYSTICK_TICKINT << SysTick_CTRL_TICKINT_Pos)
+	                | (1 << SysTick_CTRL_CLKSOURCE_Pos);
+}
+/**
+ * \brief Initialize delay functionality
+ */
+void _delay_init(void *const hw)
+{
+	_system_time_init(hw);
+}
+
+/**
+ * \brief De-initialize system time module
+ */
+void _system_time_deinit(void *const hw)
+{
+	(void)hw;
+	SysTick->CTRL &= ~SysTick_CTRL_ENABLE_Msk;
+}
+
+/**
+ * \brief Get system time
+ */
+system_time_t _system_time_get(const void *const hw)
+{
+	(void)hw;
+	return (system_time_t)SysTick->VAL;
+}
+
+/**
+ * \brief Get maximum possible system time
+ */
+system_time_t _system_time_get_max_time_value(const void *const hw)
+{
+	(void)hw;
+	return 0xFFFFFF;
+}
+/**
+ * \brief Delay loop to delay n number of cycles
+ */
+void _delay_cycles(void *const hw, uint32_t cycles)
+{
+	(void)hw;
+	uint8_t  n   = cycles >> 24;
+	uint32_t buf = cycles;
+
+	while (n--) {
+		SysTick->LOAD = 0xFFFFFF;
+		SysTick->VAL  = 0xFFFFFF;
+		while (!(SysTick->CTRL & SysTick_CTRL_COUNTFLAG_Msk))
+			;
+		buf -= 0xFFFFFF;
+	}
+
+	SysTick->LOAD = buf;
+	SysTick->VAL  = buf;
+	while (!(SysTick->CTRL & SysTick_CTRL_COUNTFLAG_Msk))
+		;
+}
diff --git a/watch-library/hardware/hpl/trng/hpl_trng.c b/watch-library/hardware/hpl/trng/hpl_trng.c
new file mode 100755
index 00000000..43ede044
--- /dev/null
+++ b/watch-library/hardware/hpl/trng/hpl_trng.c
@@ -0,0 +1,110 @@
+/**
+ * \file
+ *
+ * \brief True Random Number Generator
+ *
+ * Copyright (c) 2015-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include <err_codes.h>
+#include <hpl_rand_sync.h>
+#include <hpl_trng_config.h>
+#include <utils_assert.h>
+
+static inline int32_t _trng_init(void *hw)
+{
+	if (hri_trng_get_CTRLA_reg(hw, TRNG_CTRLA_ENABLE)) {
+		return ERR_DENIED;
+	}
+	if (CONF_TRNG_RUNSTDBY) {
+		hri_trng_set_CTRLA_RUNSTDBY_bit(hw);
+	} else {
+		hri_trng_clear_CTRLA_RUNSTDBY_bit(hw);
+	}
+	if (CONF_TRNG_DATARDYEO) {
+		hri_trng_set_EVCTRL_DATARDYEO_bit(hw);
+	} else {
+		hri_trng_clear_EVCTRL_DATARDYEO_bit(hw);
+	}
+	return ERR_NONE;
+}
+
+int32_t _rand_sync_init(struct _rand_sync_dev *const dev, void *const hw)
+{
+	int32_t rc;
+
+	ASSERT(dev && hw);
+
+	rc = _trng_init(hw);
+	if (rc == ERR_NONE) {
+		dev->prvt   = hw;
+		dev->n_bits = 32;
+	}
+	return rc;
+}
+
+void _rand_sync_deinit(struct _rand_sync_dev *const dev)
+{
+	_rand_sync_disable(dev);
+}
+
+int32_t _rand_sync_enable(struct _rand_sync_dev *const dev)
+{
+	ASSERT(dev);
+	ASSERT(dev->prvt);
+
+	hri_trng_set_CTRLA_ENABLE_bit(dev->prvt);
+	return ERR_NONE;
+}
+
+void _rand_sync_disable(struct _rand_sync_dev *const dev)
+{
+	ASSERT(dev);
+	ASSERT(dev->prvt);
+
+	hri_trng_clear_CTRLA_ENABLE_bit(dev->prvt);
+}
+
+int32_t _rand_sync_set_seed(struct _rand_sync_dev *const dev, const uint32_t seed)
+{
+	(void)dev;
+	(void)seed;
+	return ERR_UNSUPPORTED_OP;
+}
+
+uint32_t _rand_sync_read_one(const struct _rand_sync_dev *const dev)
+{
+	ASSERT(dev);
+	ASSERT(dev->prvt);
+	ASSERT(hri_trng_get_CTRLA_reg(dev->prvt, TRNG_CTRLA_ENABLE));
+
+	while (!hri_trng_get_INTFLAG_reg(dev->prvt, TRNG_INTFLAG_DATARDY)) {
+		/* Wait until data ready. */
+	}
+	return hri_trng_read_DATA_reg(dev->prvt);
+}
diff --git a/watch-library/hardware/hri/hri_ac_l22.h b/watch-library/hardware/hri/hri_ac_l22.h
new file mode 100644
index 00000000..f1e17cef
--- /dev/null
+++ b/watch-library/hardware/hri/hri_ac_l22.h
@@ -0,0 +1,1746 @@
+/**
+ * \file
+ *
+ * \brief SAM AC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_AC_COMPONENT_
+#ifndef _HRI_AC_L22_H_INCLUDED_
+#define _HRI_AC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_AC_CRITICAL_SECTIONS)
+#define AC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define AC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define AC_CRITICAL_SECTION_ENTER()
+#define AC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_ac_evctrl_reg_t;
+typedef uint32_t hri_ac_compctrl_reg_t;
+typedef uint32_t hri_ac_syncbusy_reg_t;
+typedef uint8_t  hri_ac_ctrla_reg_t;
+typedef uint8_t  hri_ac_ctrlb_reg_t;
+typedef uint8_t  hri_ac_dbgctrl_reg_t;
+typedef uint8_t  hri_ac_intenset_reg_t;
+typedef uint8_t  hri_ac_intflag_reg_t;
+typedef uint8_t  hri_ac_scaler_reg_t;
+typedef uint8_t  hri_ac_statusa_reg_t;
+typedef uint8_t  hri_ac_statusb_reg_t;
+typedef uint8_t  hri_ac_winctrl_reg_t;
+
+static inline void hri_ac_wait_for_sync(const void *const hw, hri_ac_syncbusy_reg_t reg)
+{
+	while (((Ac *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_ac_is_syncing(const void *const hw, hri_ac_syncbusy_reg_t reg)
+{
+	return ((Ac *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_ac_get_INTFLAG_COMP0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_COMP0) >> AC_INTFLAG_COMP0_Pos;
+}
+
+static inline void hri_ac_clear_INTFLAG_COMP0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_COMP0;
+}
+
+static inline bool hri_ac_get_INTFLAG_COMP1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_COMP1) >> AC_INTFLAG_COMP1_Pos;
+}
+
+static inline void hri_ac_clear_INTFLAG_COMP1_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_COMP1;
+}
+
+static inline bool hri_ac_get_INTFLAG_WIN0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_WIN0) >> AC_INTFLAG_WIN0_Pos;
+}
+
+static inline void hri_ac_clear_INTFLAG_WIN0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_WIN0;
+}
+
+static inline bool hri_ac_get_interrupt_COMP0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_COMP0) >> AC_INTFLAG_COMP0_Pos;
+}
+
+static inline void hri_ac_clear_interrupt_COMP0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_COMP0;
+}
+
+static inline bool hri_ac_get_interrupt_COMP1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_COMP1) >> AC_INTFLAG_COMP1_Pos;
+}
+
+static inline void hri_ac_clear_interrupt_COMP1_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_COMP1;
+}
+
+static inline bool hri_ac_get_interrupt_WIN0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTFLAG.reg & AC_INTFLAG_WIN0) >> AC_INTFLAG_WIN0_Pos;
+}
+
+static inline void hri_ac_clear_interrupt_WIN0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTFLAG.reg = AC_INTFLAG_WIN0;
+}
+
+static inline hri_ac_intflag_reg_t hri_ac_get_INTFLAG_reg(const void *const hw, hri_ac_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_ac_intflag_reg_t hri_ac_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Ac *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_ac_clear_INTFLAG_reg(const void *const hw, hri_ac_intflag_reg_t mask)
+{
+	((Ac *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_ac_set_INTEN_COMP0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENSET.reg = AC_INTENSET_COMP0;
+}
+
+static inline bool hri_ac_get_INTEN_COMP0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTENSET.reg & AC_INTENSET_COMP0) >> AC_INTENSET_COMP0_Pos;
+}
+
+static inline void hri_ac_write_INTEN_COMP0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Ac *)hw)->INTENCLR.reg = AC_INTENSET_COMP0;
+	} else {
+		((Ac *)hw)->INTENSET.reg = AC_INTENSET_COMP0;
+	}
+}
+
+static inline void hri_ac_clear_INTEN_COMP0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENCLR.reg = AC_INTENSET_COMP0;
+}
+
+static inline void hri_ac_set_INTEN_COMP1_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENSET.reg = AC_INTENSET_COMP1;
+}
+
+static inline bool hri_ac_get_INTEN_COMP1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTENSET.reg & AC_INTENSET_COMP1) >> AC_INTENSET_COMP1_Pos;
+}
+
+static inline void hri_ac_write_INTEN_COMP1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Ac *)hw)->INTENCLR.reg = AC_INTENSET_COMP1;
+	} else {
+		((Ac *)hw)->INTENSET.reg = AC_INTENSET_COMP1;
+	}
+}
+
+static inline void hri_ac_clear_INTEN_COMP1_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENCLR.reg = AC_INTENSET_COMP1;
+}
+
+static inline void hri_ac_set_INTEN_WIN0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENSET.reg = AC_INTENSET_WIN0;
+}
+
+static inline bool hri_ac_get_INTEN_WIN0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->INTENSET.reg & AC_INTENSET_WIN0) >> AC_INTENSET_WIN0_Pos;
+}
+
+static inline void hri_ac_write_INTEN_WIN0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Ac *)hw)->INTENCLR.reg = AC_INTENSET_WIN0;
+	} else {
+		((Ac *)hw)->INTENSET.reg = AC_INTENSET_WIN0;
+	}
+}
+
+static inline void hri_ac_clear_INTEN_WIN0_bit(const void *const hw)
+{
+	((Ac *)hw)->INTENCLR.reg = AC_INTENSET_WIN0;
+}
+
+static inline void hri_ac_set_INTEN_reg(const void *const hw, hri_ac_intenset_reg_t mask)
+{
+	((Ac *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_ac_intenset_reg_t hri_ac_get_INTEN_reg(const void *const hw, hri_ac_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_ac_intenset_reg_t hri_ac_read_INTEN_reg(const void *const hw)
+{
+	return ((Ac *)hw)->INTENSET.reg;
+}
+
+static inline void hri_ac_write_INTEN_reg(const void *const hw, hri_ac_intenset_reg_t data)
+{
+	((Ac *)hw)->INTENSET.reg = data;
+	((Ac *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_ac_clear_INTEN_reg(const void *const hw, hri_ac_intenset_reg_t mask)
+{
+	((Ac *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_ac_get_STATUSA_STATE0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->STATUSA.reg & AC_STATUSA_STATE0) >> AC_STATUSA_STATE0_Pos;
+}
+
+static inline bool hri_ac_get_STATUSA_STATE1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->STATUSA.reg & AC_STATUSA_STATE1) >> AC_STATUSA_STATE1_Pos;
+}
+
+static inline hri_ac_statusa_reg_t hri_ac_get_STATUSA_WSTATE0_bf(const void *const hw, hri_ac_statusa_reg_t mask)
+{
+	return (((Ac *)hw)->STATUSA.reg & AC_STATUSA_WSTATE0(mask)) >> AC_STATUSA_WSTATE0_Pos;
+}
+
+static inline hri_ac_statusa_reg_t hri_ac_read_STATUSA_WSTATE0_bf(const void *const hw)
+{
+	return (((Ac *)hw)->STATUSA.reg & AC_STATUSA_WSTATE0_Msk) >> AC_STATUSA_WSTATE0_Pos;
+}
+
+static inline hri_ac_statusa_reg_t hri_ac_get_STATUSA_reg(const void *const hw, hri_ac_statusa_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->STATUSA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_ac_statusa_reg_t hri_ac_read_STATUSA_reg(const void *const hw)
+{
+	return ((Ac *)hw)->STATUSA.reg;
+}
+
+static inline bool hri_ac_get_STATUSB_READY0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->STATUSB.reg & AC_STATUSB_READY0) >> AC_STATUSB_READY0_Pos;
+}
+
+static inline bool hri_ac_get_STATUSB_READY1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->STATUSB.reg & AC_STATUSB_READY1) >> AC_STATUSB_READY1_Pos;
+}
+
+static inline hri_ac_statusb_reg_t hri_ac_get_STATUSB_reg(const void *const hw, hri_ac_statusb_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->STATUSB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_ac_statusb_reg_t hri_ac_read_STATUSB_reg(const void *const hw)
+{
+	return ((Ac *)hw)->STATUSB.reg;
+}
+
+static inline bool hri_ac_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Ac *)hw)->SYNCBUSY.reg & AC_SYNCBUSY_SWRST) >> AC_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_ac_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Ac *)hw)->SYNCBUSY.reg & AC_SYNCBUSY_ENABLE) >> AC_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_ac_get_SYNCBUSY_WINCTRL_bit(const void *const hw)
+{
+	return (((Ac *)hw)->SYNCBUSY.reg & AC_SYNCBUSY_WINCTRL) >> AC_SYNCBUSY_WINCTRL_Pos;
+}
+
+static inline bool hri_ac_get_SYNCBUSY_COMPCTRL0_bit(const void *const hw)
+{
+	return (((Ac *)hw)->SYNCBUSY.reg & AC_SYNCBUSY_COMPCTRL0) >> AC_SYNCBUSY_COMPCTRL0_Pos;
+}
+
+static inline bool hri_ac_get_SYNCBUSY_COMPCTRL1_bit(const void *const hw)
+{
+	return (((Ac *)hw)->SYNCBUSY.reg & AC_SYNCBUSY_COMPCTRL1) >> AC_SYNCBUSY_COMPCTRL1_Pos;
+}
+
+static inline hri_ac_syncbusy_reg_t hri_ac_get_SYNCBUSY_reg(const void *const hw, hri_ac_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_ac_syncbusy_reg_t hri_ac_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Ac *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_ac_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg |= AC_CTRLA_SWRST;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST);
+	tmp = ((Ac *)hw)->CTRLA.reg;
+	tmp = (tmp & AC_CTRLA_SWRST) >> AC_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg |= AC_CTRLA_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	tmp = ((Ac *)hw)->CTRLA.reg;
+	tmp = (tmp & AC_CTRLA_ENABLE) >> AC_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->CTRLA.reg;
+	tmp &= ~AC_CTRLA_ENABLE;
+	tmp |= value << AC_CTRLA_ENABLE_Pos;
+	((Ac *)hw)->CTRLA.reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg &= ~AC_CTRLA_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg ^= AC_CTRLA_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_CTRLA_reg(const void *const hw, hri_ac_ctrla_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg |= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_ctrla_reg_t hri_ac_get_CTRLA_reg(const void *const hw, hri_ac_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	tmp = ((Ac *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_CTRLA_reg(const void *const hw, hri_ac_ctrla_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg = data;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_CTRLA_reg(const void *const hw, hri_ac_ctrla_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg &= ~mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_CTRLA_reg(const void *const hw, hri_ac_ctrla_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLA.reg ^= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_ctrla_reg_t hri_ac_read_CTRLA_reg(const void *const hw)
+{
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_SWRST | AC_SYNCBUSY_ENABLE);
+	return ((Ac *)hw)->CTRLA.reg;
+}
+
+static inline void hri_ac_set_EVCTRL_COMPEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_COMPEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_COMPEO0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_COMPEO0) >> AC_EVCTRL_COMPEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_COMPEO0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_COMPEO0;
+	tmp |= value << AC_EVCTRL_COMPEO0_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_COMPEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_COMPEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_COMPEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_COMPEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_COMPEO1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_COMPEO1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_COMPEO1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_COMPEO1) >> AC_EVCTRL_COMPEO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_COMPEO1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_COMPEO1;
+	tmp |= value << AC_EVCTRL_COMPEO1_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_COMPEO1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_COMPEO1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_COMPEO1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_COMPEO1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_WINEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_WINEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_WINEO0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_WINEO0) >> AC_EVCTRL_WINEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_WINEO0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_WINEO0;
+	tmp |= value << AC_EVCTRL_WINEO0_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_WINEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_WINEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_WINEO0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_WINEO0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_COMPEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_COMPEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_COMPEI0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_COMPEI0) >> AC_EVCTRL_COMPEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_COMPEI0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_COMPEI0;
+	tmp |= value << AC_EVCTRL_COMPEI0_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_COMPEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_COMPEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_COMPEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_COMPEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_COMPEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_COMPEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_COMPEI1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_COMPEI1) >> AC_EVCTRL_COMPEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_COMPEI1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_COMPEI1;
+	tmp |= value << AC_EVCTRL_COMPEI1_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_COMPEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_COMPEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_COMPEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_COMPEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_INVEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_INVEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_INVEI0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_INVEI0) >> AC_EVCTRL_INVEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_INVEI0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_INVEI0;
+	tmp |= value << AC_EVCTRL_INVEI0_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_INVEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_INVEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_INVEI0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_INVEI0;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_INVEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= AC_EVCTRL_INVEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_EVCTRL_INVEI1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp = (tmp & AC_EVCTRL_INVEI1) >> AC_EVCTRL_INVEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_INVEI1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= ~AC_EVCTRL_INVEI1;
+	tmp |= value << AC_EVCTRL_INVEI1_Pos;
+	((Ac *)hw)->EVCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_INVEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~AC_EVCTRL_INVEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_INVEI1_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= AC_EVCTRL_INVEI1;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_EVCTRL_reg(const void *const hw, hri_ac_evctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg |= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_evctrl_reg_t hri_ac_get_EVCTRL_reg(const void *const hw, hri_ac_evctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Ac *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_EVCTRL_reg(const void *const hw, hri_ac_evctrl_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg = data;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_EVCTRL_reg(const void *const hw, hri_ac_evctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg &= ~mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_EVCTRL_reg(const void *const hw, hri_ac_evctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->EVCTRL.reg ^= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_evctrl_reg_t hri_ac_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Ac *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_ac_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg |= AC_DBGCTRL_DBGRUN;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->DBGCTRL.reg;
+	tmp = (tmp & AC_DBGCTRL_DBGRUN) >> AC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->DBGCTRL.reg;
+	tmp &= ~AC_DBGCTRL_DBGRUN;
+	tmp |= value << AC_DBGCTRL_DBGRUN_Pos;
+	((Ac *)hw)->DBGCTRL.reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg &= ~AC_DBGCTRL_DBGRUN;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg ^= AC_DBGCTRL_DBGRUN;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_DBGCTRL_reg(const void *const hw, hri_ac_dbgctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg |= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_dbgctrl_reg_t hri_ac_get_DBGCTRL_reg(const void *const hw, hri_ac_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_DBGCTRL_reg(const void *const hw, hri_ac_dbgctrl_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg = data;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_DBGCTRL_reg(const void *const hw, hri_ac_dbgctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg &= ~mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_DBGCTRL_reg(const void *const hw, hri_ac_dbgctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->DBGCTRL.reg ^= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_dbgctrl_reg_t hri_ac_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Ac *)hw)->DBGCTRL.reg;
+}
+
+static inline void hri_ac_set_WINCTRL_WEN0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg |= AC_WINCTRL_WEN0;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_WINCTRL_WEN0_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp = (tmp & AC_WINCTRL_WEN0) >> AC_WINCTRL_WEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_WINCTRL_WEN0_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp &= ~AC_WINCTRL_WEN0;
+	tmp |= value << AC_WINCTRL_WEN0_Pos;
+	((Ac *)hw)->WINCTRL.reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_WINCTRL_WEN0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg &= ~AC_WINCTRL_WEN0;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_WINCTRL_WEN0_bit(const void *const hw)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg ^= AC_WINCTRL_WEN0;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_WINCTRL_WINTSEL0_bf(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg |= AC_WINCTRL_WINTSEL0(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_winctrl_reg_t hri_ac_get_WINCTRL_WINTSEL0_bf(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp = (tmp & AC_WINCTRL_WINTSEL0(mask)) >> AC_WINCTRL_WINTSEL0_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_WINCTRL_WINTSEL0_bf(const void *const hw, hri_ac_winctrl_reg_t data)
+{
+	uint8_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp &= ~AC_WINCTRL_WINTSEL0_Msk;
+	tmp |= AC_WINCTRL_WINTSEL0(data);
+	((Ac *)hw)->WINCTRL.reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_WINCTRL_WINTSEL0_bf(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg &= ~AC_WINCTRL_WINTSEL0(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_WINCTRL_WINTSEL0_bf(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg ^= AC_WINCTRL_WINTSEL0(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_winctrl_reg_t hri_ac_read_WINCTRL_WINTSEL0_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp = (tmp & AC_WINCTRL_WINTSEL0_Msk) >> AC_WINCTRL_WINTSEL0_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_WINCTRL_reg(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg |= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_winctrl_reg_t hri_ac_get_WINCTRL_reg(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	uint8_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	tmp = ((Ac *)hw)->WINCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_WINCTRL_reg(const void *const hw, hri_ac_winctrl_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg = data;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_WINCTRL_reg(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg &= ~mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_WINCTRL_reg(const void *const hw, hri_ac_winctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->WINCTRL.reg ^= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_winctrl_reg_t hri_ac_read_WINCTRL_reg(const void *const hw)
+{
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	return ((Ac *)hw)->WINCTRL.reg;
+}
+
+static inline void hri_ac_set_SCALER_VALUE_bf(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg |= AC_SCALER_VALUE(mask);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_scaler_reg_t hri_ac_get_SCALER_VALUE_bf(const void *const hw, uint8_t index,
+                                                             hri_ac_scaler_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->SCALER[index].reg;
+	tmp = (tmp & AC_SCALER_VALUE(mask)) >> AC_SCALER_VALUE_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_SCALER_VALUE_bf(const void *const hw, uint8_t index, hri_ac_scaler_reg_t data)
+{
+	uint8_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->SCALER[index].reg;
+	tmp &= ~AC_SCALER_VALUE_Msk;
+	tmp |= AC_SCALER_VALUE(data);
+	((Ac *)hw)->SCALER[index].reg = tmp;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_SCALER_VALUE_bf(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg &= ~AC_SCALER_VALUE(mask);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_SCALER_VALUE_bf(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg ^= AC_SCALER_VALUE(mask);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_scaler_reg_t hri_ac_read_SCALER_VALUE_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->SCALER[index].reg;
+	tmp = (tmp & AC_SCALER_VALUE_Msk) >> AC_SCALER_VALUE_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_SCALER_reg(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg |= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_scaler_reg_t hri_ac_get_SCALER_reg(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ac *)hw)->SCALER[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_SCALER_reg(const void *const hw, uint8_t index, hri_ac_scaler_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg = data;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_SCALER_reg(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg &= ~mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_SCALER_reg(const void *const hw, uint8_t index, hri_ac_scaler_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->SCALER[index].reg ^= mask;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_scaler_reg_t hri_ac_read_SCALER_reg(const void *const hw, uint8_t index)
+{
+	return ((Ac *)hw)->SCALER[index].reg;
+}
+
+static inline void hri_ac_set_COMPCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_COMPCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_ENABLE) >> AC_COMPCTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_ENABLE_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_ENABLE;
+	tmp |= value << AC_COMPCTRL_ENABLE_Pos;
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_ENABLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_COMPCTRL_SINGLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_SINGLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_COMPCTRL_SINGLE_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_SINGLE) >> AC_COMPCTRL_SINGLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_SINGLE_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_SINGLE;
+	tmp |= value << AC_COMPCTRL_SINGLE_Pos;
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_SINGLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_SINGLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_SINGLE_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_SINGLE;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_COMPCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_RUNSTDBY;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_COMPCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_RUNSTDBY) >> AC_COMPCTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_RUNSTDBY;
+	tmp |= value << AC_COMPCTRL_RUNSTDBY_Pos;
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_RUNSTDBY;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_RUNSTDBY;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_COMPCTRL_SWAP_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_SWAP;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_COMPCTRL_SWAP_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_SWAP) >> AC_COMPCTRL_SWAP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_SWAP_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_SWAP;
+	tmp |= value << AC_COMPCTRL_SWAP_Pos;
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_SWAP_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_SWAP;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_SWAP_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_SWAP;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_COMPCTRL_HYSTEN_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_HYSTEN;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ac_get_COMPCTRL_HYSTEN_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_HYSTEN) >> AC_COMPCTRL_HYSTEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_HYSTEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_HYSTEN;
+	tmp |= value << AC_COMPCTRL_HYSTEN_Pos;
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_HYSTEN_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_HYSTEN;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_HYSTEN_bit(const void *const hw, uint8_t index)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_HYSTEN;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_set_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_INTSEL(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index,
+                                                                  hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_INTSEL(mask)) >> AC_COMPCTRL_INTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_INTSEL_Msk;
+	tmp |= AC_COMPCTRL_INTSEL(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_INTSEL(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_INTSEL(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_INTSEL_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_INTSEL_Msk) >> AC_COMPCTRL_INTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_MUXNEG(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index,
+                                                                  hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_MUXNEG(mask)) >> AC_COMPCTRL_MUXNEG_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_MUXNEG_Msk;
+	tmp |= AC_COMPCTRL_MUXNEG(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_MUXNEG(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_MUXNEG(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_MUXNEG_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_MUXNEG_Msk) >> AC_COMPCTRL_MUXNEG_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_MUXPOS(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index,
+                                                                  hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_MUXPOS(mask)) >> AC_COMPCTRL_MUXPOS_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_MUXPOS_Msk;
+	tmp |= AC_COMPCTRL_MUXPOS(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_MUXPOS(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_MUXPOS(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_MUXPOS_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_MUXPOS_Msk) >> AC_COMPCTRL_MUXPOS_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_SPEED(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index,
+                                                                 hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_SPEED(mask)) >> AC_COMPCTRL_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_SPEED_Msk;
+	tmp |= AC_COMPCTRL_SPEED(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_SPEED(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_SPEED(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_SPEED_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_SPEED_Msk) >> AC_COMPCTRL_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_HYST_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_HYST(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_HYST_bf(const void *const hw, uint8_t index,
+                                                                hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_HYST(mask)) >> AC_COMPCTRL_HYST_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_HYST_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_HYST_Msk;
+	tmp |= AC_COMPCTRL_HYST(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_HYST_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_HYST(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_HYST_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_HYST(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_HYST_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_HYST_Msk) >> AC_COMPCTRL_HYST_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_FLEN(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index,
+                                                                hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_FLEN(mask)) >> AC_COMPCTRL_FLEN_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_FLEN_Msk;
+	tmp |= AC_COMPCTRL_FLEN(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_FLEN(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_FLEN(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_FLEN_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_FLEN_Msk) >> AC_COMPCTRL_FLEN_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_OUT_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= AC_COMPCTRL_OUT(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_OUT_bf(const void *const hw, uint8_t index,
+                                                               hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_OUT(mask)) >> AC_COMPCTRL_OUT_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_OUT_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	uint32_t tmp;
+	AC_CRITICAL_SECTION_ENTER();
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= ~AC_COMPCTRL_OUT_Msk;
+	tmp |= AC_COMPCTRL_OUT(data);
+	((Ac *)hw)->COMPCTRL[index].reg = tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_OUT_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~AC_COMPCTRL_OUT(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_OUT_bf(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= AC_COMPCTRL_OUT(mask);
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_MASK);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_OUT_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp = (tmp & AC_COMPCTRL_OUT_Msk) >> AC_COMPCTRL_OUT_Pos;
+	return tmp;
+}
+
+static inline void hri_ac_set_COMPCTRL_reg(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg |= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_get_COMPCTRL_reg(const void *const hw, uint8_t index,
+                                                            hri_ac_compctrl_reg_t mask)
+{
+	uint32_t tmp;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	tmp = ((Ac *)hw)->COMPCTRL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ac_write_COMPCTRL_reg(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg = data;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_clear_COMPCTRL_reg(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg &= ~mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ac_toggle_COMPCTRL_reg(const void *const hw, uint8_t index, hri_ac_compctrl_reg_t mask)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->COMPCTRL[index].reg ^= mask;
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ac_compctrl_reg_t hri_ac_read_COMPCTRL_reg(const void *const hw, uint8_t index)
+{
+	hri_ac_wait_for_sync(hw, AC_SYNCBUSY_ENABLE);
+	return ((Ac *)hw)->COMPCTRL[index].reg;
+}
+
+static inline void hri_ac_write_CTRLB_reg(const void *const hw, hri_ac_ctrlb_reg_t data)
+{
+	AC_CRITICAL_SECTION_ENTER();
+	((Ac *)hw)->CTRLB.reg = data;
+	AC_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_AC_L22_H_INCLUDED */
+#endif /* _SAML22_AC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_adc_l22.h b/watch-library/hardware/hri/hri_adc_l22.h
new file mode 100644
index 00000000..53ba6af8
--- /dev/null
+++ b/watch-library/hardware/hri/hri_adc_l22.h
@@ -0,0 +1,2803 @@
+/**
+ * \file
+ *
+ * \brief SAM ADC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_ADC_COMPONENT_
+#ifndef _HRI_ADC_L22_H_INCLUDED_
+#define _HRI_ADC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_ADC_CRITICAL_SECTIONS)
+#define ADC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define ADC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define ADC_CRITICAL_SECTION_ENTER()
+#define ADC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_adc_calib_reg_t;
+typedef uint16_t hri_adc_ctrlc_reg_t;
+typedef uint16_t hri_adc_gaincorr_reg_t;
+typedef uint16_t hri_adc_inputctrl_reg_t;
+typedef uint16_t hri_adc_offsetcorr_reg_t;
+typedef uint16_t hri_adc_result_reg_t;
+typedef uint16_t hri_adc_syncbusy_reg_t;
+typedef uint16_t hri_adc_winlt_reg_t;
+typedef uint16_t hri_adc_winut_reg_t;
+typedef uint32_t hri_adc_seqctrl_reg_t;
+typedef uint8_t  hri_adc_avgctrl_reg_t;
+typedef uint8_t  hri_adc_ctrla_reg_t;
+typedef uint8_t  hri_adc_ctrlb_reg_t;
+typedef uint8_t  hri_adc_dbgctrl_reg_t;
+typedef uint8_t  hri_adc_evctrl_reg_t;
+typedef uint8_t  hri_adc_intenset_reg_t;
+typedef uint8_t  hri_adc_intflag_reg_t;
+typedef uint8_t  hri_adc_refctrl_reg_t;
+typedef uint8_t  hri_adc_sampctrl_reg_t;
+typedef uint8_t  hri_adc_seqstatus_reg_t;
+typedef uint8_t  hri_adc_swtrig_reg_t;
+
+static inline void hri_adc_wait_for_sync(const void *const hw, hri_adc_syncbusy_reg_t reg)
+{
+	while (((Adc *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_adc_is_syncing(const void *const hw, hri_adc_syncbusy_reg_t reg)
+{
+	return ((Adc *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_adc_get_INTFLAG_RESRDY_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_RESRDY) >> ADC_INTFLAG_RESRDY_Pos;
+}
+
+static inline void hri_adc_clear_INTFLAG_RESRDY_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_RESRDY;
+}
+
+static inline bool hri_adc_get_INTFLAG_OVERRUN_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_OVERRUN) >> ADC_INTFLAG_OVERRUN_Pos;
+}
+
+static inline void hri_adc_clear_INTFLAG_OVERRUN_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_OVERRUN;
+}
+
+static inline bool hri_adc_get_INTFLAG_WINMON_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_WINMON) >> ADC_INTFLAG_WINMON_Pos;
+}
+
+static inline void hri_adc_clear_INTFLAG_WINMON_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_WINMON;
+}
+
+static inline bool hri_adc_get_interrupt_RESRDY_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_RESRDY) >> ADC_INTFLAG_RESRDY_Pos;
+}
+
+static inline void hri_adc_clear_interrupt_RESRDY_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_RESRDY;
+}
+
+static inline bool hri_adc_get_interrupt_OVERRUN_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_OVERRUN) >> ADC_INTFLAG_OVERRUN_Pos;
+}
+
+static inline void hri_adc_clear_interrupt_OVERRUN_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_OVERRUN;
+}
+
+static inline bool hri_adc_get_interrupt_WINMON_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTFLAG.reg & ADC_INTFLAG_WINMON) >> ADC_INTFLAG_WINMON_Pos;
+}
+
+static inline void hri_adc_clear_interrupt_WINMON_bit(const void *const hw)
+{
+	((Adc *)hw)->INTFLAG.reg = ADC_INTFLAG_WINMON;
+}
+
+static inline hri_adc_intflag_reg_t hri_adc_get_INTFLAG_reg(const void *const hw, hri_adc_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_adc_intflag_reg_t hri_adc_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Adc *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_adc_clear_INTFLAG_reg(const void *const hw, hri_adc_intflag_reg_t mask)
+{
+	((Adc *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_adc_set_INTEN_RESRDY_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENSET.reg = ADC_INTENSET_RESRDY;
+}
+
+static inline bool hri_adc_get_INTEN_RESRDY_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTENSET.reg & ADC_INTENSET_RESRDY) >> ADC_INTENSET_RESRDY_Pos;
+}
+
+static inline void hri_adc_write_INTEN_RESRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_RESRDY;
+	} else {
+		((Adc *)hw)->INTENSET.reg = ADC_INTENSET_RESRDY;
+	}
+}
+
+static inline void hri_adc_clear_INTEN_RESRDY_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_RESRDY;
+}
+
+static inline void hri_adc_set_INTEN_OVERRUN_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENSET.reg = ADC_INTENSET_OVERRUN;
+}
+
+static inline bool hri_adc_get_INTEN_OVERRUN_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTENSET.reg & ADC_INTENSET_OVERRUN) >> ADC_INTENSET_OVERRUN_Pos;
+}
+
+static inline void hri_adc_write_INTEN_OVERRUN_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_OVERRUN;
+	} else {
+		((Adc *)hw)->INTENSET.reg = ADC_INTENSET_OVERRUN;
+	}
+}
+
+static inline void hri_adc_clear_INTEN_OVERRUN_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_OVERRUN;
+}
+
+static inline void hri_adc_set_INTEN_WINMON_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENSET.reg = ADC_INTENSET_WINMON;
+}
+
+static inline bool hri_adc_get_INTEN_WINMON_bit(const void *const hw)
+{
+	return (((Adc *)hw)->INTENSET.reg & ADC_INTENSET_WINMON) >> ADC_INTENSET_WINMON_Pos;
+}
+
+static inline void hri_adc_write_INTEN_WINMON_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_WINMON;
+	} else {
+		((Adc *)hw)->INTENSET.reg = ADC_INTENSET_WINMON;
+	}
+}
+
+static inline void hri_adc_clear_INTEN_WINMON_bit(const void *const hw)
+{
+	((Adc *)hw)->INTENCLR.reg = ADC_INTENSET_WINMON;
+}
+
+static inline void hri_adc_set_INTEN_reg(const void *const hw, hri_adc_intenset_reg_t mask)
+{
+	((Adc *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_adc_intenset_reg_t hri_adc_get_INTEN_reg(const void *const hw, hri_adc_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_adc_intenset_reg_t hri_adc_read_INTEN_reg(const void *const hw)
+{
+	return ((Adc *)hw)->INTENSET.reg;
+}
+
+static inline void hri_adc_write_INTEN_reg(const void *const hw, hri_adc_intenset_reg_t data)
+{
+	((Adc *)hw)->INTENSET.reg = data;
+	((Adc *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_adc_clear_INTEN_reg(const void *const hw, hri_adc_intenset_reg_t mask)
+{
+	((Adc *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_adc_get_SEQSTATUS_SEQBUSY_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SEQSTATUS.reg & ADC_SEQSTATUS_SEQBUSY) >> ADC_SEQSTATUS_SEQBUSY_Pos;
+}
+
+static inline hri_adc_seqstatus_reg_t hri_adc_get_SEQSTATUS_SEQSTATE_bf(const void *const       hw,
+                                                                        hri_adc_seqstatus_reg_t mask)
+{
+	return (((Adc *)hw)->SEQSTATUS.reg & ADC_SEQSTATUS_SEQSTATE(mask)) >> ADC_SEQSTATUS_SEQSTATE_Pos;
+}
+
+static inline hri_adc_seqstatus_reg_t hri_adc_read_SEQSTATUS_SEQSTATE_bf(const void *const hw)
+{
+	return (((Adc *)hw)->SEQSTATUS.reg & ADC_SEQSTATUS_SEQSTATE_Msk) >> ADC_SEQSTATUS_SEQSTATE_Pos;
+}
+
+static inline hri_adc_seqstatus_reg_t hri_adc_get_SEQSTATUS_reg(const void *const hw, hri_adc_seqstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SEQSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_adc_seqstatus_reg_t hri_adc_read_SEQSTATUS_reg(const void *const hw)
+{
+	return ((Adc *)hw)->SEQSTATUS.reg;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_SWRST) >> ADC_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_ENABLE) >> ADC_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_INPUTCTRL_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_INPUTCTRL) >> ADC_SYNCBUSY_INPUTCTRL_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_CTRLC_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_CTRLC) >> ADC_SYNCBUSY_CTRLC_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_AVGCTRL_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_AVGCTRL) >> ADC_SYNCBUSY_AVGCTRL_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_SAMPCTRL_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_SAMPCTRL) >> ADC_SYNCBUSY_SAMPCTRL_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_WINLT_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_WINLT) >> ADC_SYNCBUSY_WINLT_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_WINUT_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_WINUT) >> ADC_SYNCBUSY_WINUT_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_GAINCORR_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_GAINCORR) >> ADC_SYNCBUSY_GAINCORR_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_OFFSETCORR_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_OFFSETCORR) >> ADC_SYNCBUSY_OFFSETCORR_Pos;
+}
+
+static inline bool hri_adc_get_SYNCBUSY_SWTRIG_bit(const void *const hw)
+{
+	return (((Adc *)hw)->SYNCBUSY.reg & ADC_SYNCBUSY_SWTRIG) >> ADC_SYNCBUSY_SWTRIG_Pos;
+}
+
+static inline hri_adc_syncbusy_reg_t hri_adc_get_SYNCBUSY_reg(const void *const hw, hri_adc_syncbusy_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_adc_syncbusy_reg_t hri_adc_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Adc *)hw)->SYNCBUSY.reg;
+}
+
+static inline hri_adc_result_reg_t hri_adc_get_RESULT_RESULT_bf(const void *const hw, hri_adc_result_reg_t mask)
+{
+	return (((Adc *)hw)->RESULT.reg & ADC_RESULT_RESULT(mask)) >> ADC_RESULT_RESULT_Pos;
+}
+
+static inline hri_adc_result_reg_t hri_adc_read_RESULT_RESULT_bf(const void *const hw)
+{
+	return (((Adc *)hw)->RESULT.reg & ADC_RESULT_RESULT_Msk) >> ADC_RESULT_RESULT_Pos;
+}
+
+static inline hri_adc_result_reg_t hri_adc_get_RESULT_reg(const void *const hw, hri_adc_result_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->RESULT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_adc_result_reg_t hri_adc_read_RESULT_reg(const void *const hw)
+{
+	return ((Adc *)hw)->RESULT.reg;
+}
+
+static inline void hri_adc_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg |= ADC_CTRLA_SWRST;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST);
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp = (tmp & ADC_CTRLA_SWRST) >> ADC_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg |= ADC_CTRLA_ENABLE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp = (tmp & ADC_CTRLA_ENABLE) >> ADC_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp &= ~ADC_CTRLA_ENABLE;
+	tmp |= value << ADC_CTRLA_ENABLE_Pos;
+	((Adc *)hw)->CTRLA.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg &= ~ADC_CTRLA_ENABLE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg ^= ADC_CTRLA_ENABLE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg |= ADC_CTRLA_RUNSTDBY;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp = (tmp & ADC_CTRLA_RUNSTDBY) >> ADC_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp &= ~ADC_CTRLA_RUNSTDBY;
+	tmp |= value << ADC_CTRLA_RUNSTDBY_Pos;
+	((Adc *)hw)->CTRLA.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg &= ~ADC_CTRLA_RUNSTDBY;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg ^= ADC_CTRLA_RUNSTDBY;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg |= ADC_CTRLA_ONDEMAND;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp = (tmp & ADC_CTRLA_ONDEMAND) >> ADC_CTRLA_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLA_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp &= ~ADC_CTRLA_ONDEMAND;
+	tmp |= value << ADC_CTRLA_ONDEMAND_Pos;
+	((Adc *)hw)->CTRLA.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg &= ~ADC_CTRLA_ONDEMAND;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg ^= ADC_CTRLA_ONDEMAND;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLA_reg(const void *const hw, hri_adc_ctrla_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrla_reg_t hri_adc_get_CTRLA_reg(const void *const hw, hri_adc_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	tmp = ((Adc *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLA_reg(const void *const hw, hri_adc_ctrla_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLA_reg(const void *const hw, hri_adc_ctrla_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLA_reg(const void *const hw, hri_adc_ctrla_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLA.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrla_reg_t hri_adc_read_CTRLA_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_SWRST | ADC_SYNCBUSY_ENABLE);
+	return ((Adc *)hw)->CTRLA.reg;
+}
+
+static inline void hri_adc_set_CTRLB_PRESCALER_bf(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg |= ADC_CTRLB_PRESCALER(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlb_reg_t hri_adc_get_CTRLB_PRESCALER_bf(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->CTRLB.reg;
+	tmp = (tmp & ADC_CTRLB_PRESCALER(mask)) >> ADC_CTRLB_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLB_PRESCALER_bf(const void *const hw, hri_adc_ctrlb_reg_t data)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLB.reg;
+	tmp &= ~ADC_CTRLB_PRESCALER_Msk;
+	tmp |= ADC_CTRLB_PRESCALER(data);
+	((Adc *)hw)->CTRLB.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLB_PRESCALER_bf(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg &= ~ADC_CTRLB_PRESCALER(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLB_PRESCALER_bf(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg ^= ADC_CTRLB_PRESCALER(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlb_reg_t hri_adc_read_CTRLB_PRESCALER_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->CTRLB.reg;
+	tmp = (tmp & ADC_CTRLB_PRESCALER_Msk) >> ADC_CTRLB_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CTRLB_reg(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlb_reg_t hri_adc_get_CTRLB_reg(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLB_reg(const void *const hw, hri_adc_ctrlb_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLB_reg(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLB_reg(const void *const hw, hri_adc_ctrlb_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLB.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlb_reg_t hri_adc_read_CTRLB_reg(const void *const hw)
+{
+	return ((Adc *)hw)->CTRLB.reg;
+}
+
+static inline void hri_adc_set_REFCTRL_REFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg |= ADC_REFCTRL_REFCOMP;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_REFCTRL_REFCOMP_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp = (tmp & ADC_REFCTRL_REFCOMP) >> ADC_REFCTRL_REFCOMP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_REFCTRL_REFCOMP_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp &= ~ADC_REFCTRL_REFCOMP;
+	tmp |= value << ADC_REFCTRL_REFCOMP_Pos;
+	((Adc *)hw)->REFCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_REFCTRL_REFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg &= ~ADC_REFCTRL_REFCOMP;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_REFCTRL_REFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg ^= ADC_REFCTRL_REFCOMP;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_REFCTRL_REFSEL_bf(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg |= ADC_REFCTRL_REFSEL(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_refctrl_reg_t hri_adc_get_REFCTRL_REFSEL_bf(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp = (tmp & ADC_REFCTRL_REFSEL(mask)) >> ADC_REFCTRL_REFSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_REFCTRL_REFSEL_bf(const void *const hw, hri_adc_refctrl_reg_t data)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp &= ~ADC_REFCTRL_REFSEL_Msk;
+	tmp |= ADC_REFCTRL_REFSEL(data);
+	((Adc *)hw)->REFCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_REFCTRL_REFSEL_bf(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg &= ~ADC_REFCTRL_REFSEL(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_REFCTRL_REFSEL_bf(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg ^= ADC_REFCTRL_REFSEL(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_refctrl_reg_t hri_adc_read_REFCTRL_REFSEL_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp = (tmp & ADC_REFCTRL_REFSEL_Msk) >> ADC_REFCTRL_REFSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_REFCTRL_reg(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_refctrl_reg_t hri_adc_get_REFCTRL_reg(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->REFCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_REFCTRL_reg(const void *const hw, hri_adc_refctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_REFCTRL_reg(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_REFCTRL_reg(const void *const hw, hri_adc_refctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->REFCTRL.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_refctrl_reg_t hri_adc_read_REFCTRL_reg(const void *const hw)
+{
+	return ((Adc *)hw)->REFCTRL.reg;
+}
+
+static inline void hri_adc_set_EVCTRL_FLUSHEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_FLUSHEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_FLUSHEI_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_FLUSHEI) >> ADC_EVCTRL_FLUSHEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_FLUSHEI_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_FLUSHEI;
+	tmp |= value << ADC_EVCTRL_FLUSHEI_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_FLUSHEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_FLUSHEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_FLUSHEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_FLUSHEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_STARTEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_STARTEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_STARTEI_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_STARTEI) >> ADC_EVCTRL_STARTEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_STARTEI_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_STARTEI;
+	tmp |= value << ADC_EVCTRL_STARTEI_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_STARTEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_STARTEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_STARTEI_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_STARTEI;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_FLUSHINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_FLUSHINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_FLUSHINV_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_FLUSHINV) >> ADC_EVCTRL_FLUSHINV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_FLUSHINV_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_FLUSHINV;
+	tmp |= value << ADC_EVCTRL_FLUSHINV_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_FLUSHINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_FLUSHINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_FLUSHINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_FLUSHINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_STARTINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_STARTINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_STARTINV_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_STARTINV) >> ADC_EVCTRL_STARTINV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_STARTINV_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_STARTINV;
+	tmp |= value << ADC_EVCTRL_STARTINV_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_STARTINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_STARTINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_STARTINV_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_STARTINV;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_RESRDYEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_RESRDYEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_RESRDYEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_RESRDYEO) >> ADC_EVCTRL_RESRDYEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_RESRDYEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_RESRDYEO;
+	tmp |= value << ADC_EVCTRL_RESRDYEO_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_RESRDYEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_RESRDYEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_RESRDYEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_RESRDYEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_WINMONEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= ADC_EVCTRL_WINMONEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_EVCTRL_WINMONEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp = (tmp & ADC_EVCTRL_WINMONEO) >> ADC_EVCTRL_WINMONEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_WINMONEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= ~ADC_EVCTRL_WINMONEO;
+	tmp |= value << ADC_EVCTRL_WINMONEO_Pos;
+	((Adc *)hw)->EVCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_WINMONEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~ADC_EVCTRL_WINMONEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_WINMONEO_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= ADC_EVCTRL_WINMONEO;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_EVCTRL_reg(const void *const hw, hri_adc_evctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_evctrl_reg_t hri_adc_get_EVCTRL_reg(const void *const hw, hri_adc_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_EVCTRL_reg(const void *const hw, hri_adc_evctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_EVCTRL_reg(const void *const hw, hri_adc_evctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_EVCTRL_reg(const void *const hw, hri_adc_evctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->EVCTRL.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_evctrl_reg_t hri_adc_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Adc *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_adc_set_INPUTCTRL_MUXPOS_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg |= ADC_INPUTCTRL_MUXPOS(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_get_INPUTCTRL_MUXPOS_bf(const void *const       hw,
+                                                                      hri_adc_inputctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp = (tmp & ADC_INPUTCTRL_MUXPOS(mask)) >> ADC_INPUTCTRL_MUXPOS_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_INPUTCTRL_MUXPOS_bf(const void *const hw, hri_adc_inputctrl_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp &= ~ADC_INPUTCTRL_MUXPOS_Msk;
+	tmp |= ADC_INPUTCTRL_MUXPOS(data);
+	((Adc *)hw)->INPUTCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_INPUTCTRL_MUXPOS_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg &= ~ADC_INPUTCTRL_MUXPOS(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_INPUTCTRL_MUXPOS_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg ^= ADC_INPUTCTRL_MUXPOS(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_read_INPUTCTRL_MUXPOS_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp = (tmp & ADC_INPUTCTRL_MUXPOS_Msk) >> ADC_INPUTCTRL_MUXPOS_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_INPUTCTRL_MUXNEG_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg |= ADC_INPUTCTRL_MUXNEG(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_get_INPUTCTRL_MUXNEG_bf(const void *const       hw,
+                                                                      hri_adc_inputctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp = (tmp & ADC_INPUTCTRL_MUXNEG(mask)) >> ADC_INPUTCTRL_MUXNEG_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_INPUTCTRL_MUXNEG_bf(const void *const hw, hri_adc_inputctrl_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp &= ~ADC_INPUTCTRL_MUXNEG_Msk;
+	tmp |= ADC_INPUTCTRL_MUXNEG(data);
+	((Adc *)hw)->INPUTCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_INPUTCTRL_MUXNEG_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg &= ~ADC_INPUTCTRL_MUXNEG(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_INPUTCTRL_MUXNEG_bf(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg ^= ADC_INPUTCTRL_MUXNEG(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_read_INPUTCTRL_MUXNEG_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp = (tmp & ADC_INPUTCTRL_MUXNEG_Msk) >> ADC_INPUTCTRL_MUXNEG_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_INPUTCTRL_reg(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_get_INPUTCTRL_reg(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	tmp = ((Adc *)hw)->INPUTCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_INPUTCTRL_reg(const void *const hw, hri_adc_inputctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_INPUTCTRL_reg(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_INPUTCTRL_reg(const void *const hw, hri_adc_inputctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->INPUTCTRL.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_inputctrl_reg_t hri_adc_read_INPUTCTRL_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	return ((Adc *)hw)->INPUTCTRL.reg;
+}
+
+static inline void hri_adc_set_CTRLC_DIFFMODE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_DIFFMODE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLC_DIFFMODE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_DIFFMODE) >> ADC_CTRLC_DIFFMODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLC_DIFFMODE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_DIFFMODE;
+	tmp |= value << ADC_CTRLC_DIFFMODE_Pos;
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_DIFFMODE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_DIFFMODE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_DIFFMODE_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_DIFFMODE;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLC_LEFTADJ_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_LEFTADJ;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLC_LEFTADJ_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_LEFTADJ) >> ADC_CTRLC_LEFTADJ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLC_LEFTADJ_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_LEFTADJ;
+	tmp |= value << ADC_CTRLC_LEFTADJ_Pos;
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_LEFTADJ_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_LEFTADJ;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_LEFTADJ_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_LEFTADJ;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLC_FREERUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_FREERUN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLC_FREERUN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_FREERUN) >> ADC_CTRLC_FREERUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLC_FREERUN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_FREERUN;
+	tmp |= value << ADC_CTRLC_FREERUN_Pos;
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_FREERUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_FREERUN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_FREERUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_FREERUN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLC_CORREN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_CORREN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLC_CORREN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_CORREN) >> ADC_CTRLC_CORREN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLC_CORREN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_CORREN;
+	tmp |= value << ADC_CTRLC_CORREN_Pos;
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_CORREN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_CORREN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_CORREN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_CORREN;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLC_R2R_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_R2R;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_CTRLC_R2R_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_R2R) >> ADC_CTRLC_R2R_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_CTRLC_R2R_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_R2R;
+	tmp |= value << ADC_CTRLC_R2R_Pos;
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_R2R_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_R2R;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_R2R_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_R2R;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_CTRLC_RESSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_RESSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_get_CTRLC_RESSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_RESSEL(mask)) >> ADC_CTRLC_RESSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLC_RESSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_RESSEL_Msk;
+	tmp |= ADC_CTRLC_RESSEL(data);
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_RESSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_RESSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_RESSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_RESSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_read_CTRLC_RESSEL_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_RESSEL_Msk) >> ADC_CTRLC_RESSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CTRLC_WINMODE_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_WINMODE(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_get_CTRLC_WINMODE_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_WINMODE(mask)) >> ADC_CTRLC_WINMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLC_WINMODE_bf(const void *const hw, hri_adc_ctrlc_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_WINMODE_Msk;
+	tmp |= ADC_CTRLC_WINMODE(data);
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_WINMODE_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_WINMODE(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_WINMODE_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_WINMODE(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_read_CTRLC_WINMODE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_WINMODE_Msk) >> ADC_CTRLC_WINMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CTRLC_DUALSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= ADC_CTRLC_DUALSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_get_CTRLC_DUALSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_DUALSEL(mask)) >> ADC_CTRLC_DUALSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLC_DUALSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= ~ADC_CTRLC_DUALSEL_Msk;
+	tmp |= ADC_CTRLC_DUALSEL(data);
+	((Adc *)hw)->CTRLC.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_DUALSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~ADC_CTRLC_DUALSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_DUALSEL_bf(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= ADC_CTRLC_DUALSEL(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_read_CTRLC_DUALSEL_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp = (tmp & ADC_CTRLC_DUALSEL_Msk) >> ADC_CTRLC_DUALSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CTRLC_reg(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_get_CTRLC_reg(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	tmp = ((Adc *)hw)->CTRLC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_CTRLC_reg(const void *const hw, hri_adc_ctrlc_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CTRLC_reg(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CTRLC_reg(const void *const hw, hri_adc_ctrlc_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CTRLC.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_ctrlc_reg_t hri_adc_read_CTRLC_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	return ((Adc *)hw)->CTRLC.reg;
+}
+
+static inline void hri_adc_set_AVGCTRL_SAMPLENUM_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg |= ADC_AVGCTRL_SAMPLENUM(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_get_AVGCTRL_SAMPLENUM_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp = (tmp & ADC_AVGCTRL_SAMPLENUM(mask)) >> ADC_AVGCTRL_SAMPLENUM_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_AVGCTRL_SAMPLENUM_bf(const void *const hw, hri_adc_avgctrl_reg_t data)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp &= ~ADC_AVGCTRL_SAMPLENUM_Msk;
+	tmp |= ADC_AVGCTRL_SAMPLENUM(data);
+	((Adc *)hw)->AVGCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_AVGCTRL_SAMPLENUM_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg &= ~ADC_AVGCTRL_SAMPLENUM(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_AVGCTRL_SAMPLENUM_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg ^= ADC_AVGCTRL_SAMPLENUM(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_read_AVGCTRL_SAMPLENUM_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp = (tmp & ADC_AVGCTRL_SAMPLENUM_Msk) >> ADC_AVGCTRL_SAMPLENUM_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_AVGCTRL_ADJRES_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg |= ADC_AVGCTRL_ADJRES(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_get_AVGCTRL_ADJRES_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp = (tmp & ADC_AVGCTRL_ADJRES(mask)) >> ADC_AVGCTRL_ADJRES_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_AVGCTRL_ADJRES_bf(const void *const hw, hri_adc_avgctrl_reg_t data)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp &= ~ADC_AVGCTRL_ADJRES_Msk;
+	tmp |= ADC_AVGCTRL_ADJRES(data);
+	((Adc *)hw)->AVGCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_AVGCTRL_ADJRES_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg &= ~ADC_AVGCTRL_ADJRES(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_AVGCTRL_ADJRES_bf(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg ^= ADC_AVGCTRL_ADJRES(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_read_AVGCTRL_ADJRES_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp = (tmp & ADC_AVGCTRL_ADJRES_Msk) >> ADC_AVGCTRL_ADJRES_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_AVGCTRL_reg(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_get_AVGCTRL_reg(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	tmp = ((Adc *)hw)->AVGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_AVGCTRL_reg(const void *const hw, hri_adc_avgctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_AVGCTRL_reg(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_AVGCTRL_reg(const void *const hw, hri_adc_avgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->AVGCTRL.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_avgctrl_reg_t hri_adc_read_AVGCTRL_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	return ((Adc *)hw)->AVGCTRL.reg;
+}
+
+static inline void hri_adc_set_SAMPCTRL_OFFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg |= ADC_SAMPCTRL_OFFCOMP;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_SAMPCTRL_OFFCOMP_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp = (tmp & ADC_SAMPCTRL_OFFCOMP) >> ADC_SAMPCTRL_OFFCOMP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_SAMPCTRL_OFFCOMP_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp &= ~ADC_SAMPCTRL_OFFCOMP;
+	tmp |= value << ADC_SAMPCTRL_OFFCOMP_Pos;
+	((Adc *)hw)->SAMPCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SAMPCTRL_OFFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg &= ~ADC_SAMPCTRL_OFFCOMP;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SAMPCTRL_OFFCOMP_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg ^= ADC_SAMPCTRL_OFFCOMP;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_SAMPCTRL_SAMPLEN_bf(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg |= ADC_SAMPCTRL_SAMPLEN(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_sampctrl_reg_t hri_adc_get_SAMPCTRL_SAMPLEN_bf(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp = (tmp & ADC_SAMPCTRL_SAMPLEN(mask)) >> ADC_SAMPCTRL_SAMPLEN_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_SAMPCTRL_SAMPLEN_bf(const void *const hw, hri_adc_sampctrl_reg_t data)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp &= ~ADC_SAMPCTRL_SAMPLEN_Msk;
+	tmp |= ADC_SAMPCTRL_SAMPLEN(data);
+	((Adc *)hw)->SAMPCTRL.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SAMPCTRL_SAMPLEN_bf(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg &= ~ADC_SAMPCTRL_SAMPLEN(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SAMPCTRL_SAMPLEN_bf(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg ^= ADC_SAMPCTRL_SAMPLEN(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_sampctrl_reg_t hri_adc_read_SAMPCTRL_SAMPLEN_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp = (tmp & ADC_SAMPCTRL_SAMPLEN_Msk) >> ADC_SAMPCTRL_SAMPLEN_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_SAMPCTRL_reg(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_sampctrl_reg_t hri_adc_get_SAMPCTRL_reg(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	tmp = ((Adc *)hw)->SAMPCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_SAMPCTRL_reg(const void *const hw, hri_adc_sampctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SAMPCTRL_reg(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SAMPCTRL_reg(const void *const hw, hri_adc_sampctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SAMPCTRL.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_sampctrl_reg_t hri_adc_read_SAMPCTRL_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	return ((Adc *)hw)->SAMPCTRL.reg;
+}
+
+static inline void hri_adc_set_WINLT_WINLT_bf(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg |= ADC_WINLT_WINLT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winlt_reg_t hri_adc_get_WINLT_WINLT_bf(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	tmp = ((Adc *)hw)->WINLT.reg;
+	tmp = (tmp & ADC_WINLT_WINLT(mask)) >> ADC_WINLT_WINLT_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_WINLT_WINLT_bf(const void *const hw, hri_adc_winlt_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->WINLT.reg;
+	tmp &= ~ADC_WINLT_WINLT_Msk;
+	tmp |= ADC_WINLT_WINLT(data);
+	((Adc *)hw)->WINLT.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_WINLT_WINLT_bf(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg &= ~ADC_WINLT_WINLT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_WINLT_WINLT_bf(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg ^= ADC_WINLT_WINLT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winlt_reg_t hri_adc_read_WINLT_WINLT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	tmp = ((Adc *)hw)->WINLT.reg;
+	tmp = (tmp & ADC_WINLT_WINLT_Msk) >> ADC_WINLT_WINLT_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_WINLT_reg(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winlt_reg_t hri_adc_get_WINLT_reg(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	tmp = ((Adc *)hw)->WINLT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_WINLT_reg(const void *const hw, hri_adc_winlt_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_WINLT_reg(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_WINLT_reg(const void *const hw, hri_adc_winlt_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINLT.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winlt_reg_t hri_adc_read_WINLT_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINLT);
+	return ((Adc *)hw)->WINLT.reg;
+}
+
+static inline void hri_adc_set_WINUT_WINUT_bf(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg |= ADC_WINUT_WINUT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winut_reg_t hri_adc_get_WINUT_WINUT_bf(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	tmp = ((Adc *)hw)->WINUT.reg;
+	tmp = (tmp & ADC_WINUT_WINUT(mask)) >> ADC_WINUT_WINUT_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_WINUT_WINUT_bf(const void *const hw, hri_adc_winut_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->WINUT.reg;
+	tmp &= ~ADC_WINUT_WINUT_Msk;
+	tmp |= ADC_WINUT_WINUT(data);
+	((Adc *)hw)->WINUT.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_WINUT_WINUT_bf(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg &= ~ADC_WINUT_WINUT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_WINUT_WINUT_bf(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg ^= ADC_WINUT_WINUT(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winut_reg_t hri_adc_read_WINUT_WINUT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	tmp = ((Adc *)hw)->WINUT.reg;
+	tmp = (tmp & ADC_WINUT_WINUT_Msk) >> ADC_WINUT_WINUT_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_WINUT_reg(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winut_reg_t hri_adc_get_WINUT_reg(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	tmp = ((Adc *)hw)->WINUT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_WINUT_reg(const void *const hw, hri_adc_winut_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_WINUT_reg(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_WINUT_reg(const void *const hw, hri_adc_winut_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->WINUT.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_winut_reg_t hri_adc_read_WINUT_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_WINUT);
+	return ((Adc *)hw)->WINUT.reg;
+}
+
+static inline void hri_adc_set_GAINCORR_GAINCORR_bf(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg |= ADC_GAINCORR_GAINCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_gaincorr_reg_t hri_adc_get_GAINCORR_GAINCORR_bf(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	tmp = ((Adc *)hw)->GAINCORR.reg;
+	tmp = (tmp & ADC_GAINCORR_GAINCORR(mask)) >> ADC_GAINCORR_GAINCORR_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_GAINCORR_GAINCORR_bf(const void *const hw, hri_adc_gaincorr_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->GAINCORR.reg;
+	tmp &= ~ADC_GAINCORR_GAINCORR_Msk;
+	tmp |= ADC_GAINCORR_GAINCORR(data);
+	((Adc *)hw)->GAINCORR.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_GAINCORR_GAINCORR_bf(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg &= ~ADC_GAINCORR_GAINCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_GAINCORR_GAINCORR_bf(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg ^= ADC_GAINCORR_GAINCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_gaincorr_reg_t hri_adc_read_GAINCORR_GAINCORR_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	tmp = ((Adc *)hw)->GAINCORR.reg;
+	tmp = (tmp & ADC_GAINCORR_GAINCORR_Msk) >> ADC_GAINCORR_GAINCORR_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_GAINCORR_reg(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_gaincorr_reg_t hri_adc_get_GAINCORR_reg(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	tmp = ((Adc *)hw)->GAINCORR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_GAINCORR_reg(const void *const hw, hri_adc_gaincorr_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_GAINCORR_reg(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_GAINCORR_reg(const void *const hw, hri_adc_gaincorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->GAINCORR.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_gaincorr_reg_t hri_adc_read_GAINCORR_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_GAINCORR);
+	return ((Adc *)hw)->GAINCORR.reg;
+}
+
+static inline void hri_adc_set_OFFSETCORR_OFFSETCORR_bf(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg |= ADC_OFFSETCORR_OFFSETCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_offsetcorr_reg_t hri_adc_get_OFFSETCORR_OFFSETCORR_bf(const void *const        hw,
+                                                                            hri_adc_offsetcorr_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	tmp = ((Adc *)hw)->OFFSETCORR.reg;
+	tmp = (tmp & ADC_OFFSETCORR_OFFSETCORR(mask)) >> ADC_OFFSETCORR_OFFSETCORR_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_OFFSETCORR_OFFSETCORR_bf(const void *const hw, hri_adc_offsetcorr_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->OFFSETCORR.reg;
+	tmp &= ~ADC_OFFSETCORR_OFFSETCORR_Msk;
+	tmp |= ADC_OFFSETCORR_OFFSETCORR(data);
+	((Adc *)hw)->OFFSETCORR.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_OFFSETCORR_OFFSETCORR_bf(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg &= ~ADC_OFFSETCORR_OFFSETCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_OFFSETCORR_OFFSETCORR_bf(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg ^= ADC_OFFSETCORR_OFFSETCORR(mask);
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_offsetcorr_reg_t hri_adc_read_OFFSETCORR_OFFSETCORR_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	tmp = ((Adc *)hw)->OFFSETCORR.reg;
+	tmp = (tmp & ADC_OFFSETCORR_OFFSETCORR_Msk) >> ADC_OFFSETCORR_OFFSETCORR_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_OFFSETCORR_reg(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_offsetcorr_reg_t hri_adc_get_OFFSETCORR_reg(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	uint16_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	tmp = ((Adc *)hw)->OFFSETCORR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_OFFSETCORR_reg(const void *const hw, hri_adc_offsetcorr_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_OFFSETCORR_reg(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_OFFSETCORR_reg(const void *const hw, hri_adc_offsetcorr_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->OFFSETCORR.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_offsetcorr_reg_t hri_adc_read_OFFSETCORR_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_OFFSETCORR);
+	return ((Adc *)hw)->OFFSETCORR.reg;
+}
+
+static inline void hri_adc_set_SWTRIG_FLUSH_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg |= ADC_SWTRIG_FLUSH;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_SWTRIG_FLUSH_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SWTRIG.reg;
+	tmp = (tmp & ADC_SWTRIG_FLUSH) >> ADC_SWTRIG_FLUSH_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_SWTRIG_FLUSH_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->SWTRIG.reg;
+	tmp &= ~ADC_SWTRIG_FLUSH;
+	tmp |= value << ADC_SWTRIG_FLUSH_Pos;
+	((Adc *)hw)->SWTRIG.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SWTRIG_FLUSH_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg &= ~ADC_SWTRIG_FLUSH;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SWTRIG_FLUSH_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg ^= ADC_SWTRIG_FLUSH;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_SWTRIG_START_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg |= ADC_SWTRIG_START;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_SWTRIG_START_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->SWTRIG.reg;
+	tmp = (tmp & ADC_SWTRIG_START) >> ADC_SWTRIG_START_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_SWTRIG_START_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->SWTRIG.reg;
+	tmp &= ~ADC_SWTRIG_START;
+	tmp |= value << ADC_SWTRIG_START_Pos;
+	((Adc *)hw)->SWTRIG.reg = tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SWTRIG_START_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg &= ~ADC_SWTRIG_START;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SWTRIG_START_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg ^= ADC_SWTRIG_START;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_SWTRIG_reg(const void *const hw, hri_adc_swtrig_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg |= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_swtrig_reg_t hri_adc_get_SWTRIG_reg(const void *const hw, hri_adc_swtrig_reg_t mask)
+{
+	uint8_t tmp;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	tmp = ((Adc *)hw)->SWTRIG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_SWTRIG_reg(const void *const hw, hri_adc_swtrig_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg = data;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SWTRIG_reg(const void *const hw, hri_adc_swtrig_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg &= ~mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SWTRIG_reg(const void *const hw, hri_adc_swtrig_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SWTRIG.reg ^= mask;
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_swtrig_reg_t hri_adc_read_SWTRIG_reg(const void *const hw)
+{
+	hri_adc_wait_for_sync(hw, ADC_SYNCBUSY_MASK);
+	return ((Adc *)hw)->SWTRIG.reg;
+}
+
+static inline void hri_adc_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg |= ADC_DBGCTRL_DBGRUN;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_adc_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->DBGCTRL.reg;
+	tmp = (tmp & ADC_DBGCTRL_DBGRUN) >> ADC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_adc_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->DBGCTRL.reg;
+	tmp &= ~ADC_DBGCTRL_DBGRUN;
+	tmp |= value << ADC_DBGCTRL_DBGRUN_Pos;
+	((Adc *)hw)->DBGCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg &= ~ADC_DBGCTRL_DBGRUN;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg ^= ADC_DBGCTRL_DBGRUN;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_set_DBGCTRL_reg(const void *const hw, hri_adc_dbgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_dbgctrl_reg_t hri_adc_get_DBGCTRL_reg(const void *const hw, hri_adc_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Adc *)hw)->DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_DBGCTRL_reg(const void *const hw, hri_adc_dbgctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_DBGCTRL_reg(const void *const hw, hri_adc_dbgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_DBGCTRL_reg(const void *const hw, hri_adc_dbgctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->DBGCTRL.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_dbgctrl_reg_t hri_adc_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Adc *)hw)->DBGCTRL.reg;
+}
+
+static inline void hri_adc_set_SEQCTRL_SEQEN_bf(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg |= ADC_SEQCTRL_SEQEN(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_seqctrl_reg_t hri_adc_get_SEQCTRL_SEQEN_bf(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Adc *)hw)->SEQCTRL.reg;
+	tmp = (tmp & ADC_SEQCTRL_SEQEN(mask)) >> ADC_SEQCTRL_SEQEN_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_SEQCTRL_SEQEN_bf(const void *const hw, hri_adc_seqctrl_reg_t data)
+{
+	uint32_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->SEQCTRL.reg;
+	tmp &= ~ADC_SEQCTRL_SEQEN_Msk;
+	tmp |= ADC_SEQCTRL_SEQEN(data);
+	((Adc *)hw)->SEQCTRL.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SEQCTRL_SEQEN_bf(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg &= ~ADC_SEQCTRL_SEQEN(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SEQCTRL_SEQEN_bf(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg ^= ADC_SEQCTRL_SEQEN(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_seqctrl_reg_t hri_adc_read_SEQCTRL_SEQEN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Adc *)hw)->SEQCTRL.reg;
+	tmp = (tmp & ADC_SEQCTRL_SEQEN_Msk) >> ADC_SEQCTRL_SEQEN_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_SEQCTRL_reg(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_seqctrl_reg_t hri_adc_get_SEQCTRL_reg(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Adc *)hw)->SEQCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_SEQCTRL_reg(const void *const hw, hri_adc_seqctrl_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_SEQCTRL_reg(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_SEQCTRL_reg(const void *const hw, hri_adc_seqctrl_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->SEQCTRL.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_seqctrl_reg_t hri_adc_read_SEQCTRL_reg(const void *const hw)
+{
+	return ((Adc *)hw)->SEQCTRL.reg;
+}
+
+static inline void hri_adc_set_CALIB_BIASCOMP_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg |= ADC_CALIB_BIASCOMP(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_get_CALIB_BIASCOMP_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp = (tmp & ADC_CALIB_BIASCOMP(mask)) >> ADC_CALIB_BIASCOMP_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CALIB_BIASCOMP_bf(const void *const hw, hri_adc_calib_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp &= ~ADC_CALIB_BIASCOMP_Msk;
+	tmp |= ADC_CALIB_BIASCOMP(data);
+	((Adc *)hw)->CALIB.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CALIB_BIASCOMP_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg &= ~ADC_CALIB_BIASCOMP(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CALIB_BIASCOMP_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg ^= ADC_CALIB_BIASCOMP(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_read_CALIB_BIASCOMP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp = (tmp & ADC_CALIB_BIASCOMP_Msk) >> ADC_CALIB_BIASCOMP_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CALIB_BIASREFBUF_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg |= ADC_CALIB_BIASREFBUF(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_get_CALIB_BIASREFBUF_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp = (tmp & ADC_CALIB_BIASREFBUF(mask)) >> ADC_CALIB_BIASREFBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_write_CALIB_BIASREFBUF_bf(const void *const hw, hri_adc_calib_reg_t data)
+{
+	uint16_t tmp;
+	ADC_CRITICAL_SECTION_ENTER();
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp &= ~ADC_CALIB_BIASREFBUF_Msk;
+	tmp |= ADC_CALIB_BIASREFBUF(data);
+	((Adc *)hw)->CALIB.reg = tmp;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CALIB_BIASREFBUF_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg &= ~ADC_CALIB_BIASREFBUF(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CALIB_BIASREFBUF_bf(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg ^= ADC_CALIB_BIASREFBUF(mask);
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_read_CALIB_BIASREFBUF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp = (tmp & ADC_CALIB_BIASREFBUF_Msk) >> ADC_CALIB_BIASREFBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_adc_set_CALIB_reg(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg |= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_get_CALIB_reg(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Adc *)hw)->CALIB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_adc_write_CALIB_reg(const void *const hw, hri_adc_calib_reg_t data)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg = data;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_clear_CALIB_reg(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg &= ~mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_adc_toggle_CALIB_reg(const void *const hw, hri_adc_calib_reg_t mask)
+{
+	ADC_CRITICAL_SECTION_ENTER();
+	((Adc *)hw)->CALIB.reg ^= mask;
+	ADC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_adc_calib_reg_t hri_adc_read_CALIB_reg(const void *const hw)
+{
+	return ((Adc *)hw)->CALIB.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_ADC_L22_H_INCLUDED */
+#endif /* _SAML22_ADC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_aes_l22.h b/watch-library/hardware/hri/hri_aes_l22.h
new file mode 100644
index 00000000..f88f081e
--- /dev/null
+++ b/watch-library/hardware/hri/hri_aes_l22.h
@@ -0,0 +1,1213 @@
+/**
+ * \file
+ *
+ * \brief SAM AES
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_AES_COMPONENT_
+#ifndef _HRI_AES_L22_H_INCLUDED_
+#define _HRI_AES_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_AES_CRITICAL_SECTIONS)
+#define AES_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define AES_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define AES_CRITICAL_SECTION_ENTER()
+#define AES_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_aes_ciplen_reg_t;
+typedef uint32_t hri_aes_ctrla_reg_t;
+typedef uint32_t hri_aes_ghash_reg_t;
+typedef uint32_t hri_aes_hashkey_reg_t;
+typedef uint32_t hri_aes_indata_reg_t;
+typedef uint32_t hri_aes_intvectv_reg_t;
+typedef uint32_t hri_aes_keyword_reg_t;
+typedef uint32_t hri_aes_randseed_reg_t;
+typedef uint8_t  hri_aes_ctrlb_reg_t;
+typedef uint8_t  hri_aes_databufptr_reg_t;
+typedef uint8_t  hri_aes_dbgctrl_reg_t;
+typedef uint8_t  hri_aes_intenset_reg_t;
+typedef uint8_t  hri_aes_intflag_reg_t;
+
+static inline bool hri_aes_get_INTFLAG_ENCCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTFLAG.reg & AES_INTFLAG_ENCCMP) >> AES_INTFLAG_ENCCMP_Pos;
+}
+
+static inline void hri_aes_clear_INTFLAG_ENCCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTFLAG.reg = AES_INTFLAG_ENCCMP;
+}
+
+static inline bool hri_aes_get_INTFLAG_GFMCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTFLAG.reg & AES_INTFLAG_GFMCMP) >> AES_INTFLAG_GFMCMP_Pos;
+}
+
+static inline void hri_aes_clear_INTFLAG_GFMCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTFLAG.reg = AES_INTFLAG_GFMCMP;
+}
+
+static inline bool hri_aes_get_interrupt_ENCCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTFLAG.reg & AES_INTFLAG_ENCCMP) >> AES_INTFLAG_ENCCMP_Pos;
+}
+
+static inline void hri_aes_clear_interrupt_ENCCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTFLAG.reg = AES_INTFLAG_ENCCMP;
+}
+
+static inline bool hri_aes_get_interrupt_GFMCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTFLAG.reg & AES_INTFLAG_GFMCMP) >> AES_INTFLAG_GFMCMP_Pos;
+}
+
+static inline void hri_aes_clear_interrupt_GFMCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTFLAG.reg = AES_INTFLAG_GFMCMP;
+}
+
+static inline hri_aes_intflag_reg_t hri_aes_get_INTFLAG_reg(const void *const hw, hri_aes_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_aes_intflag_reg_t hri_aes_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Aes *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_aes_clear_INTFLAG_reg(const void *const hw, hri_aes_intflag_reg_t mask)
+{
+	((Aes *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_aes_set_INTEN_ENCCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTENSET.reg = AES_INTENSET_ENCCMP;
+}
+
+static inline bool hri_aes_get_INTEN_ENCCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTENSET.reg & AES_INTENSET_ENCCMP) >> AES_INTENSET_ENCCMP_Pos;
+}
+
+static inline void hri_aes_write_INTEN_ENCCMP_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Aes *)hw)->INTENCLR.reg = AES_INTENSET_ENCCMP;
+	} else {
+		((Aes *)hw)->INTENSET.reg = AES_INTENSET_ENCCMP;
+	}
+}
+
+static inline void hri_aes_clear_INTEN_ENCCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTENCLR.reg = AES_INTENSET_ENCCMP;
+}
+
+static inline void hri_aes_set_INTEN_GFMCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTENSET.reg = AES_INTENSET_GFMCMP;
+}
+
+static inline bool hri_aes_get_INTEN_GFMCMP_bit(const void *const hw)
+{
+	return (((Aes *)hw)->INTENSET.reg & AES_INTENSET_GFMCMP) >> AES_INTENSET_GFMCMP_Pos;
+}
+
+static inline void hri_aes_write_INTEN_GFMCMP_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Aes *)hw)->INTENCLR.reg = AES_INTENSET_GFMCMP;
+	} else {
+		((Aes *)hw)->INTENSET.reg = AES_INTENSET_GFMCMP;
+	}
+}
+
+static inline void hri_aes_clear_INTEN_GFMCMP_bit(const void *const hw)
+{
+	((Aes *)hw)->INTENCLR.reg = AES_INTENSET_GFMCMP;
+}
+
+static inline void hri_aes_set_INTEN_reg(const void *const hw, hri_aes_intenset_reg_t mask)
+{
+	((Aes *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_aes_intenset_reg_t hri_aes_get_INTEN_reg(const void *const hw, hri_aes_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_aes_intenset_reg_t hri_aes_read_INTEN_reg(const void *const hw)
+{
+	return ((Aes *)hw)->INTENSET.reg;
+}
+
+static inline void hri_aes_write_INTEN_reg(const void *const hw, hri_aes_intenset_reg_t data)
+{
+	((Aes *)hw)->INTENSET.reg = data;
+	((Aes *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_aes_clear_INTEN_reg(const void *const hw, hri_aes_intenset_reg_t mask)
+{
+	((Aes *)hw)->INTENCLR.reg = mask;
+}
+
+static inline void hri_aes_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_SWRST;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_SWRST) >> AES_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_ENABLE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_ENABLE) >> AES_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_ENABLE;
+	tmp |= value << AES_CTRLA_ENABLE_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_ENABLE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_ENABLE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_CIPHER_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_CIPHER;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_CIPHER_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_CIPHER) >> AES_CTRLA_CIPHER_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_CIPHER_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_CIPHER;
+	tmp |= value << AES_CTRLA_CIPHER_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_CIPHER_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_CIPHER;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_CIPHER_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_CIPHER;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_STARTMODE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_STARTMODE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_STARTMODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_STARTMODE) >> AES_CTRLA_STARTMODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_STARTMODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_STARTMODE;
+	tmp |= value << AES_CTRLA_STARTMODE_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_STARTMODE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_STARTMODE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_STARTMODE_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_STARTMODE;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_LOD_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_LOD;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_LOD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_LOD) >> AES_CTRLA_LOD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_LOD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_LOD;
+	tmp |= value << AES_CTRLA_LOD_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_LOD_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_LOD;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_LOD_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_LOD;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_KEYGEN_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_KEYGEN;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_KEYGEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_KEYGEN) >> AES_CTRLA_KEYGEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_KEYGEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_KEYGEN;
+	tmp |= value << AES_CTRLA_KEYGEN_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_KEYGEN_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_KEYGEN;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_KEYGEN_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_KEYGEN;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_XORKEY_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_XORKEY;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLA_XORKEY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_XORKEY) >> AES_CTRLA_XORKEY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLA_XORKEY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_XORKEY;
+	tmp |= value << AES_CTRLA_XORKEY_Pos;
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_XORKEY_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_XORKEY;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_XORKEY_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_XORKEY;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLA_AESMODE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_AESMODE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_get_CTRLA_AESMODE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_AESMODE(mask)) >> AES_CTRLA_AESMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLA_AESMODE_bf(const void *const hw, hri_aes_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_AESMODE_Msk;
+	tmp |= AES_CTRLA_AESMODE(data);
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_AESMODE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_AESMODE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_AESMODE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_AESMODE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_read_CTRLA_AESMODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_AESMODE_Msk) >> AES_CTRLA_AESMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_set_CTRLA_CFBS_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_CFBS(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_get_CTRLA_CFBS_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_CFBS(mask)) >> AES_CTRLA_CFBS_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLA_CFBS_bf(const void *const hw, hri_aes_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_CFBS_Msk;
+	tmp |= AES_CTRLA_CFBS(data);
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_CFBS_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_CFBS(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_CFBS_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_CFBS(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_read_CTRLA_CFBS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_CFBS_Msk) >> AES_CTRLA_CFBS_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_set_CTRLA_KEYSIZE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_KEYSIZE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_get_CTRLA_KEYSIZE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_KEYSIZE(mask)) >> AES_CTRLA_KEYSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLA_KEYSIZE_bf(const void *const hw, hri_aes_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_KEYSIZE_Msk;
+	tmp |= AES_CTRLA_KEYSIZE(data);
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_KEYSIZE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_KEYSIZE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_KEYSIZE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_KEYSIZE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_read_CTRLA_KEYSIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_KEYSIZE_Msk) >> AES_CTRLA_KEYSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_set_CTRLA_CTYPE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= AES_CTRLA_CTYPE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_get_CTRLA_CTYPE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_CTYPE(mask)) >> AES_CTRLA_CTYPE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLA_CTYPE_bf(const void *const hw, hri_aes_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= ~AES_CTRLA_CTYPE_Msk;
+	tmp |= AES_CTRLA_CTYPE(data);
+	((Aes *)hw)->CTRLA.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_CTYPE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~AES_CTRLA_CTYPE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_CTYPE_bf(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= AES_CTRLA_CTYPE(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_read_CTRLA_CTYPE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp = (tmp & AES_CTRLA_CTYPE_Msk) >> AES_CTRLA_CTYPE_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_set_CTRLA_reg(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_get_CTRLA_reg(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLA_reg(const void *const hw, hri_aes_ctrla_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLA_reg(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLA_reg(const void *const hw, hri_aes_ctrla_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLA.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrla_reg_t hri_aes_read_CTRLA_reg(const void *const hw)
+{
+	return ((Aes *)hw)->CTRLA.reg;
+}
+
+static inline void hri_aes_set_CTRLB_START_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg |= AES_CTRLB_START;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLB_START_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp = (tmp & AES_CTRLB_START) >> AES_CTRLB_START_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLB_START_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp &= ~AES_CTRLB_START;
+	tmp |= value << AES_CTRLB_START_Pos;
+	((Aes *)hw)->CTRLB.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLB_START_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg &= ~AES_CTRLB_START;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLB_START_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg ^= AES_CTRLB_START;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLB_NEWMSG_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg |= AES_CTRLB_NEWMSG;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLB_NEWMSG_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp = (tmp & AES_CTRLB_NEWMSG) >> AES_CTRLB_NEWMSG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLB_NEWMSG_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp &= ~AES_CTRLB_NEWMSG;
+	tmp |= value << AES_CTRLB_NEWMSG_Pos;
+	((Aes *)hw)->CTRLB.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLB_NEWMSG_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg &= ~AES_CTRLB_NEWMSG;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLB_NEWMSG_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg ^= AES_CTRLB_NEWMSG;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLB_EOM_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg |= AES_CTRLB_EOM;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLB_EOM_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp = (tmp & AES_CTRLB_EOM) >> AES_CTRLB_EOM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLB_EOM_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp &= ~AES_CTRLB_EOM;
+	tmp |= value << AES_CTRLB_EOM_Pos;
+	((Aes *)hw)->CTRLB.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLB_EOM_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg &= ~AES_CTRLB_EOM;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLB_EOM_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg ^= AES_CTRLB_EOM;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLB_GFMUL_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg |= AES_CTRLB_GFMUL;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_aes_get_CTRLB_GFMUL_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp = (tmp & AES_CTRLB_GFMUL) >> AES_CTRLB_GFMUL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_aes_write_CTRLB_GFMUL_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp &= ~AES_CTRLB_GFMUL;
+	tmp |= value << AES_CTRLB_GFMUL_Pos;
+	((Aes *)hw)->CTRLB.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLB_GFMUL_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg &= ~AES_CTRLB_GFMUL;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLB_GFMUL_bit(const void *const hw)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg ^= AES_CTRLB_GFMUL;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_set_CTRLB_reg(const void *const hw, hri_aes_ctrlb_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrlb_reg_t hri_aes_get_CTRLB_reg(const void *const hw, hri_aes_ctrlb_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_CTRLB_reg(const void *const hw, hri_aes_ctrlb_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CTRLB_reg(const void *const hw, hri_aes_ctrlb_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CTRLB_reg(const void *const hw, hri_aes_ctrlb_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CTRLB.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ctrlb_reg_t hri_aes_read_CTRLB_reg(const void *const hw)
+{
+	return ((Aes *)hw)->CTRLB.reg;
+}
+
+static inline void hri_aes_set_DATABUFPTR_INDATAPTR_bf(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg |= AES_DATABUFPTR_INDATAPTR(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_databufptr_reg_t hri_aes_get_DATABUFPTR_INDATAPTR_bf(const void *const        hw,
+                                                                           hri_aes_databufptr_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->DATABUFPTR.reg;
+	tmp = (tmp & AES_DATABUFPTR_INDATAPTR(mask)) >> AES_DATABUFPTR_INDATAPTR_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_write_DATABUFPTR_INDATAPTR_bf(const void *const hw, hri_aes_databufptr_reg_t data)
+{
+	uint8_t tmp;
+	AES_CRITICAL_SECTION_ENTER();
+	tmp = ((Aes *)hw)->DATABUFPTR.reg;
+	tmp &= ~AES_DATABUFPTR_INDATAPTR_Msk;
+	tmp |= AES_DATABUFPTR_INDATAPTR(data);
+	((Aes *)hw)->DATABUFPTR.reg = tmp;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_DATABUFPTR_INDATAPTR_bf(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg &= ~AES_DATABUFPTR_INDATAPTR(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_DATABUFPTR_INDATAPTR_bf(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg ^= AES_DATABUFPTR_INDATAPTR(mask);
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_databufptr_reg_t hri_aes_read_DATABUFPTR_INDATAPTR_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->DATABUFPTR.reg;
+	tmp = (tmp & AES_DATABUFPTR_INDATAPTR_Msk) >> AES_DATABUFPTR_INDATAPTR_Pos;
+	return tmp;
+}
+
+static inline void hri_aes_set_DATABUFPTR_reg(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_databufptr_reg_t hri_aes_get_DATABUFPTR_reg(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Aes *)hw)->DATABUFPTR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_DATABUFPTR_reg(const void *const hw, hri_aes_databufptr_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_DATABUFPTR_reg(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_DATABUFPTR_reg(const void *const hw, hri_aes_databufptr_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DATABUFPTR.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_databufptr_reg_t hri_aes_read_DATABUFPTR_reg(const void *const hw)
+{
+	return ((Aes *)hw)->DATABUFPTR.reg;
+}
+
+static inline void hri_aes_set_INDATA_reg(const void *const hw, hri_aes_indata_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->INDATA.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_indata_reg_t hri_aes_get_INDATA_reg(const void *const hw, hri_aes_indata_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->INDATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_INDATA_reg(const void *const hw, hri_aes_indata_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->INDATA.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_INDATA_reg(const void *const hw, hri_aes_indata_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->INDATA.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_INDATA_reg(const void *const hw, hri_aes_indata_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->INDATA.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_indata_reg_t hri_aes_read_INDATA_reg(const void *const hw)
+{
+	return ((Aes *)hw)->INDATA.reg;
+}
+
+static inline void hri_aes_set_HASHKEY_reg(const void *const hw, uint8_t index, hri_aes_hashkey_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->HASHKEY[index].reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_hashkey_reg_t hri_aes_get_HASHKEY_reg(const void *const hw, uint8_t index,
+                                                            hri_aes_hashkey_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->HASHKEY[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_HASHKEY_reg(const void *const hw, uint8_t index, hri_aes_hashkey_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->HASHKEY[index].reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_HASHKEY_reg(const void *const hw, uint8_t index, hri_aes_hashkey_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->HASHKEY[index].reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_HASHKEY_reg(const void *const hw, uint8_t index, hri_aes_hashkey_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->HASHKEY[index].reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_hashkey_reg_t hri_aes_read_HASHKEY_reg(const void *const hw, uint8_t index)
+{
+	return ((Aes *)hw)->HASHKEY[index].reg;
+}
+
+static inline void hri_aes_set_GHASH_reg(const void *const hw, uint8_t index, hri_aes_ghash_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->GHASH[index].reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ghash_reg_t hri_aes_get_GHASH_reg(const void *const hw, uint8_t index, hri_aes_ghash_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->GHASH[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_GHASH_reg(const void *const hw, uint8_t index, hri_aes_ghash_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->GHASH[index].reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_GHASH_reg(const void *const hw, uint8_t index, hri_aes_ghash_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->GHASH[index].reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_GHASH_reg(const void *const hw, uint8_t index, hri_aes_ghash_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->GHASH[index].reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ghash_reg_t hri_aes_read_GHASH_reg(const void *const hw, uint8_t index)
+{
+	return ((Aes *)hw)->GHASH[index].reg;
+}
+
+static inline void hri_aes_set_CIPLEN_reg(const void *const hw, hri_aes_ciplen_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CIPLEN.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ciplen_reg_t hri_aes_get_CIPLEN_reg(const void *const hw, hri_aes_ciplen_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->CIPLEN.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_CIPLEN_reg(const void *const hw, hri_aes_ciplen_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CIPLEN.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_CIPLEN_reg(const void *const hw, hri_aes_ciplen_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CIPLEN.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_CIPLEN_reg(const void *const hw, hri_aes_ciplen_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->CIPLEN.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_ciplen_reg_t hri_aes_read_CIPLEN_reg(const void *const hw)
+{
+	return ((Aes *)hw)->CIPLEN.reg;
+}
+
+static inline void hri_aes_set_RANDSEED_reg(const void *const hw, hri_aes_randseed_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->RANDSEED.reg |= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_randseed_reg_t hri_aes_get_RANDSEED_reg(const void *const hw, hri_aes_randseed_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Aes *)hw)->RANDSEED.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_aes_write_RANDSEED_reg(const void *const hw, hri_aes_randseed_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->RANDSEED.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_clear_RANDSEED_reg(const void *const hw, hri_aes_randseed_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->RANDSEED.reg &= ~mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_toggle_RANDSEED_reg(const void *const hw, hri_aes_randseed_reg_t mask)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->RANDSEED.reg ^= mask;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_aes_randseed_reg_t hri_aes_read_RANDSEED_reg(const void *const hw)
+{
+	return ((Aes *)hw)->RANDSEED.reg;
+}
+
+static inline void hri_aes_write_DBGCTRL_reg(const void *const hw, hri_aes_dbgctrl_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->DBGCTRL.reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_write_KEYWORD_reg(const void *const hw, uint8_t index, hri_aes_keyword_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->KEYWORD[index].reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_aes_write_INTVECTV_reg(const void *const hw, uint8_t index, hri_aes_intvectv_reg_t data)
+{
+	AES_CRITICAL_SECTION_ENTER();
+	((Aes *)hw)->INTVECTV[index].reg = data;
+	AES_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_AES_L22_H_INCLUDED */
+#endif /* _SAML22_AES_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_ccl_l22.h b/watch-library/hardware/hri/hri_ccl_l22.h
new file mode 100644
index 00000000..b510c86a
--- /dev/null
+++ b/watch-library/hardware/hri/hri_ccl_l22.h
@@ -0,0 +1,776 @@
+/**
+ * \file
+ *
+ * \brief SAM CCL
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_CCL_COMPONENT_
+#ifndef _HRI_CCL_L22_H_INCLUDED_
+#define _HRI_CCL_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_CCL_CRITICAL_SECTIONS)
+#define CCL_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define CCL_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define CCL_CRITICAL_SECTION_ENTER()
+#define CCL_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_ccl_lutctrl_reg_t;
+typedef uint8_t  hri_ccl_ctrl_reg_t;
+typedef uint8_t  hri_ccl_seqctrl_reg_t;
+
+static inline void hri_ccl_set_CTRL_SWRST_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg |= CCL_CTRL_SWRST;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_CTRL_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp = (tmp & CCL_CTRL_SWRST) >> CCL_CTRL_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_set_CTRL_ENABLE_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg |= CCL_CTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_CTRL_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp = (tmp & CCL_CTRL_ENABLE) >> CCL_CTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_CTRL_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp &= ~CCL_CTRL_ENABLE;
+	tmp |= value << CCL_CTRL_ENABLE_Pos;
+	((Ccl *)hw)->CTRL.reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_CTRL_ENABLE_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg &= ~CCL_CTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_CTRL_ENABLE_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg ^= CCL_CTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_CTRL_RUNSTDBY_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg |= CCL_CTRL_RUNSTDBY;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_CTRL_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp = (tmp & CCL_CTRL_RUNSTDBY) >> CCL_CTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_CTRL_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp &= ~CCL_CTRL_RUNSTDBY;
+	tmp |= value << CCL_CTRL_RUNSTDBY_Pos;
+	((Ccl *)hw)->CTRL.reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_CTRL_RUNSTDBY_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg &= ~CCL_CTRL_RUNSTDBY;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_CTRL_RUNSTDBY_bit(const void *const hw)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg ^= CCL_CTRL_RUNSTDBY;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_CTRL_reg(const void *const hw, hri_ccl_ctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg |= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_ctrl_reg_t hri_ccl_get_CTRL_reg(const void *const hw, hri_ccl_ctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->CTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ccl_write_CTRL_reg(const void *const hw, hri_ccl_ctrl_reg_t data)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg = data;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_CTRL_reg(const void *const hw, hri_ccl_ctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg &= ~mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_CTRL_reg(const void *const hw, hri_ccl_ctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->CTRL.reg ^= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_ctrl_reg_t hri_ccl_read_CTRL_reg(const void *const hw)
+{
+	return ((Ccl *)hw)->CTRL.reg;
+}
+
+static inline void hri_ccl_set_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg |= CCL_SEQCTRL_SEQSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_seqctrl_reg_t hri_ccl_get_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index,
+                                                                  hri_ccl_seqctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->SEQCTRL[index].reg;
+	tmp = (tmp & CCL_SEQCTRL_SEQSEL(mask)) >> CCL_SEQCTRL_SEQSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t data)
+{
+	uint8_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->SEQCTRL[index].reg;
+	tmp &= ~CCL_SEQCTRL_SEQSEL_Msk;
+	tmp |= CCL_SEQCTRL_SEQSEL(data);
+	((Ccl *)hw)->SEQCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg &= ~CCL_SEQCTRL_SEQSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg ^= CCL_SEQCTRL_SEQSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_seqctrl_reg_t hri_ccl_read_SEQCTRL_SEQSEL_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->SEQCTRL[index].reg;
+	tmp = (tmp & CCL_SEQCTRL_SEQSEL_Msk) >> CCL_SEQCTRL_SEQSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_SEQCTRL_reg(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg |= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_seqctrl_reg_t hri_ccl_get_SEQCTRL_reg(const void *const hw, uint8_t index,
+                                                            hri_ccl_seqctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Ccl *)hw)->SEQCTRL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ccl_write_SEQCTRL_reg(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t data)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg = data;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_SEQCTRL_reg(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg &= ~mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_SEQCTRL_reg(const void *const hw, uint8_t index, hri_ccl_seqctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->SEQCTRL[index].reg ^= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_seqctrl_reg_t hri_ccl_read_SEQCTRL_reg(const void *const hw, uint8_t index)
+{
+	return ((Ccl *)hw)->SEQCTRL[index].reg;
+}
+
+static inline void hri_ccl_set_LUTCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_LUTCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_ENABLE) >> CCL_LUTCTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_ENABLE_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_ENABLE;
+	tmp |= value << CCL_LUTCTRL_ENABLE_Pos;
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_ENABLE_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_ENABLE;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_LUTCTRL_EDGESEL_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_EDGESEL;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_LUTCTRL_EDGESEL_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_EDGESEL) >> CCL_LUTCTRL_EDGESEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_EDGESEL_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_EDGESEL;
+	tmp |= value << CCL_LUTCTRL_EDGESEL_Pos;
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_EDGESEL_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_EDGESEL;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_EDGESEL_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_EDGESEL;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_LUTCTRL_INVEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_INVEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_LUTCTRL_INVEI_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INVEI) >> CCL_LUTCTRL_INVEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_INVEI_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_INVEI;
+	tmp |= value << CCL_LUTCTRL_INVEI_Pos;
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_INVEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_INVEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_INVEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_INVEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_LUTCTRL_LUTEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_LUTEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_LUTCTRL_LUTEI_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_LUTEI) >> CCL_LUTCTRL_LUTEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_LUTEI_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_LUTEI;
+	tmp |= value << CCL_LUTCTRL_LUTEI_Pos;
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_LUTEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_LUTEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_LUTEI_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_LUTEI;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_LUTCTRL_LUTEO_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_LUTEO;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_ccl_get_LUTCTRL_LUTEO_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_LUTEO) >> CCL_LUTCTRL_LUTEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_LUTEO_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_LUTEO;
+	tmp |= value << CCL_LUTCTRL_LUTEO_Pos;
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_LUTEO_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_LUTEO;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_LUTEO_bit(const void *const hw, uint8_t index)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_LUTEO;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_set_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_FILTSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index,
+                                                                   hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_FILTSEL(mask)) >> CCL_LUTCTRL_FILTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_FILTSEL_Msk;
+	tmp |= CCL_LUTCTRL_FILTSEL(data);
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_FILTSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_FILTSEL(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_FILTSEL_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_FILTSEL_Msk) >> CCL_LUTCTRL_FILTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_INSEL0(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index,
+                                                                  hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL0(mask)) >> CCL_LUTCTRL_INSEL0_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_INSEL0_Msk;
+	tmp |= CCL_LUTCTRL_INSEL0(data);
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_INSEL0(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_INSEL0(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_INSEL0_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL0_Msk) >> CCL_LUTCTRL_INSEL0_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_INSEL1(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index,
+                                                                  hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL1(mask)) >> CCL_LUTCTRL_INSEL1_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_INSEL1_Msk;
+	tmp |= CCL_LUTCTRL_INSEL1(data);
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_INSEL1(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_INSEL1(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_INSEL1_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL1_Msk) >> CCL_LUTCTRL_INSEL1_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_INSEL2(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index,
+                                                                  hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL2(mask)) >> CCL_LUTCTRL_INSEL2_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_INSEL2_Msk;
+	tmp |= CCL_LUTCTRL_INSEL2(data);
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_INSEL2(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_INSEL2(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_INSEL2_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_INSEL2_Msk) >> CCL_LUTCTRL_INSEL2_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= CCL_LUTCTRL_TRUTH(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index,
+                                                                 hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_TRUTH(mask)) >> CCL_LUTCTRL_TRUTH_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	uint32_t tmp;
+	CCL_CRITICAL_SECTION_ENTER();
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= ~CCL_LUTCTRL_TRUTH_Msk;
+	tmp |= CCL_LUTCTRL_TRUTH(data);
+	((Ccl *)hw)->LUTCTRL[index].reg = tmp;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~CCL_LUTCTRL_TRUTH(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= CCL_LUTCTRL_TRUTH(mask);
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_TRUTH_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp = (tmp & CCL_LUTCTRL_TRUTH_Msk) >> CCL_LUTCTRL_TRUTH_Pos;
+	return tmp;
+}
+
+static inline void hri_ccl_set_LUTCTRL_reg(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg |= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_get_LUTCTRL_reg(const void *const hw, uint8_t index,
+                                                            hri_ccl_lutctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Ccl *)hw)->LUTCTRL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_ccl_write_LUTCTRL_reg(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t data)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg = data;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_clear_LUTCTRL_reg(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg &= ~mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_ccl_toggle_LUTCTRL_reg(const void *const hw, uint8_t index, hri_ccl_lutctrl_reg_t mask)
+{
+	CCL_CRITICAL_SECTION_ENTER();
+	((Ccl *)hw)->LUTCTRL[index].reg ^= mask;
+	CCL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_ccl_lutctrl_reg_t hri_ccl_read_LUTCTRL_reg(const void *const hw, uint8_t index)
+{
+	return ((Ccl *)hw)->LUTCTRL[index].reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_CCL_L22_H_INCLUDED */
+#endif /* _SAML22_CCL_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_dmac_l22.h b/watch-library/hardware/hri/hri_dmac_l22.h
new file mode 100644
index 00000000..a20e28ee
--- /dev/null
+++ b/watch-library/hardware/hri/hri_dmac_l22.h
@@ -0,0 +1,4559 @@
+/**
+ * \file
+ *
+ * \brief SAM DMAC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_DMAC_COMPONENT_
+#ifndef _HRI_DMAC_L22_H_INCLUDED_
+#define _HRI_DMAC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_DMAC_CRITICAL_SECTIONS)
+#define DMAC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define DMAC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define DMAC_CRITICAL_SECTION_ENTER()
+#define DMAC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_dmac_crcctrl_reg_t;
+typedef uint16_t hri_dmac_ctrl_reg_t;
+typedef uint16_t hri_dmac_intpend_reg_t;
+typedef uint16_t hri_dmacdescriptor_btcnt_reg_t;
+typedef uint16_t hri_dmacdescriptor_btctrl_reg_t;
+typedef uint32_t hri_dmac_active_reg_t;
+typedef uint32_t hri_dmac_baseaddr_reg_t;
+typedef uint32_t hri_dmac_busych_reg_t;
+typedef uint32_t hri_dmac_chctrlb_reg_t;
+typedef uint32_t hri_dmac_crcchksum_reg_t;
+typedef uint32_t hri_dmac_crcdatain_reg_t;
+typedef uint32_t hri_dmac_intstatus_reg_t;
+typedef uint32_t hri_dmac_pendch_reg_t;
+typedef uint32_t hri_dmac_prictrl0_reg_t;
+typedef uint32_t hri_dmac_swtrigctrl_reg_t;
+typedef uint32_t hri_dmac_wrbaddr_reg_t;
+typedef uint32_t hri_dmacdescriptor_descaddr_reg_t;
+typedef uint32_t hri_dmacdescriptor_dstaddr_reg_t;
+typedef uint32_t hri_dmacdescriptor_srcaddr_reg_t;
+typedef uint8_t  hri_dmac_chctrla_reg_t;
+typedef uint8_t  hri_dmac_chid_reg_t;
+typedef uint8_t  hri_dmac_chintenset_reg_t;
+typedef uint8_t  hri_dmac_chintflag_reg_t;
+typedef uint8_t  hri_dmac_chstatus_reg_t;
+typedef uint8_t  hri_dmac_crcstatus_reg_t;
+typedef uint8_t  hri_dmac_dbgctrl_reg_t;
+typedef uint8_t  hri_dmac_qosctrl_reg_t;
+
+static inline bool hri_dmac_get_CHINTFLAG_TERR_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos;
+}
+
+static inline void hri_dmac_clear_CHINTFLAG_TERR_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR;
+}
+
+static inline bool hri_dmac_get_CHINTFLAG_TCMPL_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos;
+}
+
+static inline void hri_dmac_clear_CHINTFLAG_TCMPL_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL;
+}
+
+static inline bool hri_dmac_get_CHINTFLAG_SUSP_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos;
+}
+
+static inline void hri_dmac_clear_CHINTFLAG_SUSP_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP;
+}
+
+static inline bool hri_dmac_get_interrupt_TERR_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos;
+}
+
+static inline void hri_dmac_clear_interrupt_TERR_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR;
+}
+
+static inline bool hri_dmac_get_interrupt_TCMPL_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos;
+}
+
+static inline void hri_dmac_clear_interrupt_TCMPL_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL;
+}
+
+static inline bool hri_dmac_get_interrupt_SUSP_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos;
+}
+
+static inline void hri_dmac_clear_interrupt_SUSP_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP;
+}
+
+static inline hri_dmac_chintflag_reg_t hri_dmac_get_CHINTFLAG_reg(const void *const hw, hri_dmac_chintflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHINTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_chintflag_reg_t hri_dmac_read_CHINTFLAG_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHINTFLAG.reg;
+}
+
+static inline void hri_dmac_clear_CHINTFLAG_reg(const void *const hw, hri_dmac_chintflag_reg_t mask)
+{
+	((Dmac *)hw)->CHINTFLAG.reg = mask;
+}
+
+static inline void hri_dmac_set_CHINTEN_TERR_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TERR;
+}
+
+static inline bool hri_dmac_get_CHINTEN_TERR_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_TERR) >> DMAC_CHINTENSET_TERR_Pos;
+}
+
+static inline void hri_dmac_write_CHINTEN_TERR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TERR;
+	} else {
+		((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TERR;
+	}
+}
+
+static inline void hri_dmac_clear_CHINTEN_TERR_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TERR;
+}
+
+static inline void hri_dmac_set_CHINTEN_TCMPL_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL;
+}
+
+static inline bool hri_dmac_get_CHINTEN_TCMPL_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_TCMPL) >> DMAC_CHINTENSET_TCMPL_Pos;
+}
+
+static inline void hri_dmac_write_CHINTEN_TCMPL_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL;
+	} else {
+		((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL;
+	}
+}
+
+static inline void hri_dmac_clear_CHINTEN_TCMPL_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL;
+}
+
+static inline void hri_dmac_set_CHINTEN_SUSP_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_SUSP;
+}
+
+static inline bool hri_dmac_get_CHINTEN_SUSP_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_SUSP) >> DMAC_CHINTENSET_SUSP_Pos;
+}
+
+static inline void hri_dmac_write_CHINTEN_SUSP_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_SUSP;
+	} else {
+		((Dmac *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_SUSP;
+	}
+}
+
+static inline void hri_dmac_clear_CHINTEN_SUSP_bit(const void *const hw)
+{
+	((Dmac *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_SUSP;
+}
+
+static inline void hri_dmac_set_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask)
+{
+	((Dmac *)hw)->CHINTENSET.reg = mask;
+}
+
+static inline hri_dmac_chintenset_reg_t hri_dmac_get_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHINTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_chintenset_reg_t hri_dmac_read_CHINTEN_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHINTENSET.reg;
+}
+
+static inline void hri_dmac_write_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t data)
+{
+	((Dmac *)hw)->CHINTENSET.reg = data;
+	((Dmac *)hw)->CHINTENCLR.reg = ~data;
+}
+
+static inline void hri_dmac_clear_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask)
+{
+	((Dmac *)hw)->CHINTENCLR.reg = mask;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT0_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT0) >> DMAC_INTSTATUS_CHINT0_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT1_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT1) >> DMAC_INTSTATUS_CHINT1_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT2_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT2) >> DMAC_INTSTATUS_CHINT2_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT3_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT3) >> DMAC_INTSTATUS_CHINT3_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT4_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT4) >> DMAC_INTSTATUS_CHINT4_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT5_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT5) >> DMAC_INTSTATUS_CHINT5_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT6_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT6) >> DMAC_INTSTATUS_CHINT6_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT7_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT7) >> DMAC_INTSTATUS_CHINT7_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT8_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT8) >> DMAC_INTSTATUS_CHINT8_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT9_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT9) >> DMAC_INTSTATUS_CHINT9_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT10_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT10) >> DMAC_INTSTATUS_CHINT10_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT11_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT11) >> DMAC_INTSTATUS_CHINT11_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT12_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT12) >> DMAC_INTSTATUS_CHINT12_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT13_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT13) >> DMAC_INTSTATUS_CHINT13_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT14_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT14) >> DMAC_INTSTATUS_CHINT14_Pos;
+}
+
+static inline bool hri_dmac_get_INTSTATUS_CHINT15_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT15) >> DMAC_INTSTATUS_CHINT15_Pos;
+}
+
+static inline hri_dmac_intstatus_reg_t hri_dmac_get_INTSTATUS_reg(const void *const hw, hri_dmac_intstatus_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->INTSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_intstatus_reg_t hri_dmac_read_INTSTATUS_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->INTSTATUS.reg;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH0_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH0) >> DMAC_BUSYCH_BUSYCH0_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH1_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH1) >> DMAC_BUSYCH_BUSYCH1_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH2_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH2) >> DMAC_BUSYCH_BUSYCH2_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH3_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH3) >> DMAC_BUSYCH_BUSYCH3_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH4_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH4) >> DMAC_BUSYCH_BUSYCH4_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH5_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH5) >> DMAC_BUSYCH_BUSYCH5_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH6_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH6) >> DMAC_BUSYCH_BUSYCH6_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH7_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH7) >> DMAC_BUSYCH_BUSYCH7_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH8_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH8) >> DMAC_BUSYCH_BUSYCH8_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH9_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH9) >> DMAC_BUSYCH_BUSYCH9_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH10_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH10) >> DMAC_BUSYCH_BUSYCH10_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH11_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH11) >> DMAC_BUSYCH_BUSYCH11_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH12_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH12) >> DMAC_BUSYCH_BUSYCH12_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH13_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH13) >> DMAC_BUSYCH_BUSYCH13_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH14_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH14) >> DMAC_BUSYCH_BUSYCH14_Pos;
+}
+
+static inline bool hri_dmac_get_BUSYCH_BUSYCH15_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH15) >> DMAC_BUSYCH_BUSYCH15_Pos;
+}
+
+static inline hri_dmac_busych_reg_t hri_dmac_get_BUSYCH_reg(const void *const hw, hri_dmac_busych_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->BUSYCH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_busych_reg_t hri_dmac_read_BUSYCH_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->BUSYCH.reg;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH0_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH0) >> DMAC_PENDCH_PENDCH0_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH1_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH1) >> DMAC_PENDCH_PENDCH1_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH2_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH2) >> DMAC_PENDCH_PENDCH2_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH3_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH3) >> DMAC_PENDCH_PENDCH3_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH4_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH4) >> DMAC_PENDCH_PENDCH4_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH5_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH5) >> DMAC_PENDCH_PENDCH5_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH6_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH6) >> DMAC_PENDCH_PENDCH6_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH7_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH7) >> DMAC_PENDCH_PENDCH7_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH8_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH8) >> DMAC_PENDCH_PENDCH8_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH9_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH9) >> DMAC_PENDCH_PENDCH9_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH10_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH10) >> DMAC_PENDCH_PENDCH10_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH11_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH11) >> DMAC_PENDCH_PENDCH11_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH12_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH12) >> DMAC_PENDCH_PENDCH12_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH13_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH13) >> DMAC_PENDCH_PENDCH13_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH14_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH14) >> DMAC_PENDCH_PENDCH14_Pos;
+}
+
+static inline bool hri_dmac_get_PENDCH_PENDCH15_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH15) >> DMAC_PENDCH_PENDCH15_Pos;
+}
+
+static inline hri_dmac_pendch_reg_t hri_dmac_get_PENDCH_reg(const void *const hw, hri_dmac_pendch_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PENDCH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_pendch_reg_t hri_dmac_read_PENDCH_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->PENDCH.reg;
+}
+
+static inline bool hri_dmac_get_ACTIVE_LVLEX0_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX0) >> DMAC_ACTIVE_LVLEX0_Pos;
+}
+
+static inline bool hri_dmac_get_ACTIVE_LVLEX1_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX1) >> DMAC_ACTIVE_LVLEX1_Pos;
+}
+
+static inline bool hri_dmac_get_ACTIVE_LVLEX2_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX2) >> DMAC_ACTIVE_LVLEX2_Pos;
+}
+
+static inline bool hri_dmac_get_ACTIVE_LVLEX3_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX3) >> DMAC_ACTIVE_LVLEX3_Pos;
+}
+
+static inline bool hri_dmac_get_ACTIVE_ABUSY_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ABUSY) >> DMAC_ACTIVE_ABUSY_Pos;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_ID_bf(const void *const hw, hri_dmac_active_reg_t mask)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ID(mask)) >> DMAC_ACTIVE_ID_Pos;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_ID_bf(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ID_Msk) >> DMAC_ACTIVE_ID_Pos;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_BTCNT_bf(const void *const hw, hri_dmac_active_reg_t mask)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_BTCNT(mask)) >> DMAC_ACTIVE_BTCNT_Pos;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_BTCNT_bf(const void *const hw)
+{
+	return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_BTCNT_Msk) >> DMAC_ACTIVE_BTCNT_Pos;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_reg(const void *const hw, hri_dmac_active_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->ACTIVE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->ACTIVE.reg;
+}
+
+static inline bool hri_dmac_get_CHSTATUS_PEND_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_PEND) >> DMAC_CHSTATUS_PEND_Pos;
+}
+
+static inline bool hri_dmac_get_CHSTATUS_BUSY_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_BUSY) >> DMAC_CHSTATUS_BUSY_Pos;
+}
+
+static inline bool hri_dmac_get_CHSTATUS_FERR_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_FERR) >> DMAC_CHSTATUS_FERR_Pos;
+}
+
+static inline hri_dmac_chstatus_reg_t hri_dmac_get_CHSTATUS_reg(const void *const hw, hri_dmac_chstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dmac_chstatus_reg_t hri_dmac_read_CHSTATUS_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHSTATUS.reg;
+}
+
+static inline void hri_dmac_set_CTRL_SWRST_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_SWRST;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_SWRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_SWRST) >> DMAC_CTRL_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_set_CTRL_DMAENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_DMAENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_DMAENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_DMAENABLE) >> DMAC_CTRL_DMAENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_DMAENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_DMAENABLE;
+	tmp |= value << DMAC_CTRL_DMAENABLE_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_DMAENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_DMAENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_DMAENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_DMAENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_CRCENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_CRCENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_CRCENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_CRCENABLE) >> DMAC_CTRL_CRCENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_CRCENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_CRCENABLE;
+	tmp |= value << DMAC_CTRL_CRCENABLE_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_CRCENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_CRCENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_CRCENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_CRCENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_LVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_LVLEN0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_LVLEN0) >> DMAC_CTRL_LVLEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_LVLEN0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_LVLEN0;
+	tmp |= value << DMAC_CTRL_LVLEN0_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_LVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_LVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_LVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_LVLEN1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_LVLEN1) >> DMAC_CTRL_LVLEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_LVLEN1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_LVLEN1;
+	tmp |= value << DMAC_CTRL_LVLEN1_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_LVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_LVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_LVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_LVLEN2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_LVLEN2) >> DMAC_CTRL_LVLEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_LVLEN2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_LVLEN2;
+	tmp |= value << DMAC_CTRL_LVLEN2_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_LVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_LVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_LVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CTRL_LVLEN3_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp = (tmp & DMAC_CTRL_LVLEN3) >> DMAC_CTRL_LVLEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CTRL_LVLEN3_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= ~DMAC_CTRL_LVLEN3;
+	tmp |= value << DMAC_CTRL_LVLEN3_Pos;
+	((Dmac *)hw)->CTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_LVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_LVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_ctrl_reg_t hri_dmac_get_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_ctrl_reg_t hri_dmac_read_CTRL_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CTRL.reg;
+}
+
+static inline void hri_dmac_set_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCBEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCBEATSIZE_bf(const void *const      hw,
+                                                                         hri_dmac_crcctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCBEATSIZE(mask)) >> DMAC_CRCCTRL_CRCBEATSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp &= ~DMAC_CRCCTRL_CRCBEATSIZE_Msk;
+	tmp |= DMAC_CRCCTRL_CRCBEATSIZE(data);
+	((Dmac *)hw)->CRCCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCBEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCBEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCBEATSIZE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCBEATSIZE_Msk) >> DMAC_CRCCTRL_CRCBEATSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCPOLY(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCPOLY(mask)) >> DMAC_CRCCTRL_CRCPOLY_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp &= ~DMAC_CRCCTRL_CRCPOLY_Msk;
+	tmp |= DMAC_CRCCTRL_CRCPOLY(data);
+	((Dmac *)hw)->CRCCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCPOLY(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCPOLY(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCPOLY_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCPOLY_Msk) >> DMAC_CRCCTRL_CRCPOLY_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCSRC(mask)) >> DMAC_CRCCTRL_CRCSRC_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp &= ~DMAC_CRCCTRL_CRCSRC_Msk;
+	tmp |= DMAC_CRCCTRL_CRCSRC(data);
+	((Dmac *)hw)->CRCCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCSRC_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp = (tmp & DMAC_CRCCTRL_CRCSRC_Msk) >> DMAC_CRCCTRL_CRCSRC_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->CRCCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CRCCTRL.reg;
+}
+
+static inline void hri_dmac_set_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg |= DMAC_CRCDATAIN_CRCDATAIN(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcdatain_reg_t hri_dmac_get_CRCDATAIN_CRCDATAIN_bf(const void *const        hw,
+                                                                           hri_dmac_crcdatain_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCDATAIN.reg;
+	tmp = (tmp & DMAC_CRCDATAIN_CRCDATAIN(mask)) >> DMAC_CRCDATAIN_CRCDATAIN_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CRCDATAIN.reg;
+	tmp &= ~DMAC_CRCDATAIN_CRCDATAIN_Msk;
+	tmp |= DMAC_CRCDATAIN_CRCDATAIN(data);
+	((Dmac *)hw)->CRCDATAIN.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg &= ~DMAC_CRCDATAIN_CRCDATAIN(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg ^= DMAC_CRCDATAIN_CRCDATAIN(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcdatain_reg_t hri_dmac_read_CRCDATAIN_CRCDATAIN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCDATAIN.reg;
+	tmp = (tmp & DMAC_CRCDATAIN_CRCDATAIN_Msk) >> DMAC_CRCDATAIN_CRCDATAIN_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcdatain_reg_t hri_dmac_get_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCDATAIN.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCDATAIN.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcdatain_reg_t hri_dmac_read_CRCDATAIN_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CRCDATAIN.reg;
+}
+
+static inline void hri_dmac_set_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg |= DMAC_CRCCHKSUM_CRCCHKSUM(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcchksum_reg_t hri_dmac_get_CRCCHKSUM_CRCCHKSUM_bf(const void *const        hw,
+                                                                           hri_dmac_crcchksum_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCCHKSUM.reg;
+	tmp = (tmp & DMAC_CRCCHKSUM_CRCCHKSUM(mask)) >> DMAC_CRCCHKSUM_CRCCHKSUM_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CRCCHKSUM.reg;
+	tmp &= ~DMAC_CRCCHKSUM_CRCCHKSUM_Msk;
+	tmp |= DMAC_CRCCHKSUM_CRCCHKSUM(data);
+	((Dmac *)hw)->CRCCHKSUM.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg &= ~DMAC_CRCCHKSUM_CRCCHKSUM(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg ^= DMAC_CRCCHKSUM_CRCCHKSUM(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcchksum_reg_t hri_dmac_read_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCCHKSUM.reg;
+	tmp = (tmp & DMAC_CRCCHKSUM_CRCCHKSUM_Msk) >> DMAC_CRCCHKSUM_CRCCHKSUM_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcchksum_reg_t hri_dmac_get_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CRCCHKSUM.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCCHKSUM.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcchksum_reg_t hri_dmac_read_CRCCHKSUM_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CRCCHKSUM.reg;
+}
+
+static inline void hri_dmac_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg |= DMAC_DBGCTRL_DBGRUN;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->DBGCTRL.reg;
+	tmp = (tmp & DMAC_DBGCTRL_DBGRUN) >> DMAC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->DBGCTRL.reg;
+	tmp &= ~DMAC_DBGCTRL_DBGRUN;
+	tmp |= value << DMAC_DBGCTRL_DBGRUN_Pos;
+	((Dmac *)hw)->DBGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg &= ~DMAC_DBGCTRL_DBGRUN;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg ^= DMAC_DBGCTRL_DBGRUN;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_dbgctrl_reg_t hri_dmac_get_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->DBGCTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_dbgctrl_reg_t hri_dmac_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->DBGCTRL.reg;
+}
+
+static inline void hri_dmac_set_QOSCTRL_WRBQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg |= DMAC_QOSCTRL_WRBQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_get_QOSCTRL_WRBQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_WRBQOS(mask)) >> DMAC_QOSCTRL_WRBQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_QOSCTRL_WRBQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t data)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp &= ~DMAC_QOSCTRL_WRBQOS_Msk;
+	tmp |= DMAC_QOSCTRL_WRBQOS(data);
+	((Dmac *)hw)->QOSCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_QOSCTRL_WRBQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg &= ~DMAC_QOSCTRL_WRBQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_QOSCTRL_WRBQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg ^= DMAC_QOSCTRL_WRBQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_read_QOSCTRL_WRBQOS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_WRBQOS_Msk) >> DMAC_QOSCTRL_WRBQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_QOSCTRL_FQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg |= DMAC_QOSCTRL_FQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_get_QOSCTRL_FQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_FQOS(mask)) >> DMAC_QOSCTRL_FQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_QOSCTRL_FQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t data)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp &= ~DMAC_QOSCTRL_FQOS_Msk;
+	tmp |= DMAC_QOSCTRL_FQOS(data);
+	((Dmac *)hw)->QOSCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_QOSCTRL_FQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg &= ~DMAC_QOSCTRL_FQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_QOSCTRL_FQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg ^= DMAC_QOSCTRL_FQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_read_QOSCTRL_FQOS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_FQOS_Msk) >> DMAC_QOSCTRL_FQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_QOSCTRL_DQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg |= DMAC_QOSCTRL_DQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_get_QOSCTRL_DQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_DQOS(mask)) >> DMAC_QOSCTRL_DQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_QOSCTRL_DQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t data)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp &= ~DMAC_QOSCTRL_DQOS_Msk;
+	tmp |= DMAC_QOSCTRL_DQOS(data);
+	((Dmac *)hw)->QOSCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_QOSCTRL_DQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg &= ~DMAC_QOSCTRL_DQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_QOSCTRL_DQOS_bf(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg ^= DMAC_QOSCTRL_DQOS(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_read_QOSCTRL_DQOS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp = (tmp & DMAC_QOSCTRL_DQOS_Msk) >> DMAC_QOSCTRL_DQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_QOSCTRL_reg(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_get_QOSCTRL_reg(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->QOSCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_QOSCTRL_reg(const void *const hw, hri_dmac_qosctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_QOSCTRL_reg(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_QOSCTRL_reg(const void *const hw, hri_dmac_qosctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->QOSCTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_qosctrl_reg_t hri_dmac_read_QOSCTRL_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->QOSCTRL.reg;
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG0) >> DMAC_SWTRIGCTRL_SWTRIG0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG0;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG0_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG1) >> DMAC_SWTRIGCTRL_SWTRIG1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG1;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG1_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG2) >> DMAC_SWTRIGCTRL_SWTRIG2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG2;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG2_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG3) >> DMAC_SWTRIGCTRL_SWTRIG3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG3;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG3_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG4_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG4;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG4) >> DMAC_SWTRIGCTRL_SWTRIG4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG4;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG4_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG4_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG4;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG4_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG4;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG5_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG5;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG5) >> DMAC_SWTRIGCTRL_SWTRIG5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG5;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG5_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG5_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG5;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG5_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG5;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG6_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG6;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG6) >> DMAC_SWTRIGCTRL_SWTRIG6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG6;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG6_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG6_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG6;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG6_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG6;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG7_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG7;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG7) >> DMAC_SWTRIGCTRL_SWTRIG7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG7;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG7_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG7_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG7;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG7_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG7;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG8_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG8;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG8_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG8) >> DMAC_SWTRIGCTRL_SWTRIG8_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG8_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG8;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG8_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG8_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG8;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG8_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG8;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG9_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG9;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG9_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG9) >> DMAC_SWTRIGCTRL_SWTRIG9_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG9_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG9;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG9_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG9_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG9;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG9_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG9;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG10_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG10;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG10_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG10) >> DMAC_SWTRIGCTRL_SWTRIG10_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG10_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG10;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG10_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG10_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG10;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG10_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG10;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG11_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG11;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG11_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG11) >> DMAC_SWTRIGCTRL_SWTRIG11_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG11_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG11;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG11_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG11_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG11;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG11_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG11;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG12_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG12;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG12_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG12) >> DMAC_SWTRIGCTRL_SWTRIG12_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG12_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG12;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG12_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG12_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG12;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG12_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG12;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG13_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG13;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG13_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG13) >> DMAC_SWTRIGCTRL_SWTRIG13_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG13_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG13;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG13_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG13_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG13;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG13_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG13;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG14_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG14;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG14_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG14) >> DMAC_SWTRIGCTRL_SWTRIG14_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG14_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG14;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG14_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG14_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG14;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG14_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG14;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG15_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG15;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG15_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG15) >> DMAC_SWTRIGCTRL_SWTRIG15_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG15_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= ~DMAC_SWTRIGCTRL_SWTRIG15;
+	tmp |= value << DMAC_SWTRIGCTRL_SWTRIG15_Pos;
+	((Dmac *)hw)->SWTRIGCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG15_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG15;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG15_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG15;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_swtrigctrl_reg_t hri_dmac_get_SWTRIGCTRL_reg(const void *const         hw,
+                                                                    hri_dmac_swtrigctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->SWTRIGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->SWTRIGCTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_swtrigctrl_reg_t hri_dmac_read_SWTRIGCTRL_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->SWTRIGCTRL.reg;
+}
+
+static inline void hri_dmac_set_PRICTRL0_RRLVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_PRICTRL0_RRLVLEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_RRLVLEN0) >> DMAC_PRICTRL0_RRLVLEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_RRLVLEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_RRLVLEN0;
+	tmp |= value << DMAC_PRICTRL0_RRLVLEN0_Pos;
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_RRLVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN0_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN0;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_PRICTRL0_RRLVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_PRICTRL0_RRLVLEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_RRLVLEN1) >> DMAC_PRICTRL0_RRLVLEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_RRLVLEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_RRLVLEN1;
+	tmp |= value << DMAC_PRICTRL0_RRLVLEN1_Pos;
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_RRLVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN1_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN1;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_PRICTRL0_RRLVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_PRICTRL0_RRLVLEN2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_RRLVLEN2) >> DMAC_PRICTRL0_RRLVLEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_RRLVLEN2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_RRLVLEN2;
+	tmp |= value << DMAC_PRICTRL0_RRLVLEN2_Pos;
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_RRLVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN2_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN2;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_PRICTRL0_RRLVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_PRICTRL0_RRLVLEN3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_RRLVLEN3) >> DMAC_PRICTRL0_RRLVLEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_RRLVLEN3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_RRLVLEN3;
+	tmp |= value << DMAC_PRICTRL0_RRLVLEN3_Pos;
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_RRLVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN3_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN3;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI0(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI0_bf(const void *const       hw,
+                                                                       hri_dmac_prictrl0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI0(mask)) >> DMAC_PRICTRL0_LVLPRI0_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_LVLPRI0_Msk;
+	tmp |= DMAC_PRICTRL0_LVLPRI0(data);
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI0(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI0(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI0_Msk) >> DMAC_PRICTRL0_LVLPRI0_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI1(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI1_bf(const void *const       hw,
+                                                                       hri_dmac_prictrl0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI1(mask)) >> DMAC_PRICTRL0_LVLPRI1_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_LVLPRI1_Msk;
+	tmp |= DMAC_PRICTRL0_LVLPRI1(data);
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI1(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI1(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI1_Msk) >> DMAC_PRICTRL0_LVLPRI1_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI2(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI2_bf(const void *const       hw,
+                                                                       hri_dmac_prictrl0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI2(mask)) >> DMAC_PRICTRL0_LVLPRI2_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_LVLPRI2_Msk;
+	tmp |= DMAC_PRICTRL0_LVLPRI2(data);
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI2(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI2(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI2_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI2_Msk) >> DMAC_PRICTRL0_LVLPRI2_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI3(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI3_bf(const void *const       hw,
+                                                                       hri_dmac_prictrl0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI3(mask)) >> DMAC_PRICTRL0_LVLPRI3_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= ~DMAC_PRICTRL0_LVLPRI3_Msk;
+	tmp |= DMAC_PRICTRL0_LVLPRI3(data);
+	((Dmac *)hw)->PRICTRL0.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI3(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI3(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI3_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp = (tmp & DMAC_PRICTRL0_LVLPRI3_Msk) >> DMAC_PRICTRL0_LVLPRI3_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->PRICTRL0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->PRICTRL0.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->PRICTRL0.reg;
+}
+
+static inline void hri_dmac_set_INTPEND_TERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_TERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_TERR_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_TERR) >> DMAC_INTPEND_TERR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_TERR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_TERR;
+	tmp |= value << DMAC_INTPEND_TERR_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_TERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_TERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_TERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_TERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_TCMPL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_TCMPL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_TCMPL_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_TCMPL) >> DMAC_INTPEND_TCMPL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_TCMPL_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_TCMPL;
+	tmp |= value << DMAC_INTPEND_TCMPL_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_TCMPL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_TCMPL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_TCMPL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_TCMPL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_SUSP_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_SUSP;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_SUSP_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_SUSP) >> DMAC_INTPEND_SUSP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_SUSP_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_SUSP;
+	tmp |= value << DMAC_INTPEND_SUSP_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_SUSP_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_SUSP;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_SUSP_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_SUSP;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_FERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_FERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_FERR_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_FERR) >> DMAC_INTPEND_FERR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_FERR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_FERR;
+	tmp |= value << DMAC_INTPEND_FERR_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_FERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_FERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_FERR_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_FERR;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_BUSY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_BUSY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_BUSY_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_BUSY) >> DMAC_INTPEND_BUSY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_BUSY_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_BUSY;
+	tmp |= value << DMAC_INTPEND_BUSY_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_BUSY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_BUSY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_BUSY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_BUSY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_PEND_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_PEND;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_INTPEND_PEND_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_PEND) >> DMAC_INTPEND_PEND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_PEND_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_PEND;
+	tmp |= value << DMAC_INTPEND_PEND_Pos;
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_PEND_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_PEND;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_PEND_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_PEND;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_intpend_reg_t hri_dmac_get_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_ID(mask)) >> DMAC_INTPEND_ID_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= ~DMAC_INTPEND_ID_Msk;
+	tmp |= DMAC_INTPEND_ID(data);
+	((Dmac *)hw)->INTPEND.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_intpend_reg_t hri_dmac_read_INTPEND_ID_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp = (tmp & DMAC_INTPEND_ID_Msk) >> DMAC_INTPEND_ID_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_intpend_reg_t hri_dmac_get_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Dmac *)hw)->INTPEND.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->INTPEND.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_intpend_reg_t hri_dmac_read_INTPEND_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->INTPEND.reg;
+}
+
+static inline void hri_dmac_set_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg |= DMAC_BASEADDR_BASEADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_baseaddr_reg_t hri_dmac_get_BASEADDR_BASEADDR_bf(const void *const       hw,
+                                                                        hri_dmac_baseaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->BASEADDR.reg;
+	tmp = (tmp & DMAC_BASEADDR_BASEADDR(mask)) >> DMAC_BASEADDR_BASEADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->BASEADDR.reg;
+	tmp &= ~DMAC_BASEADDR_BASEADDR_Msk;
+	tmp |= DMAC_BASEADDR_BASEADDR(data);
+	((Dmac *)hw)->BASEADDR.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg &= ~DMAC_BASEADDR_BASEADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg ^= DMAC_BASEADDR_BASEADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_baseaddr_reg_t hri_dmac_read_BASEADDR_BASEADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->BASEADDR.reg;
+	tmp = (tmp & DMAC_BASEADDR_BASEADDR_Msk) >> DMAC_BASEADDR_BASEADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_baseaddr_reg_t hri_dmac_get_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->BASEADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->BASEADDR.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_baseaddr_reg_t hri_dmac_read_BASEADDR_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->BASEADDR.reg;
+}
+
+static inline void hri_dmac_set_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg |= DMAC_WRBADDR_WRBADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_wrbaddr_reg_t hri_dmac_get_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->WRBADDR.reg;
+	tmp = (tmp & DMAC_WRBADDR_WRBADDR(mask)) >> DMAC_WRBADDR_WRBADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->WRBADDR.reg;
+	tmp &= ~DMAC_WRBADDR_WRBADDR_Msk;
+	tmp |= DMAC_WRBADDR_WRBADDR(data);
+	((Dmac *)hw)->WRBADDR.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg &= ~DMAC_WRBADDR_WRBADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg ^= DMAC_WRBADDR_WRBADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_wrbaddr_reg_t hri_dmac_read_WRBADDR_WRBADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->WRBADDR.reg;
+	tmp = (tmp & DMAC_WRBADDR_WRBADDR_Msk) >> DMAC_WRBADDR_WRBADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_wrbaddr_reg_t hri_dmac_get_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->WRBADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->WRBADDR.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_wrbaddr_reg_t hri_dmac_read_WRBADDR_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->WRBADDR.reg;
+}
+
+static inline void hri_dmac_set_CHID_ID_bf(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg |= DMAC_CHID_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chid_reg_t hri_dmac_get_CHID_ID_bf(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHID.reg;
+	tmp = (tmp & DMAC_CHID_ID(mask)) >> DMAC_CHID_ID_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHID_ID_bf(const void *const hw, hri_dmac_chid_reg_t data)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHID.reg;
+	tmp &= ~DMAC_CHID_ID_Msk;
+	tmp |= DMAC_CHID_ID(data);
+	((Dmac *)hw)->CHID.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHID_ID_bf(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg &= ~DMAC_CHID_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHID_ID_bf(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg ^= DMAC_CHID_ID(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chid_reg_t hri_dmac_read_CHID_ID_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHID.reg;
+	tmp = (tmp & DMAC_CHID_ID_Msk) >> DMAC_CHID_ID_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHID_reg(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chid_reg_t hri_dmac_get_CHID_reg(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHID.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHID_reg(const void *const hw, hri_dmac_chid_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHID_reg(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHID_reg(const void *const hw, hri_dmac_chid_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHID.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chid_reg_t hri_dmac_read_CHID_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHID.reg;
+}
+
+static inline void hri_dmac_set_CHCTRLA_SWRST_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_SWRST;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CHCTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp = (tmp & DMAC_CHCTRLA_SWRST) >> DMAC_CHCTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLA_ENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_ENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CHCTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp = (tmp & DMAC_CHCTRLA_ENABLE) >> DMAC_CHCTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp &= ~DMAC_CHCTRLA_ENABLE;
+	tmp |= value << DMAC_CHCTRLA_ENABLE_Pos;
+	((Dmac *)hw)->CHCTRLA.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLA_ENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_ENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLA_ENABLE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_ENABLE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CHCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_RUNSTDBY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CHCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp = (tmp & DMAC_CHCTRLA_RUNSTDBY) >> DMAC_CHCTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp &= ~DMAC_CHCTRLA_RUNSTDBY;
+	tmp |= value << DMAC_CHCTRLA_RUNSTDBY_Pos;
+	((Dmac *)hw)->CHCTRLA.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_RUNSTDBY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_RUNSTDBY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLA.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHCTRLA.reg;
+}
+
+static inline void hri_dmac_set_CHCTRLB_EVIE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_EVIE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CHCTRLB_EVIE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_EVIE) >> DMAC_CHCTRLB_EVIE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_EVIE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_EVIE;
+	tmp |= value << DMAC_CHCTRLB_EVIE_Pos;
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_EVIE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_EVIE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_EVIE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_EVIE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CHCTRLB_EVOE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_EVOE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CHCTRLB_EVOE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_EVOE) >> DMAC_CHCTRLB_EVOE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_EVOE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_EVOE;
+	tmp |= value << DMAC_CHCTRLB_EVOE_Pos;
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_EVOE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_EVOE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_EVOE_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_EVOE;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_set_CHCTRLB_EVACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_EVACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_EVACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_EVACT(mask)) >> DMAC_CHCTRLB_EVACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_EVACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_EVACT_Msk;
+	tmp |= DMAC_CHCTRLB_EVACT(data);
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_EVACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_EVACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_EVACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_EVACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_EVACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_EVACT_Msk) >> DMAC_CHCTRLB_EVACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLB_LVL_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_LVL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_LVL_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_LVL(mask)) >> DMAC_CHCTRLB_LVL_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_LVL_bf(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_LVL_Msk;
+	tmp |= DMAC_CHCTRLB_LVL(data);
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_LVL_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_LVL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_LVL_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_LVL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_LVL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_LVL_Msk) >> DMAC_CHCTRLB_LVL_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLB_TRIGSRC_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_TRIGSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_TRIGSRC_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_TRIGSRC(mask)) >> DMAC_CHCTRLB_TRIGSRC_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_TRIGSRC_bf(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_TRIGSRC_Msk;
+	tmp |= DMAC_CHCTRLB_TRIGSRC(data);
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_TRIGSRC_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_TRIGSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_TRIGSRC_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_TRIGSRC(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_TRIGSRC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_TRIGSRC_Msk) >> DMAC_CHCTRLB_TRIGSRC_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLB_TRIGACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_TRIGACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_TRIGACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_TRIGACT(mask)) >> DMAC_CHCTRLB_TRIGACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_TRIGACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_TRIGACT_Msk;
+	tmp |= DMAC_CHCTRLB_TRIGACT(data);
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_TRIGACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_TRIGACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_TRIGACT_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_TRIGACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_TRIGACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_TRIGACT_Msk) >> DMAC_CHCTRLB_TRIGACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_CMD(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_CMD(mask)) >> DMAC_CHCTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= ~DMAC_CHCTRLB_CMD_Msk;
+	tmp |= DMAC_CHCTRLB_CMD(data);
+	((Dmac *)hw)->CHCTRLB.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_CMD(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_CMD(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_CMD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp = (tmp & DMAC_CHCTRLB_CMD_Msk) >> DMAC_CHCTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_dmac_set_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dmac *)hw)->CHCTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_write_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_clear_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmac_toggle_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CHCTRLB.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CHCTRLB.reg;
+}
+
+static inline bool hri_dmac_get_CRCSTATUS_CRCBUSY_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CRCSTATUS.reg & DMAC_CRCSTATUS_CRCBUSY) >> DMAC_CRCSTATUS_CRCBUSY_Pos;
+}
+
+static inline void hri_dmac_clear_CRCSTATUS_CRCBUSY_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCSTATUS.reg = DMAC_CRCSTATUS_CRCBUSY;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmac_get_CRCSTATUS_CRCZERO_bit(const void *const hw)
+{
+	return (((Dmac *)hw)->CRCSTATUS.reg & DMAC_CRCSTATUS_CRCZERO) >> DMAC_CRCSTATUS_CRCZERO_Pos;
+}
+
+static inline void hri_dmac_clear_CRCSTATUS_CRCZERO_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCSTATUS.reg = DMAC_CRCSTATUS_CRCZERO;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcstatus_reg_t hri_dmac_get_CRCSTATUS_reg(const void *const hw, hri_dmac_crcstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dmac *)hw)->CRCSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmac_clear_CRCSTATUS_reg(const void *const hw, hri_dmac_crcstatus_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((Dmac *)hw)->CRCSTATUS.reg = mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmac_crcstatus_reg_t hri_dmac_read_CRCSTATUS_reg(const void *const hw)
+{
+	return ((Dmac *)hw)->CRCSTATUS.reg;
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_VALID_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_VALID;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmacdescriptor_get_BTCTRL_VALID_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_VALID) >> DMAC_BTCTRL_VALID_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_VALID_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_VALID;
+	tmp |= value << DMAC_BTCTRL_VALID_Pos;
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_VALID_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_VALID;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_VALID_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_VALID;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_SRCINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_SRCINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmacdescriptor_get_BTCTRL_SRCINC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_SRCINC) >> DMAC_BTCTRL_SRCINC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_SRCINC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_SRCINC;
+	tmp |= value << DMAC_BTCTRL_SRCINC_Pos;
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_SRCINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_SRCINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_SRCINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_SRCINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_DSTINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_DSTINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmacdescriptor_get_BTCTRL_DSTINC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_DSTINC) >> DMAC_BTCTRL_DSTINC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_DSTINC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_DSTINC;
+	tmp |= value << DMAC_BTCTRL_DSTINC_Pos;
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_DSTINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_DSTINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_DSTINC_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_DSTINC;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_STEPSEL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_STEPSEL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dmacdescriptor_get_BTCTRL_STEPSEL_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_STEPSEL) >> DMAC_BTCTRL_STEPSEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_STEPSEL_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_STEPSEL;
+	tmp |= value << DMAC_BTCTRL_STEPSEL_Pos;
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_STEPSEL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_STEPSEL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_STEPSEL_bit(const void *const hw)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_STEPSEL;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_EVOSEL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t
+hri_dmacdescriptor_get_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_EVOSEL(mask)) >> DMAC_BTCTRL_EVOSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_EVOSEL_Msk;
+	tmp |= DMAC_BTCTRL_EVOSEL(data);
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_EVOSEL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_EVOSEL_bf(const void *const               hw,
+                                                              hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_EVOSEL(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_EVOSEL_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_EVOSEL_Msk) >> DMAC_BTCTRL_EVOSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_BLOCKACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t
+hri_dmacdescriptor_get_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_BLOCKACT(mask)) >> DMAC_BTCTRL_BLOCKACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_BLOCKACT_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_BLOCKACT_Msk;
+	tmp |= DMAC_BTCTRL_BLOCKACT(data);
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_BLOCKACT_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_BLOCKACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_BLOCKACT_bf(const void *const               hw,
+                                                                hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_BLOCKACT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_BLOCKACT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_BLOCKACT_Msk) >> DMAC_BTCTRL_BLOCKACT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_BEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t
+hri_dmacdescriptor_get_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_BEATSIZE(mask)) >> DMAC_BTCTRL_BEATSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_BEATSIZE_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_BEATSIZE_Msk;
+	tmp |= DMAC_BTCTRL_BEATSIZE(data);
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_BEATSIZE_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_BEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_BEATSIZE_bf(const void *const               hw,
+                                                                hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_BEATSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_BEATSIZE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_BEATSIZE_Msk) >> DMAC_BTCTRL_BEATSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_STEPSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t
+hri_dmacdescriptor_get_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_STEPSIZE(mask)) >> DMAC_BTCTRL_STEPSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_STEPSIZE_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= ~DMAC_BTCTRL_STEPSIZE_Msk;
+	tmp |= DMAC_BTCTRL_STEPSIZE(data);
+	((DmacDescriptor *)hw)->BTCTRL.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_STEPSIZE_bf(const void *const               hw,
+                                                               hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_STEPSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_STEPSIZE_bf(const void *const               hw,
+                                                                hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_STEPSIZE(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_STEPSIZE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp = (tmp & DMAC_BTCTRL_STEPSIZE_Msk) >> DMAC_BTCTRL_STEPSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_reg(const void *const               hw,
+                                                                                hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCTRL.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_reg(const void *const hw)
+{
+	return ((DmacDescriptor *)hw)->BTCTRL.reg;
+}
+
+static inline void hri_dmacdescriptor_set_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg |= DMAC_BTCNT_BTCNT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_get_BTCNT_BTCNT_bf(const void *const              hw,
+                                                                                   hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCNT.reg;
+	tmp = (tmp & DMAC_BTCNT_BTCNT(mask)) >> DMAC_BTCNT_BTCNT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t data)
+{
+	uint16_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->BTCNT.reg;
+	tmp &= ~DMAC_BTCNT_BTCNT_Msk;
+	tmp |= DMAC_BTCNT_BTCNT(data);
+	((DmacDescriptor *)hw)->BTCNT.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg &= ~DMAC_BTCNT_BTCNT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg ^= DMAC_BTCNT_BTCNT(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_read_BTCNT_BTCNT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCNT.reg;
+	tmp = (tmp & DMAC_BTCNT_BTCNT_Msk) >> DMAC_BTCNT_BTCNT_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_get_BTCNT_reg(const void *const              hw,
+                                                                              hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((DmacDescriptor *)hw)->BTCNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->BTCNT.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_read_BTCNT_reg(const void *const hw)
+{
+	return ((DmacDescriptor *)hw)->BTCNT.reg;
+}
+
+static inline void hri_dmacdescriptor_set_SRCADDR_SRCADDR_bf(const void *const                hw,
+                                                             hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg |= DMAC_SRCADDR_SRCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_srcaddr_reg_t
+hri_dmacdescriptor_get_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->SRCADDR.reg;
+	tmp = (tmp & DMAC_SRCADDR_SRCADDR(mask)) >> DMAC_SRCADDR_SRCADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_SRCADDR_SRCADDR_bf(const void *const                hw,
+                                                               hri_dmacdescriptor_srcaddr_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->SRCADDR.reg;
+	tmp &= ~DMAC_SRCADDR_SRCADDR_Msk;
+	tmp |= DMAC_SRCADDR_SRCADDR(data);
+	((DmacDescriptor *)hw)->SRCADDR.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_SRCADDR_SRCADDR_bf(const void *const                hw,
+                                                               hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg &= ~DMAC_SRCADDR_SRCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_SRCADDR_SRCADDR_bf(const void *const                hw,
+                                                                hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg ^= DMAC_SRCADDR_SRCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_read_SRCADDR_SRCADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->SRCADDR.reg;
+	tmp = (tmp & DMAC_SRCADDR_SRCADDR_Msk) >> DMAC_SRCADDR_SRCADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_get_SRCADDR_reg(const void *const                hw,
+                                                                                  hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->SRCADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->SRCADDR.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_read_SRCADDR_reg(const void *const hw)
+{
+	return ((DmacDescriptor *)hw)->SRCADDR.reg;
+}
+
+static inline void hri_dmacdescriptor_set_DSTADDR_DSTADDR_bf(const void *const                hw,
+                                                             hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg |= DMAC_DSTADDR_DSTADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_dstaddr_reg_t
+hri_dmacdescriptor_get_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DSTADDR.reg;
+	tmp = (tmp & DMAC_DSTADDR_DSTADDR(mask)) >> DMAC_DSTADDR_DSTADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_DSTADDR_DSTADDR_bf(const void *const                hw,
+                                                               hri_dmacdescriptor_dstaddr_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->DSTADDR.reg;
+	tmp &= ~DMAC_DSTADDR_DSTADDR_Msk;
+	tmp |= DMAC_DSTADDR_DSTADDR(data);
+	((DmacDescriptor *)hw)->DSTADDR.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_DSTADDR_DSTADDR_bf(const void *const                hw,
+                                                               hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg &= ~DMAC_DSTADDR_DSTADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_DSTADDR_DSTADDR_bf(const void *const                hw,
+                                                                hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg ^= DMAC_DSTADDR_DSTADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_read_DSTADDR_DSTADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DSTADDR.reg;
+	tmp = (tmp & DMAC_DSTADDR_DSTADDR_Msk) >> DMAC_DSTADDR_DSTADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_get_DSTADDR_reg(const void *const                hw,
+                                                                                  hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DSTADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DSTADDR.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_read_DSTADDR_reg(const void *const hw)
+{
+	return ((DmacDescriptor *)hw)->DSTADDR.reg;
+}
+
+static inline void hri_dmacdescriptor_set_DESCADDR_DESCADDR_bf(const void *const                 hw,
+                                                               hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg |= DMAC_DESCADDR_DESCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_descaddr_reg_t
+hri_dmacdescriptor_get_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DESCADDR.reg;
+	tmp = (tmp & DMAC_DESCADDR_DESCADDR(mask)) >> DMAC_DESCADDR_DESCADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_DESCADDR_DESCADDR_bf(const void *const                 hw,
+                                                                 hri_dmacdescriptor_descaddr_reg_t data)
+{
+	uint32_t tmp;
+	DMAC_CRITICAL_SECTION_ENTER();
+	tmp = ((DmacDescriptor *)hw)->DESCADDR.reg;
+	tmp &= ~DMAC_DESCADDR_DESCADDR_Msk;
+	tmp |= DMAC_DESCADDR_DESCADDR(data);
+	((DmacDescriptor *)hw)->DESCADDR.reg = tmp;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_DESCADDR_DESCADDR_bf(const void *const                 hw,
+                                                                 hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg &= ~DMAC_DESCADDR_DESCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_DESCADDR_DESCADDR_bf(const void *const                 hw,
+                                                                  hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg ^= DMAC_DESCADDR_DESCADDR(mask);
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_read_DESCADDR_DESCADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DESCADDR.reg;
+	tmp = (tmp & DMAC_DESCADDR_DESCADDR_Msk) >> DMAC_DESCADDR_DESCADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_set_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg |= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_descaddr_reg_t
+hri_dmacdescriptor_get_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((DmacDescriptor *)hw)->DESCADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dmacdescriptor_write_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t data)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg = data;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_clear_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg &= ~mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dmacdescriptor_toggle_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask)
+{
+	DMAC_CRITICAL_SECTION_ENTER();
+	((DmacDescriptor *)hw)->DESCADDR.reg ^= mask;
+	DMAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_read_DESCADDR_reg(const void *const hw)
+{
+	return ((DmacDescriptor *)hw)->DESCADDR.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_DMAC_L22_H_INCLUDED */
+#endif /* _SAML22_DMAC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_dsu_l22.h b/watch-library/hardware/hri/hri_dsu_l22.h
new file mode 100644
index 00000000..2e8bbe8b
--- /dev/null
+++ b/watch-library/hardware/hri/hri_dsu_l22.h
@@ -0,0 +1,1163 @@
+/**
+ * \file
+ *
+ * \brief SAM DSU
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_DSU_COMPONENT_
+#ifndef _HRI_DSU_L22_H_INCLUDED_
+#define _HRI_DSU_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_DSU_CRITICAL_SECTIONS)
+#define DSU_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define DSU_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define DSU_CRITICAL_SECTION_ENTER()
+#define DSU_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_dsu_addr_reg_t;
+typedef uint32_t hri_dsu_cid0_reg_t;
+typedef uint32_t hri_dsu_cid1_reg_t;
+typedef uint32_t hri_dsu_cid2_reg_t;
+typedef uint32_t hri_dsu_cid3_reg_t;
+typedef uint32_t hri_dsu_data_reg_t;
+typedef uint32_t hri_dsu_dcc_reg_t;
+typedef uint32_t hri_dsu_dcfg_reg_t;
+typedef uint32_t hri_dsu_did_reg_t;
+typedef uint32_t hri_dsu_end_reg_t;
+typedef uint32_t hri_dsu_entry0_reg_t;
+typedef uint32_t hri_dsu_entry1_reg_t;
+typedef uint32_t hri_dsu_length_reg_t;
+typedef uint32_t hri_dsu_memtype_reg_t;
+typedef uint32_t hri_dsu_pid0_reg_t;
+typedef uint32_t hri_dsu_pid1_reg_t;
+typedef uint32_t hri_dsu_pid2_reg_t;
+typedef uint32_t hri_dsu_pid3_reg_t;
+typedef uint32_t hri_dsu_pid4_reg_t;
+typedef uint32_t hri_dsu_pid5_reg_t;
+typedef uint32_t hri_dsu_pid6_reg_t;
+typedef uint32_t hri_dsu_pid7_reg_t;
+typedef uint8_t  hri_dsu_ctrl_reg_t;
+typedef uint8_t  hri_dsu_statusa_reg_t;
+typedef uint8_t  hri_dsu_statusb_reg_t;
+
+static inline bool hri_dsu_get_STATUSB_PROT_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSB.reg & DSU_STATUSB_PROT) >> DSU_STATUSB_PROT_Pos;
+}
+
+static inline bool hri_dsu_get_STATUSB_DBGPRES_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSB.reg & DSU_STATUSB_DBGPRES) >> DSU_STATUSB_DBGPRES_Pos;
+}
+
+static inline bool hri_dsu_get_STATUSB_DCCD0_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSB.reg & DSU_STATUSB_DCCD0) >> DSU_STATUSB_DCCD0_Pos;
+}
+
+static inline bool hri_dsu_get_STATUSB_DCCD1_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSB.reg & DSU_STATUSB_DCCD1) >> DSU_STATUSB_DCCD1_Pos;
+}
+
+static inline bool hri_dsu_get_STATUSB_HPE_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSB.reg & DSU_STATUSB_HPE) >> DSU_STATUSB_HPE_Pos;
+}
+
+static inline hri_dsu_statusb_reg_t hri_dsu_get_STATUSB_reg(const void *const hw, hri_dsu_statusb_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dsu *)hw)->STATUSB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_statusb_reg_t hri_dsu_read_STATUSB_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->STATUSB.reg;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_DEVSEL_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_DEVSEL(mask)) >> DSU_DID_DEVSEL_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_DEVSEL_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_DEVSEL_Msk) >> DSU_DID_DEVSEL_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_REVISION_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_REVISION(mask)) >> DSU_DID_REVISION_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_REVISION_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_REVISION_Msk) >> DSU_DID_REVISION_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_DIE_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_DIE(mask)) >> DSU_DID_DIE_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_DIE_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_DIE_Msk) >> DSU_DID_DIE_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_SERIES_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_SERIES(mask)) >> DSU_DID_SERIES_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_SERIES_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_SERIES_Msk) >> DSU_DID_SERIES_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_FAMILY_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_FAMILY(mask)) >> DSU_DID_FAMILY_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_FAMILY_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_FAMILY_Msk) >> DSU_DID_FAMILY_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_PROCESSOR_bf(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_PROCESSOR(mask)) >> DSU_DID_PROCESSOR_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_PROCESSOR_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->DID.reg & DSU_DID_PROCESSOR_Msk) >> DSU_DID_PROCESSOR_Pos;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_get_DID_reg(const void *const hw, hri_dsu_did_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DID.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_did_reg_t hri_dsu_read_DID_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->DID.reg;
+}
+
+static inline bool hri_dsu_get_ENTRY0_EPRES_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->ENTRY0.reg & DSU_ENTRY0_EPRES) >> DSU_ENTRY0_EPRES_Pos;
+}
+
+static inline bool hri_dsu_get_ENTRY0_FMT_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->ENTRY0.reg & DSU_ENTRY0_FMT) >> DSU_ENTRY0_FMT_Pos;
+}
+
+static inline hri_dsu_entry0_reg_t hri_dsu_get_ENTRY0_ADDOFF_bf(const void *const hw, hri_dsu_entry0_reg_t mask)
+{
+	return (((Dsu *)hw)->ENTRY0.reg & DSU_ENTRY0_ADDOFF(mask)) >> DSU_ENTRY0_ADDOFF_Pos;
+}
+
+static inline hri_dsu_entry0_reg_t hri_dsu_read_ENTRY0_ADDOFF_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->ENTRY0.reg & DSU_ENTRY0_ADDOFF_Msk) >> DSU_ENTRY0_ADDOFF_Pos;
+}
+
+static inline hri_dsu_entry0_reg_t hri_dsu_get_ENTRY0_reg(const void *const hw, hri_dsu_entry0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ENTRY0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_entry0_reg_t hri_dsu_read_ENTRY0_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->ENTRY0.reg;
+}
+
+static inline hri_dsu_entry1_reg_t hri_dsu_get_ENTRY1_reg(const void *const hw, hri_dsu_entry1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ENTRY1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_entry1_reg_t hri_dsu_read_ENTRY1_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->ENTRY1.reg;
+}
+
+static inline hri_dsu_end_reg_t hri_dsu_get_END_END_bf(const void *const hw, hri_dsu_end_reg_t mask)
+{
+	return (((Dsu *)hw)->END.reg & DSU_END_END(mask)) >> DSU_END_END_Pos;
+}
+
+static inline hri_dsu_end_reg_t hri_dsu_read_END_END_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->END.reg & DSU_END_END_Msk) >> DSU_END_END_Pos;
+}
+
+static inline hri_dsu_end_reg_t hri_dsu_get_END_reg(const void *const hw, hri_dsu_end_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->END.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_end_reg_t hri_dsu_read_END_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->END.reg;
+}
+
+static inline bool hri_dsu_get_MEMTYPE_SMEMP_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->MEMTYPE.reg & DSU_MEMTYPE_SMEMP) >> DSU_MEMTYPE_SMEMP_Pos;
+}
+
+static inline hri_dsu_memtype_reg_t hri_dsu_get_MEMTYPE_reg(const void *const hw, hri_dsu_memtype_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->MEMTYPE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_memtype_reg_t hri_dsu_read_MEMTYPE_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->MEMTYPE.reg;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_get_PID4_JEPCC_bf(const void *const hw, hri_dsu_pid4_reg_t mask)
+{
+	return (((Dsu *)hw)->PID4.reg & DSU_PID4_JEPCC(mask)) >> DSU_PID4_JEPCC_Pos;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_read_PID4_JEPCC_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID4.reg & DSU_PID4_JEPCC_Msk) >> DSU_PID4_JEPCC_Pos;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_get_PID4_FKBC_bf(const void *const hw, hri_dsu_pid4_reg_t mask)
+{
+	return (((Dsu *)hw)->PID4.reg & DSU_PID4_FKBC(mask)) >> DSU_PID4_FKBC_Pos;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_read_PID4_FKBC_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID4.reg & DSU_PID4_FKBC_Msk) >> DSU_PID4_FKBC_Pos;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_get_PID4_reg(const void *const hw, hri_dsu_pid4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID4.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid4_reg_t hri_dsu_read_PID4_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID4.reg;
+}
+
+static inline hri_dsu_pid5_reg_t hri_dsu_get_PID5_reg(const void *const hw, hri_dsu_pid5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID5.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid5_reg_t hri_dsu_read_PID5_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID5.reg;
+}
+
+static inline hri_dsu_pid6_reg_t hri_dsu_get_PID6_reg(const void *const hw, hri_dsu_pid6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID6.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid6_reg_t hri_dsu_read_PID6_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID6.reg;
+}
+
+static inline hri_dsu_pid7_reg_t hri_dsu_get_PID7_reg(const void *const hw, hri_dsu_pid7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID7.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid7_reg_t hri_dsu_read_PID7_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID7.reg;
+}
+
+static inline hri_dsu_pid0_reg_t hri_dsu_get_PID0_PARTNBL_bf(const void *const hw, hri_dsu_pid0_reg_t mask)
+{
+	return (((Dsu *)hw)->PID0.reg & DSU_PID0_PARTNBL(mask)) >> DSU_PID0_PARTNBL_Pos;
+}
+
+static inline hri_dsu_pid0_reg_t hri_dsu_read_PID0_PARTNBL_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID0.reg & DSU_PID0_PARTNBL_Msk) >> DSU_PID0_PARTNBL_Pos;
+}
+
+static inline hri_dsu_pid0_reg_t hri_dsu_get_PID0_reg(const void *const hw, hri_dsu_pid0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid0_reg_t hri_dsu_read_PID0_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID0.reg;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_get_PID1_PARTNBH_bf(const void *const hw, hri_dsu_pid1_reg_t mask)
+{
+	return (((Dsu *)hw)->PID1.reg & DSU_PID1_PARTNBH(mask)) >> DSU_PID1_PARTNBH_Pos;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_read_PID1_PARTNBH_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID1.reg & DSU_PID1_PARTNBH_Msk) >> DSU_PID1_PARTNBH_Pos;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_get_PID1_JEPIDCL_bf(const void *const hw, hri_dsu_pid1_reg_t mask)
+{
+	return (((Dsu *)hw)->PID1.reg & DSU_PID1_JEPIDCL(mask)) >> DSU_PID1_JEPIDCL_Pos;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_read_PID1_JEPIDCL_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID1.reg & DSU_PID1_JEPIDCL_Msk) >> DSU_PID1_JEPIDCL_Pos;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_get_PID1_reg(const void *const hw, hri_dsu_pid1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid1_reg_t hri_dsu_read_PID1_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID1.reg;
+}
+
+static inline bool hri_dsu_get_PID2_JEPU_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->PID2.reg & DSU_PID2_JEPU) >> DSU_PID2_JEPU_Pos;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_get_PID2_JEPIDCH_bf(const void *const hw, hri_dsu_pid2_reg_t mask)
+{
+	return (((Dsu *)hw)->PID2.reg & DSU_PID2_JEPIDCH(mask)) >> DSU_PID2_JEPIDCH_Pos;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_read_PID2_JEPIDCH_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID2.reg & DSU_PID2_JEPIDCH_Msk) >> DSU_PID2_JEPIDCH_Pos;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_get_PID2_REVISION_bf(const void *const hw, hri_dsu_pid2_reg_t mask)
+{
+	return (((Dsu *)hw)->PID2.reg & DSU_PID2_REVISION(mask)) >> DSU_PID2_REVISION_Pos;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_read_PID2_REVISION_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID2.reg & DSU_PID2_REVISION_Msk) >> DSU_PID2_REVISION_Pos;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_get_PID2_reg(const void *const hw, hri_dsu_pid2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid2_reg_t hri_dsu_read_PID2_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID2.reg;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_get_PID3_CUSMOD_bf(const void *const hw, hri_dsu_pid3_reg_t mask)
+{
+	return (((Dsu *)hw)->PID3.reg & DSU_PID3_CUSMOD(mask)) >> DSU_PID3_CUSMOD_Pos;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_read_PID3_CUSMOD_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID3.reg & DSU_PID3_CUSMOD_Msk) >> DSU_PID3_CUSMOD_Pos;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_get_PID3_REVAND_bf(const void *const hw, hri_dsu_pid3_reg_t mask)
+{
+	return (((Dsu *)hw)->PID3.reg & DSU_PID3_REVAND(mask)) >> DSU_PID3_REVAND_Pos;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_read_PID3_REVAND_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->PID3.reg & DSU_PID3_REVAND_Msk) >> DSU_PID3_REVAND_Pos;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_get_PID3_reg(const void *const hw, hri_dsu_pid3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->PID3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_pid3_reg_t hri_dsu_read_PID3_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->PID3.reg;
+}
+
+static inline hri_dsu_cid0_reg_t hri_dsu_get_CID0_PREAMBLEB0_bf(const void *const hw, hri_dsu_cid0_reg_t mask)
+{
+	return (((Dsu *)hw)->CID0.reg & DSU_CID0_PREAMBLEB0(mask)) >> DSU_CID0_PREAMBLEB0_Pos;
+}
+
+static inline hri_dsu_cid0_reg_t hri_dsu_read_CID0_PREAMBLEB0_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->CID0.reg & DSU_CID0_PREAMBLEB0_Msk) >> DSU_CID0_PREAMBLEB0_Pos;
+}
+
+static inline hri_dsu_cid0_reg_t hri_dsu_get_CID0_reg(const void *const hw, hri_dsu_cid0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->CID0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_cid0_reg_t hri_dsu_read_CID0_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->CID0.reg;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_get_CID1_PREAMBLE_bf(const void *const hw, hri_dsu_cid1_reg_t mask)
+{
+	return (((Dsu *)hw)->CID1.reg & DSU_CID1_PREAMBLE(mask)) >> DSU_CID1_PREAMBLE_Pos;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_read_CID1_PREAMBLE_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->CID1.reg & DSU_CID1_PREAMBLE_Msk) >> DSU_CID1_PREAMBLE_Pos;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_get_CID1_CCLASS_bf(const void *const hw, hri_dsu_cid1_reg_t mask)
+{
+	return (((Dsu *)hw)->CID1.reg & DSU_CID1_CCLASS(mask)) >> DSU_CID1_CCLASS_Pos;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_read_CID1_CCLASS_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->CID1.reg & DSU_CID1_CCLASS_Msk) >> DSU_CID1_CCLASS_Pos;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_get_CID1_reg(const void *const hw, hri_dsu_cid1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->CID1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_cid1_reg_t hri_dsu_read_CID1_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->CID1.reg;
+}
+
+static inline hri_dsu_cid2_reg_t hri_dsu_get_CID2_PREAMBLEB2_bf(const void *const hw, hri_dsu_cid2_reg_t mask)
+{
+	return (((Dsu *)hw)->CID2.reg & DSU_CID2_PREAMBLEB2(mask)) >> DSU_CID2_PREAMBLEB2_Pos;
+}
+
+static inline hri_dsu_cid2_reg_t hri_dsu_read_CID2_PREAMBLEB2_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->CID2.reg & DSU_CID2_PREAMBLEB2_Msk) >> DSU_CID2_PREAMBLEB2_Pos;
+}
+
+static inline hri_dsu_cid2_reg_t hri_dsu_get_CID2_reg(const void *const hw, hri_dsu_cid2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->CID2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_cid2_reg_t hri_dsu_read_CID2_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->CID2.reg;
+}
+
+static inline hri_dsu_cid3_reg_t hri_dsu_get_CID3_PREAMBLEB3_bf(const void *const hw, hri_dsu_cid3_reg_t mask)
+{
+	return (((Dsu *)hw)->CID3.reg & DSU_CID3_PREAMBLEB3(mask)) >> DSU_CID3_PREAMBLEB3_Pos;
+}
+
+static inline hri_dsu_cid3_reg_t hri_dsu_read_CID3_PREAMBLEB3_bf(const void *const hw)
+{
+	return (((Dsu *)hw)->CID3.reg & DSU_CID3_PREAMBLEB3_Msk) >> DSU_CID3_PREAMBLEB3_Pos;
+}
+
+static inline hri_dsu_cid3_reg_t hri_dsu_get_CID3_reg(const void *const hw, hri_dsu_cid3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->CID3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_dsu_cid3_reg_t hri_dsu_read_CID3_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->CID3.reg;
+}
+
+static inline void hri_dsu_set_ADDR_AMOD_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg |= DSU_ADDR_AMOD(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_get_ADDR_AMOD_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp = (tmp & DSU_ADDR_AMOD(mask)) >> DSU_ADDR_AMOD_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_ADDR_AMOD_bf(const void *const hw, hri_dsu_addr_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp &= ~DSU_ADDR_AMOD_Msk;
+	tmp |= DSU_ADDR_AMOD(data);
+	((Dsu *)hw)->ADDR.reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_ADDR_AMOD_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg &= ~DSU_ADDR_AMOD(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_ADDR_AMOD_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg ^= DSU_ADDR_AMOD(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_read_ADDR_AMOD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp = (tmp & DSU_ADDR_AMOD_Msk) >> DSU_ADDR_AMOD_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_ADDR_ADDR_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg |= DSU_ADDR_ADDR(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_get_ADDR_ADDR_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp = (tmp & DSU_ADDR_ADDR(mask)) >> DSU_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_ADDR_ADDR_bf(const void *const hw, hri_dsu_addr_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp &= ~DSU_ADDR_ADDR_Msk;
+	tmp |= DSU_ADDR_ADDR(data);
+	((Dsu *)hw)->ADDR.reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_ADDR_ADDR_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg &= ~DSU_ADDR_ADDR(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_ADDR_ADDR_bf(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg ^= DSU_ADDR_ADDR(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp = (tmp & DSU_ADDR_ADDR_Msk) >> DSU_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_ADDR_reg(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg |= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_get_ADDR_reg(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_write_ADDR_reg(const void *const hw, hri_dsu_addr_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_ADDR_reg(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg &= ~mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_ADDR_reg(const void *const hw, hri_dsu_addr_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->ADDR.reg ^= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_addr_reg_t hri_dsu_read_ADDR_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->ADDR.reg;
+}
+
+static inline void hri_dsu_set_LENGTH_LENGTH_bf(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg |= DSU_LENGTH_LENGTH(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_length_reg_t hri_dsu_get_LENGTH_LENGTH_bf(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->LENGTH.reg;
+	tmp = (tmp & DSU_LENGTH_LENGTH(mask)) >> DSU_LENGTH_LENGTH_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_LENGTH_LENGTH_bf(const void *const hw, hri_dsu_length_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->LENGTH.reg;
+	tmp &= ~DSU_LENGTH_LENGTH_Msk;
+	tmp |= DSU_LENGTH_LENGTH(data);
+	((Dsu *)hw)->LENGTH.reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_LENGTH_LENGTH_bf(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg &= ~DSU_LENGTH_LENGTH(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_LENGTH_LENGTH_bf(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg ^= DSU_LENGTH_LENGTH(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_length_reg_t hri_dsu_read_LENGTH_LENGTH_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->LENGTH.reg;
+	tmp = (tmp & DSU_LENGTH_LENGTH_Msk) >> DSU_LENGTH_LENGTH_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_LENGTH_reg(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg |= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_length_reg_t hri_dsu_get_LENGTH_reg(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->LENGTH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_write_LENGTH_reg(const void *const hw, hri_dsu_length_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_LENGTH_reg(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg &= ~mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_LENGTH_reg(const void *const hw, hri_dsu_length_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->LENGTH.reg ^= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_length_reg_t hri_dsu_read_LENGTH_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->LENGTH.reg;
+}
+
+static inline void hri_dsu_set_DATA_DATA_bf(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg |= DSU_DATA_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_data_reg_t hri_dsu_get_DATA_DATA_bf(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DATA.reg;
+	tmp = (tmp & DSU_DATA_DATA(mask)) >> DSU_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DATA_DATA_bf(const void *const hw, hri_dsu_data_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->DATA.reg;
+	tmp &= ~DSU_DATA_DATA_Msk;
+	tmp |= DSU_DATA_DATA(data);
+	((Dsu *)hw)->DATA.reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DATA_DATA_bf(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg &= ~DSU_DATA_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DATA_DATA_bf(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg ^= DSU_DATA_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_data_reg_t hri_dsu_read_DATA_DATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DATA.reg;
+	tmp = (tmp & DSU_DATA_DATA_Msk) >> DSU_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_DATA_reg(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg |= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_data_reg_t hri_dsu_get_DATA_reg(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DATA_reg(const void *const hw, hri_dsu_data_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DATA_reg(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg &= ~mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DATA_reg(const void *const hw, hri_dsu_data_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DATA.reg ^= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_data_reg_t hri_dsu_read_DATA_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->DATA.reg;
+}
+
+static inline void hri_dsu_set_DCC_DATA_bf(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg |= DSU_DCC_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcc_reg_t hri_dsu_get_DCC_DATA_bf(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCC[index].reg;
+	tmp = (tmp & DSU_DCC_DATA(mask)) >> DSU_DCC_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DCC_DATA_bf(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->DCC[index].reg;
+	tmp &= ~DSU_DCC_DATA_Msk;
+	tmp |= DSU_DCC_DATA(data);
+	((Dsu *)hw)->DCC[index].reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DCC_DATA_bf(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg &= ~DSU_DCC_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DCC_DATA_bf(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg ^= DSU_DCC_DATA(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcc_reg_t hri_dsu_read_DCC_DATA_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCC[index].reg;
+	tmp = (tmp & DSU_DCC_DATA_Msk) >> DSU_DCC_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_DCC_reg(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg |= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcc_reg_t hri_dsu_get_DCC_reg(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCC[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DCC_reg(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DCC_reg(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg &= ~mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DCC_reg(const void *const hw, uint8_t index, hri_dsu_dcc_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCC[index].reg ^= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcc_reg_t hri_dsu_read_DCC_reg(const void *const hw, uint8_t index)
+{
+	return ((Dsu *)hw)->DCC[index].reg;
+}
+
+static inline void hri_dsu_set_DCFG_DCFG_bf(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg |= DSU_DCFG_DCFG(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcfg_reg_t hri_dsu_get_DCFG_DCFG_bf(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCFG[index].reg;
+	tmp = (tmp & DSU_DCFG_DCFG(mask)) >> DSU_DCFG_DCFG_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DCFG_DCFG_bf(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t data)
+{
+	uint32_t tmp;
+	DSU_CRITICAL_SECTION_ENTER();
+	tmp = ((Dsu *)hw)->DCFG[index].reg;
+	tmp &= ~DSU_DCFG_DCFG_Msk;
+	tmp |= DSU_DCFG_DCFG(data);
+	((Dsu *)hw)->DCFG[index].reg = tmp;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DCFG_DCFG_bf(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg &= ~DSU_DCFG_DCFG(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DCFG_DCFG_bf(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg ^= DSU_DCFG_DCFG(mask);
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcfg_reg_t hri_dsu_read_DCFG_DCFG_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCFG[index].reg;
+	tmp = (tmp & DSU_DCFG_DCFG_Msk) >> DSU_DCFG_DCFG_Pos;
+	return tmp;
+}
+
+static inline void hri_dsu_set_DCFG_reg(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg |= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcfg_reg_t hri_dsu_get_DCFG_reg(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Dsu *)hw)->DCFG[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_write_DCFG_reg(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_clear_DCFG_reg(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg &= ~mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_dsu_toggle_DCFG_reg(const void *const hw, uint8_t index, hri_dsu_dcfg_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->DCFG[index].reg ^= mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_dcfg_reg_t hri_dsu_read_DCFG_reg(const void *const hw, uint8_t index)
+{
+	return ((Dsu *)hw)->DCFG[index].reg;
+}
+
+static inline bool hri_dsu_get_STATUSA_DONE_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSA.reg & DSU_STATUSA_DONE) >> DSU_STATUSA_DONE_Pos;
+}
+
+static inline void hri_dsu_clear_STATUSA_DONE_bit(const void *const hw)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = DSU_STATUSA_DONE;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dsu_get_STATUSA_CRSTEXT_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSA.reg & DSU_STATUSA_CRSTEXT) >> DSU_STATUSA_CRSTEXT_Pos;
+}
+
+static inline void hri_dsu_clear_STATUSA_CRSTEXT_bit(const void *const hw)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = DSU_STATUSA_CRSTEXT;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dsu_get_STATUSA_BERR_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSA.reg & DSU_STATUSA_BERR) >> DSU_STATUSA_BERR_Pos;
+}
+
+static inline void hri_dsu_clear_STATUSA_BERR_bit(const void *const hw)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = DSU_STATUSA_BERR;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dsu_get_STATUSA_FAIL_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSA.reg & DSU_STATUSA_FAIL) >> DSU_STATUSA_FAIL_Pos;
+}
+
+static inline void hri_dsu_clear_STATUSA_FAIL_bit(const void *const hw)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = DSU_STATUSA_FAIL;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_dsu_get_STATUSA_PERR_bit(const void *const hw)
+{
+	return (((Dsu *)hw)->STATUSA.reg & DSU_STATUSA_PERR) >> DSU_STATUSA_PERR_Pos;
+}
+
+static inline void hri_dsu_clear_STATUSA_PERR_bit(const void *const hw)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = DSU_STATUSA_PERR;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_statusa_reg_t hri_dsu_get_STATUSA_reg(const void *const hw, hri_dsu_statusa_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Dsu *)hw)->STATUSA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_dsu_clear_STATUSA_reg(const void *const hw, hri_dsu_statusa_reg_t mask)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->STATUSA.reg = mask;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_dsu_statusa_reg_t hri_dsu_read_STATUSA_reg(const void *const hw)
+{
+	return ((Dsu *)hw)->STATUSA.reg;
+}
+
+static inline void hri_dsu_write_CTRL_reg(const void *const hw, hri_dsu_ctrl_reg_t data)
+{
+	DSU_CRITICAL_SECTION_ENTER();
+	((Dsu *)hw)->CTRL.reg = data;
+	DSU_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_DSU_L22_H_INCLUDED */
+#endif /* _SAML22_DSU_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_eic_l22.h b/watch-library/hardware/hri/hri_eic_l22.h
new file mode 100644
index 00000000..058012bf
--- /dev/null
+++ b/watch-library/hardware/hri/hri_eic_l22.h
@@ -0,0 +1,1463 @@
+/**
+ * \file
+ *
+ * \brief SAM EIC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_EIC_COMPONENT_
+#ifndef _HRI_EIC_L22_H_INCLUDED_
+#define _HRI_EIC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_EIC_CRITICAL_SECTIONS)
+#define EIC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define EIC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define EIC_CRITICAL_SECTION_ENTER()
+#define EIC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_eic_nmiflag_reg_t;
+typedef uint32_t hri_eic_asynch_reg_t;
+typedef uint32_t hri_eic_config_reg_t;
+typedef uint32_t hri_eic_evctrl_reg_t;
+typedef uint32_t hri_eic_intenset_reg_t;
+typedef uint32_t hri_eic_intflag_reg_t;
+typedef uint32_t hri_eic_syncbusy_reg_t;
+typedef uint8_t  hri_eic_ctrla_reg_t;
+typedef uint8_t  hri_eic_nmictrl_reg_t;
+
+static inline void hri_eic_wait_for_sync(const void *const hw, hri_eic_syncbusy_reg_t reg)
+{
+	while (((Eic *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_eic_is_syncing(const void *const hw, hri_eic_syncbusy_reg_t reg)
+{
+	return ((Eic *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_eic_get_NMIFLAG_NMI_bit(const void *const hw)
+{
+	return (((Eic *)hw)->NMIFLAG.reg & EIC_NMIFLAG_NMI) >> EIC_NMIFLAG_NMI_Pos;
+}
+
+static inline void hri_eic_clear_NMIFLAG_NMI_bit(const void *const hw)
+{
+	((Eic *)hw)->NMIFLAG.reg = EIC_NMIFLAG_NMI;
+}
+
+static inline hri_eic_nmiflag_reg_t hri_eic_get_NMIFLAG_reg(const void *const hw, hri_eic_nmiflag_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Eic *)hw)->NMIFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_eic_nmiflag_reg_t hri_eic_read_NMIFLAG_reg(const void *const hw)
+{
+	return ((Eic *)hw)->NMIFLAG.reg;
+}
+
+static inline void hri_eic_clear_NMIFLAG_reg(const void *const hw, hri_eic_nmiflag_reg_t mask)
+{
+	((Eic *)hw)->NMIFLAG.reg = mask;
+}
+
+static inline hri_eic_intflag_reg_t hri_eic_get_INTFLAG_reg(const void *const hw, hri_eic_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_eic_intflag_reg_t hri_eic_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Eic *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_eic_clear_INTFLAG_reg(const void *const hw, hri_eic_intflag_reg_t mask)
+{
+	((Eic *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_eic_set_INTEN_EXTINT_bf(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	((Eic *)hw)->INTENSET.reg = EIC_INTENSET_EXTINT(mask);
+}
+
+static inline hri_eic_intenset_reg_t hri_eic_get_INTEN_EXTINT_bf(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->INTENSET.reg;
+	tmp = (tmp & EIC_INTENSET_EXTINT(mask)) >> EIC_INTENSET_EXTINT_Pos;
+	return tmp;
+}
+
+static inline hri_eic_intenset_reg_t hri_eic_read_INTEN_EXTINT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->INTENSET.reg;
+	tmp = (tmp & EIC_INTENSET_EXTINT_Msk) >> EIC_INTENSET_EXTINT_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_INTEN_EXTINT_bf(const void *const hw, hri_eic_intenset_reg_t data)
+{
+	((Eic *)hw)->INTENSET.reg = EIC_INTENSET_EXTINT(data);
+	((Eic *)hw)->INTENCLR.reg = ~EIC_INTENSET_EXTINT(data);
+}
+
+static inline void hri_eic_clear_INTEN_EXTINT_bf(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	((Eic *)hw)->INTENCLR.reg = EIC_INTENSET_EXTINT(mask);
+}
+
+static inline void hri_eic_set_INTEN_reg(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	((Eic *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_eic_intenset_reg_t hri_eic_get_INTEN_reg(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_eic_intenset_reg_t hri_eic_read_INTEN_reg(const void *const hw)
+{
+	return ((Eic *)hw)->INTENSET.reg;
+}
+
+static inline void hri_eic_write_INTEN_reg(const void *const hw, hri_eic_intenset_reg_t data)
+{
+	((Eic *)hw)->INTENSET.reg = data;
+	((Eic *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_eic_clear_INTEN_reg(const void *const hw, hri_eic_intenset_reg_t mask)
+{
+	((Eic *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_eic_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Eic *)hw)->SYNCBUSY.reg & EIC_SYNCBUSY_SWRST) >> EIC_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_eic_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Eic *)hw)->SYNCBUSY.reg & EIC_SYNCBUSY_ENABLE) >> EIC_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline hri_eic_syncbusy_reg_t hri_eic_get_SYNCBUSY_reg(const void *const hw, hri_eic_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_eic_syncbusy_reg_t hri_eic_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Eic *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_eic_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg |= EIC_CTRLA_SWRST;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST);
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp = (tmp & EIC_CTRLA_SWRST) >> EIC_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg |= EIC_CTRLA_ENABLE;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST | EIC_SYNCBUSY_ENABLE);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST | EIC_SYNCBUSY_ENABLE);
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp = (tmp & EIC_CTRLA_ENABLE) >> EIC_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp &= ~EIC_CTRLA_ENABLE;
+	tmp |= value << EIC_CTRLA_ENABLE_Pos;
+	((Eic *)hw)->CTRLA.reg = tmp;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST | EIC_SYNCBUSY_ENABLE);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg &= ~EIC_CTRLA_ENABLE;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST | EIC_SYNCBUSY_ENABLE);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg ^= EIC_CTRLA_ENABLE;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_SWRST | EIC_SYNCBUSY_ENABLE);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CTRLA_CKSEL_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg |= EIC_CTRLA_CKSEL;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CTRLA_CKSEL_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp = (tmp & EIC_CTRLA_CKSEL) >> EIC_CTRLA_CKSEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CTRLA_CKSEL_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp &= ~EIC_CTRLA_CKSEL;
+	tmp |= value << EIC_CTRLA_CKSEL_Pos;
+	((Eic *)hw)->CTRLA.reg = tmp;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CTRLA_CKSEL_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg &= ~EIC_CTRLA_CKSEL;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CTRLA_CKSEL_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg ^= EIC_CTRLA_CKSEL;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CTRLA_reg(const void *const hw, hri_eic_ctrla_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg |= mask;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_ctrla_reg_t hri_eic_get_CTRLA_reg(const void *const hw, hri_eic_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	tmp = ((Eic *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_eic_write_CTRLA_reg(const void *const hw, hri_eic_ctrla_reg_t data)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg = data;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CTRLA_reg(const void *const hw, hri_eic_ctrla_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg &= ~mask;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CTRLA_reg(const void *const hw, hri_eic_ctrla_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CTRLA.reg ^= mask;
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_ctrla_reg_t hri_eic_read_CTRLA_reg(const void *const hw)
+{
+	hri_eic_wait_for_sync(hw, EIC_SYNCBUSY_MASK);
+	return ((Eic *)hw)->CTRLA.reg;
+}
+
+static inline void hri_eic_set_NMICTRL_NMIFILTEN_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg |= EIC_NMICTRL_NMIFILTEN;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_NMICTRL_NMIFILTEN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp = (tmp & EIC_NMICTRL_NMIFILTEN) >> EIC_NMICTRL_NMIFILTEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_NMICTRL_NMIFILTEN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp &= ~EIC_NMICTRL_NMIFILTEN;
+	tmp |= value << EIC_NMICTRL_NMIFILTEN_Pos;
+	((Eic *)hw)->NMICTRL.reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_NMICTRL_NMIFILTEN_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg &= ~EIC_NMICTRL_NMIFILTEN;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_NMICTRL_NMIFILTEN_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg ^= EIC_NMICTRL_NMIFILTEN;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_NMICTRL_NMIASYNCH_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg |= EIC_NMICTRL_NMIASYNCH;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_NMICTRL_NMIASYNCH_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp = (tmp & EIC_NMICTRL_NMIASYNCH) >> EIC_NMICTRL_NMIASYNCH_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_NMICTRL_NMIASYNCH_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp &= ~EIC_NMICTRL_NMIASYNCH;
+	tmp |= value << EIC_NMICTRL_NMIASYNCH_Pos;
+	((Eic *)hw)->NMICTRL.reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_NMICTRL_NMIASYNCH_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg &= ~EIC_NMICTRL_NMIASYNCH;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_NMICTRL_NMIASYNCH_bit(const void *const hw)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg ^= EIC_NMICTRL_NMIASYNCH;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_NMICTRL_NMISENSE_bf(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg |= EIC_NMICTRL_NMISENSE(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_nmictrl_reg_t hri_eic_get_NMICTRL_NMISENSE_bf(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp = (tmp & EIC_NMICTRL_NMISENSE(mask)) >> EIC_NMICTRL_NMISENSE_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_NMICTRL_NMISENSE_bf(const void *const hw, hri_eic_nmictrl_reg_t data)
+{
+	uint8_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp &= ~EIC_NMICTRL_NMISENSE_Msk;
+	tmp |= EIC_NMICTRL_NMISENSE(data);
+	((Eic *)hw)->NMICTRL.reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_NMICTRL_NMISENSE_bf(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg &= ~EIC_NMICTRL_NMISENSE(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_NMICTRL_NMISENSE_bf(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg ^= EIC_NMICTRL_NMISENSE(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_nmictrl_reg_t hri_eic_read_NMICTRL_NMISENSE_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp = (tmp & EIC_NMICTRL_NMISENSE_Msk) >> EIC_NMICTRL_NMISENSE_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_NMICTRL_reg(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg |= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_nmictrl_reg_t hri_eic_get_NMICTRL_reg(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Eic *)hw)->NMICTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_eic_write_NMICTRL_reg(const void *const hw, hri_eic_nmictrl_reg_t data)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg = data;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_NMICTRL_reg(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg &= ~mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_NMICTRL_reg(const void *const hw, hri_eic_nmictrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->NMICTRL.reg ^= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_nmictrl_reg_t hri_eic_read_NMICTRL_reg(const void *const hw)
+{
+	return ((Eic *)hw)->NMICTRL.reg;
+}
+
+static inline void hri_eic_set_EVCTRL_EXTINTEO_bf(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg |= EIC_EVCTRL_EXTINTEO(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_evctrl_reg_t hri_eic_get_EVCTRL_EXTINTEO_bf(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->EVCTRL.reg;
+	tmp = (tmp & EIC_EVCTRL_EXTINTEO(mask)) >> EIC_EVCTRL_EXTINTEO_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_EVCTRL_EXTINTEO_bf(const void *const hw, hri_eic_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->EVCTRL.reg;
+	tmp &= ~EIC_EVCTRL_EXTINTEO_Msk;
+	tmp |= EIC_EVCTRL_EXTINTEO(data);
+	((Eic *)hw)->EVCTRL.reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_EVCTRL_EXTINTEO_bf(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg &= ~EIC_EVCTRL_EXTINTEO(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_EVCTRL_EXTINTEO_bf(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg ^= EIC_EVCTRL_EXTINTEO(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_evctrl_reg_t hri_eic_read_EVCTRL_EXTINTEO_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->EVCTRL.reg;
+	tmp = (tmp & EIC_EVCTRL_EXTINTEO_Msk) >> EIC_EVCTRL_EXTINTEO_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_EVCTRL_reg(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg |= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_evctrl_reg_t hri_eic_get_EVCTRL_reg(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_eic_write_EVCTRL_reg(const void *const hw, hri_eic_evctrl_reg_t data)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg = data;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_EVCTRL_reg(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg &= ~mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_EVCTRL_reg(const void *const hw, hri_eic_evctrl_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->EVCTRL.reg ^= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_evctrl_reg_t hri_eic_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Eic *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_eic_set_ASYNCH_ASYNCH_bf(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg |= EIC_ASYNCH_ASYNCH(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_asynch_reg_t hri_eic_get_ASYNCH_ASYNCH_bf(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->ASYNCH.reg;
+	tmp = (tmp & EIC_ASYNCH_ASYNCH(mask)) >> EIC_ASYNCH_ASYNCH_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_ASYNCH_ASYNCH_bf(const void *const hw, hri_eic_asynch_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->ASYNCH.reg;
+	tmp &= ~EIC_ASYNCH_ASYNCH_Msk;
+	tmp |= EIC_ASYNCH_ASYNCH(data);
+	((Eic *)hw)->ASYNCH.reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_ASYNCH_ASYNCH_bf(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg &= ~EIC_ASYNCH_ASYNCH(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_ASYNCH_ASYNCH_bf(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg ^= EIC_ASYNCH_ASYNCH(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_asynch_reg_t hri_eic_read_ASYNCH_ASYNCH_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->ASYNCH.reg;
+	tmp = (tmp & EIC_ASYNCH_ASYNCH_Msk) >> EIC_ASYNCH_ASYNCH_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_ASYNCH_reg(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg |= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_asynch_reg_t hri_eic_get_ASYNCH_reg(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->ASYNCH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_eic_write_ASYNCH_reg(const void *const hw, hri_eic_asynch_reg_t data)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg = data;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_ASYNCH_reg(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg &= ~mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_ASYNCH_reg(const void *const hw, hri_eic_asynch_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->ASYNCH.reg ^= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_asynch_reg_t hri_eic_read_ASYNCH_reg(const void *const hw)
+{
+	return ((Eic *)hw)->ASYNCH.reg;
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN0_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN0;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN0_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN0) >> EIC_CONFIG_FILTEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN0_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN0;
+	tmp |= value << EIC_CONFIG_FILTEN0_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN0_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN0;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN0_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN0;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN1_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN1;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN1_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN1) >> EIC_CONFIG_FILTEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN1_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN1;
+	tmp |= value << EIC_CONFIG_FILTEN1_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN1_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN1;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN1_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN1;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN2_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN2;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN2_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN2) >> EIC_CONFIG_FILTEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN2_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN2;
+	tmp |= value << EIC_CONFIG_FILTEN2_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN2_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN2;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN2_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN2;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN3_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN3;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN3_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN3) >> EIC_CONFIG_FILTEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN3_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN3;
+	tmp |= value << EIC_CONFIG_FILTEN3_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN3_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN3;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN3_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN3;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN4_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN4;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN4_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN4) >> EIC_CONFIG_FILTEN4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN4_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN4;
+	tmp |= value << EIC_CONFIG_FILTEN4_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN4_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN4;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN4_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN4;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN5_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN5;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN5_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN5) >> EIC_CONFIG_FILTEN5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN5_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN5;
+	tmp |= value << EIC_CONFIG_FILTEN5_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN5_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN5;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN5_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN5;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN6_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN6;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN6_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN6) >> EIC_CONFIG_FILTEN6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN6_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN6;
+	tmp |= value << EIC_CONFIG_FILTEN6_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN6_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN6;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN6_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN6;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_FILTEN7_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_FILTEN7;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_eic_get_CONFIG_FILTEN7_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_FILTEN7) >> EIC_CONFIG_FILTEN7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_eic_write_CONFIG_FILTEN7_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_FILTEN7;
+	tmp |= value << EIC_CONFIG_FILTEN7_Pos;
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_FILTEN7_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_FILTEN7;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_FILTEN7_bit(const void *const hw, uint8_t index)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_FILTEN7;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_set_CONFIG_SENSE0_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE0(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE0_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE0(mask)) >> EIC_CONFIG_SENSE0_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE0_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE0_Msk;
+	tmp |= EIC_CONFIG_SENSE0(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE0_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE0(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE0_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE0(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE0_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE0_Msk) >> EIC_CONFIG_SENSE0_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE1_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE1(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE1_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE1(mask)) >> EIC_CONFIG_SENSE1_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE1_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE1_Msk;
+	tmp |= EIC_CONFIG_SENSE1(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE1_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE1(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE1_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE1(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE1_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE1_Msk) >> EIC_CONFIG_SENSE1_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE2_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE2(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE2_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE2(mask)) >> EIC_CONFIG_SENSE2_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE2_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE2_Msk;
+	tmp |= EIC_CONFIG_SENSE2(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE2_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE2(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE2_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE2(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE2_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE2_Msk) >> EIC_CONFIG_SENSE2_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE3_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE3(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE3_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE3(mask)) >> EIC_CONFIG_SENSE3_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE3_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE3_Msk;
+	tmp |= EIC_CONFIG_SENSE3(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE3_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE3(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE3_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE3(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE3_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE3_Msk) >> EIC_CONFIG_SENSE3_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE4_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE4(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE4_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE4(mask)) >> EIC_CONFIG_SENSE4_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE4_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE4_Msk;
+	tmp |= EIC_CONFIG_SENSE4(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE4_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE4(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE4_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE4(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE4_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE4_Msk) >> EIC_CONFIG_SENSE4_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE5_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE5(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE5_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE5(mask)) >> EIC_CONFIG_SENSE5_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE5_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE5_Msk;
+	tmp |= EIC_CONFIG_SENSE5(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE5_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE5(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE5_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE5(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE5_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE5_Msk) >> EIC_CONFIG_SENSE5_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE6_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE6(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE6_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE6(mask)) >> EIC_CONFIG_SENSE6_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE6_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE6_Msk;
+	tmp |= EIC_CONFIG_SENSE6(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE6_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE6(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE6_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE6(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE6_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE6_Msk) >> EIC_CONFIG_SENSE6_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_SENSE7_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= EIC_CONFIG_SENSE7(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_SENSE7_bf(const void *const hw, uint8_t index,
+                                                                hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE7(mask)) >> EIC_CONFIG_SENSE7_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_SENSE7_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	uint32_t tmp;
+	EIC_CRITICAL_SECTION_ENTER();
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= ~EIC_CONFIG_SENSE7_Msk;
+	tmp |= EIC_CONFIG_SENSE7(data);
+	((Eic *)hw)->CONFIG[index].reg = tmp;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_SENSE7_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~EIC_CONFIG_SENSE7(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_SENSE7_bf(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= EIC_CONFIG_SENSE7(mask);
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_SENSE7_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp = (tmp & EIC_CONFIG_SENSE7_Msk) >> EIC_CONFIG_SENSE7_Pos;
+	return tmp;
+}
+
+static inline void hri_eic_set_CONFIG_reg(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg |= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_get_CONFIG_reg(const void *const hw, uint8_t index,
+                                                          hri_eic_config_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Eic *)hw)->CONFIG[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_eic_write_CONFIG_reg(const void *const hw, uint8_t index, hri_eic_config_reg_t data)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg = data;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_clear_CONFIG_reg(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg &= ~mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_eic_toggle_CONFIG_reg(const void *const hw, uint8_t index, hri_eic_config_reg_t mask)
+{
+	EIC_CRITICAL_SECTION_ENTER();
+	((Eic *)hw)->CONFIG[index].reg ^= mask;
+	EIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_eic_config_reg_t hri_eic_read_CONFIG_reg(const void *const hw, uint8_t index)
+{
+	return ((Eic *)hw)->CONFIG[index].reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_EIC_L22_H_INCLUDED */
+#endif /* _SAML22_EIC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_evsys_l22.h b/watch-library/hardware/hri/hri_evsys_l22.h
new file mode 100644
index 00000000..a2964f94
--- /dev/null
+++ b/watch-library/hardware/hri/hri_evsys_l22.h
@@ -0,0 +1,1333 @@
+/**
+ * \file
+ *
+ * \brief SAM EVSYS
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_EVSYS_COMPONENT_
+#ifndef _HRI_EVSYS_L22_H_INCLUDED_
+#define _HRI_EVSYS_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_EVSYS_CRITICAL_SECTIONS)
+#define EVSYS_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define EVSYS_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define EVSYS_CRITICAL_SECTION_ENTER()
+#define EVSYS_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_evsys_channel_reg_t;
+typedef uint32_t hri_evsys_chstatus_reg_t;
+typedef uint32_t hri_evsys_intenset_reg_t;
+typedef uint32_t hri_evsys_intflag_reg_t;
+typedef uint32_t hri_evsys_swevt_reg_t;
+typedef uint32_t hri_evsys_user_reg_t;
+typedef uint8_t  hri_evsys_ctrla_reg_t;
+
+static inline bool hri_evsys_get_INTFLAG_OVR0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR0) >> EVSYS_INTFLAG_OVR0_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR0;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR1) >> EVSYS_INTFLAG_OVR1_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR1;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR2) >> EVSYS_INTFLAG_OVR2_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR2;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR3) >> EVSYS_INTFLAG_OVR3_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR3;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR4) >> EVSYS_INTFLAG_OVR4_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR4;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR5) >> EVSYS_INTFLAG_OVR5_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR5;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR6) >> EVSYS_INTFLAG_OVR6_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR6;
+}
+
+static inline bool hri_evsys_get_INTFLAG_OVR7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR7) >> EVSYS_INTFLAG_OVR7_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_OVR7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR7;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD0) >> EVSYS_INTFLAG_EVD0_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD0;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD1) >> EVSYS_INTFLAG_EVD1_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD1;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD2) >> EVSYS_INTFLAG_EVD2_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD2;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD3) >> EVSYS_INTFLAG_EVD3_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD3;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD4) >> EVSYS_INTFLAG_EVD4_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD4;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD5) >> EVSYS_INTFLAG_EVD5_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD5;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD6) >> EVSYS_INTFLAG_EVD6_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD6;
+}
+
+static inline bool hri_evsys_get_INTFLAG_EVD7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD7) >> EVSYS_INTFLAG_EVD7_Pos;
+}
+
+static inline void hri_evsys_clear_INTFLAG_EVD7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD7;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR0) >> EVSYS_INTFLAG_OVR0_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR0;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR1) >> EVSYS_INTFLAG_OVR1_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR1;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR2) >> EVSYS_INTFLAG_OVR2_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR2;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR3) >> EVSYS_INTFLAG_OVR3_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR3;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR4) >> EVSYS_INTFLAG_OVR4_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR4;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR5) >> EVSYS_INTFLAG_OVR5_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR5;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR6) >> EVSYS_INTFLAG_OVR6_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR6;
+}
+
+static inline bool hri_evsys_get_interrupt_OVR7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_OVR7) >> EVSYS_INTFLAG_OVR7_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_OVR7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_OVR7;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD0) >> EVSYS_INTFLAG_EVD0_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD0;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD1) >> EVSYS_INTFLAG_EVD1_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD1;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD2) >> EVSYS_INTFLAG_EVD2_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD2;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD3) >> EVSYS_INTFLAG_EVD3_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD3;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD4) >> EVSYS_INTFLAG_EVD4_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD4;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD5) >> EVSYS_INTFLAG_EVD5_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD5;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD6) >> EVSYS_INTFLAG_EVD6_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD6;
+}
+
+static inline bool hri_evsys_get_interrupt_EVD7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTFLAG.reg & EVSYS_INTFLAG_EVD7) >> EVSYS_INTFLAG_EVD7_Pos;
+}
+
+static inline void hri_evsys_clear_interrupt_EVD7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTFLAG.reg = EVSYS_INTFLAG_EVD7;
+}
+
+static inline hri_evsys_intflag_reg_t hri_evsys_get_INTFLAG_reg(const void *const hw, hri_evsys_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_evsys_intflag_reg_t hri_evsys_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Evsys *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_evsys_clear_INTFLAG_reg(const void *const hw, hri_evsys_intflag_reg_t mask)
+{
+	((Evsys *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_evsys_set_INTEN_OVR0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR0;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR0) >> EVSYS_INTENSET_OVR0_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR0;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR0;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR0;
+}
+
+static inline void hri_evsys_set_INTEN_OVR1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR1;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR1) >> EVSYS_INTENSET_OVR1_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR1;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR1;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR1;
+}
+
+static inline void hri_evsys_set_INTEN_OVR2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR2;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR2) >> EVSYS_INTENSET_OVR2_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR2;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR2;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR2;
+}
+
+static inline void hri_evsys_set_INTEN_OVR3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR3;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR3) >> EVSYS_INTENSET_OVR3_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR3;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR3;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR3;
+}
+
+static inline void hri_evsys_set_INTEN_OVR4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR4;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR4) >> EVSYS_INTENSET_OVR4_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR4_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR4;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR4;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR4;
+}
+
+static inline void hri_evsys_set_INTEN_OVR5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR5;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR5) >> EVSYS_INTENSET_OVR5_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR5_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR5;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR5;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR5;
+}
+
+static inline void hri_evsys_set_INTEN_OVR6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR6;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR6) >> EVSYS_INTENSET_OVR6_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR6_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR6;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR6;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR6;
+}
+
+static inline void hri_evsys_set_INTEN_OVR7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR7;
+}
+
+static inline bool hri_evsys_get_INTEN_OVR7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_OVR7) >> EVSYS_INTENSET_OVR7_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_OVR7_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR7;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_OVR7;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_OVR7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_OVR7;
+}
+
+static inline void hri_evsys_set_INTEN_EVD0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD0;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD0) >> EVSYS_INTENSET_EVD0_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD0;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD0;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD0_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD0;
+}
+
+static inline void hri_evsys_set_INTEN_EVD1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD1;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD1) >> EVSYS_INTENSET_EVD1_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD1;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD1;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD1_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD1;
+}
+
+static inline void hri_evsys_set_INTEN_EVD2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD2;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD2) >> EVSYS_INTENSET_EVD2_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD2;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD2;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD2_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD2;
+}
+
+static inline void hri_evsys_set_INTEN_EVD3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD3;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD3) >> EVSYS_INTENSET_EVD3_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD3;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD3;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD3_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD3;
+}
+
+static inline void hri_evsys_set_INTEN_EVD4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD4;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD4) >> EVSYS_INTENSET_EVD4_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD4_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD4;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD4;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD4_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD4;
+}
+
+static inline void hri_evsys_set_INTEN_EVD5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD5;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD5) >> EVSYS_INTENSET_EVD5_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD5_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD5;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD5;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD5_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD5;
+}
+
+static inline void hri_evsys_set_INTEN_EVD6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD6;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD6) >> EVSYS_INTENSET_EVD6_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD6_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD6;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD6;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD6_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD6;
+}
+
+static inline void hri_evsys_set_INTEN_EVD7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD7;
+}
+
+static inline bool hri_evsys_get_INTEN_EVD7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->INTENSET.reg & EVSYS_INTENSET_EVD7) >> EVSYS_INTENSET_EVD7_Pos;
+}
+
+static inline void hri_evsys_write_INTEN_EVD7_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD7;
+	} else {
+		((Evsys *)hw)->INTENSET.reg = EVSYS_INTENSET_EVD7;
+	}
+}
+
+static inline void hri_evsys_clear_INTEN_EVD7_bit(const void *const hw)
+{
+	((Evsys *)hw)->INTENCLR.reg = EVSYS_INTENSET_EVD7;
+}
+
+static inline void hri_evsys_set_INTEN_reg(const void *const hw, hri_evsys_intenset_reg_t mask)
+{
+	((Evsys *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_evsys_intenset_reg_t hri_evsys_get_INTEN_reg(const void *const hw, hri_evsys_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_evsys_intenset_reg_t hri_evsys_read_INTEN_reg(const void *const hw)
+{
+	return ((Evsys *)hw)->INTENSET.reg;
+}
+
+static inline void hri_evsys_write_INTEN_reg(const void *const hw, hri_evsys_intenset_reg_t data)
+{
+	((Evsys *)hw)->INTENSET.reg = data;
+	((Evsys *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_evsys_clear_INTEN_reg(const void *const hw, hri_evsys_intenset_reg_t mask)
+{
+	((Evsys *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY0) >> EVSYS_CHSTATUS_USRRDY0_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY1) >> EVSYS_CHSTATUS_USRRDY1_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY2) >> EVSYS_CHSTATUS_USRRDY2_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY3) >> EVSYS_CHSTATUS_USRRDY3_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY4) >> EVSYS_CHSTATUS_USRRDY4_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY5) >> EVSYS_CHSTATUS_USRRDY5_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY6) >> EVSYS_CHSTATUS_USRRDY6_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_USRRDY7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_USRRDY7) >> EVSYS_CHSTATUS_USRRDY7_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY0_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY0) >> EVSYS_CHSTATUS_CHBUSY0_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY1_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY1) >> EVSYS_CHSTATUS_CHBUSY1_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY2_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY2) >> EVSYS_CHSTATUS_CHBUSY2_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY3_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY3) >> EVSYS_CHSTATUS_CHBUSY3_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY4_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY4) >> EVSYS_CHSTATUS_CHBUSY4_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY5_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY5) >> EVSYS_CHSTATUS_CHBUSY5_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY6_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY6) >> EVSYS_CHSTATUS_CHBUSY6_Pos;
+}
+
+static inline bool hri_evsys_get_CHSTATUS_CHBUSY7_bit(const void *const hw)
+{
+	return (((Evsys *)hw)->CHSTATUS.reg & EVSYS_CHSTATUS_CHBUSY7) >> EVSYS_CHSTATUS_CHBUSY7_Pos;
+}
+
+static inline hri_evsys_chstatus_reg_t hri_evsys_get_CHSTATUS_reg(const void *const hw, hri_evsys_chstatus_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_evsys_chstatus_reg_t hri_evsys_read_CHSTATUS_reg(const void *const hw)
+{
+	return ((Evsys *)hw)->CHSTATUS.reg;
+}
+
+static inline void hri_evsys_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CTRLA.reg |= EVSYS_CTRLA_SWRST;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_evsys_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Evsys *)hw)->CTRLA.reg;
+	tmp = (tmp & EVSYS_CTRLA_SWRST) >> EVSYS_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_evsys_set_CTRLA_reg(const void *const hw, hri_evsys_ctrla_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CTRLA.reg |= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_ctrla_reg_t hri_evsys_get_CTRLA_reg(const void *const hw, hri_evsys_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Evsys *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_evsys_write_CTRLA_reg(const void *const hw, hri_evsys_ctrla_reg_t data)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CTRLA.reg = data;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CTRLA_reg(const void *const hw, hri_evsys_ctrla_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CTRLA.reg &= ~mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CTRLA_reg(const void *const hw, hri_evsys_ctrla_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CTRLA.reg ^= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_ctrla_reg_t hri_evsys_read_CTRLA_reg(const void *const hw)
+{
+	return ((Evsys *)hw)->CTRLA.reg;
+}
+
+static inline void hri_evsys_set_CHANNEL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= EVSYS_CHANNEL_RUNSTDBY;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_evsys_get_CHANNEL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_RUNSTDBY) >> EVSYS_CHANNEL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_RUNSTDBY_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= ~EVSYS_CHANNEL_RUNSTDBY;
+	tmp |= value << EVSYS_CHANNEL_RUNSTDBY_Pos;
+	((Evsys *)hw)->CHANNEL[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~EVSYS_CHANNEL_RUNSTDBY;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= EVSYS_CHANNEL_RUNSTDBY;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_set_CHANNEL_ONDEMAND_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= EVSYS_CHANNEL_ONDEMAND;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_evsys_get_CHANNEL_ONDEMAND_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_ONDEMAND) >> EVSYS_CHANNEL_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_ONDEMAND_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= ~EVSYS_CHANNEL_ONDEMAND;
+	tmp |= value << EVSYS_CHANNEL_ONDEMAND_Pos;
+	((Evsys *)hw)->CHANNEL[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_ONDEMAND_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~EVSYS_CHANNEL_ONDEMAND;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_ONDEMAND_bit(const void *const hw, uint8_t index)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= EVSYS_CHANNEL_ONDEMAND;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_set_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= EVSYS_CHANNEL_EVGEN(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_get_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index,
+                                                                     hri_evsys_channel_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_EVGEN(mask)) >> EVSYS_CHANNEL_EVGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t data)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= ~EVSYS_CHANNEL_EVGEN_Msk;
+	tmp |= EVSYS_CHANNEL_EVGEN(data);
+	((Evsys *)hw)->CHANNEL[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~EVSYS_CHANNEL_EVGEN(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= EVSYS_CHANNEL_EVGEN(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_read_CHANNEL_EVGEN_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_EVGEN_Msk) >> EVSYS_CHANNEL_EVGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_set_CHANNEL_PATH_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= EVSYS_CHANNEL_PATH(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_get_CHANNEL_PATH_bf(const void *const hw, uint8_t index,
+                                                                    hri_evsys_channel_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_PATH(mask)) >> EVSYS_CHANNEL_PATH_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_PATH_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t data)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= ~EVSYS_CHANNEL_PATH_Msk;
+	tmp |= EVSYS_CHANNEL_PATH(data);
+	((Evsys *)hw)->CHANNEL[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_PATH_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~EVSYS_CHANNEL_PATH(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_PATH_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= EVSYS_CHANNEL_PATH(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_read_CHANNEL_PATH_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_PATH_Msk) >> EVSYS_CHANNEL_PATH_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_set_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= EVSYS_CHANNEL_EDGSEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_get_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index,
+                                                                      hri_evsys_channel_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_EDGSEL(mask)) >> EVSYS_CHANNEL_EDGSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t data)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= ~EVSYS_CHANNEL_EDGSEL_Msk;
+	tmp |= EVSYS_CHANNEL_EDGSEL(data);
+	((Evsys *)hw)->CHANNEL[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~EVSYS_CHANNEL_EDGSEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= EVSYS_CHANNEL_EDGSEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_read_CHANNEL_EDGSEL_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp = (tmp & EVSYS_CHANNEL_EDGSEL_Msk) >> EVSYS_CHANNEL_EDGSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_set_CHANNEL_reg(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg |= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_get_CHANNEL_reg(const void *const hw, uint8_t index,
+                                                                hri_evsys_channel_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->CHANNEL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_evsys_write_CHANNEL_reg(const void *const hw, uint8_t index, hri_evsys_channel_reg_t data)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg = data;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_CHANNEL_reg(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg &= ~mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_CHANNEL_reg(const void *const hw, uint8_t index, hri_evsys_channel_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->CHANNEL[index].reg ^= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_channel_reg_t hri_evsys_read_CHANNEL_reg(const void *const hw, uint8_t index)
+{
+	return ((Evsys *)hw)->CHANNEL[index].reg;
+}
+
+static inline void hri_evsys_set_USER_CHANNEL_bf(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg |= EVSYS_USER_CHANNEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_user_reg_t hri_evsys_get_USER_CHANNEL_bf(const void *const hw, uint8_t index,
+                                                                 hri_evsys_user_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->USER[index].reg;
+	tmp = (tmp & EVSYS_USER_CHANNEL(mask)) >> EVSYS_USER_CHANNEL_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_write_USER_CHANNEL_bf(const void *const hw, uint8_t index, hri_evsys_user_reg_t data)
+{
+	uint32_t tmp;
+	EVSYS_CRITICAL_SECTION_ENTER();
+	tmp = ((Evsys *)hw)->USER[index].reg;
+	tmp &= ~EVSYS_USER_CHANNEL_Msk;
+	tmp |= EVSYS_USER_CHANNEL(data);
+	((Evsys *)hw)->USER[index].reg = tmp;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_USER_CHANNEL_bf(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg &= ~EVSYS_USER_CHANNEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_USER_CHANNEL_bf(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg ^= EVSYS_USER_CHANNEL(mask);
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_user_reg_t hri_evsys_read_USER_CHANNEL_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->USER[index].reg;
+	tmp = (tmp & EVSYS_USER_CHANNEL_Msk) >> EVSYS_USER_CHANNEL_Pos;
+	return tmp;
+}
+
+static inline void hri_evsys_set_USER_reg(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg |= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_user_reg_t hri_evsys_get_USER_reg(const void *const hw, uint8_t index,
+                                                          hri_evsys_user_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Evsys *)hw)->USER[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_evsys_write_USER_reg(const void *const hw, uint8_t index, hri_evsys_user_reg_t data)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg = data;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_clear_USER_reg(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg &= ~mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_evsys_toggle_USER_reg(const void *const hw, uint8_t index, hri_evsys_user_reg_t mask)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->USER[index].reg ^= mask;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_evsys_user_reg_t hri_evsys_read_USER_reg(const void *const hw, uint8_t index)
+{
+	return ((Evsys *)hw)->USER[index].reg;
+}
+
+static inline void hri_evsys_write_SWEVT_reg(const void *const hw, hri_evsys_swevt_reg_t data)
+{
+	EVSYS_CRITICAL_SECTION_ENTER();
+	((Evsys *)hw)->SWEVT.reg = data;
+	EVSYS_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_EVSYS_L22_H_INCLUDED */
+#endif /* _SAML22_EVSYS_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_freqm_l22.h b/watch-library/hardware/hri/hri_freqm_l22.h
new file mode 100644
index 00000000..e221bbfd
--- /dev/null
+++ b/watch-library/hardware/hri/hri_freqm_l22.h
@@ -0,0 +1,464 @@
+/**
+ * \file
+ *
+ * \brief SAM FREQM
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_FREQM_COMPONENT_
+#ifndef _HRI_FREQM_L22_H_INCLUDED_
+#define _HRI_FREQM_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_FREQM_CRITICAL_SECTIONS)
+#define FREQM_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define FREQM_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define FREQM_CRITICAL_SECTION_ENTER()
+#define FREQM_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_freqm_cfga_reg_t;
+typedef uint32_t hri_freqm_syncbusy_reg_t;
+typedef uint32_t hri_freqm_value_reg_t;
+typedef uint8_t  hri_freqm_ctrla_reg_t;
+typedef uint8_t  hri_freqm_ctrlb_reg_t;
+typedef uint8_t  hri_freqm_intenset_reg_t;
+typedef uint8_t  hri_freqm_intflag_reg_t;
+typedef uint8_t  hri_freqm_status_reg_t;
+
+static inline void hri_freqm_wait_for_sync(const void *const hw, hri_freqm_syncbusy_reg_t reg)
+{
+	while (((Freqm *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_freqm_is_syncing(const void *const hw, hri_freqm_syncbusy_reg_t reg)
+{
+	return ((Freqm *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_freqm_get_INTFLAG_DONE_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->INTFLAG.reg & FREQM_INTFLAG_DONE) >> FREQM_INTFLAG_DONE_Pos;
+}
+
+static inline void hri_freqm_clear_INTFLAG_DONE_bit(const void *const hw)
+{
+	((Freqm *)hw)->INTFLAG.reg = FREQM_INTFLAG_DONE;
+}
+
+static inline bool hri_freqm_get_interrupt_DONE_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->INTFLAG.reg & FREQM_INTFLAG_DONE) >> FREQM_INTFLAG_DONE_Pos;
+}
+
+static inline void hri_freqm_clear_interrupt_DONE_bit(const void *const hw)
+{
+	((Freqm *)hw)->INTFLAG.reg = FREQM_INTFLAG_DONE;
+}
+
+static inline hri_freqm_intflag_reg_t hri_freqm_get_INTFLAG_reg(const void *const hw, hri_freqm_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Freqm *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_freqm_intflag_reg_t hri_freqm_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_freqm_clear_INTFLAG_reg(const void *const hw, hri_freqm_intflag_reg_t mask)
+{
+	((Freqm *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_freqm_set_INTEN_DONE_bit(const void *const hw)
+{
+	((Freqm *)hw)->INTENSET.reg = FREQM_INTENSET_DONE;
+}
+
+static inline bool hri_freqm_get_INTEN_DONE_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->INTENSET.reg & FREQM_INTENSET_DONE) >> FREQM_INTENSET_DONE_Pos;
+}
+
+static inline void hri_freqm_write_INTEN_DONE_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Freqm *)hw)->INTENCLR.reg = FREQM_INTENSET_DONE;
+	} else {
+		((Freqm *)hw)->INTENSET.reg = FREQM_INTENSET_DONE;
+	}
+}
+
+static inline void hri_freqm_clear_INTEN_DONE_bit(const void *const hw)
+{
+	((Freqm *)hw)->INTENCLR.reg = FREQM_INTENSET_DONE;
+}
+
+static inline void hri_freqm_set_INTEN_reg(const void *const hw, hri_freqm_intenset_reg_t mask)
+{
+	((Freqm *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_freqm_intenset_reg_t hri_freqm_get_INTEN_reg(const void *const hw, hri_freqm_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Freqm *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_freqm_intenset_reg_t hri_freqm_read_INTEN_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->INTENSET.reg;
+}
+
+static inline void hri_freqm_write_INTEN_reg(const void *const hw, hri_freqm_intenset_reg_t data)
+{
+	((Freqm *)hw)->INTENSET.reg = data;
+	((Freqm *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_freqm_clear_INTEN_reg(const void *const hw, hri_freqm_intenset_reg_t mask)
+{
+	((Freqm *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_freqm_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->SYNCBUSY.reg & FREQM_SYNCBUSY_SWRST) >> FREQM_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_freqm_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->SYNCBUSY.reg & FREQM_SYNCBUSY_ENABLE) >> FREQM_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline hri_freqm_syncbusy_reg_t hri_freqm_get_SYNCBUSY_reg(const void *const hw, hri_freqm_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Freqm *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_freqm_syncbusy_reg_t hri_freqm_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->SYNCBUSY.reg;
+}
+
+static inline hri_freqm_value_reg_t hri_freqm_get_VALUE_VALUE_bf(const void *const hw, hri_freqm_value_reg_t mask)
+{
+	return (((Freqm *)hw)->VALUE.reg & FREQM_VALUE_VALUE(mask)) >> FREQM_VALUE_VALUE_Pos;
+}
+
+static inline hri_freqm_value_reg_t hri_freqm_read_VALUE_VALUE_bf(const void *const hw)
+{
+	return (((Freqm *)hw)->VALUE.reg & FREQM_VALUE_VALUE_Msk) >> FREQM_VALUE_VALUE_Pos;
+}
+
+static inline hri_freqm_value_reg_t hri_freqm_get_VALUE_reg(const void *const hw, hri_freqm_value_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Freqm *)hw)->VALUE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_freqm_value_reg_t hri_freqm_read_VALUE_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->VALUE.reg;
+}
+
+static inline void hri_freqm_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg |= FREQM_CTRLA_SWRST;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_freqm_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST);
+	tmp = ((Freqm *)hw)->CTRLA.reg;
+	tmp = (tmp & FREQM_CTRLA_SWRST) >> FREQM_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_freqm_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg |= FREQM_CTRLA_ENABLE;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST | FREQM_SYNCBUSY_ENABLE);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_freqm_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST | FREQM_SYNCBUSY_ENABLE);
+	tmp = ((Freqm *)hw)->CTRLA.reg;
+	tmp = (tmp & FREQM_CTRLA_ENABLE) >> FREQM_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_freqm_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	FREQM_CRITICAL_SECTION_ENTER();
+	tmp = ((Freqm *)hw)->CTRLA.reg;
+	tmp &= ~FREQM_CTRLA_ENABLE;
+	tmp |= value << FREQM_CTRLA_ENABLE_Pos;
+	((Freqm *)hw)->CTRLA.reg = tmp;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST | FREQM_SYNCBUSY_ENABLE);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg &= ~FREQM_CTRLA_ENABLE;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST | FREQM_SYNCBUSY_ENABLE);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg ^= FREQM_CTRLA_ENABLE;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_SWRST | FREQM_SYNCBUSY_ENABLE);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_set_CTRLA_reg(const void *const hw, hri_freqm_ctrla_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg |= mask;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_ctrla_reg_t hri_freqm_get_CTRLA_reg(const void *const hw, hri_freqm_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	tmp = ((Freqm *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_freqm_write_CTRLA_reg(const void *const hw, hri_freqm_ctrla_reg_t data)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg = data;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_clear_CTRLA_reg(const void *const hw, hri_freqm_ctrla_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg &= ~mask;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_toggle_CTRLA_reg(const void *const hw, hri_freqm_ctrla_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLA.reg ^= mask;
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_ctrla_reg_t hri_freqm_read_CTRLA_reg(const void *const hw)
+{
+	hri_freqm_wait_for_sync(hw, FREQM_SYNCBUSY_MASK);
+	return ((Freqm *)hw)->CTRLA.reg;
+}
+
+static inline void hri_freqm_set_CFGA_REFNUM_bf(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg |= FREQM_CFGA_REFNUM(mask);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_cfga_reg_t hri_freqm_get_CFGA_REFNUM_bf(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Freqm *)hw)->CFGA.reg;
+	tmp = (tmp & FREQM_CFGA_REFNUM(mask)) >> FREQM_CFGA_REFNUM_Pos;
+	return tmp;
+}
+
+static inline void hri_freqm_write_CFGA_REFNUM_bf(const void *const hw, hri_freqm_cfga_reg_t data)
+{
+	uint16_t tmp;
+	FREQM_CRITICAL_SECTION_ENTER();
+	tmp = ((Freqm *)hw)->CFGA.reg;
+	tmp &= ~FREQM_CFGA_REFNUM_Msk;
+	tmp |= FREQM_CFGA_REFNUM(data);
+	((Freqm *)hw)->CFGA.reg = tmp;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_clear_CFGA_REFNUM_bf(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg &= ~FREQM_CFGA_REFNUM(mask);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_toggle_CFGA_REFNUM_bf(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg ^= FREQM_CFGA_REFNUM(mask);
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_cfga_reg_t hri_freqm_read_CFGA_REFNUM_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Freqm *)hw)->CFGA.reg;
+	tmp = (tmp & FREQM_CFGA_REFNUM_Msk) >> FREQM_CFGA_REFNUM_Pos;
+	return tmp;
+}
+
+static inline void hri_freqm_set_CFGA_reg(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg |= mask;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_cfga_reg_t hri_freqm_get_CFGA_reg(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Freqm *)hw)->CFGA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_freqm_write_CFGA_reg(const void *const hw, hri_freqm_cfga_reg_t data)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg = data;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_clear_CFGA_reg(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg &= ~mask;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_freqm_toggle_CFGA_reg(const void *const hw, hri_freqm_cfga_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CFGA.reg ^= mask;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_cfga_reg_t hri_freqm_read_CFGA_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->CFGA.reg;
+}
+
+static inline bool hri_freqm_get_STATUS_BUSY_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->STATUS.reg & FREQM_STATUS_BUSY) >> FREQM_STATUS_BUSY_Pos;
+}
+
+static inline void hri_freqm_clear_STATUS_BUSY_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->STATUS.reg = FREQM_STATUS_BUSY;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_freqm_get_STATUS_OVF_bit(const void *const hw)
+{
+	return (((Freqm *)hw)->STATUS.reg & FREQM_STATUS_OVF) >> FREQM_STATUS_OVF_Pos;
+}
+
+static inline void hri_freqm_clear_STATUS_OVF_bit(const void *const hw)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->STATUS.reg = FREQM_STATUS_OVF;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_status_reg_t hri_freqm_get_STATUS_reg(const void *const hw, hri_freqm_status_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Freqm *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_freqm_clear_STATUS_reg(const void *const hw, hri_freqm_status_reg_t mask)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->STATUS.reg = mask;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_freqm_status_reg_t hri_freqm_read_STATUS_reg(const void *const hw)
+{
+	return ((Freqm *)hw)->STATUS.reg;
+}
+
+static inline void hri_freqm_write_CTRLB_reg(const void *const hw, hri_freqm_ctrlb_reg_t data)
+{
+	FREQM_CRITICAL_SECTION_ENTER();
+	((Freqm *)hw)->CTRLB.reg = data;
+	FREQM_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_FREQM_L22_H_INCLUDED */
+#endif /* _SAML22_FREQM_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_gclk_l22.h b/watch-library/hardware/hri/hri_gclk_l22.h
new file mode 100644
index 00000000..2ae6d491
--- /dev/null
+++ b/watch-library/hardware/hri/hri_gclk_l22.h
@@ -0,0 +1,770 @@
+/**
+ * \file
+ *
+ * \brief SAM GCLK
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_GCLK_COMPONENT_
+#ifndef _HRI_GCLK_L22_H_INCLUDED_
+#define _HRI_GCLK_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_GCLK_CRITICAL_SECTIONS)
+#define GCLK_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define GCLK_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define GCLK_CRITICAL_SECTION_ENTER()
+#define GCLK_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_gclk_genctrl_reg_t;
+typedef uint32_t hri_gclk_pchctrl_reg_t;
+typedef uint32_t hri_gclk_syncbusy_reg_t;
+typedef uint8_t  hri_gclk_ctrla_reg_t;
+
+static inline void hri_gclk_wait_for_sync(const void *const hw, hri_gclk_syncbusy_reg_t reg)
+{
+	while (((Gclk *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_gclk_is_syncing(const void *const hw, hri_gclk_syncbusy_reg_t reg)
+{
+	return ((Gclk *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_SWRST) >> GCLK_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_GENCTRL0_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_GENCTRL0) >> GCLK_SYNCBUSY_GENCTRL0_Pos;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_GENCTRL1_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_GENCTRL1) >> GCLK_SYNCBUSY_GENCTRL1_Pos;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_GENCTRL2_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_GENCTRL2) >> GCLK_SYNCBUSY_GENCTRL2_Pos;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_GENCTRL3_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_GENCTRL3) >> GCLK_SYNCBUSY_GENCTRL3_Pos;
+}
+
+static inline bool hri_gclk_get_SYNCBUSY_GENCTRL4_bit(const void *const hw)
+{
+	return (((Gclk *)hw)->SYNCBUSY.reg & GCLK_SYNCBUSY_GENCTRL4) >> GCLK_SYNCBUSY_GENCTRL4_Pos;
+}
+
+static inline hri_gclk_syncbusy_reg_t hri_gclk_get_SYNCBUSY_reg(const void *const hw, hri_gclk_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_gclk_syncbusy_reg_t hri_gclk_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Gclk *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_gclk_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->CTRLA.reg |= GCLK_CTRLA_SWRST;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	tmp = ((Gclk *)hw)->CTRLA.reg;
+	tmp = (tmp & GCLK_CTRLA_SWRST) >> GCLK_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_set_CTRLA_reg(const void *const hw, hri_gclk_ctrla_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->CTRLA.reg |= mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_ctrla_reg_t hri_gclk_get_CTRLA_reg(const void *const hw, hri_gclk_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	tmp = ((Gclk *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_gclk_write_CTRLA_reg(const void *const hw, hri_gclk_ctrla_reg_t data)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->CTRLA.reg = data;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_CTRLA_reg(const void *const hw, hri_gclk_ctrla_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->CTRLA.reg &= ~mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_CTRLA_reg(const void *const hw, hri_gclk_ctrla_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->CTRLA.reg ^= mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_ctrla_reg_t hri_gclk_read_CTRLA_reg(const void *const hw)
+{
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_SWRST);
+	return ((Gclk *)hw)->CTRLA.reg;
+}
+
+static inline void hri_gclk_set_GENCTRL_GENEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_GENEN;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_GENEN_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_GENEN) >> GCLK_GENCTRL_GENEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_GENEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_GENEN;
+	tmp |= value << GCLK_GENCTRL_GENEN_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_GENEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_GENEN;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_GENEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_GENEN;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_IDC_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_IDC;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_IDC_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_IDC) >> GCLK_GENCTRL_IDC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_IDC_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_IDC;
+	tmp |= value << GCLK_GENCTRL_IDC_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_IDC_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_IDC;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_IDC_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_IDC;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_OOV_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_OOV;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_OOV_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_OOV) >> GCLK_GENCTRL_OOV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_OOV_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_OOV;
+	tmp |= value << GCLK_GENCTRL_OOV_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_OOV_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_OOV;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_OOV_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_OOV;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_OE_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_OE;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_OE_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_OE) >> GCLK_GENCTRL_OE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_OE_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_OE;
+	tmp |= value << GCLK_GENCTRL_OE_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_OE_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_OE;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_OE_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_OE;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_DIVSEL_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_DIVSEL;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_DIVSEL_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_DIVSEL) >> GCLK_GENCTRL_DIVSEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_DIVSEL_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_DIVSEL;
+	tmp |= value << GCLK_GENCTRL_DIVSEL_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_DIVSEL_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_DIVSEL;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_DIVSEL_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_DIVSEL;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_RUNSTDBY;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_GENCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_RUNSTDBY) >> GCLK_GENCTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_RUNSTDBY;
+	tmp |= value << GCLK_GENCTRL_RUNSTDBY_Pos;
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_RUNSTDBY;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_RUNSTDBY;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_GENCTRL_SRC_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_SRC(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_get_GENCTRL_SRC_bf(const void *const hw, uint8_t index,
+                                                                 hri_gclk_genctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_SRC(mask)) >> GCLK_GENCTRL_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_SRC_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t data)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_SRC_Msk;
+	tmp |= GCLK_GENCTRL_SRC(data);
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_SRC_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_SRC(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_SRC_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_SRC(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_read_GENCTRL_SRC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_SRC_Msk) >> GCLK_GENCTRL_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_set_GENCTRL_DIV_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= GCLK_GENCTRL_DIV(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_get_GENCTRL_DIV_bf(const void *const hw, uint8_t index,
+                                                                 hri_gclk_genctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_DIV(mask)) >> GCLK_GENCTRL_DIV_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_DIV_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t data)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= ~GCLK_GENCTRL_DIV_Msk;
+	tmp |= GCLK_GENCTRL_DIV(data);
+	((Gclk *)hw)->GENCTRL[index].reg = tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_DIV_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~GCLK_GENCTRL_DIV(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_DIV_bf(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= GCLK_GENCTRL_DIV(mask);
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_read_GENCTRL_DIV_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp = (tmp & GCLK_GENCTRL_DIV_Msk) >> GCLK_GENCTRL_DIV_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_set_GENCTRL_reg(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg |= mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_get_GENCTRL_reg(const void *const hw, uint8_t index,
+                                                              hri_gclk_genctrl_reg_t mask)
+{
+	uint32_t tmp;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	tmp = ((Gclk *)hw)->GENCTRL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_gclk_write_GENCTRL_reg(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t data)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg = data;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_GENCTRL_reg(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg &= ~mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_GENCTRL_reg(const void *const hw, uint8_t index, hri_gclk_genctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->GENCTRL[index].reg ^= mask;
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_genctrl_reg_t hri_gclk_read_GENCTRL_reg(const void *const hw, uint8_t index)
+{
+	hri_gclk_wait_for_sync(hw, GCLK_SYNCBUSY_MASK);
+	return ((Gclk *)hw)->GENCTRL[index].reg;
+}
+
+static inline void hri_gclk_set_PCHCTRL_CHEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg |= GCLK_PCHCTRL_CHEN;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_PCHCTRL_CHEN_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp = (tmp & GCLK_PCHCTRL_CHEN) >> GCLK_PCHCTRL_CHEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_PCHCTRL_CHEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp &= ~GCLK_PCHCTRL_CHEN;
+	tmp |= value << GCLK_PCHCTRL_CHEN_Pos;
+	((Gclk *)hw)->PCHCTRL[index].reg = tmp;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_PCHCTRL_CHEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg &= ~GCLK_PCHCTRL_CHEN;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_PCHCTRL_CHEN_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg ^= GCLK_PCHCTRL_CHEN;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_PCHCTRL_WRTLOCK_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg |= GCLK_PCHCTRL_WRTLOCK;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_gclk_get_PCHCTRL_WRTLOCK_bit(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp = (tmp & GCLK_PCHCTRL_WRTLOCK) >> GCLK_PCHCTRL_WRTLOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_gclk_write_PCHCTRL_WRTLOCK_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp &= ~GCLK_PCHCTRL_WRTLOCK;
+	tmp |= value << GCLK_PCHCTRL_WRTLOCK_Pos;
+	((Gclk *)hw)->PCHCTRL[index].reg = tmp;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_PCHCTRL_WRTLOCK_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg &= ~GCLK_PCHCTRL_WRTLOCK;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_PCHCTRL_WRTLOCK_bit(const void *const hw, uint8_t index)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg ^= GCLK_PCHCTRL_WRTLOCK;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_set_PCHCTRL_GEN_bf(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg |= GCLK_PCHCTRL_GEN(mask);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_pchctrl_reg_t hri_gclk_get_PCHCTRL_GEN_bf(const void *const hw, uint8_t index,
+                                                                 hri_gclk_pchctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp = (tmp & GCLK_PCHCTRL_GEN(mask)) >> GCLK_PCHCTRL_GEN_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_write_PCHCTRL_GEN_bf(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t data)
+{
+	uint32_t tmp;
+	GCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp &= ~GCLK_PCHCTRL_GEN_Msk;
+	tmp |= GCLK_PCHCTRL_GEN(data);
+	((Gclk *)hw)->PCHCTRL[index].reg = tmp;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_PCHCTRL_GEN_bf(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg &= ~GCLK_PCHCTRL_GEN(mask);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_PCHCTRL_GEN_bf(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg ^= GCLK_PCHCTRL_GEN(mask);
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_pchctrl_reg_t hri_gclk_read_PCHCTRL_GEN_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp = (tmp & GCLK_PCHCTRL_GEN_Msk) >> GCLK_PCHCTRL_GEN_Pos;
+	return tmp;
+}
+
+static inline void hri_gclk_set_PCHCTRL_reg(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg |= mask;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_pchctrl_reg_t hri_gclk_get_PCHCTRL_reg(const void *const hw, uint8_t index,
+                                                              hri_gclk_pchctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Gclk *)hw)->PCHCTRL[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_gclk_write_PCHCTRL_reg(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t data)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg = data;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_clear_PCHCTRL_reg(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg &= ~mask;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_gclk_toggle_PCHCTRL_reg(const void *const hw, uint8_t index, hri_gclk_pchctrl_reg_t mask)
+{
+	GCLK_CRITICAL_SECTION_ENTER();
+	((Gclk *)hw)->PCHCTRL[index].reg ^= mask;
+	GCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_gclk_pchctrl_reg_t hri_gclk_read_PCHCTRL_reg(const void *const hw, uint8_t index)
+{
+	return ((Gclk *)hw)->PCHCTRL[index].reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_GCLK_L22_H_INCLUDED */
+#endif /* _SAML22_GCLK_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_l22.h b/watch-library/hardware/hri/hri_l22.h
new file mode 100644
index 00000000..d99268c1
--- /dev/null
+++ b/watch-library/hardware/hri/hri_l22.h
@@ -0,0 +1,70 @@
+/**
+ * \file
+ *
+ * \brief SAM L22 HRI top-level header file
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _HRI_L22_H_INCLUDED_
+#define _HRI_L22_H_INCLUDED_
+
+#include <sam.h>
+#include <hri_ac_l22.h>
+#include <hri_adc_l22.h>
+#include <hri_aes_l22.h>
+#include <hri_ccl_l22.h>
+#include <hri_dmac_l22.h>
+#include <hri_dsu_l22.h>
+#include <hri_eic_l22.h>
+#include <hri_evsys_l22.h>
+#include <hri_freqm_l22.h>
+#include <hri_gclk_l22.h>
+#include <hri_mclk_l22.h>
+#include <hri_mtb_l22.h>
+#include <hri_nvic_l22.h>
+#include <hri_nvmctrl_l22.h>
+#include <hri_osc32kctrl_l22.h>
+#include <hri_oscctrl_l22.h>
+#include <hri_pac_l22.h>
+#include <hri_pm_l22.h>
+#include <hri_port_l22.h>
+#include <hri_rstc_l22.h>
+#include <hri_rtc_l22.h>
+#include <hri_sercom_l22.h>
+#include <hri_slcd_l22.h>
+#include <hri_supc_l22.h>
+#include <hri_systemcontrol_l22.h>
+#include <hri_systick_l22.h>
+#include <hri_tc_l22.h>
+#include <hri_tcc_l22.h>
+#include <hri_trng_l22.h>
+#include <hri_usb_l22.h>
+#include <hri_wdt_l22.h>
+
+#endif /* _HRI_L22_H_INCLUDED_ */
diff --git a/watch-library/hardware/hri/hri_mclk_l22.h b/watch-library/hardware/hri/hri_mclk_l22.h
new file mode 100644
index 00000000..b03c0064
--- /dev/null
+++ b/watch-library/hardware/hri/hri_mclk_l22.h
@@ -0,0 +1,2300 @@
+/**
+ * \file
+ *
+ * \brief SAM MCLK
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_MCLK_COMPONENT_
+#ifndef _HRI_MCLK_L22_H_INCLUDED_
+#define _HRI_MCLK_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_MCLK_CRITICAL_SECTIONS)
+#define MCLK_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define MCLK_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define MCLK_CRITICAL_SECTION_ENTER()
+#define MCLK_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_mclk_ahbmask_reg_t;
+typedef uint32_t hri_mclk_apbamask_reg_t;
+typedef uint32_t hri_mclk_apbbmask_reg_t;
+typedef uint32_t hri_mclk_apbcmask_reg_t;
+typedef uint8_t  hri_mclk_bupdiv_reg_t;
+typedef uint8_t  hri_mclk_cpudiv_reg_t;
+typedef uint8_t  hri_mclk_intenset_reg_t;
+typedef uint8_t  hri_mclk_intflag_reg_t;
+
+static inline bool hri_mclk_get_INTFLAG_CKRDY_bit(const void *const hw)
+{
+	return (((Mclk *)hw)->INTFLAG.reg & MCLK_INTFLAG_CKRDY) >> MCLK_INTFLAG_CKRDY_Pos;
+}
+
+static inline void hri_mclk_clear_INTFLAG_CKRDY_bit(const void *const hw)
+{
+	((Mclk *)hw)->INTFLAG.reg = MCLK_INTFLAG_CKRDY;
+}
+
+static inline bool hri_mclk_get_interrupt_CKRDY_bit(const void *const hw)
+{
+	return (((Mclk *)hw)->INTFLAG.reg & MCLK_INTFLAG_CKRDY) >> MCLK_INTFLAG_CKRDY_Pos;
+}
+
+static inline void hri_mclk_clear_interrupt_CKRDY_bit(const void *const hw)
+{
+	((Mclk *)hw)->INTFLAG.reg = MCLK_INTFLAG_CKRDY;
+}
+
+static inline hri_mclk_intflag_reg_t hri_mclk_get_INTFLAG_reg(const void *const hw, hri_mclk_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mclk_intflag_reg_t hri_mclk_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_mclk_clear_INTFLAG_reg(const void *const hw, hri_mclk_intflag_reg_t mask)
+{
+	((Mclk *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_mclk_set_INTEN_CKRDY_bit(const void *const hw)
+{
+	((Mclk *)hw)->INTENSET.reg = MCLK_INTENSET_CKRDY;
+}
+
+static inline bool hri_mclk_get_INTEN_CKRDY_bit(const void *const hw)
+{
+	return (((Mclk *)hw)->INTENSET.reg & MCLK_INTENSET_CKRDY) >> MCLK_INTENSET_CKRDY_Pos;
+}
+
+static inline void hri_mclk_write_INTEN_CKRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Mclk *)hw)->INTENCLR.reg = MCLK_INTENSET_CKRDY;
+	} else {
+		((Mclk *)hw)->INTENSET.reg = MCLK_INTENSET_CKRDY;
+	}
+}
+
+static inline void hri_mclk_clear_INTEN_CKRDY_bit(const void *const hw)
+{
+	((Mclk *)hw)->INTENCLR.reg = MCLK_INTENSET_CKRDY;
+}
+
+static inline void hri_mclk_set_INTEN_reg(const void *const hw, hri_mclk_intenset_reg_t mask)
+{
+	((Mclk *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_mclk_intenset_reg_t hri_mclk_get_INTEN_reg(const void *const hw, hri_mclk_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mclk_intenset_reg_t hri_mclk_read_INTEN_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->INTENSET.reg;
+}
+
+static inline void hri_mclk_write_INTEN_reg(const void *const hw, hri_mclk_intenset_reg_t data)
+{
+	((Mclk *)hw)->INTENSET.reg = data;
+	((Mclk *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_mclk_clear_INTEN_reg(const void *const hw, hri_mclk_intenset_reg_t mask)
+{
+	((Mclk *)hw)->INTENCLR.reg = mask;
+}
+
+static inline void hri_mclk_set_CPUDIV_CPUDIV_bf(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg |= MCLK_CPUDIV_CPUDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_cpudiv_reg_t hri_mclk_get_CPUDIV_CPUDIV_bf(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->CPUDIV.reg;
+	tmp = (tmp & MCLK_CPUDIV_CPUDIV(mask)) >> MCLK_CPUDIV_CPUDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_mclk_write_CPUDIV_CPUDIV_bf(const void *const hw, hri_mclk_cpudiv_reg_t data)
+{
+	uint8_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->CPUDIV.reg;
+	tmp &= ~MCLK_CPUDIV_CPUDIV_Msk;
+	tmp |= MCLK_CPUDIV_CPUDIV(data);
+	((Mclk *)hw)->CPUDIV.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_CPUDIV_CPUDIV_bf(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg &= ~MCLK_CPUDIV_CPUDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_CPUDIV_CPUDIV_bf(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg ^= MCLK_CPUDIV_CPUDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_cpudiv_reg_t hri_mclk_read_CPUDIV_CPUDIV_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->CPUDIV.reg;
+	tmp = (tmp & MCLK_CPUDIV_CPUDIV_Msk) >> MCLK_CPUDIV_CPUDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_mclk_set_CPUDIV_reg(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_cpudiv_reg_t hri_mclk_get_CPUDIV_reg(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->CPUDIV.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_CPUDIV_reg(const void *const hw, hri_mclk_cpudiv_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_CPUDIV_reg(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_CPUDIV_reg(const void *const hw, hri_mclk_cpudiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->CPUDIV.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_cpudiv_reg_t hri_mclk_read_CPUDIV_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->CPUDIV.reg;
+}
+
+static inline void hri_mclk_set_BUPDIV_BUPDIV_bf(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg |= MCLK_BUPDIV_BUPDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_bupdiv_reg_t hri_mclk_get_BUPDIV_BUPDIV_bf(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->BUPDIV.reg;
+	tmp = (tmp & MCLK_BUPDIV_BUPDIV(mask)) >> MCLK_BUPDIV_BUPDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_mclk_write_BUPDIV_BUPDIV_bf(const void *const hw, hri_mclk_bupdiv_reg_t data)
+{
+	uint8_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->BUPDIV.reg;
+	tmp &= ~MCLK_BUPDIV_BUPDIV_Msk;
+	tmp |= MCLK_BUPDIV_BUPDIV(data);
+	((Mclk *)hw)->BUPDIV.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_BUPDIV_BUPDIV_bf(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg &= ~MCLK_BUPDIV_BUPDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_BUPDIV_BUPDIV_bf(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg ^= MCLK_BUPDIV_BUPDIV(mask);
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_bupdiv_reg_t hri_mclk_read_BUPDIV_BUPDIV_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->BUPDIV.reg;
+	tmp = (tmp & MCLK_BUPDIV_BUPDIV_Msk) >> MCLK_BUPDIV_BUPDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_mclk_set_BUPDIV_reg(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_bupdiv_reg_t hri_mclk_get_BUPDIV_reg(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Mclk *)hw)->BUPDIV.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_BUPDIV_reg(const void *const hw, hri_mclk_bupdiv_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_BUPDIV_reg(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_BUPDIV_reg(const void *const hw, hri_mclk_bupdiv_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->BUPDIV.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_bupdiv_reg_t hri_mclk_read_BUPDIV_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->BUPDIV.reg;
+}
+
+static inline void hri_mclk_set_AHBMASK_HPB0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_HPB0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_HPB0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_HPB0) >> MCLK_AHBMASK_HPB0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_HPB0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_HPB0;
+	tmp |= value << MCLK_AHBMASK_HPB0_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_HPB0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_HPB0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_HPB0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_HPB0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_HPB1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_HPB1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_HPB1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_HPB1) >> MCLK_AHBMASK_HPB1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_HPB1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_HPB1;
+	tmp |= value << MCLK_AHBMASK_HPB1_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_HPB1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_HPB1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_HPB1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_HPB1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_HPB2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_HPB2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_HPB2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_HPB2) >> MCLK_AHBMASK_HPB2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_HPB2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_HPB2;
+	tmp |= value << MCLK_AHBMASK_HPB2_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_HPB2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_HPB2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_HPB2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_HPB2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_DMAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_DMAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_DMAC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_DMAC) >> MCLK_AHBMASK_DMAC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_DMAC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_DMAC;
+	tmp |= value << MCLK_AHBMASK_DMAC_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_DMAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_DMAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_DMAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_DMAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_USB_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_USB) >> MCLK_AHBMASK_USB_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_USB_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_USB;
+	tmp |= value << MCLK_AHBMASK_USB_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_DSU_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_DSU) >> MCLK_AHBMASK_DSU_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_DSU_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_DSU;
+	tmp |= value << MCLK_AHBMASK_DSU_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_PAC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_PAC) >> MCLK_AHBMASK_PAC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_PAC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_PAC;
+	tmp |= value << MCLK_AHBMASK_PAC_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_NVMCTRL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_NVMCTRL) >> MCLK_AHBMASK_NVMCTRL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_NVMCTRL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_NVMCTRL;
+	tmp |= value << MCLK_AHBMASK_NVMCTRL_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_HSRAM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_HSRAM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_HSRAM_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_HSRAM) >> MCLK_AHBMASK_HSRAM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_HSRAM_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_HSRAM;
+	tmp |= value << MCLK_AHBMASK_HSRAM_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_HSRAM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_HSRAM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_HSRAM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_HSRAM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_NVMCTRL_PICACHU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= MCLK_AHBMASK_NVMCTRL_PICACHU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_AHBMASK_NVMCTRL_PICACHU_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp = (tmp & MCLK_AHBMASK_NVMCTRL_PICACHU) >> MCLK_AHBMASK_NVMCTRL_PICACHU_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_NVMCTRL_PICACHU_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= ~MCLK_AHBMASK_NVMCTRL_PICACHU;
+	tmp |= value << MCLK_AHBMASK_NVMCTRL_PICACHU_Pos;
+	((Mclk *)hw)->AHBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_NVMCTRL_PICACHU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~MCLK_AHBMASK_NVMCTRL_PICACHU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_NVMCTRL_PICACHU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= MCLK_AHBMASK_NVMCTRL_PICACHU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_AHBMASK_reg(const void *const hw, hri_mclk_ahbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_ahbmask_reg_t hri_mclk_get_AHBMASK_reg(const void *const hw, hri_mclk_ahbmask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->AHBMASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_AHBMASK_reg(const void *const hw, hri_mclk_ahbmask_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_AHBMASK_reg(const void *const hw, hri_mclk_ahbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_AHBMASK_reg(const void *const hw, hri_mclk_ahbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->AHBMASK.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_ahbmask_reg_t hri_mclk_read_AHBMASK_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->AHBMASK.reg;
+}
+
+static inline void hri_mclk_set_APBAMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_PAC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_PAC) >> MCLK_APBAMASK_PAC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_PAC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_PAC;
+	tmp |= value << MCLK_APBAMASK_PAC_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_PAC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_PAC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_PM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_PM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_PM_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_PM) >> MCLK_APBAMASK_PM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_PM_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_PM;
+	tmp |= value << MCLK_APBAMASK_PM_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_PM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_PM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_PM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_PM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_MCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_MCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_MCLK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_MCLK) >> MCLK_APBAMASK_MCLK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_MCLK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_MCLK;
+	tmp |= value << MCLK_APBAMASK_MCLK_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_MCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_MCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_MCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_MCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_RSTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_RSTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_RSTC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_RSTC) >> MCLK_APBAMASK_RSTC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_RSTC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_RSTC;
+	tmp |= value << MCLK_APBAMASK_RSTC_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_RSTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_RSTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_RSTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_RSTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_OSCCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_OSCCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_OSCCTRL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_OSCCTRL) >> MCLK_APBAMASK_OSCCTRL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_OSCCTRL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_OSCCTRL;
+	tmp |= value << MCLK_APBAMASK_OSCCTRL_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_OSCCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_OSCCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_OSCCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_OSCCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_OSC32KCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_OSC32KCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_OSC32KCTRL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_OSC32KCTRL) >> MCLK_APBAMASK_OSC32KCTRL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_OSC32KCTRL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_OSC32KCTRL;
+	tmp |= value << MCLK_APBAMASK_OSC32KCTRL_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_OSC32KCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_OSC32KCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_OSC32KCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_OSC32KCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_SUPC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_SUPC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_SUPC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_SUPC) >> MCLK_APBAMASK_SUPC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_SUPC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_SUPC;
+	tmp |= value << MCLK_APBAMASK_SUPC_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_SUPC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_SUPC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_SUPC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_SUPC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_GCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_GCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_GCLK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_GCLK) >> MCLK_APBAMASK_GCLK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_GCLK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_GCLK;
+	tmp |= value << MCLK_APBAMASK_GCLK_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_GCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_GCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_GCLK_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_GCLK;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_WDT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_WDT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_WDT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_WDT) >> MCLK_APBAMASK_WDT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_WDT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_WDT;
+	tmp |= value << MCLK_APBAMASK_WDT_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_WDT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_WDT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_WDT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_WDT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_RTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_RTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_RTC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_RTC) >> MCLK_APBAMASK_RTC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_RTC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_RTC;
+	tmp |= value << MCLK_APBAMASK_RTC_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_RTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_RTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_RTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_RTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_EIC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_EIC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_EIC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_EIC) >> MCLK_APBAMASK_EIC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_EIC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_EIC;
+	tmp |= value << MCLK_APBAMASK_EIC_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_EIC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_EIC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_EIC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_EIC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_FREQM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= MCLK_APBAMASK_FREQM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBAMASK_FREQM_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp = (tmp & MCLK_APBAMASK_FREQM) >> MCLK_APBAMASK_FREQM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_FREQM_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= ~MCLK_APBAMASK_FREQM;
+	tmp |= value << MCLK_APBAMASK_FREQM_Pos;
+	((Mclk *)hw)->APBAMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_FREQM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~MCLK_APBAMASK_FREQM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_FREQM_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= MCLK_APBAMASK_FREQM;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBAMASK_reg(const void *const hw, hri_mclk_apbamask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbamask_reg_t hri_mclk_get_APBAMASK_reg(const void *const hw, hri_mclk_apbamask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBAMASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_APBAMASK_reg(const void *const hw, hri_mclk_apbamask_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBAMASK_reg(const void *const hw, hri_mclk_apbamask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBAMASK_reg(const void *const hw, hri_mclk_apbamask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBAMASK.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbamask_reg_t hri_mclk_read_APBAMASK_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->APBAMASK.reg;
+}
+
+static inline void hri_mclk_set_APBBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg |= MCLK_APBBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBBMASK_USB_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp = (tmp & MCLK_APBBMASK_USB) >> MCLK_APBBMASK_USB_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBBMASK_USB_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp &= ~MCLK_APBBMASK_USB;
+	tmp |= value << MCLK_APBBMASK_USB_Pos;
+	((Mclk *)hw)->APBBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg &= ~MCLK_APBBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBBMASK_USB_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg ^= MCLK_APBBMASK_USB;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg |= MCLK_APBBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBBMASK_DSU_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp = (tmp & MCLK_APBBMASK_DSU) >> MCLK_APBBMASK_DSU_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBBMASK_DSU_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp &= ~MCLK_APBBMASK_DSU;
+	tmp |= value << MCLK_APBBMASK_DSU_Pos;
+	((Mclk *)hw)->APBBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg &= ~MCLK_APBBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBBMASK_DSU_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg ^= MCLK_APBBMASK_DSU;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg |= MCLK_APBBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBBMASK_NVMCTRL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp = (tmp & MCLK_APBBMASK_NVMCTRL) >> MCLK_APBBMASK_NVMCTRL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBBMASK_NVMCTRL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp &= ~MCLK_APBBMASK_NVMCTRL;
+	tmp |= value << MCLK_APBBMASK_NVMCTRL_Pos;
+	((Mclk *)hw)->APBBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg &= ~MCLK_APBBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBBMASK_NVMCTRL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg ^= MCLK_APBBMASK_NVMCTRL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBBMASK_PORT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg |= MCLK_APBBMASK_PORT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBBMASK_PORT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp = (tmp & MCLK_APBBMASK_PORT) >> MCLK_APBBMASK_PORT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBBMASK_PORT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp &= ~MCLK_APBBMASK_PORT;
+	tmp |= value << MCLK_APBBMASK_PORT_Pos;
+	((Mclk *)hw)->APBBMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBBMASK_PORT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg &= ~MCLK_APBBMASK_PORT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBBMASK_PORT_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg ^= MCLK_APBBMASK_PORT;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBBMASK_reg(const void *const hw, hri_mclk_apbbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbbmask_reg_t hri_mclk_get_APBBMASK_reg(const void *const hw, hri_mclk_apbbmask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBBMASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_APBBMASK_reg(const void *const hw, hri_mclk_apbbmask_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBBMASK_reg(const void *const hw, hri_mclk_apbbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBBMASK_reg(const void *const hw, hri_mclk_apbbmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBBMASK.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbbmask_reg_t hri_mclk_read_APBBMASK_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->APBBMASK.reg;
+}
+
+static inline void hri_mclk_set_APBCMASK_EVSYS_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_EVSYS;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_EVSYS_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_EVSYS) >> MCLK_APBCMASK_EVSYS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_EVSYS_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_EVSYS;
+	tmp |= value << MCLK_APBCMASK_EVSYS_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_EVSYS_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_EVSYS;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_EVSYS_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_EVSYS;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM0) >> MCLK_APBCMASK_SERCOM0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM0;
+	tmp |= value << MCLK_APBCMASK_SERCOM0_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM1) >> MCLK_APBCMASK_SERCOM1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM1;
+	tmp |= value << MCLK_APBCMASK_SERCOM1_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM2) >> MCLK_APBCMASK_SERCOM2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM2;
+	tmp |= value << MCLK_APBCMASK_SERCOM2_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM3) >> MCLK_APBCMASK_SERCOM3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM3;
+	tmp |= value << MCLK_APBCMASK_SERCOM3_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM4_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM4;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM4) >> MCLK_APBCMASK_SERCOM4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM4;
+	tmp |= value << MCLK_APBCMASK_SERCOM4_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM4_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM4;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM4_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM4;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SERCOM5_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SERCOM5;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SERCOM5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SERCOM5) >> MCLK_APBCMASK_SERCOM5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SERCOM5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SERCOM5;
+	tmp |= value << MCLK_APBCMASK_SERCOM5_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SERCOM5_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM5;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SERCOM5_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SERCOM5;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TCC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TCC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TCC0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TCC0) >> MCLK_APBCMASK_TCC0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TCC0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TCC0;
+	tmp |= value << MCLK_APBCMASK_TCC0_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TCC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TCC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TCC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TCC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TC0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TC0) >> MCLK_APBCMASK_TC0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TC0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TC0;
+	tmp |= value << MCLK_APBCMASK_TC0_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TC0_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TC0;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TC1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TC1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TC1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TC1) >> MCLK_APBCMASK_TC1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TC1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TC1;
+	tmp |= value << MCLK_APBCMASK_TC1_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TC1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TC1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TC1_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TC1;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TC2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TC2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TC2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TC2) >> MCLK_APBCMASK_TC2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TC2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TC2;
+	tmp |= value << MCLK_APBCMASK_TC2_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TC2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TC2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TC2_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TC2;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TC3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TC3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TC3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TC3) >> MCLK_APBCMASK_TC3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TC3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TC3;
+	tmp |= value << MCLK_APBCMASK_TC3_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TC3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TC3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TC3_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TC3;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_ADC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_ADC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_ADC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_ADC) >> MCLK_APBCMASK_ADC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_ADC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_ADC;
+	tmp |= value << MCLK_APBCMASK_ADC_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_ADC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_ADC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_ADC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_ADC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_AC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_AC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_AC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_AC) >> MCLK_APBCMASK_AC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_AC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_AC;
+	tmp |= value << MCLK_APBCMASK_AC_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_AC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_AC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_AC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_AC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_PTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_PTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_PTC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_PTC) >> MCLK_APBCMASK_PTC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_PTC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_PTC;
+	tmp |= value << MCLK_APBCMASK_PTC_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_PTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_PTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_PTC_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_PTC;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_SLCD_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_SLCD;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_SLCD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_SLCD) >> MCLK_APBCMASK_SLCD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_SLCD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_SLCD;
+	tmp |= value << MCLK_APBCMASK_SLCD_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_SLCD_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_SLCD;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_SLCD_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_SLCD;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_AES_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_AES;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_AES_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_AES) >> MCLK_APBCMASK_AES_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_AES_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_AES;
+	tmp |= value << MCLK_APBCMASK_AES_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_AES_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_AES;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_AES_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_AES;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_TRNG_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_TRNG;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_TRNG_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_TRNG) >> MCLK_APBCMASK_TRNG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_TRNG_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_TRNG;
+	tmp |= value << MCLK_APBCMASK_TRNG_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_TRNG_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_TRNG;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_TRNG_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_TRNG;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_CCL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= MCLK_APBCMASK_CCL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_mclk_get_APBCMASK_CCL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp = (tmp & MCLK_APBCMASK_CCL) >> MCLK_APBCMASK_CCL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_CCL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	MCLK_CRITICAL_SECTION_ENTER();
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= ~MCLK_APBCMASK_CCL;
+	tmp |= value << MCLK_APBCMASK_CCL_Pos;
+	((Mclk *)hw)->APBCMASK.reg = tmp;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_CCL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~MCLK_APBCMASK_CCL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_CCL_bit(const void *const hw)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= MCLK_APBCMASK_CCL;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_set_APBCMASK_reg(const void *const hw, hri_mclk_apbcmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg |= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbcmask_reg_t hri_mclk_get_APBCMASK_reg(const void *const hw, hri_mclk_apbcmask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mclk *)hw)->APBCMASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mclk_write_APBCMASK_reg(const void *const hw, hri_mclk_apbcmask_reg_t data)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg = data;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_clear_APBCMASK_reg(const void *const hw, hri_mclk_apbcmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg &= ~mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mclk_toggle_APBCMASK_reg(const void *const hw, hri_mclk_apbcmask_reg_t mask)
+{
+	MCLK_CRITICAL_SECTION_ENTER();
+	((Mclk *)hw)->APBCMASK.reg ^= mask;
+	MCLK_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mclk_apbcmask_reg_t hri_mclk_read_APBCMASK_reg(const void *const hw)
+{
+	return ((Mclk *)hw)->APBCMASK.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_MCLK_L22_H_INCLUDED */
+#endif /* _SAML22_MCLK_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_mtb_l22.h b/watch-library/hardware/hri/hri_mtb_l22.h
new file mode 100644
index 00000000..f8cb66d5
--- /dev/null
+++ b/watch-library/hardware/hri/hri_mtb_l22.h
@@ -0,0 +1,551 @@
+/**
+ * \file
+ *
+ * \brief SAM MTB
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_MTB_COMPONENT_
+#ifndef _HRI_MTB_L22_H_INCLUDED_
+#define _HRI_MTB_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_MTB_CRITICAL_SECTIONS)
+#define MTB_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define MTB_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define MTB_CRITICAL_SECTION_ENTER()
+#define MTB_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_mtb_authstatus_reg_t;
+typedef uint32_t hri_mtb_base_reg_t;
+typedef uint32_t hri_mtb_cid0_reg_t;
+typedef uint32_t hri_mtb_cid1_reg_t;
+typedef uint32_t hri_mtb_cid2_reg_t;
+typedef uint32_t hri_mtb_cid3_reg_t;
+typedef uint32_t hri_mtb_claimset_reg_t;
+typedef uint32_t hri_mtb_devarch_reg_t;
+typedef uint32_t hri_mtb_devid_reg_t;
+typedef uint32_t hri_mtb_devtype_reg_t;
+typedef uint32_t hri_mtb_flow_reg_t;
+typedef uint32_t hri_mtb_itctrl_reg_t;
+typedef uint32_t hri_mtb_lockaccess_reg_t;
+typedef uint32_t hri_mtb_lockstatus_reg_t;
+typedef uint32_t hri_mtb_master_reg_t;
+typedef uint32_t hri_mtb_pid0_reg_t;
+typedef uint32_t hri_mtb_pid1_reg_t;
+typedef uint32_t hri_mtb_pid2_reg_t;
+typedef uint32_t hri_mtb_pid3_reg_t;
+typedef uint32_t hri_mtb_pid4_reg_t;
+typedef uint32_t hri_mtb_pid5_reg_t;
+typedef uint32_t hri_mtb_pid6_reg_t;
+typedef uint32_t hri_mtb_pid7_reg_t;
+typedef uint32_t hri_mtb_position_reg_t;
+
+static inline void hri_mtb_set_CLAIM_reg(const void *const hw, hri_mtb_claimset_reg_t mask)
+{
+	((Mtb *)hw)->CLAIMSET.reg = mask;
+}
+
+static inline hri_mtb_claimset_reg_t hri_mtb_get_CLAIM_reg(const void *const hw, hri_mtb_claimset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->CLAIMSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_claimset_reg_t hri_mtb_read_CLAIM_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->CLAIMSET.reg;
+}
+
+static inline void hri_mtb_write_CLAIM_reg(const void *const hw, hri_mtb_claimset_reg_t data)
+{
+	((Mtb *)hw)->CLAIMSET.reg = data;
+	((Mtb *)hw)->CLAIMCLR.reg = ~data;
+}
+
+static inline void hri_mtb_clear_CLAIM_reg(const void *const hw, hri_mtb_claimset_reg_t mask)
+{
+	((Mtb *)hw)->CLAIMCLR.reg = mask;
+}
+
+static inline hri_mtb_base_reg_t hri_mtb_get_BASE_reg(const void *const hw, hri_mtb_base_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->BASE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_base_reg_t hri_mtb_read_BASE_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->BASE.reg;
+}
+
+static inline hri_mtb_lockstatus_reg_t hri_mtb_get_LOCKSTATUS_reg(const void *const hw, hri_mtb_lockstatus_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->LOCKSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_lockstatus_reg_t hri_mtb_read_LOCKSTATUS_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->LOCKSTATUS.reg;
+}
+
+static inline hri_mtb_authstatus_reg_t hri_mtb_get_AUTHSTATUS_reg(const void *const hw, hri_mtb_authstatus_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->AUTHSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_authstatus_reg_t hri_mtb_read_AUTHSTATUS_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->AUTHSTATUS.reg;
+}
+
+static inline hri_mtb_devarch_reg_t hri_mtb_get_DEVARCH_reg(const void *const hw, hri_mtb_devarch_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->DEVARCH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_devarch_reg_t hri_mtb_read_DEVARCH_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->DEVARCH.reg;
+}
+
+static inline hri_mtb_devid_reg_t hri_mtb_get_DEVID_reg(const void *const hw, hri_mtb_devid_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->DEVID.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_devid_reg_t hri_mtb_read_DEVID_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->DEVID.reg;
+}
+
+static inline hri_mtb_devtype_reg_t hri_mtb_get_DEVTYPE_reg(const void *const hw, hri_mtb_devtype_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->DEVTYPE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_devtype_reg_t hri_mtb_read_DEVTYPE_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->DEVTYPE.reg;
+}
+
+static inline hri_mtb_pid4_reg_t hri_mtb_get_PID4_reg(const void *const hw, hri_mtb_pid4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID4.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid4_reg_t hri_mtb_read_PID4_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID4.reg;
+}
+
+static inline hri_mtb_pid5_reg_t hri_mtb_get_PID5_reg(const void *const hw, hri_mtb_pid5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID5.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid5_reg_t hri_mtb_read_PID5_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID5.reg;
+}
+
+static inline hri_mtb_pid6_reg_t hri_mtb_get_PID6_reg(const void *const hw, hri_mtb_pid6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID6.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid6_reg_t hri_mtb_read_PID6_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID6.reg;
+}
+
+static inline hri_mtb_pid7_reg_t hri_mtb_get_PID7_reg(const void *const hw, hri_mtb_pid7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID7.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid7_reg_t hri_mtb_read_PID7_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID7.reg;
+}
+
+static inline hri_mtb_pid0_reg_t hri_mtb_get_PID0_reg(const void *const hw, hri_mtb_pid0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid0_reg_t hri_mtb_read_PID0_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID0.reg;
+}
+
+static inline hri_mtb_pid1_reg_t hri_mtb_get_PID1_reg(const void *const hw, hri_mtb_pid1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid1_reg_t hri_mtb_read_PID1_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID1.reg;
+}
+
+static inline hri_mtb_pid2_reg_t hri_mtb_get_PID2_reg(const void *const hw, hri_mtb_pid2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid2_reg_t hri_mtb_read_PID2_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID2.reg;
+}
+
+static inline hri_mtb_pid3_reg_t hri_mtb_get_PID3_reg(const void *const hw, hri_mtb_pid3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->PID3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_pid3_reg_t hri_mtb_read_PID3_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->PID3.reg;
+}
+
+static inline hri_mtb_cid0_reg_t hri_mtb_get_CID0_reg(const void *const hw, hri_mtb_cid0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->CID0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_cid0_reg_t hri_mtb_read_CID0_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->CID0.reg;
+}
+
+static inline hri_mtb_cid1_reg_t hri_mtb_get_CID1_reg(const void *const hw, hri_mtb_cid1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->CID1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_cid1_reg_t hri_mtb_read_CID1_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->CID1.reg;
+}
+
+static inline hri_mtb_cid2_reg_t hri_mtb_get_CID2_reg(const void *const hw, hri_mtb_cid2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->CID2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_cid2_reg_t hri_mtb_read_CID2_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->CID2.reg;
+}
+
+static inline hri_mtb_cid3_reg_t hri_mtb_get_CID3_reg(const void *const hw, hri_mtb_cid3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->CID3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_mtb_cid3_reg_t hri_mtb_read_CID3_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->CID3.reg;
+}
+
+static inline void hri_mtb_set_POSITION_reg(const void *const hw, hri_mtb_position_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->POSITION.reg |= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_position_reg_t hri_mtb_get_POSITION_reg(const void *const hw, hri_mtb_position_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->POSITION.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mtb_write_POSITION_reg(const void *const hw, hri_mtb_position_reg_t data)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->POSITION.reg = data;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_clear_POSITION_reg(const void *const hw, hri_mtb_position_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->POSITION.reg &= ~mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_toggle_POSITION_reg(const void *const hw, hri_mtb_position_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->POSITION.reg ^= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_position_reg_t hri_mtb_read_POSITION_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->POSITION.reg;
+}
+
+static inline void hri_mtb_set_MASTER_reg(const void *const hw, hri_mtb_master_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->MASTER.reg |= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_master_reg_t hri_mtb_get_MASTER_reg(const void *const hw, hri_mtb_master_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->MASTER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mtb_write_MASTER_reg(const void *const hw, hri_mtb_master_reg_t data)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->MASTER.reg = data;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_clear_MASTER_reg(const void *const hw, hri_mtb_master_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->MASTER.reg &= ~mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_toggle_MASTER_reg(const void *const hw, hri_mtb_master_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->MASTER.reg ^= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_master_reg_t hri_mtb_read_MASTER_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->MASTER.reg;
+}
+
+static inline void hri_mtb_set_FLOW_reg(const void *const hw, hri_mtb_flow_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->FLOW.reg |= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_flow_reg_t hri_mtb_get_FLOW_reg(const void *const hw, hri_mtb_flow_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->FLOW.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mtb_write_FLOW_reg(const void *const hw, hri_mtb_flow_reg_t data)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->FLOW.reg = data;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_clear_FLOW_reg(const void *const hw, hri_mtb_flow_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->FLOW.reg &= ~mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_toggle_FLOW_reg(const void *const hw, hri_mtb_flow_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->FLOW.reg ^= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_flow_reg_t hri_mtb_read_FLOW_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->FLOW.reg;
+}
+
+static inline void hri_mtb_set_ITCTRL_reg(const void *const hw, hri_mtb_itctrl_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->ITCTRL.reg |= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_itctrl_reg_t hri_mtb_get_ITCTRL_reg(const void *const hw, hri_mtb_itctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->ITCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mtb_write_ITCTRL_reg(const void *const hw, hri_mtb_itctrl_reg_t data)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->ITCTRL.reg = data;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_clear_ITCTRL_reg(const void *const hw, hri_mtb_itctrl_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->ITCTRL.reg &= ~mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_toggle_ITCTRL_reg(const void *const hw, hri_mtb_itctrl_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->ITCTRL.reg ^= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_itctrl_reg_t hri_mtb_read_ITCTRL_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->ITCTRL.reg;
+}
+
+static inline void hri_mtb_set_LOCKACCESS_reg(const void *const hw, hri_mtb_lockaccess_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->LOCKACCESS.reg |= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_lockaccess_reg_t hri_mtb_get_LOCKACCESS_reg(const void *const hw, hri_mtb_lockaccess_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Mtb *)hw)->LOCKACCESS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_mtb_write_LOCKACCESS_reg(const void *const hw, hri_mtb_lockaccess_reg_t data)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->LOCKACCESS.reg = data;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_clear_LOCKACCESS_reg(const void *const hw, hri_mtb_lockaccess_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->LOCKACCESS.reg &= ~mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_mtb_toggle_LOCKACCESS_reg(const void *const hw, hri_mtb_lockaccess_reg_t mask)
+{
+	MTB_CRITICAL_SECTION_ENTER();
+	((Mtb *)hw)->LOCKACCESS.reg ^= mask;
+	MTB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_mtb_lockaccess_reg_t hri_mtb_read_LOCKACCESS_reg(const void *const hw)
+{
+	return ((Mtb *)hw)->LOCKACCESS.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_MTB_L22_H_INCLUDED */
+#endif /* _SAML22_MTB_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_nvic_l22.h b/watch-library/hardware/hri/hri_nvic_l22.h
new file mode 100644
index 00000000..5596c99a
--- /dev/null
+++ b/watch-library/hardware/hri/hri_nvic_l22.h
@@ -0,0 +1,269 @@
+/**
+ * \file
+ *
+ * \brief SAM NVIC
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_NVIC_COMPONENT_
+#ifndef _HRI_NVIC_L22_H_INCLUDED_
+#define _HRI_NVIC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_NVIC_CRITICAL_SECTIONS)
+#define NVIC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define NVIC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define NVIC_CRITICAL_SECTION_ENTER()
+#define NVIC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_nvic_icer_reg_t;
+typedef uint32_t hri_nvic_icpr_reg_t;
+typedef uint32_t hri_nvic_ipr_reg_t;
+typedef uint32_t hri_nvic_iser_reg_t;
+typedef uint32_t hri_nvic_ispr_reg_t;
+
+static inline void hri_nvic_set_ISER_reg(const void *const hw, hri_nvic_iser_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISER.reg |= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_iser_reg_t hri_nvic_get_ISER_reg(const void *const hw, hri_nvic_iser_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvic *)hw)->ISER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvic_write_ISER_reg(const void *const hw, hri_nvic_iser_reg_t data)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISER.reg = data;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_clear_ISER_reg(const void *const hw, hri_nvic_iser_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISER.reg &= ~mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_toggle_ISER_reg(const void *const hw, hri_nvic_iser_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISER.reg ^= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_iser_reg_t hri_nvic_read_ISER_reg(const void *const hw)
+{
+	return ((Nvic *)hw)->ISER.reg;
+}
+
+static inline void hri_nvic_set_ICER_reg(const void *const hw, hri_nvic_icer_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICER.reg |= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_icer_reg_t hri_nvic_get_ICER_reg(const void *const hw, hri_nvic_icer_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvic *)hw)->ICER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvic_write_ICER_reg(const void *const hw, hri_nvic_icer_reg_t data)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICER.reg = data;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_clear_ICER_reg(const void *const hw, hri_nvic_icer_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICER.reg &= ~mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_toggle_ICER_reg(const void *const hw, hri_nvic_icer_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICER.reg ^= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_icer_reg_t hri_nvic_read_ICER_reg(const void *const hw)
+{
+	return ((Nvic *)hw)->ICER.reg;
+}
+
+static inline void hri_nvic_set_ISPR_reg(const void *const hw, hri_nvic_ispr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISPR.reg |= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_ispr_reg_t hri_nvic_get_ISPR_reg(const void *const hw, hri_nvic_ispr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvic *)hw)->ISPR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvic_write_ISPR_reg(const void *const hw, hri_nvic_ispr_reg_t data)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISPR.reg = data;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_clear_ISPR_reg(const void *const hw, hri_nvic_ispr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISPR.reg &= ~mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_toggle_ISPR_reg(const void *const hw, hri_nvic_ispr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ISPR.reg ^= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_ispr_reg_t hri_nvic_read_ISPR_reg(const void *const hw)
+{
+	return ((Nvic *)hw)->ISPR.reg;
+}
+
+static inline void hri_nvic_set_ICPR_reg(const void *const hw, hri_nvic_icpr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICPR.reg |= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_icpr_reg_t hri_nvic_get_ICPR_reg(const void *const hw, hri_nvic_icpr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvic *)hw)->ICPR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvic_write_ICPR_reg(const void *const hw, hri_nvic_icpr_reg_t data)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICPR.reg = data;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_clear_ICPR_reg(const void *const hw, hri_nvic_icpr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICPR.reg &= ~mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_toggle_ICPR_reg(const void *const hw, hri_nvic_icpr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->ICPR.reg ^= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_icpr_reg_t hri_nvic_read_ICPR_reg(const void *const hw)
+{
+	return ((Nvic *)hw)->ICPR.reg;
+}
+
+static inline void hri_nvic_set_IPR_reg(const void *const hw, uint8_t index, hri_nvic_ipr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->IPR[index].reg |= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_ipr_reg_t hri_nvic_get_IPR_reg(const void *const hw, uint8_t index, hri_nvic_ipr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvic *)hw)->IPR[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvic_write_IPR_reg(const void *const hw, uint8_t index, hri_nvic_ipr_reg_t data)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->IPR[index].reg = data;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_clear_IPR_reg(const void *const hw, uint8_t index, hri_nvic_ipr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->IPR[index].reg &= ~mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvic_toggle_IPR_reg(const void *const hw, uint8_t index, hri_nvic_ipr_reg_t mask)
+{
+	NVIC_CRITICAL_SECTION_ENTER();
+	((Nvic *)hw)->IPR[index].reg ^= mask;
+	NVIC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvic_ipr_reg_t hri_nvic_read_IPR_reg(const void *const hw, uint8_t index)
+{
+	return ((Nvic *)hw)->IPR[index].reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_NVIC_L22_H_INCLUDED */
+#endif /* _SAML22_NVIC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_nvmctrl_l22.h b/watch-library/hardware/hri/hri_nvmctrl_l22.h
new file mode 100644
index 00000000..07629fba
--- /dev/null
+++ b/watch-library/hardware/hri/hri_nvmctrl_l22.h
@@ -0,0 +1,1104 @@
+/**
+ * \file
+ *
+ * \brief SAM NVMCTRL
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_NVMCTRL_COMPONENT_
+#ifndef _HRI_NVMCTRL_L22_H_INCLUDED_
+#define _HRI_NVMCTRL_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_NVMCTRL_CRITICAL_SECTIONS)
+#define NVMCTRL_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define NVMCTRL_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define NVMCTRL_CRITICAL_SECTION_ENTER()
+#define NVMCTRL_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_nvmctrl_ctrla_reg_t;
+typedef uint16_t hri_nvmctrl_lock_reg_t;
+typedef uint16_t hri_nvmctrl_status_reg_t;
+typedef uint32_t hri_nvmctrl_addr_reg_t;
+typedef uint32_t hri_nvmctrl_ctrlb_reg_t;
+typedef uint32_t hri_nvmctrl_param_reg_t;
+typedef uint8_t  hri_nvmctrl_intenset_reg_t;
+typedef uint8_t  hri_nvmctrl_intflag_reg_t;
+
+static inline bool hri_nvmctrl_get_INTFLAG_READY_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTFLAG.reg & NVMCTRL_INTFLAG_READY) >> NVMCTRL_INTFLAG_READY_Pos;
+}
+
+static inline void hri_nvmctrl_clear_INTFLAG_READY_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTFLAG.reg = NVMCTRL_INTFLAG_READY;
+}
+
+static inline bool hri_nvmctrl_get_INTFLAG_ERROR_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTFLAG.reg & NVMCTRL_INTFLAG_ERROR) >> NVMCTRL_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_nvmctrl_clear_INTFLAG_ERROR_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTFLAG.reg = NVMCTRL_INTFLAG_ERROR;
+}
+
+static inline bool hri_nvmctrl_get_interrupt_READY_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTFLAG.reg & NVMCTRL_INTFLAG_READY) >> NVMCTRL_INTFLAG_READY_Pos;
+}
+
+static inline void hri_nvmctrl_clear_interrupt_READY_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTFLAG.reg = NVMCTRL_INTFLAG_READY;
+}
+
+static inline bool hri_nvmctrl_get_interrupt_ERROR_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTFLAG.reg & NVMCTRL_INTFLAG_ERROR) >> NVMCTRL_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_nvmctrl_clear_interrupt_ERROR_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTFLAG.reg = NVMCTRL_INTFLAG_ERROR;
+}
+
+static inline hri_nvmctrl_intflag_reg_t hri_nvmctrl_get_INTFLAG_reg(const void *const         hw,
+                                                                    hri_nvmctrl_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Nvmctrl *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_nvmctrl_intflag_reg_t hri_nvmctrl_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_nvmctrl_clear_INTFLAG_reg(const void *const hw, hri_nvmctrl_intflag_reg_t mask)
+{
+	((Nvmctrl *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_nvmctrl_set_INTEN_READY_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTENSET.reg = NVMCTRL_INTENSET_READY;
+}
+
+static inline bool hri_nvmctrl_get_INTEN_READY_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTENSET.reg & NVMCTRL_INTENSET_READY) >> NVMCTRL_INTENSET_READY_Pos;
+}
+
+static inline void hri_nvmctrl_write_INTEN_READY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Nvmctrl *)hw)->INTENCLR.reg = NVMCTRL_INTENSET_READY;
+	} else {
+		((Nvmctrl *)hw)->INTENSET.reg = NVMCTRL_INTENSET_READY;
+	}
+}
+
+static inline void hri_nvmctrl_clear_INTEN_READY_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTENCLR.reg = NVMCTRL_INTENSET_READY;
+}
+
+static inline void hri_nvmctrl_set_INTEN_ERROR_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTENSET.reg = NVMCTRL_INTENSET_ERROR;
+}
+
+static inline bool hri_nvmctrl_get_INTEN_ERROR_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->INTENSET.reg & NVMCTRL_INTENSET_ERROR) >> NVMCTRL_INTENSET_ERROR_Pos;
+}
+
+static inline void hri_nvmctrl_write_INTEN_ERROR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Nvmctrl *)hw)->INTENCLR.reg = NVMCTRL_INTENSET_ERROR;
+	} else {
+		((Nvmctrl *)hw)->INTENSET.reg = NVMCTRL_INTENSET_ERROR;
+	}
+}
+
+static inline void hri_nvmctrl_clear_INTEN_ERROR_bit(const void *const hw)
+{
+	((Nvmctrl *)hw)->INTENCLR.reg = NVMCTRL_INTENSET_ERROR;
+}
+
+static inline void hri_nvmctrl_set_INTEN_reg(const void *const hw, hri_nvmctrl_intenset_reg_t mask)
+{
+	((Nvmctrl *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_nvmctrl_intenset_reg_t hri_nvmctrl_get_INTEN_reg(const void *const          hw,
+                                                                   hri_nvmctrl_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Nvmctrl *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_nvmctrl_intenset_reg_t hri_nvmctrl_read_INTEN_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->INTENSET.reg;
+}
+
+static inline void hri_nvmctrl_write_INTEN_reg(const void *const hw, hri_nvmctrl_intenset_reg_t data)
+{
+	((Nvmctrl *)hw)->INTENSET.reg = data;
+	((Nvmctrl *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_nvmctrl_clear_INTEN_reg(const void *const hw, hri_nvmctrl_intenset_reg_t mask)
+{
+	((Nvmctrl *)hw)->INTENCLR.reg = mask;
+}
+
+static inline void hri_nvmctrl_set_CTRLA_CMD_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg |= NVMCTRL_CTRLA_CMD(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_get_CTRLA_CMD_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp = (tmp & NVMCTRL_CTRLA_CMD(mask)) >> NVMCTRL_CTRLA_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLA_CMD_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp &= ~NVMCTRL_CTRLA_CMD_Msk;
+	tmp |= NVMCTRL_CTRLA_CMD(data);
+	((Nvmctrl *)hw)->CTRLA.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLA_CMD_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg &= ~NVMCTRL_CTRLA_CMD(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLA_CMD_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg ^= NVMCTRL_CTRLA_CMD(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_read_CTRLA_CMD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp = (tmp & NVMCTRL_CTRLA_CMD_Msk) >> NVMCTRL_CTRLA_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_CTRLA_CMDEX_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg |= NVMCTRL_CTRLA_CMDEX(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_get_CTRLA_CMDEX_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp = (tmp & NVMCTRL_CTRLA_CMDEX(mask)) >> NVMCTRL_CTRLA_CMDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLA_CMDEX_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp &= ~NVMCTRL_CTRLA_CMDEX_Msk;
+	tmp |= NVMCTRL_CTRLA_CMDEX(data);
+	((Nvmctrl *)hw)->CTRLA.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLA_CMDEX_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg &= ~NVMCTRL_CTRLA_CMDEX(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLA_CMDEX_bf(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg ^= NVMCTRL_CTRLA_CMDEX(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_read_CTRLA_CMDEX_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp = (tmp & NVMCTRL_CTRLA_CMDEX_Msk) >> NVMCTRL_CTRLA_CMDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_CTRLA_reg(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg |= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_get_CTRLA_reg(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLA_reg(const void *const hw, hri_nvmctrl_ctrla_reg_t data)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg = data;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLA_reg(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg &= ~mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLA_reg(const void *const hw, hri_nvmctrl_ctrla_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLA.reg ^= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrla_reg_t hri_nvmctrl_read_CTRLA_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->CTRLA.reg;
+}
+
+static inline void hri_nvmctrl_set_CTRLB_MANW_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_MANW;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_CTRLB_MANW_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_MANW) >> NVMCTRL_CTRLB_MANW_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_MANW_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_MANW;
+	tmp |= value << NVMCTRL_CTRLB_MANW_Pos;
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_MANW_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_MANW;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_MANW_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_MANW;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_set_CTRLB_FWUP_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_FWUP;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_CTRLB_FWUP_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_FWUP) >> NVMCTRL_CTRLB_FWUP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_FWUP_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_FWUP;
+	tmp |= value << NVMCTRL_CTRLB_FWUP_Pos;
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_FWUP_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_FWUP;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_FWUP_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_FWUP;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_set_CTRLB_CACHEDIS_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_CACHEDIS;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_CTRLB_CACHEDIS_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_CACHEDIS) >> NVMCTRL_CTRLB_CACHEDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_CACHEDIS_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_CACHEDIS;
+	tmp |= value << NVMCTRL_CTRLB_CACHEDIS_Pos;
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_CACHEDIS_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_CACHEDIS;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_CACHEDIS_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_CACHEDIS;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_set_CTRLB_RWS_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_RWS(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_get_CTRLB_RWS_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_RWS(mask)) >> NVMCTRL_CTRLB_RWS_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_RWS_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_RWS_Msk;
+	tmp |= NVMCTRL_CTRLB_RWS(data);
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_RWS_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_RWS(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_RWS_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_RWS(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_read_CTRLB_RWS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_RWS_Msk) >> NVMCTRL_CTRLB_RWS_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_CTRLB_SLEEPPRM_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_SLEEPPRM(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_get_CTRLB_SLEEPPRM_bf(const void *const       hw,
+                                                                        hri_nvmctrl_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_SLEEPPRM(mask)) >> NVMCTRL_CTRLB_SLEEPPRM_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_SLEEPPRM_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_SLEEPPRM_Msk;
+	tmp |= NVMCTRL_CTRLB_SLEEPPRM(data);
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_SLEEPPRM_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_SLEEPPRM(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_SLEEPPRM_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_SLEEPPRM(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_read_CTRLB_SLEEPPRM_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_SLEEPPRM_Msk) >> NVMCTRL_CTRLB_SLEEPPRM_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_CTRLB_READMODE_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= NVMCTRL_CTRLB_READMODE(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_get_CTRLB_READMODE_bf(const void *const       hw,
+                                                                        hri_nvmctrl_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_READMODE(mask)) >> NVMCTRL_CTRLB_READMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_READMODE_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= ~NVMCTRL_CTRLB_READMODE_Msk;
+	tmp |= NVMCTRL_CTRLB_READMODE(data);
+	((Nvmctrl *)hw)->CTRLB.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_READMODE_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~NVMCTRL_CTRLB_READMODE(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_READMODE_bf(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= NVMCTRL_CTRLB_READMODE(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_read_CTRLB_READMODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp = (tmp & NVMCTRL_CTRLB_READMODE_Msk) >> NVMCTRL_CTRLB_READMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_CTRLB_reg(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg |= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_get_CTRLB_reg(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_CTRLB_reg(const void *const hw, hri_nvmctrl_ctrlb_reg_t data)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg = data;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_CTRLB_reg(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg &= ~mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_CTRLB_reg(const void *const hw, hri_nvmctrl_ctrlb_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->CTRLB.reg ^= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_ctrlb_reg_t hri_nvmctrl_read_CTRLB_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->CTRLB.reg;
+}
+
+static inline void hri_nvmctrl_set_PARAM_NVMP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg |= NVMCTRL_PARAM_NVMP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_get_PARAM_NVMP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_NVMP(mask)) >> NVMCTRL_PARAM_NVMP_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_PARAM_NVMP_bf(const void *const hw, hri_nvmctrl_param_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp &= ~NVMCTRL_PARAM_NVMP_Msk;
+	tmp |= NVMCTRL_PARAM_NVMP(data);
+	((Nvmctrl *)hw)->PARAM.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_PARAM_NVMP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg &= ~NVMCTRL_PARAM_NVMP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_PARAM_NVMP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg ^= NVMCTRL_PARAM_NVMP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_read_PARAM_NVMP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_NVMP_Msk) >> NVMCTRL_PARAM_NVMP_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_PARAM_PSZ_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg |= NVMCTRL_PARAM_PSZ(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_get_PARAM_PSZ_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_PSZ(mask)) >> NVMCTRL_PARAM_PSZ_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_PARAM_PSZ_bf(const void *const hw, hri_nvmctrl_param_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp &= ~NVMCTRL_PARAM_PSZ_Msk;
+	tmp |= NVMCTRL_PARAM_PSZ(data);
+	((Nvmctrl *)hw)->PARAM.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_PARAM_PSZ_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg &= ~NVMCTRL_PARAM_PSZ(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_PARAM_PSZ_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg ^= NVMCTRL_PARAM_PSZ(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_read_PARAM_PSZ_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_PSZ_Msk) >> NVMCTRL_PARAM_PSZ_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_PARAM_RWWEEP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg |= NVMCTRL_PARAM_RWWEEP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_get_PARAM_RWWEEP_bf(const void *const       hw,
+                                                                      hri_nvmctrl_param_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_RWWEEP(mask)) >> NVMCTRL_PARAM_RWWEEP_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_PARAM_RWWEEP_bf(const void *const hw, hri_nvmctrl_param_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp &= ~NVMCTRL_PARAM_RWWEEP_Msk;
+	tmp |= NVMCTRL_PARAM_RWWEEP(data);
+	((Nvmctrl *)hw)->PARAM.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_PARAM_RWWEEP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg &= ~NVMCTRL_PARAM_RWWEEP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_PARAM_RWWEEP_bf(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg ^= NVMCTRL_PARAM_RWWEEP(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_read_PARAM_RWWEEP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp = (tmp & NVMCTRL_PARAM_RWWEEP_Msk) >> NVMCTRL_PARAM_RWWEEP_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_PARAM_reg(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg |= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_get_PARAM_reg(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->PARAM.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_PARAM_reg(const void *const hw, hri_nvmctrl_param_reg_t data)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg = data;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_PARAM_reg(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg &= ~mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_PARAM_reg(const void *const hw, hri_nvmctrl_param_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->PARAM.reg ^= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_param_reg_t hri_nvmctrl_read_PARAM_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->PARAM.reg;
+}
+
+static inline void hri_nvmctrl_set_ADDR_ADDR_bf(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg |= NVMCTRL_ADDR_ADDR(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_addr_reg_t hri_nvmctrl_get_ADDR_ADDR_bf(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->ADDR.reg;
+	tmp = (tmp & NVMCTRL_ADDR_ADDR(mask)) >> NVMCTRL_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_ADDR_ADDR_bf(const void *const hw, hri_nvmctrl_addr_reg_t data)
+{
+	uint32_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->ADDR.reg;
+	tmp &= ~NVMCTRL_ADDR_ADDR_Msk;
+	tmp |= NVMCTRL_ADDR_ADDR(data);
+	((Nvmctrl *)hw)->ADDR.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_ADDR_ADDR_bf(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg &= ~NVMCTRL_ADDR_ADDR(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_ADDR_ADDR_bf(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg ^= NVMCTRL_ADDR_ADDR(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_addr_reg_t hri_nvmctrl_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->ADDR.reg;
+	tmp = (tmp & NVMCTRL_ADDR_ADDR_Msk) >> NVMCTRL_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_ADDR_reg(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg |= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_addr_reg_t hri_nvmctrl_get_ADDR_reg(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Nvmctrl *)hw)->ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_ADDR_reg(const void *const hw, hri_nvmctrl_addr_reg_t data)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg = data;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_ADDR_reg(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg &= ~mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_ADDR_reg(const void *const hw, hri_nvmctrl_addr_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->ADDR.reg ^= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_addr_reg_t hri_nvmctrl_read_ADDR_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->ADDR.reg;
+}
+
+static inline void hri_nvmctrl_set_LOCK_LOCK_bf(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg |= NVMCTRL_LOCK_LOCK(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_lock_reg_t hri_nvmctrl_get_LOCK_LOCK_bf(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->LOCK.reg;
+	tmp = (tmp & NVMCTRL_LOCK_LOCK(mask)) >> NVMCTRL_LOCK_LOCK_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_LOCK_LOCK_bf(const void *const hw, hri_nvmctrl_lock_reg_t data)
+{
+	uint16_t tmp;
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Nvmctrl *)hw)->LOCK.reg;
+	tmp &= ~NVMCTRL_LOCK_LOCK_Msk;
+	tmp |= NVMCTRL_LOCK_LOCK(data);
+	((Nvmctrl *)hw)->LOCK.reg = tmp;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_LOCK_LOCK_bf(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg &= ~NVMCTRL_LOCK_LOCK(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_LOCK_LOCK_bf(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg ^= NVMCTRL_LOCK_LOCK(mask);
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_lock_reg_t hri_nvmctrl_read_LOCK_LOCK_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->LOCK.reg;
+	tmp = (tmp & NVMCTRL_LOCK_LOCK_Msk) >> NVMCTRL_LOCK_LOCK_Pos;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_set_LOCK_reg(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg |= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_lock_reg_t hri_nvmctrl_get_LOCK_reg(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->LOCK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_write_LOCK_reg(const void *const hw, hri_nvmctrl_lock_reg_t data)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg = data;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_clear_LOCK_reg(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg &= ~mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_nvmctrl_toggle_LOCK_reg(const void *const hw, hri_nvmctrl_lock_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->LOCK.reg ^= mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_lock_reg_t hri_nvmctrl_read_LOCK_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->LOCK.reg;
+}
+
+static inline bool hri_nvmctrl_get_STATUS_PRM_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_PRM) >> NVMCTRL_STATUS_PRM_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_PRM_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_PRM;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_STATUS_LOAD_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_LOAD) >> NVMCTRL_STATUS_LOAD_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_LOAD_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_LOAD;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_STATUS_PROGE_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_PROGE) >> NVMCTRL_STATUS_PROGE_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_PROGE_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_PROGE;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_STATUS_LOCKE_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_LOCKE) >> NVMCTRL_STATUS_LOCKE_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_LOCKE_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_LOCKE;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_STATUS_NVME_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_NVME) >> NVMCTRL_STATUS_NVME_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_NVME_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_NVME;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_nvmctrl_get_STATUS_SB_bit(const void *const hw)
+{
+	return (((Nvmctrl *)hw)->STATUS.reg & NVMCTRL_STATUS_SB) >> NVMCTRL_STATUS_SB_Pos;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_SB_bit(const void *const hw)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = NVMCTRL_STATUS_SB;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_status_reg_t hri_nvmctrl_get_STATUS_reg(const void *const hw, hri_nvmctrl_status_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Nvmctrl *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_nvmctrl_clear_STATUS_reg(const void *const hw, hri_nvmctrl_status_reg_t mask)
+{
+	NVMCTRL_CRITICAL_SECTION_ENTER();
+	((Nvmctrl *)hw)->STATUS.reg = mask;
+	NVMCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_nvmctrl_status_reg_t hri_nvmctrl_read_STATUS_reg(const void *const hw)
+{
+	return ((Nvmctrl *)hw)->STATUS.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_NVMCTRL_L22_H_INCLUDED */
+#endif /* _SAML22_NVMCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_osc32kctrl_l22.h b/watch-library/hardware/hri/hri_osc32kctrl_l22.h
new file mode 100644
index 00000000..44bb32ba
--- /dev/null
+++ b/watch-library/hardware/hri/hri_osc32kctrl_l22.h
@@ -0,0 +1,1233 @@
+/**
+ * \file
+ *
+ * \brief SAM OSC32KCTRL
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_OSC32KCTRL_COMPONENT_
+#ifndef _HRI_OSC32KCTRL_L22_H_INCLUDED_
+#define _HRI_OSC32KCTRL_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_OSC32KCTRL_CRITICAL_SECTIONS)
+#define OSC32KCTRL_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define OSC32KCTRL_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define OSC32KCTRL_CRITICAL_SECTION_ENTER()
+#define OSC32KCTRL_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_osc32kctrl_xosc32k_reg_t;
+typedef uint32_t hri_osc32kctrl_intenset_reg_t;
+typedef uint32_t hri_osc32kctrl_intflag_reg_t;
+typedef uint32_t hri_osc32kctrl_osculp32k_reg_t;
+typedef uint32_t hri_osc32kctrl_status_reg_t;
+typedef uint8_t  hri_osc32kctrl_cfdctrl_reg_t;
+typedef uint8_t  hri_osc32kctrl_evctrl_reg_t;
+typedef uint8_t  hri_osc32kctrl_rtcctrl_reg_t;
+typedef uint8_t  hri_osc32kctrl_slcdctrl_reg_t;
+
+static inline bool hri_osc32kctrl_get_INTFLAG_XOSC32KRDY_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTFLAG.reg & OSC32KCTRL_INTFLAG_XOSC32KRDY) >> OSC32KCTRL_INTFLAG_XOSC32KRDY_Pos;
+}
+
+static inline void hri_osc32kctrl_clear_INTFLAG_XOSC32KRDY_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTFLAG.reg = OSC32KCTRL_INTFLAG_XOSC32KRDY;
+}
+
+static inline bool hri_osc32kctrl_get_INTFLAG_CLKFAIL_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTFLAG.reg & OSC32KCTRL_INTFLAG_CLKFAIL) >> OSC32KCTRL_INTFLAG_CLKFAIL_Pos;
+}
+
+static inline void hri_osc32kctrl_clear_INTFLAG_CLKFAIL_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTFLAG.reg = OSC32KCTRL_INTFLAG_CLKFAIL;
+}
+
+static inline bool hri_osc32kctrl_get_interrupt_XOSC32KRDY_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTFLAG.reg & OSC32KCTRL_INTFLAG_XOSC32KRDY) >> OSC32KCTRL_INTFLAG_XOSC32KRDY_Pos;
+}
+
+static inline void hri_osc32kctrl_clear_interrupt_XOSC32KRDY_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTFLAG.reg = OSC32KCTRL_INTFLAG_XOSC32KRDY;
+}
+
+static inline bool hri_osc32kctrl_get_interrupt_CLKFAIL_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTFLAG.reg & OSC32KCTRL_INTFLAG_CLKFAIL) >> OSC32KCTRL_INTFLAG_CLKFAIL_Pos;
+}
+
+static inline void hri_osc32kctrl_clear_interrupt_CLKFAIL_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTFLAG.reg = OSC32KCTRL_INTFLAG_CLKFAIL;
+}
+
+static inline hri_osc32kctrl_intflag_reg_t hri_osc32kctrl_get_INTFLAG_reg(const void *const            hw,
+                                                                          hri_osc32kctrl_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_osc32kctrl_intflag_reg_t hri_osc32kctrl_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_osc32kctrl_clear_INTFLAG_reg(const void *const hw, hri_osc32kctrl_intflag_reg_t mask)
+{
+	((Osc32kctrl *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_osc32kctrl_set_INTEN_XOSC32KRDY_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTENSET.reg = OSC32KCTRL_INTENSET_XOSC32KRDY;
+}
+
+static inline bool hri_osc32kctrl_get_INTEN_XOSC32KRDY_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTENSET.reg & OSC32KCTRL_INTENSET_XOSC32KRDY) >> OSC32KCTRL_INTENSET_XOSC32KRDY_Pos;
+}
+
+static inline void hri_osc32kctrl_write_INTEN_XOSC32KRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Osc32kctrl *)hw)->INTENCLR.reg = OSC32KCTRL_INTENSET_XOSC32KRDY;
+	} else {
+		((Osc32kctrl *)hw)->INTENSET.reg = OSC32KCTRL_INTENSET_XOSC32KRDY;
+	}
+}
+
+static inline void hri_osc32kctrl_clear_INTEN_XOSC32KRDY_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTENCLR.reg = OSC32KCTRL_INTENSET_XOSC32KRDY;
+}
+
+static inline void hri_osc32kctrl_set_INTEN_CLKFAIL_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTENSET.reg = OSC32KCTRL_INTENSET_CLKFAIL;
+}
+
+static inline bool hri_osc32kctrl_get_INTEN_CLKFAIL_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->INTENSET.reg & OSC32KCTRL_INTENSET_CLKFAIL) >> OSC32KCTRL_INTENSET_CLKFAIL_Pos;
+}
+
+static inline void hri_osc32kctrl_write_INTEN_CLKFAIL_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Osc32kctrl *)hw)->INTENCLR.reg = OSC32KCTRL_INTENSET_CLKFAIL;
+	} else {
+		((Osc32kctrl *)hw)->INTENSET.reg = OSC32KCTRL_INTENSET_CLKFAIL;
+	}
+}
+
+static inline void hri_osc32kctrl_clear_INTEN_CLKFAIL_bit(const void *const hw)
+{
+	((Osc32kctrl *)hw)->INTENCLR.reg = OSC32KCTRL_INTENSET_CLKFAIL;
+}
+
+static inline void hri_osc32kctrl_set_INTEN_reg(const void *const hw, hri_osc32kctrl_intenset_reg_t mask)
+{
+	((Osc32kctrl *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_osc32kctrl_intenset_reg_t hri_osc32kctrl_get_INTEN_reg(const void *const             hw,
+                                                                         hri_osc32kctrl_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_osc32kctrl_intenset_reg_t hri_osc32kctrl_read_INTEN_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->INTENSET.reg;
+}
+
+static inline void hri_osc32kctrl_write_INTEN_reg(const void *const hw, hri_osc32kctrl_intenset_reg_t data)
+{
+	((Osc32kctrl *)hw)->INTENSET.reg = data;
+	((Osc32kctrl *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_osc32kctrl_clear_INTEN_reg(const void *const hw, hri_osc32kctrl_intenset_reg_t mask)
+{
+	((Osc32kctrl *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_osc32kctrl_get_STATUS_XOSC32KRDY_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->STATUS.reg & OSC32KCTRL_STATUS_XOSC32KRDY) >> OSC32KCTRL_STATUS_XOSC32KRDY_Pos;
+}
+
+static inline bool hri_osc32kctrl_get_STATUS_CLKFAIL_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->STATUS.reg & OSC32KCTRL_STATUS_CLKFAIL) >> OSC32KCTRL_STATUS_CLKFAIL_Pos;
+}
+
+static inline bool hri_osc32kctrl_get_STATUS_CLKSW_bit(const void *const hw)
+{
+	return (((Osc32kctrl *)hw)->STATUS.reg & OSC32KCTRL_STATUS_CLKSW) >> OSC32KCTRL_STATUS_CLKSW_Pos;
+}
+
+static inline hri_osc32kctrl_status_reg_t hri_osc32kctrl_get_STATUS_reg(const void *const           hw,
+                                                                        hri_osc32kctrl_status_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_osc32kctrl_status_reg_t hri_osc32kctrl_read_STATUS_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->STATUS.reg;
+}
+
+static inline void hri_osc32kctrl_set_RTCCTRL_RTCSEL_bf(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg |= OSC32KCTRL_RTCCTRL_RTCSEL(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_rtcctrl_reg_t hri_osc32kctrl_get_RTCCTRL_RTCSEL_bf(const void *const            hw,
+                                                                                hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->RTCCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_RTCCTRL_RTCSEL(mask)) >> OSC32KCTRL_RTCCTRL_RTCSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_RTCCTRL_RTCSEL_bf(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t data)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->RTCCTRL.reg;
+	tmp &= ~OSC32KCTRL_RTCCTRL_RTCSEL_Msk;
+	tmp |= OSC32KCTRL_RTCCTRL_RTCSEL(data);
+	((Osc32kctrl *)hw)->RTCCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_RTCCTRL_RTCSEL_bf(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg &= ~OSC32KCTRL_RTCCTRL_RTCSEL(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_RTCCTRL_RTCSEL_bf(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg ^= OSC32KCTRL_RTCCTRL_RTCSEL(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_rtcctrl_reg_t hri_osc32kctrl_read_RTCCTRL_RTCSEL_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->RTCCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_RTCCTRL_RTCSEL_Msk) >> OSC32KCTRL_RTCCTRL_RTCSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_set_RTCCTRL_reg(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_rtcctrl_reg_t hri_osc32kctrl_get_RTCCTRL_reg(const void *const            hw,
+                                                                          hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->RTCCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_RTCCTRL_reg(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_RTCCTRL_reg(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_RTCCTRL_reg(const void *const hw, hri_osc32kctrl_rtcctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->RTCCTRL.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_rtcctrl_reg_t hri_osc32kctrl_read_RTCCTRL_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->RTCCTRL.reg;
+}
+
+static inline void hri_osc32kctrl_set_SLCDCTRL_SLCDSEL_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg |= OSC32KCTRL_SLCDCTRL_SLCDSEL;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_SLCDCTRL_SLCDSEL_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->SLCDCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_SLCDCTRL_SLCDSEL) >> OSC32KCTRL_SLCDCTRL_SLCDSEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_SLCDCTRL_SLCDSEL_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->SLCDCTRL.reg;
+	tmp &= ~OSC32KCTRL_SLCDCTRL_SLCDSEL;
+	tmp |= value << OSC32KCTRL_SLCDCTRL_SLCDSEL_Pos;
+	((Osc32kctrl *)hw)->SLCDCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_SLCDCTRL_SLCDSEL_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg &= ~OSC32KCTRL_SLCDCTRL_SLCDSEL;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_SLCDCTRL_SLCDSEL_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg ^= OSC32KCTRL_SLCDCTRL_SLCDSEL;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_SLCDCTRL_reg(const void *const hw, hri_osc32kctrl_slcdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_slcdctrl_reg_t hri_osc32kctrl_get_SLCDCTRL_reg(const void *const             hw,
+                                                                            hri_osc32kctrl_slcdctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->SLCDCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_SLCDCTRL_reg(const void *const hw, hri_osc32kctrl_slcdctrl_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_SLCDCTRL_reg(const void *const hw, hri_osc32kctrl_slcdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_SLCDCTRL_reg(const void *const hw, hri_osc32kctrl_slcdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->SLCDCTRL.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_slcdctrl_reg_t hri_osc32kctrl_read_SLCDCTRL_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->SLCDCTRL.reg;
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_ENABLE_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_ENABLE;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_ENABLE) >> OSC32KCTRL_XOSC32K_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_ENABLE;
+	tmp |= value << OSC32KCTRL_XOSC32K_ENABLE_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_ENABLE_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_ENABLE;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_ENABLE_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_ENABLE;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_XTALEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_XTALEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_XTALEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_XTALEN) >> OSC32KCTRL_XOSC32K_XTALEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_XTALEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_XTALEN;
+	tmp |= value << OSC32KCTRL_XOSC32K_XTALEN_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_XTALEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_XTALEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_XTALEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_XTALEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_EN32K_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_EN32K) >> OSC32KCTRL_XOSC32K_EN32K_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_EN32K_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_EN32K;
+	tmp |= value << OSC32KCTRL_XOSC32K_EN32K_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_EN1K_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_EN1K) >> OSC32KCTRL_XOSC32K_EN1K_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_EN1K_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_EN1K;
+	tmp |= value << OSC32KCTRL_XOSC32K_EN1K_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_RUNSTDBY_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_RUNSTDBY;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_RUNSTDBY_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_RUNSTDBY) >> OSC32KCTRL_XOSC32K_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_RUNSTDBY;
+	tmp |= value << OSC32KCTRL_XOSC32K_RUNSTDBY_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_RUNSTDBY_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_RUNSTDBY;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_RUNSTDBY_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_RUNSTDBY;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_ONDEMAND_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_ONDEMAND;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_ONDEMAND_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_ONDEMAND) >> OSC32KCTRL_XOSC32K_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_ONDEMAND;
+	tmp |= value << OSC32KCTRL_XOSC32K_ONDEMAND_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_ONDEMAND_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_ONDEMAND;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_ONDEMAND_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_ONDEMAND;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_XOSC32K_WRTLOCK_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_WRTLOCK) >> OSC32KCTRL_XOSC32K_WRTLOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_WRTLOCK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_WRTLOCK;
+	tmp |= value << OSC32KCTRL_XOSC32K_WRTLOCK_Pos;
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_STARTUP_bf(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= OSC32KCTRL_XOSC32K_STARTUP(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_xosc32k_reg_t hri_osc32kctrl_get_XOSC32K_STARTUP_bf(const void *const            hw,
+                                                                                 hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_STARTUP(mask)) >> OSC32KCTRL_XOSC32K_STARTUP_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_STARTUP_bf(const void *const hw, hri_osc32kctrl_xosc32k_reg_t data)
+{
+	uint16_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= ~OSC32KCTRL_XOSC32K_STARTUP_Msk;
+	tmp |= OSC32KCTRL_XOSC32K_STARTUP(data);
+	((Osc32kctrl *)hw)->XOSC32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_STARTUP_bf(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~OSC32KCTRL_XOSC32K_STARTUP(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_STARTUP_bf(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= OSC32KCTRL_XOSC32K_STARTUP(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_xosc32k_reg_t hri_osc32kctrl_read_XOSC32K_STARTUP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp = (tmp & OSC32KCTRL_XOSC32K_STARTUP_Msk) >> OSC32KCTRL_XOSC32K_STARTUP_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_set_XOSC32K_reg(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_xosc32k_reg_t hri_osc32kctrl_get_XOSC32K_reg(const void *const            hw,
+                                                                          hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Osc32kctrl *)hw)->XOSC32K.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_XOSC32K_reg(const void *const hw, hri_osc32kctrl_xosc32k_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_XOSC32K_reg(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_XOSC32K_reg(const void *const hw, hri_osc32kctrl_xosc32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->XOSC32K.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_xosc32k_reg_t hri_osc32kctrl_read_XOSC32K_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->XOSC32K.reg;
+}
+
+static inline void hri_osc32kctrl_set_CFDCTRL_CFDEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg |= OSC32KCTRL_CFDCTRL_CFDEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_CFDCTRL_CFDEN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_CFDCTRL_CFDEN) >> OSC32KCTRL_CFDCTRL_CFDEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_CFDCTRL_CFDEN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp &= ~OSC32KCTRL_CFDCTRL_CFDEN;
+	tmp |= value << OSC32KCTRL_CFDCTRL_CFDEN_Pos;
+	((Osc32kctrl *)hw)->CFDCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_CFDCTRL_CFDEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg &= ~OSC32KCTRL_CFDCTRL_CFDEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_CFDCTRL_CFDEN_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg ^= OSC32KCTRL_CFDCTRL_CFDEN;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_CFDCTRL_SWBACK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg |= OSC32KCTRL_CFDCTRL_SWBACK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_CFDCTRL_SWBACK_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_CFDCTRL_SWBACK) >> OSC32KCTRL_CFDCTRL_SWBACK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_CFDCTRL_SWBACK_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp &= ~OSC32KCTRL_CFDCTRL_SWBACK;
+	tmp |= value << OSC32KCTRL_CFDCTRL_SWBACK_Pos;
+	((Osc32kctrl *)hw)->CFDCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_CFDCTRL_SWBACK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg &= ~OSC32KCTRL_CFDCTRL_SWBACK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_CFDCTRL_SWBACK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg ^= OSC32KCTRL_CFDCTRL_SWBACK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_CFDCTRL_CFDPRESC_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg |= OSC32KCTRL_CFDCTRL_CFDPRESC;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_CFDCTRL_CFDPRESC_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_CFDCTRL_CFDPRESC) >> OSC32KCTRL_CFDCTRL_CFDPRESC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_CFDCTRL_CFDPRESC_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp &= ~OSC32KCTRL_CFDCTRL_CFDPRESC;
+	tmp |= value << OSC32KCTRL_CFDCTRL_CFDPRESC_Pos;
+	((Osc32kctrl *)hw)->CFDCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_CFDCTRL_CFDPRESC_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg &= ~OSC32KCTRL_CFDCTRL_CFDPRESC;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_CFDCTRL_CFDPRESC_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg ^= OSC32KCTRL_CFDCTRL_CFDPRESC;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_CFDCTRL_reg(const void *const hw, hri_osc32kctrl_cfdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_cfdctrl_reg_t hri_osc32kctrl_get_CFDCTRL_reg(const void *const            hw,
+                                                                          hri_osc32kctrl_cfdctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->CFDCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_CFDCTRL_reg(const void *const hw, hri_osc32kctrl_cfdctrl_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_CFDCTRL_reg(const void *const hw, hri_osc32kctrl_cfdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_CFDCTRL_reg(const void *const hw, hri_osc32kctrl_cfdctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->CFDCTRL.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_cfdctrl_reg_t hri_osc32kctrl_read_CFDCTRL_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->CFDCTRL.reg;
+}
+
+static inline void hri_osc32kctrl_set_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg |= OSC32KCTRL_EVCTRL_CFDEO;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->EVCTRL.reg;
+	tmp = (tmp & OSC32KCTRL_EVCTRL_CFDEO) >> OSC32KCTRL_EVCTRL_CFDEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_EVCTRL_CFDEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->EVCTRL.reg;
+	tmp &= ~OSC32KCTRL_EVCTRL_CFDEO;
+	tmp |= value << OSC32KCTRL_EVCTRL_CFDEO_Pos;
+	((Osc32kctrl *)hw)->EVCTRL.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg &= ~OSC32KCTRL_EVCTRL_CFDEO;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg ^= OSC32KCTRL_EVCTRL_CFDEO;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_EVCTRL_reg(const void *const hw, hri_osc32kctrl_evctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_evctrl_reg_t hri_osc32kctrl_get_EVCTRL_reg(const void *const           hw,
+                                                                        hri_osc32kctrl_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Osc32kctrl *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_EVCTRL_reg(const void *const hw, hri_osc32kctrl_evctrl_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_EVCTRL_reg(const void *const hw, hri_osc32kctrl_evctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_EVCTRL_reg(const void *const hw, hri_osc32kctrl_evctrl_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->EVCTRL.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_evctrl_reg_t hri_osc32kctrl_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_osc32kctrl_set_OSCULP32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg |= OSC32KCTRL_OSCULP32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_OSCULP32K_EN32K_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp = (tmp & OSC32KCTRL_OSCULP32K_EN32K) >> OSC32KCTRL_OSCULP32K_EN32K_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_OSCULP32K_EN32K_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp &= ~OSC32KCTRL_OSCULP32K_EN32K;
+	tmp |= value << OSC32KCTRL_OSCULP32K_EN32K_Pos;
+	((Osc32kctrl *)hw)->OSCULP32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_OSCULP32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg &= ~OSC32KCTRL_OSCULP32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_OSCULP32K_EN32K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg ^= OSC32KCTRL_OSCULP32K_EN32K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_OSCULP32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg |= OSC32KCTRL_OSCULP32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_OSCULP32K_EN1K_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp = (tmp & OSC32KCTRL_OSCULP32K_EN1K) >> OSC32KCTRL_OSCULP32K_EN1K_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_OSCULP32K_EN1K_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp &= ~OSC32KCTRL_OSCULP32K_EN1K;
+	tmp |= value << OSC32KCTRL_OSCULP32K_EN1K_Pos;
+	((Osc32kctrl *)hw)->OSCULP32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_OSCULP32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg &= ~OSC32KCTRL_OSCULP32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_OSCULP32K_EN1K_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg ^= OSC32KCTRL_OSCULP32K_EN1K;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_OSCULP32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg |= OSC32KCTRL_OSCULP32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_osc32kctrl_get_OSCULP32K_WRTLOCK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp = (tmp & OSC32KCTRL_OSCULP32K_WRTLOCK) >> OSC32KCTRL_OSCULP32K_WRTLOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_osc32kctrl_write_OSCULP32K_WRTLOCK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp &= ~OSC32KCTRL_OSCULP32K_WRTLOCK;
+	tmp |= value << OSC32KCTRL_OSCULP32K_WRTLOCK_Pos;
+	((Osc32kctrl *)hw)->OSCULP32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_OSCULP32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg &= ~OSC32KCTRL_OSCULP32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_OSCULP32K_WRTLOCK_bit(const void *const hw)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg ^= OSC32KCTRL_OSCULP32K_WRTLOCK;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_set_OSCULP32K_CALIB_bf(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg |= OSC32KCTRL_OSCULP32K_CALIB(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_osculp32k_reg_t hri_osc32kctrl_get_OSCULP32K_CALIB_bf(const void *const              hw,
+                                                                                   hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp = (tmp & OSC32KCTRL_OSCULP32K_CALIB(mask)) >> OSC32KCTRL_OSCULP32K_CALIB_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_OSCULP32K_CALIB_bf(const void *const hw, hri_osc32kctrl_osculp32k_reg_t data)
+{
+	uint32_t tmp;
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp &= ~OSC32KCTRL_OSCULP32K_CALIB_Msk;
+	tmp |= OSC32KCTRL_OSCULP32K_CALIB(data);
+	((Osc32kctrl *)hw)->OSCULP32K.reg = tmp;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_OSCULP32K_CALIB_bf(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg &= ~OSC32KCTRL_OSCULP32K_CALIB(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_OSCULP32K_CALIB_bf(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg ^= OSC32KCTRL_OSCULP32K_CALIB(mask);
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_osculp32k_reg_t hri_osc32kctrl_read_OSCULP32K_CALIB_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp = (tmp & OSC32KCTRL_OSCULP32K_CALIB_Msk) >> OSC32KCTRL_OSCULP32K_CALIB_Pos;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_set_OSCULP32K_reg(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg |= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_osculp32k_reg_t hri_osc32kctrl_get_OSCULP32K_reg(const void *const              hw,
+                                                                              hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Osc32kctrl *)hw)->OSCULP32K.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_osc32kctrl_write_OSCULP32K_reg(const void *const hw, hri_osc32kctrl_osculp32k_reg_t data)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg = data;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_clear_OSCULP32K_reg(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg &= ~mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_osc32kctrl_toggle_OSCULP32K_reg(const void *const hw, hri_osc32kctrl_osculp32k_reg_t mask)
+{
+	OSC32KCTRL_CRITICAL_SECTION_ENTER();
+	((Osc32kctrl *)hw)->OSCULP32K.reg ^= mask;
+	OSC32KCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_osc32kctrl_osculp32k_reg_t hri_osc32kctrl_read_OSCULP32K_reg(const void *const hw)
+{
+	return ((Osc32kctrl *)hw)->OSCULP32K.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_OSC32KCTRL_L22_H_INCLUDED */
+#endif /* _SAML22_OSC32KCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_oscctrl_l22.h b/watch-library/hardware/hri/hri_oscctrl_l22.h
new file mode 100644
index 00000000..d1bc4b60
--- /dev/null
+++ b/watch-library/hardware/hri/hri_oscctrl_l22.h
@@ -0,0 +1,3451 @@
+/**
+ * \file
+ *
+ * \brief SAM OSCCTRL
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_OSCCTRL_COMPONENT_
+#ifndef _HRI_OSCCTRL_L22_H_INCLUDED_
+#define _HRI_OSCCTRL_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_OSCCTRL_CRITICAL_SECTIONS)
+#define OSCCTRL_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define OSCCTRL_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define OSCCTRL_CRITICAL_SECTION_ENTER()
+#define OSCCTRL_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_oscctrl_dfllctrl_reg_t;
+typedef uint16_t hri_oscctrl_xoscctrl_reg_t;
+typedef uint32_t hri_oscctrl_dfllmul_reg_t;
+typedef uint32_t hri_oscctrl_dfllval_reg_t;
+typedef uint32_t hri_oscctrl_dpllctrlb_reg_t;
+typedef uint32_t hri_oscctrl_dpllratio_reg_t;
+typedef uint32_t hri_oscctrl_intenset_reg_t;
+typedef uint32_t hri_oscctrl_intflag_reg_t;
+typedef uint32_t hri_oscctrl_status_reg_t;
+typedef uint8_t  hri_oscctrl_cfdpresc_reg_t;
+typedef uint8_t  hri_oscctrl_dfllsync_reg_t;
+typedef uint8_t  hri_oscctrl_dpllctrla_reg_t;
+typedef uint8_t  hri_oscctrl_dpllpresc_reg_t;
+typedef uint8_t  hri_oscctrl_dpllstatus_reg_t;
+typedef uint8_t  hri_oscctrl_dpllsyncbusy_reg_t;
+typedef uint8_t  hri_oscctrl_evctrl_reg_t;
+typedef uint8_t  hri_oscctrl_osc16mctrl_reg_t;
+
+static inline void hri_oscctrl_wait_for_sync(const void *const hw, hri_oscctrl_dpllsyncbusy_reg_t reg)
+{
+	while (((Oscctrl *)hw)->DPLLSYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_oscctrl_is_syncing(const void *const hw, hri_oscctrl_dpllsyncbusy_reg_t reg)
+{
+	return ((Oscctrl *)hw)->DPLLSYNCBUSY.reg & reg;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_XOSCRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_XOSCRDY) >> OSCCTRL_INTFLAG_XOSCRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_XOSCRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_XOSCRDY;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_XOSCFAIL_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_XOSCFAIL) >> OSCCTRL_INTFLAG_XOSCFAIL_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_XOSCFAIL_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_XOSCFAIL;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_OSC16MRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_OSC16MRDY) >> OSCCTRL_INTFLAG_OSC16MRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_OSC16MRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_OSC16MRDY;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DFLLRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLRDY) >> OSCCTRL_INTFLAG_DFLLRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DFLLRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLRDY;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DFLLOOB_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLOOB) >> OSCCTRL_INTFLAG_DFLLOOB_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DFLLOOB_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLOOB;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DFLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLLCKF) >> OSCCTRL_INTFLAG_DFLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DFLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DFLLLCKC_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLLCKC) >> OSCCTRL_INTFLAG_DFLLLCKC_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DFLLLCKC_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLLCKC;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DFLLRCS_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLRCS) >> OSCCTRL_INTFLAG_DFLLRCS_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DFLLRCS_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLRCS;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DPLLLCKR_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLCKR) >> OSCCTRL_INTFLAG_DPLLLCKR_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DPLLLCKR_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLCKR;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DPLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLCKF) >> OSCCTRL_INTFLAG_DPLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DPLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DPLLLTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLTO) >> OSCCTRL_INTFLAG_DPLLLTO_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DPLLLTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLTO;
+}
+
+static inline bool hri_oscctrl_get_INTFLAG_DPLLLDRTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLDRTO) >> OSCCTRL_INTFLAG_DPLLLDRTO_Pos;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_DPLLLDRTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLDRTO;
+}
+
+static inline bool hri_oscctrl_get_interrupt_XOSCRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_XOSCRDY) >> OSCCTRL_INTFLAG_XOSCRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_XOSCRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_XOSCRDY;
+}
+
+static inline bool hri_oscctrl_get_interrupt_XOSCFAIL_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_XOSCFAIL) >> OSCCTRL_INTFLAG_XOSCFAIL_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_XOSCFAIL_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_XOSCFAIL;
+}
+
+static inline bool hri_oscctrl_get_interrupt_OSC16MRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_OSC16MRDY) >> OSCCTRL_INTFLAG_OSC16MRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_OSC16MRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_OSC16MRDY;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DFLLRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLRDY) >> OSCCTRL_INTFLAG_DFLLRDY_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DFLLRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLRDY;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DFLLOOB_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLOOB) >> OSCCTRL_INTFLAG_DFLLOOB_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DFLLOOB_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLOOB;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DFLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLLCKF) >> OSCCTRL_INTFLAG_DFLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DFLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DFLLLCKC_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLLCKC) >> OSCCTRL_INTFLAG_DFLLLCKC_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DFLLLCKC_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLLCKC;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DFLLRCS_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DFLLRCS) >> OSCCTRL_INTFLAG_DFLLRCS_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DFLLRCS_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLRCS;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DPLLLCKR_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLCKR) >> OSCCTRL_INTFLAG_DPLLLCKR_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DPLLLCKR_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLCKR;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DPLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLCKF) >> OSCCTRL_INTFLAG_DPLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DPLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DPLLLTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLTO) >> OSCCTRL_INTFLAG_DPLLLTO_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DPLLLTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLTO;
+}
+
+static inline bool hri_oscctrl_get_interrupt_DPLLLDRTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTFLAG.reg & OSCCTRL_INTFLAG_DPLLLDRTO) >> OSCCTRL_INTFLAG_DPLLLDRTO_Pos;
+}
+
+static inline void hri_oscctrl_clear_interrupt_DPLLLDRTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = OSCCTRL_INTFLAG_DPLLLDRTO;
+}
+
+static inline hri_oscctrl_intflag_reg_t hri_oscctrl_get_INTFLAG_reg(const void *const         hw,
+                                                                    hri_oscctrl_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_oscctrl_intflag_reg_t hri_oscctrl_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_oscctrl_clear_INTFLAG_reg(const void *const hw, hri_oscctrl_intflag_reg_t mask)
+{
+	((Oscctrl *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_oscctrl_set_INTEN_XOSCRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_XOSCRDY;
+}
+
+static inline bool hri_oscctrl_get_INTEN_XOSCRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_XOSCRDY) >> OSCCTRL_INTENSET_XOSCRDY_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_XOSCRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_XOSCRDY;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_XOSCRDY;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_XOSCRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_XOSCRDY;
+}
+
+static inline void hri_oscctrl_set_INTEN_XOSCFAIL_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_XOSCFAIL;
+}
+
+static inline bool hri_oscctrl_get_INTEN_XOSCFAIL_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_XOSCFAIL) >> OSCCTRL_INTENSET_XOSCFAIL_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_XOSCFAIL_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_XOSCFAIL;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_XOSCFAIL;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_XOSCFAIL_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_XOSCFAIL;
+}
+
+static inline void hri_oscctrl_set_INTEN_OSC16MRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_OSC16MRDY;
+}
+
+static inline bool hri_oscctrl_get_INTEN_OSC16MRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_OSC16MRDY) >> OSCCTRL_INTENSET_OSC16MRDY_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_OSC16MRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_OSC16MRDY;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_OSC16MRDY;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_OSC16MRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_OSC16MRDY;
+}
+
+static inline void hri_oscctrl_set_INTEN_DFLLRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLRDY;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DFLLRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DFLLRDY) >> OSCCTRL_INTENSET_DFLLRDY_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DFLLRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLRDY;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLRDY;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DFLLRDY_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLRDY;
+}
+
+static inline void hri_oscctrl_set_INTEN_DFLLOOB_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLOOB;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DFLLOOB_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DFLLOOB) >> OSCCTRL_INTENSET_DFLLOOB_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DFLLOOB_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLOOB;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLOOB;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DFLLOOB_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLOOB;
+}
+
+static inline void hri_oscctrl_set_INTEN_DFLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DFLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DFLLLCKF) >> OSCCTRL_INTENSET_DFLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DFLLLCKF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLLCKF;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLLCKF;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DFLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLLCKF;
+}
+
+static inline void hri_oscctrl_set_INTEN_DFLLLCKC_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLLCKC;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DFLLLCKC_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DFLLLCKC) >> OSCCTRL_INTENSET_DFLLLCKC_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DFLLLCKC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLLCKC;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLLCKC;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DFLLLCKC_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLLCKC;
+}
+
+static inline void hri_oscctrl_set_INTEN_DFLLRCS_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLRCS;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DFLLRCS_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DFLLRCS) >> OSCCTRL_INTENSET_DFLLRCS_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DFLLRCS_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLRCS;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DFLLRCS;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DFLLRCS_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DFLLRCS;
+}
+
+static inline void hri_oscctrl_set_INTEN_DPLLLCKR_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLCKR;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DPLLLCKR_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DPLLLCKR) >> OSCCTRL_INTENSET_DPLLLCKR_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DPLLLCKR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLCKR;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLCKR;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DPLLLCKR_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLCKR;
+}
+
+static inline void hri_oscctrl_set_INTEN_DPLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLCKF;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DPLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DPLLLCKF) >> OSCCTRL_INTENSET_DPLLLCKF_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DPLLLCKF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLCKF;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLCKF;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DPLLLCKF_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLCKF;
+}
+
+static inline void hri_oscctrl_set_INTEN_DPLLLTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLTO;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DPLLLTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DPLLLTO) >> OSCCTRL_INTENSET_DPLLLTO_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DPLLLTO_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLTO;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLTO;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DPLLLTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLTO;
+}
+
+static inline void hri_oscctrl_set_INTEN_DPLLLDRTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLDRTO;
+}
+
+static inline bool hri_oscctrl_get_INTEN_DPLLLDRTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->INTENSET.reg & OSCCTRL_INTENSET_DPLLLDRTO) >> OSCCTRL_INTENSET_DPLLLDRTO_Pos;
+}
+
+static inline void hri_oscctrl_write_INTEN_DPLLLDRTO_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLDRTO;
+	} else {
+		((Oscctrl *)hw)->INTENSET.reg = OSCCTRL_INTENSET_DPLLLDRTO;
+	}
+}
+
+static inline void hri_oscctrl_clear_INTEN_DPLLLDRTO_bit(const void *const hw)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = OSCCTRL_INTENSET_DPLLLDRTO;
+}
+
+static inline void hri_oscctrl_set_INTEN_reg(const void *const hw, hri_oscctrl_intenset_reg_t mask)
+{
+	((Oscctrl *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_oscctrl_intenset_reg_t hri_oscctrl_get_INTEN_reg(const void *const          hw,
+                                                                   hri_oscctrl_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_oscctrl_intenset_reg_t hri_oscctrl_read_INTEN_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->INTENSET.reg;
+}
+
+static inline void hri_oscctrl_write_INTEN_reg(const void *const hw, hri_oscctrl_intenset_reg_t data)
+{
+	((Oscctrl *)hw)->INTENSET.reg = data;
+	((Oscctrl *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_oscctrl_clear_INTEN_reg(const void *const hw, hri_oscctrl_intenset_reg_t mask)
+{
+	((Oscctrl *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_oscctrl_get_STATUS_XOSCRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_XOSCRDY) >> OSCCTRL_STATUS_XOSCRDY_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_XOSCFAIL_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_XOSCFAIL) >> OSCCTRL_STATUS_XOSCFAIL_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_XOSCCKSW_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_XOSCCKSW) >> OSCCTRL_STATUS_XOSCCKSW_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_OSC16MRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_OSC16MRDY) >> OSCCTRL_STATUS_OSC16MRDY_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DFLLRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DFLLRDY) >> OSCCTRL_STATUS_DFLLRDY_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DFLLOOB_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DFLLOOB) >> OSCCTRL_STATUS_DFLLOOB_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DFLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DFLLLCKF) >> OSCCTRL_STATUS_DFLLLCKF_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DFLLLCKC_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DFLLLCKC) >> OSCCTRL_STATUS_DFLLLCKC_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DFLLRCS_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DFLLRCS) >> OSCCTRL_STATUS_DFLLRCS_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DPLLLCKR_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DPLLLCKR) >> OSCCTRL_STATUS_DPLLLCKR_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DPLLLCKF_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DPLLLCKF) >> OSCCTRL_STATUS_DPLLLCKF_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DPLLTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DPLLTO) >> OSCCTRL_STATUS_DPLLTO_Pos;
+}
+
+static inline bool hri_oscctrl_get_STATUS_DPLLLDRTO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->STATUS.reg & OSCCTRL_STATUS_DPLLLDRTO) >> OSCCTRL_STATUS_DPLLLDRTO_Pos;
+}
+
+static inline hri_oscctrl_status_reg_t hri_oscctrl_get_STATUS_reg(const void *const hw, hri_oscctrl_status_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_oscctrl_status_reg_t hri_oscctrl_read_STATUS_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->STATUS.reg;
+}
+
+static inline bool hri_oscctrl_get_DPLLSYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->DPLLSYNCBUSY.reg & OSCCTRL_DPLLSYNCBUSY_ENABLE) >> OSCCTRL_DPLLSYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_oscctrl_get_DPLLSYNCBUSY_DPLLRATIO_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->DPLLSYNCBUSY.reg & OSCCTRL_DPLLSYNCBUSY_DPLLRATIO) >> OSCCTRL_DPLLSYNCBUSY_DPLLRATIO_Pos;
+}
+
+static inline bool hri_oscctrl_get_DPLLSYNCBUSY_DPLLPRESC_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->DPLLSYNCBUSY.reg & OSCCTRL_DPLLSYNCBUSY_DPLLPRESC) >> OSCCTRL_DPLLSYNCBUSY_DPLLPRESC_Pos;
+}
+
+static inline hri_oscctrl_dpllsyncbusy_reg_t hri_oscctrl_get_DPLLSYNCBUSY_reg(const void *const              hw,
+                                                                              hri_oscctrl_dpllsyncbusy_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLSYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_oscctrl_dpllsyncbusy_reg_t hri_oscctrl_read_DPLLSYNCBUSY_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DPLLSYNCBUSY.reg;
+}
+
+static inline bool hri_oscctrl_get_DPLLSTATUS_LOCK_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->DPLLSTATUS.reg & OSCCTRL_DPLLSTATUS_LOCK) >> OSCCTRL_DPLLSTATUS_LOCK_Pos;
+}
+
+static inline bool hri_oscctrl_get_DPLLSTATUS_CLKRDY_bit(const void *const hw)
+{
+	return (((Oscctrl *)hw)->DPLLSTATUS.reg & OSCCTRL_DPLLSTATUS_CLKRDY) >> OSCCTRL_DPLLSTATUS_CLKRDY_Pos;
+}
+
+static inline hri_oscctrl_dpllstatus_reg_t hri_oscctrl_get_DPLLSTATUS_reg(const void *const            hw,
+                                                                          hri_oscctrl_dpllstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_oscctrl_dpllstatus_reg_t hri_oscctrl_read_DPLLSTATUS_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DPLLSTATUS.reg;
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_ENABLE) >> OSCCTRL_XOSCCTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_ENABLE;
+	tmp |= value << OSCCTRL_XOSCCTRL_ENABLE_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_XTALEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_XTALEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_XTALEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_XTALEN) >> OSCCTRL_XOSCCTRL_XTALEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_XTALEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_XTALEN;
+	tmp |= value << OSCCTRL_XOSCCTRL_XTALEN_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_XTALEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_XTALEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_XTALEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_XTALEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_CFDEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_CFDEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_CFDEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_CFDEN) >> OSCCTRL_XOSCCTRL_CFDEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_CFDEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_CFDEN;
+	tmp |= value << OSCCTRL_XOSCCTRL_CFDEN_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_CFDEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_CFDEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_CFDEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_CFDEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_SWBEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_SWBEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_SWBEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_SWBEN) >> OSCCTRL_XOSCCTRL_SWBEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_SWBEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_SWBEN;
+	tmp |= value << OSCCTRL_XOSCCTRL_SWBEN_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_SWBEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_SWBEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_SWBEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_SWBEN;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_RUNSTDBY) >> OSCCTRL_XOSCCTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_RUNSTDBY;
+	tmp |= value << OSCCTRL_XOSCCTRL_RUNSTDBY_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_ONDEMAND_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_ONDEMAND) >> OSCCTRL_XOSCCTRL_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_ONDEMAND;
+	tmp |= value << OSCCTRL_XOSCCTRL_ONDEMAND_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_AMPGC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_AMPGC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_XOSCCTRL_AMPGC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_AMPGC) >> OSCCTRL_XOSCCTRL_AMPGC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_AMPGC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_AMPGC;
+	tmp |= value << OSCCTRL_XOSCCTRL_AMPGC_Pos;
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_AMPGC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_AMPGC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_AMPGC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_AMPGC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_GAIN_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_GAIN(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_get_XOSCCTRL_GAIN_bf(const void *const          hw,
+                                                                          hri_oscctrl_xoscctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_GAIN(mask)) >> OSCCTRL_XOSCCTRL_GAIN_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_GAIN_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t data)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_GAIN_Msk;
+	tmp |= OSCCTRL_XOSCCTRL_GAIN(data);
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_GAIN_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_GAIN(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_GAIN_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_GAIN(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_read_XOSCCTRL_GAIN_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_GAIN_Msk) >> OSCCTRL_XOSCCTRL_GAIN_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_STARTUP_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= OSCCTRL_XOSCCTRL_STARTUP(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_get_XOSCCTRL_STARTUP_bf(const void *const          hw,
+                                                                             hri_oscctrl_xoscctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_STARTUP(mask)) >> OSCCTRL_XOSCCTRL_STARTUP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_STARTUP_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t data)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= ~OSCCTRL_XOSCCTRL_STARTUP_Msk;
+	tmp |= OSCCTRL_XOSCCTRL_STARTUP(data);
+	((Oscctrl *)hw)->XOSCCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_STARTUP_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~OSCCTRL_XOSCCTRL_STARTUP(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_STARTUP_bf(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= OSCCTRL_XOSCCTRL_STARTUP(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_read_XOSCCTRL_STARTUP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp = (tmp & OSCCTRL_XOSCCTRL_STARTUP_Msk) >> OSCCTRL_XOSCCTRL_STARTUP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_XOSCCTRL_reg(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_get_XOSCCTRL_reg(const void *const          hw,
+                                                                      hri_oscctrl_xoscctrl_reg_t mask)
+{
+	uint16_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->XOSCCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_XOSCCTRL_reg(const void *const hw, hri_oscctrl_xoscctrl_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_XOSCCTRL_reg(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_XOSCCTRL_reg(const void *const hw, hri_oscctrl_xoscctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->XOSCCTRL.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_xoscctrl_reg_t hri_oscctrl_read_XOSCCTRL_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	return ((Oscctrl *)hw)->XOSCCTRL.reg;
+}
+
+static inline void hri_oscctrl_set_CFDPRESC_CFDPRESC_bf(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg |= OSCCTRL_CFDPRESC_CFDPRESC(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_cfdpresc_reg_t hri_oscctrl_get_CFDPRESC_CFDPRESC_bf(const void *const          hw,
+                                                                              hri_oscctrl_cfdpresc_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->CFDPRESC.reg;
+	tmp = (tmp & OSCCTRL_CFDPRESC_CFDPRESC(mask)) >> OSCCTRL_CFDPRESC_CFDPRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_CFDPRESC_CFDPRESC_bf(const void *const hw, hri_oscctrl_cfdpresc_reg_t data)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->CFDPRESC.reg;
+	tmp &= ~OSCCTRL_CFDPRESC_CFDPRESC_Msk;
+	tmp |= OSCCTRL_CFDPRESC_CFDPRESC(data);
+	((Oscctrl *)hw)->CFDPRESC.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_CFDPRESC_CFDPRESC_bf(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg &= ~OSCCTRL_CFDPRESC_CFDPRESC(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_CFDPRESC_CFDPRESC_bf(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg ^= OSCCTRL_CFDPRESC_CFDPRESC(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_cfdpresc_reg_t hri_oscctrl_read_CFDPRESC_CFDPRESC_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->CFDPRESC.reg;
+	tmp = (tmp & OSCCTRL_CFDPRESC_CFDPRESC_Msk) >> OSCCTRL_CFDPRESC_CFDPRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_CFDPRESC_reg(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_cfdpresc_reg_t hri_oscctrl_get_CFDPRESC_reg(const void *const          hw,
+                                                                      hri_oscctrl_cfdpresc_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->CFDPRESC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_CFDPRESC_reg(const void *const hw, hri_oscctrl_cfdpresc_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_CFDPRESC_reg(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_CFDPRESC_reg(const void *const hw, hri_oscctrl_cfdpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->CFDPRESC.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_cfdpresc_reg_t hri_oscctrl_read_CFDPRESC_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->CFDPRESC.reg;
+}
+
+static inline void hri_oscctrl_set_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg |= OSCCTRL_EVCTRL_CFDEO;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->EVCTRL.reg;
+	tmp = (tmp & OSCCTRL_EVCTRL_CFDEO) >> OSCCTRL_EVCTRL_CFDEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_EVCTRL_CFDEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->EVCTRL.reg;
+	tmp &= ~OSCCTRL_EVCTRL_CFDEO;
+	tmp |= value << OSCCTRL_EVCTRL_CFDEO_Pos;
+	((Oscctrl *)hw)->EVCTRL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg &= ~OSCCTRL_EVCTRL_CFDEO;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_EVCTRL_CFDEO_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg ^= OSCCTRL_EVCTRL_CFDEO;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_EVCTRL_reg(const void *const hw, hri_oscctrl_evctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_evctrl_reg_t hri_oscctrl_get_EVCTRL_reg(const void *const hw, hri_oscctrl_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_EVCTRL_reg(const void *const hw, hri_oscctrl_evctrl_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_EVCTRL_reg(const void *const hw, hri_oscctrl_evctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_EVCTRL_reg(const void *const hw, hri_oscctrl_evctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->EVCTRL.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_evctrl_reg_t hri_oscctrl_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_oscctrl_set_OSC16MCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg |= OSCCTRL_OSC16MCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_OSC16MCTRL_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp = (tmp & OSCCTRL_OSC16MCTRL_ENABLE) >> OSCCTRL_OSC16MCTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_OSC16MCTRL_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp &= ~OSCCTRL_OSC16MCTRL_ENABLE;
+	tmp |= value << OSCCTRL_OSC16MCTRL_ENABLE_Pos;
+	((Oscctrl *)hw)->OSC16MCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_OSC16MCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg &= ~OSCCTRL_OSC16MCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_OSC16MCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg ^= OSCCTRL_OSC16MCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_OSC16MCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg |= OSCCTRL_OSC16MCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_OSC16MCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp = (tmp & OSCCTRL_OSC16MCTRL_RUNSTDBY) >> OSCCTRL_OSC16MCTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_OSC16MCTRL_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp &= ~OSCCTRL_OSC16MCTRL_RUNSTDBY;
+	tmp |= value << OSCCTRL_OSC16MCTRL_RUNSTDBY_Pos;
+	((Oscctrl *)hw)->OSC16MCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_OSC16MCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg &= ~OSCCTRL_OSC16MCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_OSC16MCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg ^= OSCCTRL_OSC16MCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_OSC16MCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg |= OSCCTRL_OSC16MCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_OSC16MCTRL_ONDEMAND_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp = (tmp & OSCCTRL_OSC16MCTRL_ONDEMAND) >> OSCCTRL_OSC16MCTRL_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_OSC16MCTRL_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp &= ~OSCCTRL_OSC16MCTRL_ONDEMAND;
+	tmp |= value << OSCCTRL_OSC16MCTRL_ONDEMAND_Pos;
+	((Oscctrl *)hw)->OSC16MCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_OSC16MCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg &= ~OSCCTRL_OSC16MCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_OSC16MCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg ^= OSCCTRL_OSC16MCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_OSC16MCTRL_FSEL_bf(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg |= OSCCTRL_OSC16MCTRL_FSEL(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_osc16mctrl_reg_t hri_oscctrl_get_OSC16MCTRL_FSEL_bf(const void *const            hw,
+                                                                              hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp = (tmp & OSCCTRL_OSC16MCTRL_FSEL(mask)) >> OSCCTRL_OSC16MCTRL_FSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_OSC16MCTRL_FSEL_bf(const void *const hw, hri_oscctrl_osc16mctrl_reg_t data)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp &= ~OSCCTRL_OSC16MCTRL_FSEL_Msk;
+	tmp |= OSCCTRL_OSC16MCTRL_FSEL(data);
+	((Oscctrl *)hw)->OSC16MCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_OSC16MCTRL_FSEL_bf(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg &= ~OSCCTRL_OSC16MCTRL_FSEL(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_OSC16MCTRL_FSEL_bf(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg ^= OSCCTRL_OSC16MCTRL_FSEL(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_osc16mctrl_reg_t hri_oscctrl_read_OSC16MCTRL_FSEL_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp = (tmp & OSCCTRL_OSC16MCTRL_FSEL_Msk) >> OSCCTRL_OSC16MCTRL_FSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_OSC16MCTRL_reg(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_osc16mctrl_reg_t hri_oscctrl_get_OSC16MCTRL_reg(const void *const            hw,
+                                                                          hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	uint8_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->OSC16MCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_OSC16MCTRL_reg(const void *const hw, hri_oscctrl_osc16mctrl_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_OSC16MCTRL_reg(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_OSC16MCTRL_reg(const void *const hw, hri_oscctrl_osc16mctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->OSC16MCTRL.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_osc16mctrl_reg_t hri_oscctrl_read_OSC16MCTRL_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	return ((Oscctrl *)hw)->OSC16MCTRL.reg;
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_ENABLE) >> OSCCTRL_DFLLCTRL_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_ENABLE;
+	tmp |= value << OSCCTRL_DFLLCTRL_ENABLE_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_MODE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_MODE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_MODE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_MODE) >> OSCCTRL_DFLLCTRL_MODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_MODE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_MODE;
+	tmp |= value << OSCCTRL_DFLLCTRL_MODE_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_MODE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_MODE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_MODE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_MODE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_STABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_STABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_STABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_STABLE) >> OSCCTRL_DFLLCTRL_STABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_STABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_STABLE;
+	tmp |= value << OSCCTRL_DFLLCTRL_STABLE_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_STABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_STABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_STABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_STABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_LLAW_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_LLAW;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_LLAW_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_LLAW) >> OSCCTRL_DFLLCTRL_LLAW_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_LLAW_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_LLAW;
+	tmp |= value << OSCCTRL_DFLLCTRL_LLAW_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_LLAW_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_LLAW;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_LLAW_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_LLAW;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_USBCRM_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_USBCRM;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_USBCRM_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_USBCRM) >> OSCCTRL_DFLLCTRL_USBCRM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_USBCRM_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_USBCRM;
+	tmp |= value << OSCCTRL_DFLLCTRL_USBCRM_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_USBCRM_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_USBCRM;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_USBCRM_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_USBCRM;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_RUNSTDBY) >> OSCCTRL_DFLLCTRL_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_RUNSTDBY;
+	tmp |= value << OSCCTRL_DFLLCTRL_RUNSTDBY_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_ONDEMAND_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_ONDEMAND) >> OSCCTRL_DFLLCTRL_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_ONDEMAND;
+	tmp |= value << OSCCTRL_DFLLCTRL_ONDEMAND_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_CCDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_CCDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_CCDIS_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_CCDIS) >> OSCCTRL_DFLLCTRL_CCDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_CCDIS_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_CCDIS;
+	tmp |= value << OSCCTRL_DFLLCTRL_CCDIS_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_CCDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_CCDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_CCDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_CCDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_QLDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_QLDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_QLDIS_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_QLDIS) >> OSCCTRL_DFLLCTRL_QLDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_QLDIS_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_QLDIS;
+	tmp |= value << OSCCTRL_DFLLCTRL_QLDIS_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_QLDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_QLDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_QLDIS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_QLDIS;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_BPLCKC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_BPLCKC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_BPLCKC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_BPLCKC) >> OSCCTRL_DFLLCTRL_BPLCKC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_BPLCKC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_BPLCKC;
+	tmp |= value << OSCCTRL_DFLLCTRL_BPLCKC_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_BPLCKC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_BPLCKC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_BPLCKC_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_BPLCKC;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_WAITLOCK_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= OSCCTRL_DFLLCTRL_WAITLOCK;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLCTRL_WAITLOCK_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp = (tmp & OSCCTRL_DFLLCTRL_WAITLOCK) >> OSCCTRL_DFLLCTRL_WAITLOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_WAITLOCK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= ~OSCCTRL_DFLLCTRL_WAITLOCK;
+	tmp |= value << OSCCTRL_DFLLCTRL_WAITLOCK_Pos;
+	((Oscctrl *)hw)->DFLLCTRL.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_WAITLOCK_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~OSCCTRL_DFLLCTRL_WAITLOCK;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_WAITLOCK_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= OSCCTRL_DFLLCTRL_WAITLOCK;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLCTRL_reg(const void *const hw, hri_oscctrl_dfllctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllctrl_reg_t hri_oscctrl_get_DFLLCTRL_reg(const void *const          hw,
+                                                                      hri_oscctrl_dfllctrl_reg_t mask)
+{
+	uint16_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->DFLLCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLCTRL_reg(const void *const hw, hri_oscctrl_dfllctrl_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLCTRL_reg(const void *const hw, hri_oscctrl_dfllctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLCTRL_reg(const void *const hw, hri_oscctrl_dfllctrl_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLCTRL.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllctrl_reg_t hri_oscctrl_read_DFLLCTRL_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	return ((Oscctrl *)hw)->DFLLCTRL.reg;
+}
+
+static inline void hri_oscctrl_set_DFLLVAL_FINE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg |= OSCCTRL_DFLLVAL_FINE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_get_DFLLVAL_FINE_bf(const void *const         hw,
+                                                                        hri_oscctrl_dfllval_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_FINE(mask)) >> OSCCTRL_DFLLVAL_FINE_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLVAL_FINE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp &= ~OSCCTRL_DFLLVAL_FINE_Msk;
+	tmp |= OSCCTRL_DFLLVAL_FINE(data);
+	((Oscctrl *)hw)->DFLLVAL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLVAL_FINE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg &= ~OSCCTRL_DFLLVAL_FINE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLVAL_FINE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg ^= OSCCTRL_DFLLVAL_FINE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_read_DFLLVAL_FINE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_FINE_Msk) >> OSCCTRL_DFLLVAL_FINE_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLVAL_COARSE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg |= OSCCTRL_DFLLVAL_COARSE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_get_DFLLVAL_COARSE_bf(const void *const         hw,
+                                                                          hri_oscctrl_dfllval_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_COARSE(mask)) >> OSCCTRL_DFLLVAL_COARSE_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLVAL_COARSE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp &= ~OSCCTRL_DFLLVAL_COARSE_Msk;
+	tmp |= OSCCTRL_DFLLVAL_COARSE(data);
+	((Oscctrl *)hw)->DFLLVAL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLVAL_COARSE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg &= ~OSCCTRL_DFLLVAL_COARSE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLVAL_COARSE_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg ^= OSCCTRL_DFLLVAL_COARSE(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_read_DFLLVAL_COARSE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_COARSE_Msk) >> OSCCTRL_DFLLVAL_COARSE_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLVAL_DIFF_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg |= OSCCTRL_DFLLVAL_DIFF(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_get_DFLLVAL_DIFF_bf(const void *const         hw,
+                                                                        hri_oscctrl_dfllval_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_DIFF(mask)) >> OSCCTRL_DFLLVAL_DIFF_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLVAL_DIFF_bf(const void *const hw, hri_oscctrl_dfllval_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp &= ~OSCCTRL_DFLLVAL_DIFF_Msk;
+	tmp |= OSCCTRL_DFLLVAL_DIFF(data);
+	((Oscctrl *)hw)->DFLLVAL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLVAL_DIFF_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg &= ~OSCCTRL_DFLLVAL_DIFF(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLVAL_DIFF_bf(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg ^= OSCCTRL_DFLLVAL_DIFF(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_read_DFLLVAL_DIFF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp = (tmp & OSCCTRL_DFLLVAL_DIFF_Msk) >> OSCCTRL_DFLLVAL_DIFF_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLVAL_reg(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_get_DFLLVAL_reg(const void *const         hw,
+                                                                    hri_oscctrl_dfllval_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLVAL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLVAL_reg(const void *const hw, hri_oscctrl_dfllval_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLVAL_reg(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLVAL_reg(const void *const hw, hri_oscctrl_dfllval_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLVAL.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllval_reg_t hri_oscctrl_read_DFLLVAL_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DFLLVAL.reg;
+}
+
+static inline void hri_oscctrl_set_DFLLMUL_MUL_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg |= OSCCTRL_DFLLMUL_MUL(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_get_DFLLMUL_MUL_bf(const void *const         hw,
+                                                                       hri_oscctrl_dfllmul_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_MUL(mask)) >> OSCCTRL_DFLLMUL_MUL_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLMUL_MUL_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp &= ~OSCCTRL_DFLLMUL_MUL_Msk;
+	tmp |= OSCCTRL_DFLLMUL_MUL(data);
+	((Oscctrl *)hw)->DFLLMUL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLMUL_MUL_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg &= ~OSCCTRL_DFLLMUL_MUL(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLMUL_MUL_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg ^= OSCCTRL_DFLLMUL_MUL(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_read_DFLLMUL_MUL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_MUL_Msk) >> OSCCTRL_DFLLMUL_MUL_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLMUL_FSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg |= OSCCTRL_DFLLMUL_FSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_get_DFLLMUL_FSTEP_bf(const void *const         hw,
+                                                                         hri_oscctrl_dfllmul_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_FSTEP(mask)) >> OSCCTRL_DFLLMUL_FSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLMUL_FSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp &= ~OSCCTRL_DFLLMUL_FSTEP_Msk;
+	tmp |= OSCCTRL_DFLLMUL_FSTEP(data);
+	((Oscctrl *)hw)->DFLLMUL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLMUL_FSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg &= ~OSCCTRL_DFLLMUL_FSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLMUL_FSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg ^= OSCCTRL_DFLLMUL_FSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_read_DFLLMUL_FSTEP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_FSTEP_Msk) >> OSCCTRL_DFLLMUL_FSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLMUL_CSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg |= OSCCTRL_DFLLMUL_CSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_get_DFLLMUL_CSTEP_bf(const void *const         hw,
+                                                                         hri_oscctrl_dfllmul_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_CSTEP(mask)) >> OSCCTRL_DFLLMUL_CSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLMUL_CSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp &= ~OSCCTRL_DFLLMUL_CSTEP_Msk;
+	tmp |= OSCCTRL_DFLLMUL_CSTEP(data);
+	((Oscctrl *)hw)->DFLLMUL.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLMUL_CSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg &= ~OSCCTRL_DFLLMUL_CSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLMUL_CSTEP_bf(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg ^= OSCCTRL_DFLLMUL_CSTEP(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_read_DFLLMUL_CSTEP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp = (tmp & OSCCTRL_DFLLMUL_CSTEP_Msk) >> OSCCTRL_DFLLMUL_CSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DFLLMUL_reg(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_get_DFLLMUL_reg(const void *const         hw,
+                                                                    hri_oscctrl_dfllmul_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLMUL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLMUL_reg(const void *const hw, hri_oscctrl_dfllmul_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLMUL_reg(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLMUL_reg(const void *const hw, hri_oscctrl_dfllmul_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLMUL.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllmul_reg_t hri_oscctrl_read_DFLLMUL_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DFLLMUL.reg;
+}
+
+static inline void hri_oscctrl_set_DFLLSYNC_READREQ_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg |= OSCCTRL_DFLLSYNC_READREQ;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DFLLSYNC_READREQ_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLSYNC.reg;
+	tmp = (tmp & OSCCTRL_DFLLSYNC_READREQ) >> OSCCTRL_DFLLSYNC_READREQ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLSYNC_READREQ_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DFLLSYNC.reg;
+	tmp &= ~OSCCTRL_DFLLSYNC_READREQ;
+	tmp |= value << OSCCTRL_DFLLSYNC_READREQ_Pos;
+	((Oscctrl *)hw)->DFLLSYNC.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLSYNC_READREQ_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg &= ~OSCCTRL_DFLLSYNC_READREQ;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLSYNC_READREQ_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg ^= OSCCTRL_DFLLSYNC_READREQ;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DFLLSYNC_reg(const void *const hw, hri_oscctrl_dfllsync_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllsync_reg_t hri_oscctrl_get_DFLLSYNC_reg(const void *const          hw,
+                                                                      hri_oscctrl_dfllsync_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DFLLSYNC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DFLLSYNC_reg(const void *const hw, hri_oscctrl_dfllsync_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DFLLSYNC_reg(const void *const hw, hri_oscctrl_dfllsync_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DFLLSYNC_reg(const void *const hw, hri_oscctrl_dfllsync_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DFLLSYNC.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dfllsync_reg_t hri_oscctrl_read_DFLLSYNC_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DFLLSYNC.reg;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLA_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg |= OSCCTRL_DPLLCTRLA_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLA_ENABLE) >> OSCCTRL_DPLLCTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLA_ENABLE;
+	tmp |= value << OSCCTRL_DPLLCTRLA_ENABLE_Pos;
+	((Oscctrl *)hw)->DPLLCTRLA.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLA_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg &= ~OSCCTRL_DPLLCTRLA_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLA_ENABLE_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg ^= OSCCTRL_DPLLCTRLA_ENABLE;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg |= OSCCTRL_DPLLCTRLA_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLA_RUNSTDBY) >> OSCCTRL_DPLLCTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLA_RUNSTDBY;
+	tmp |= value << OSCCTRL_DPLLCTRLA_RUNSTDBY_Pos;
+	((Oscctrl *)hw)->DPLLCTRLA.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg &= ~OSCCTRL_DPLLCTRLA_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg ^= OSCCTRL_DPLLCTRLA_RUNSTDBY;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLA_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg |= OSCCTRL_DPLLCTRLA_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLA_ONDEMAND_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLA_ONDEMAND) >> OSCCTRL_DPLLCTRLA_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLA_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLA_ONDEMAND;
+	tmp |= value << OSCCTRL_DPLLCTRLA_ONDEMAND_Pos;
+	((Oscctrl *)hw)->DPLLCTRLA.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLA_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg &= ~OSCCTRL_DPLLCTRLA_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLA_ONDEMAND_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg ^= OSCCTRL_DPLLCTRLA_ONDEMAND;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLA_reg(const void *const hw, hri_oscctrl_dpllctrla_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrla_reg_t hri_oscctrl_get_DPLLCTRLA_reg(const void *const           hw,
+                                                                        hri_oscctrl_dpllctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	tmp = ((Oscctrl *)hw)->DPLLCTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLA_reg(const void *const hw, hri_oscctrl_dpllctrla_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLA_reg(const void *const hw, hri_oscctrl_dpllctrla_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLA_reg(const void *const hw, hri_oscctrl_dpllctrla_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLA.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrla_reg_t hri_oscctrl_read_DPLLCTRLA_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_ENABLE);
+	return ((Oscctrl *)hw)->DPLLCTRLA.reg;
+}
+
+static inline void hri_oscctrl_set_DPLLRATIO_LDR_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg |= OSCCTRL_DPLLRATIO_LDR(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_get_DPLLRATIO_LDR_bf(const void *const           hw,
+                                                                           hri_oscctrl_dpllratio_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp = (tmp & OSCCTRL_DPLLRATIO_LDR(mask)) >> OSCCTRL_DPLLRATIO_LDR_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLRATIO_LDR_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp &= ~OSCCTRL_DPLLRATIO_LDR_Msk;
+	tmp |= OSCCTRL_DPLLRATIO_LDR(data);
+	((Oscctrl *)hw)->DPLLRATIO.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLRATIO_LDR_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg &= ~OSCCTRL_DPLLRATIO_LDR(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLRATIO_LDR_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg ^= OSCCTRL_DPLLRATIO_LDR(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_read_DPLLRATIO_LDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp = (tmp & OSCCTRL_DPLLRATIO_LDR_Msk) >> OSCCTRL_DPLLRATIO_LDR_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLRATIO_LDRFRAC_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg |= OSCCTRL_DPLLRATIO_LDRFRAC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_get_DPLLRATIO_LDRFRAC_bf(const void *const           hw,
+                                                                               hri_oscctrl_dpllratio_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp = (tmp & OSCCTRL_DPLLRATIO_LDRFRAC(mask)) >> OSCCTRL_DPLLRATIO_LDRFRAC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLRATIO_LDRFRAC_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp &= ~OSCCTRL_DPLLRATIO_LDRFRAC_Msk;
+	tmp |= OSCCTRL_DPLLRATIO_LDRFRAC(data);
+	((Oscctrl *)hw)->DPLLRATIO.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLRATIO_LDRFRAC_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg &= ~OSCCTRL_DPLLRATIO_LDRFRAC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLRATIO_LDRFRAC_bf(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg ^= OSCCTRL_DPLLRATIO_LDRFRAC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_read_DPLLRATIO_LDRFRAC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp = (tmp & OSCCTRL_DPLLRATIO_LDRFRAC_Msk) >> OSCCTRL_DPLLRATIO_LDRFRAC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLRATIO_reg(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_get_DPLLRATIO_reg(const void *const           hw,
+                                                                        hri_oscctrl_dpllratio_reg_t mask)
+{
+	uint32_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	tmp = ((Oscctrl *)hw)->DPLLRATIO.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLRATIO_reg(const void *const hw, hri_oscctrl_dpllratio_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLRATIO_reg(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLRATIO_reg(const void *const hw, hri_oscctrl_dpllratio_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLRATIO.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllratio_reg_t hri_oscctrl_read_DPLLRATIO_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	return ((Oscctrl *)hw)->DPLLRATIO.reg;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_LPEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_LPEN;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLB_LPEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_LPEN) >> OSCCTRL_DPLLCTRLB_LPEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_LPEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_LPEN;
+	tmp |= value << OSCCTRL_DPLLCTRLB_LPEN_Pos;
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_LPEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_LPEN;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_LPEN_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_LPEN;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_WUF_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_WUF;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLB_WUF_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_WUF) >> OSCCTRL_DPLLCTRLB_WUF_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_WUF_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_WUF;
+	tmp |= value << OSCCTRL_DPLLCTRLB_WUF_Pos;
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_WUF_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_WUF;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_WUF_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_WUF;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_LBYPASS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_LBYPASS;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_oscctrl_get_DPLLCTRLB_LBYPASS_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_LBYPASS) >> OSCCTRL_DPLLCTRLB_LBYPASS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_LBYPASS_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_LBYPASS;
+	tmp |= value << OSCCTRL_DPLLCTRLB_LBYPASS_Pos;
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_LBYPASS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_LBYPASS;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_LBYPASS_bit(const void *const hw)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_LBYPASS;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_FILTER_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_FILTER(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_get_DPLLCTRLB_FILTER_bf(const void *const           hw,
+                                                                              hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_FILTER(mask)) >> OSCCTRL_DPLLCTRLB_FILTER_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_FILTER_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_FILTER_Msk;
+	tmp |= OSCCTRL_DPLLCTRLB_FILTER(data);
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_FILTER_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_FILTER(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_FILTER_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_FILTER(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_read_DPLLCTRLB_FILTER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_FILTER_Msk) >> OSCCTRL_DPLLCTRLB_FILTER_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_REFCLK_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_REFCLK(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_get_DPLLCTRLB_REFCLK_bf(const void *const           hw,
+                                                                              hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_REFCLK(mask)) >> OSCCTRL_DPLLCTRLB_REFCLK_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_REFCLK_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_REFCLK_Msk;
+	tmp |= OSCCTRL_DPLLCTRLB_REFCLK(data);
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_REFCLK_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_REFCLK(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_REFCLK_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_REFCLK(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_read_DPLLCTRLB_REFCLK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_REFCLK_Msk) >> OSCCTRL_DPLLCTRLB_REFCLK_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_LTIME_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_LTIME(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_get_DPLLCTRLB_LTIME_bf(const void *const           hw,
+                                                                             hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_LTIME(mask)) >> OSCCTRL_DPLLCTRLB_LTIME_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_LTIME_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_LTIME_Msk;
+	tmp |= OSCCTRL_DPLLCTRLB_LTIME(data);
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_LTIME_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_LTIME(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_LTIME_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_LTIME(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_read_DPLLCTRLB_LTIME_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_LTIME_Msk) >> OSCCTRL_DPLLCTRLB_LTIME_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_DIV_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= OSCCTRL_DPLLCTRLB_DIV(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_get_DPLLCTRLB_DIV_bf(const void *const           hw,
+                                                                           hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_DIV(mask)) >> OSCCTRL_DPLLCTRLB_DIV_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_DIV_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t data)
+{
+	uint32_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= ~OSCCTRL_DPLLCTRLB_DIV_Msk;
+	tmp |= OSCCTRL_DPLLCTRLB_DIV(data);
+	((Oscctrl *)hw)->DPLLCTRLB.reg = tmp;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_DIV_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~OSCCTRL_DPLLCTRLB_DIV(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_DIV_bf(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= OSCCTRL_DPLLCTRLB_DIV(mask);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_read_DPLLCTRLB_DIV_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp = (tmp & OSCCTRL_DPLLCTRLB_DIV_Msk) >> OSCCTRL_DPLLCTRLB_DIV_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLCTRLB_reg(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg |= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_get_DPLLCTRLB_reg(const void *const           hw,
+                                                                        hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLCTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLCTRLB_reg(const void *const hw, hri_oscctrl_dpllctrlb_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg = data;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLCTRLB_reg(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg &= ~mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLCTRLB_reg(const void *const hw, hri_oscctrl_dpllctrlb_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLCTRLB.reg ^= mask;
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllctrlb_reg_t hri_oscctrl_read_DPLLCTRLB_reg(const void *const hw)
+{
+	return ((Oscctrl *)hw)->DPLLCTRLB.reg;
+}
+
+static inline void hri_oscctrl_set_DPLLPRESC_PRESC_bf(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg |= OSCCTRL_DPLLPRESC_PRESC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllpresc_reg_t hri_oscctrl_get_DPLLPRESC_PRESC_bf(const void *const           hw,
+                                                                             hri_oscctrl_dpllpresc_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLPRESC.reg;
+	tmp = (tmp & OSCCTRL_DPLLPRESC_PRESC(mask)) >> OSCCTRL_DPLLPRESC_PRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLPRESC_PRESC_bf(const void *const hw, hri_oscctrl_dpllpresc_reg_t data)
+{
+	uint8_t tmp;
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	tmp = ((Oscctrl *)hw)->DPLLPRESC.reg;
+	tmp &= ~OSCCTRL_DPLLPRESC_PRESC_Msk;
+	tmp |= OSCCTRL_DPLLPRESC_PRESC(data);
+	((Oscctrl *)hw)->DPLLPRESC.reg = tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLPRESC_PRESC_bf(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg &= ~OSCCTRL_DPLLPRESC_PRESC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLPRESC_PRESC_bf(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg ^= OSCCTRL_DPLLPRESC_PRESC(mask);
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllpresc_reg_t hri_oscctrl_read_DPLLPRESC_PRESC_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Oscctrl *)hw)->DPLLPRESC.reg;
+	tmp = (tmp & OSCCTRL_DPLLPRESC_PRESC_Msk) >> OSCCTRL_DPLLPRESC_PRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_oscctrl_set_DPLLPRESC_reg(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg |= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllpresc_reg_t hri_oscctrl_get_DPLLPRESC_reg(const void *const           hw,
+                                                                        hri_oscctrl_dpllpresc_reg_t mask)
+{
+	uint8_t tmp;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	tmp = ((Oscctrl *)hw)->DPLLPRESC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_oscctrl_write_DPLLPRESC_reg(const void *const hw, hri_oscctrl_dpllpresc_reg_t data)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg = data;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_clear_DPLLPRESC_reg(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg &= ~mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_oscctrl_toggle_DPLLPRESC_reg(const void *const hw, hri_oscctrl_dpllpresc_reg_t mask)
+{
+	OSCCTRL_CRITICAL_SECTION_ENTER();
+	((Oscctrl *)hw)->DPLLPRESC.reg ^= mask;
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	OSCCTRL_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_oscctrl_dpllpresc_reg_t hri_oscctrl_read_DPLLPRESC_reg(const void *const hw)
+{
+	hri_oscctrl_wait_for_sync(hw, OSCCTRL_DPLLSYNCBUSY_MASK);
+	return ((Oscctrl *)hw)->DPLLPRESC.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_OSCCTRL_L22_H_INCLUDED */
+#endif /* _SAML22_OSCCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_pac_l22.h b/watch-library/hardware/hri/hri_pac_l22.h
new file mode 100644
index 00000000..488c7079
--- /dev/null
+++ b/watch-library/hardware/hri/hri_pac_l22.h
@@ -0,0 +1,1076 @@
+/**
+ * \file
+ *
+ * \brief SAM PAC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_PAC_COMPONENT_
+#ifndef _HRI_PAC_L22_H_INCLUDED_
+#define _HRI_PAC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_PAC_CRITICAL_SECTIONS)
+#define PAC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define PAC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define PAC_CRITICAL_SECTION_ENTER()
+#define PAC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_pac_intflaga_reg_t;
+typedef uint32_t hri_pac_intflagahb_reg_t;
+typedef uint32_t hri_pac_intflagb_reg_t;
+typedef uint32_t hri_pac_intflagc_reg_t;
+typedef uint32_t hri_pac_statusa_reg_t;
+typedef uint32_t hri_pac_statusb_reg_t;
+typedef uint32_t hri_pac_statusc_reg_t;
+typedef uint32_t hri_pac_wrctrl_reg_t;
+typedef uint8_t  hri_pac_evctrl_reg_t;
+typedef uint8_t  hri_pac_intenset_reg_t;
+
+static inline bool hri_pac_get_INTFLAGAHB_FLASH_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_FLASH) >> PAC_INTFLAGAHB_FLASH_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_FLASH_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_FLASH;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HSRAMCM0P_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HSRAMCM0P) >> PAC_INTFLAGAHB_HSRAMCM0P_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HSRAMCM0P_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HSRAMCM0P;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HSRAMDSU_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HSRAMDSU) >> PAC_INTFLAGAHB_HSRAMDSU_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HSRAMDSU_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HSRAMDSU;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HPB1_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HPB1) >> PAC_INTFLAGAHB_HPB1_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HPB1_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HPB1;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HPB0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HPB0) >> PAC_INTFLAGAHB_HPB0_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HPB0_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HPB0;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HPB2_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HPB2) >> PAC_INTFLAGAHB_HPB2_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HPB2_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HPB2;
+}
+
+static inline bool hri_pac_get_INTFLAGAHB_HSRAMDMAC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGAHB.reg & PAC_INTFLAGAHB_HSRAMDMAC) >> PAC_INTFLAGAHB_HSRAMDMAC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_HSRAMDMAC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = PAC_INTFLAGAHB_HSRAMDMAC;
+}
+
+static inline hri_pac_intflagahb_reg_t hri_pac_get_INTFLAGAHB_reg(const void *const hw, hri_pac_intflagahb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->INTFLAGAHB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_intflagahb_reg_t hri_pac_read_INTFLAGAHB_reg(const void *const hw)
+{
+	return ((Pac *)hw)->INTFLAGAHB.reg;
+}
+
+static inline void hri_pac_clear_INTFLAGAHB_reg(const void *const hw, hri_pac_intflagahb_reg_t mask)
+{
+	((Pac *)hw)->INTFLAGAHB.reg = mask;
+}
+
+static inline bool hri_pac_get_INTFLAGA_PAC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_PAC) >> PAC_INTFLAGA_PAC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_PAC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_PAC;
+}
+
+static inline bool hri_pac_get_INTFLAGA_PM_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_PM) >> PAC_INTFLAGA_PM_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_PM_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_PM;
+}
+
+static inline bool hri_pac_get_INTFLAGA_MCLK_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_MCLK) >> PAC_INTFLAGA_MCLK_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_MCLK_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_MCLK;
+}
+
+static inline bool hri_pac_get_INTFLAGA_RSTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_RSTC) >> PAC_INTFLAGA_RSTC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_RSTC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_RSTC;
+}
+
+static inline bool hri_pac_get_INTFLAGA_OSCCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_OSCCTRL) >> PAC_INTFLAGA_OSCCTRL_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_OSCCTRL_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_OSCCTRL;
+}
+
+static inline bool hri_pac_get_INTFLAGA_OSC32KCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_OSC32KCTRL) >> PAC_INTFLAGA_OSC32KCTRL_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_OSC32KCTRL_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_OSC32KCTRL;
+}
+
+static inline bool hri_pac_get_INTFLAGA_SUPC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_SUPC) >> PAC_INTFLAGA_SUPC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_SUPC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_SUPC;
+}
+
+static inline bool hri_pac_get_INTFLAGA_GCLK_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_GCLK) >> PAC_INTFLAGA_GCLK_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_GCLK_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_GCLK;
+}
+
+static inline bool hri_pac_get_INTFLAGA_WDT_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_WDT) >> PAC_INTFLAGA_WDT_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_WDT_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_WDT;
+}
+
+static inline bool hri_pac_get_INTFLAGA_RTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_RTC) >> PAC_INTFLAGA_RTC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_RTC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_RTC;
+}
+
+static inline bool hri_pac_get_INTFLAGA_EIC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_EIC) >> PAC_INTFLAGA_EIC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_EIC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_EIC;
+}
+
+static inline bool hri_pac_get_INTFLAGA_FREQM_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGA.reg & PAC_INTFLAGA_FREQM) >> PAC_INTFLAGA_FREQM_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGA_FREQM_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGA.reg = PAC_INTFLAGA_FREQM;
+}
+
+static inline hri_pac_intflaga_reg_t hri_pac_get_INTFLAGA_reg(const void *const hw, hri_pac_intflaga_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->INTFLAGA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_intflaga_reg_t hri_pac_read_INTFLAGA_reg(const void *const hw)
+{
+	return ((Pac *)hw)->INTFLAGA.reg;
+}
+
+static inline void hri_pac_clear_INTFLAGA_reg(const void *const hw, hri_pac_intflaga_reg_t mask)
+{
+	((Pac *)hw)->INTFLAGA.reg = mask;
+}
+
+static inline bool hri_pac_get_INTFLAGB_USB_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_USB) >> PAC_INTFLAGB_USB_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_USB_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_USB;
+}
+
+static inline bool hri_pac_get_INTFLAGB_DSU_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_DSU) >> PAC_INTFLAGB_DSU_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_DSU_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_DSU;
+}
+
+static inline bool hri_pac_get_INTFLAGB_NVMCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_NVMCTRL) >> PAC_INTFLAGB_NVMCTRL_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_NVMCTRL_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_NVMCTRL;
+}
+
+static inline bool hri_pac_get_INTFLAGB_PORT_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_PORT) >> PAC_INTFLAGB_PORT_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_PORT_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_PORT;
+}
+
+static inline bool hri_pac_get_INTFLAGB_DMAC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_DMAC) >> PAC_INTFLAGB_DMAC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_DMAC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_DMAC;
+}
+
+static inline bool hri_pac_get_INTFLAGB_MTB_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGB.reg & PAC_INTFLAGB_MTB) >> PAC_INTFLAGB_MTB_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGB_MTB_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGB.reg = PAC_INTFLAGB_MTB;
+}
+
+static inline hri_pac_intflagb_reg_t hri_pac_get_INTFLAGB_reg(const void *const hw, hri_pac_intflagb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->INTFLAGB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_intflagb_reg_t hri_pac_read_INTFLAGB_reg(const void *const hw)
+{
+	return ((Pac *)hw)->INTFLAGB.reg;
+}
+
+static inline void hri_pac_clear_INTFLAGB_reg(const void *const hw, hri_pac_intflagb_reg_t mask)
+{
+	((Pac *)hw)->INTFLAGB.reg = mask;
+}
+
+static inline bool hri_pac_get_INTFLAGC_EVSYS_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_EVSYS) >> PAC_INTFLAGC_EVSYS_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_EVSYS_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_EVSYS;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM0) >> PAC_INTFLAGC_SERCOM0_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM0_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM0;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM1_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM1) >> PAC_INTFLAGC_SERCOM1_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM1_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM1;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM2_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM2) >> PAC_INTFLAGC_SERCOM2_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM2_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM2;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM3_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM3) >> PAC_INTFLAGC_SERCOM3_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM3_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM3;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM4_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM4) >> PAC_INTFLAGC_SERCOM4_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM4_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM4;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SERCOM5_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SERCOM5) >> PAC_INTFLAGC_SERCOM5_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SERCOM5_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SERCOM5;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TCC0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TCC0) >> PAC_INTFLAGC_TCC0_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TCC0_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TCC0;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TC0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TC0) >> PAC_INTFLAGC_TC0_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TC0_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TC0;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TC1_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TC1) >> PAC_INTFLAGC_TC1_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TC1_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TC1;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TC2_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TC2) >> PAC_INTFLAGC_TC2_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TC2_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TC2;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TC3_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TC3) >> PAC_INTFLAGC_TC3_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TC3_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TC3;
+}
+
+static inline bool hri_pac_get_INTFLAGC_ADC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_ADC) >> PAC_INTFLAGC_ADC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_ADC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_ADC;
+}
+
+static inline bool hri_pac_get_INTFLAGC_AC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_AC) >> PAC_INTFLAGC_AC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_AC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_AC;
+}
+
+static inline bool hri_pac_get_INTFLAGC_PTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_PTC) >> PAC_INTFLAGC_PTC_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_PTC_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_PTC;
+}
+
+static inline bool hri_pac_get_INTFLAGC_SLCD_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_SLCD) >> PAC_INTFLAGC_SLCD_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_SLCD_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_SLCD;
+}
+
+static inline bool hri_pac_get_INTFLAGC_AES_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_AES) >> PAC_INTFLAGC_AES_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_AES_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_AES;
+}
+
+static inline bool hri_pac_get_INTFLAGC_TRNG_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_TRNG) >> PAC_INTFLAGC_TRNG_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_TRNG_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_TRNG;
+}
+
+static inline bool hri_pac_get_INTFLAGC_CCL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTFLAGC.reg & PAC_INTFLAGC_CCL) >> PAC_INTFLAGC_CCL_Pos;
+}
+
+static inline void hri_pac_clear_INTFLAGC_CCL_bit(const void *const hw)
+{
+	((Pac *)hw)->INTFLAGC.reg = PAC_INTFLAGC_CCL;
+}
+
+static inline hri_pac_intflagc_reg_t hri_pac_get_INTFLAGC_reg(const void *const hw, hri_pac_intflagc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->INTFLAGC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_intflagc_reg_t hri_pac_read_INTFLAGC_reg(const void *const hw)
+{
+	return ((Pac *)hw)->INTFLAGC.reg;
+}
+
+static inline void hri_pac_clear_INTFLAGC_reg(const void *const hw, hri_pac_intflagc_reg_t mask)
+{
+	((Pac *)hw)->INTFLAGC.reg = mask;
+}
+
+static inline void hri_pac_set_INTEN_ERR_bit(const void *const hw)
+{
+	((Pac *)hw)->INTENSET.reg = PAC_INTENSET_ERR;
+}
+
+static inline bool hri_pac_get_INTEN_ERR_bit(const void *const hw)
+{
+	return (((Pac *)hw)->INTENSET.reg & PAC_INTENSET_ERR) >> PAC_INTENSET_ERR_Pos;
+}
+
+static inline void hri_pac_write_INTEN_ERR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Pac *)hw)->INTENCLR.reg = PAC_INTENSET_ERR;
+	} else {
+		((Pac *)hw)->INTENSET.reg = PAC_INTENSET_ERR;
+	}
+}
+
+static inline void hri_pac_clear_INTEN_ERR_bit(const void *const hw)
+{
+	((Pac *)hw)->INTENCLR.reg = PAC_INTENSET_ERR;
+}
+
+static inline void hri_pac_set_INTEN_reg(const void *const hw, hri_pac_intenset_reg_t mask)
+{
+	((Pac *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_pac_intenset_reg_t hri_pac_get_INTEN_reg(const void *const hw, hri_pac_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pac *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_intenset_reg_t hri_pac_read_INTEN_reg(const void *const hw)
+{
+	return ((Pac *)hw)->INTENSET.reg;
+}
+
+static inline void hri_pac_write_INTEN_reg(const void *const hw, hri_pac_intenset_reg_t data)
+{
+	((Pac *)hw)->INTENSET.reg = data;
+	((Pac *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_pac_clear_INTEN_reg(const void *const hw, hri_pac_intenset_reg_t mask)
+{
+	((Pac *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_pac_get_STATUSA_PAC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_PAC) >> PAC_STATUSA_PAC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_PM_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_PM) >> PAC_STATUSA_PM_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_MCLK_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_MCLK) >> PAC_STATUSA_MCLK_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_RSTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_RSTC) >> PAC_STATUSA_RSTC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_OSCCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_OSCCTRL) >> PAC_STATUSA_OSCCTRL_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_OSC32KCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_OSC32KCTRL) >> PAC_STATUSA_OSC32KCTRL_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_SUPC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_SUPC) >> PAC_STATUSA_SUPC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_GCLK_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_GCLK) >> PAC_STATUSA_GCLK_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_WDT_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_WDT) >> PAC_STATUSA_WDT_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_RTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_RTC) >> PAC_STATUSA_RTC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_EIC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_EIC) >> PAC_STATUSA_EIC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSA_FREQM_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSA.reg & PAC_STATUSA_FREQM) >> PAC_STATUSA_FREQM_Pos;
+}
+
+static inline hri_pac_statusa_reg_t hri_pac_get_STATUSA_reg(const void *const hw, hri_pac_statusa_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->STATUSA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_statusa_reg_t hri_pac_read_STATUSA_reg(const void *const hw)
+{
+	return ((Pac *)hw)->STATUSA.reg;
+}
+
+static inline bool hri_pac_get_STATUSB_USB_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_USB) >> PAC_STATUSB_USB_Pos;
+}
+
+static inline bool hri_pac_get_STATUSB_DSU_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_DSU) >> PAC_STATUSB_DSU_Pos;
+}
+
+static inline bool hri_pac_get_STATUSB_NVMCTRL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_NVMCTRL) >> PAC_STATUSB_NVMCTRL_Pos;
+}
+
+static inline bool hri_pac_get_STATUSB_PORT_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_PORT) >> PAC_STATUSB_PORT_Pos;
+}
+
+static inline bool hri_pac_get_STATUSB_DMAC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_DMAC) >> PAC_STATUSB_DMAC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSB_MTB_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSB.reg & PAC_STATUSB_MTB) >> PAC_STATUSB_MTB_Pos;
+}
+
+static inline hri_pac_statusb_reg_t hri_pac_get_STATUSB_reg(const void *const hw, hri_pac_statusb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->STATUSB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_statusb_reg_t hri_pac_read_STATUSB_reg(const void *const hw)
+{
+	return ((Pac *)hw)->STATUSB.reg;
+}
+
+static inline bool hri_pac_get_STATUSC_EVSYS_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_EVSYS) >> PAC_STATUSC_EVSYS_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM0) >> PAC_STATUSC_SERCOM0_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM1_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM1) >> PAC_STATUSC_SERCOM1_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM2_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM2) >> PAC_STATUSC_SERCOM2_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM3_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM3) >> PAC_STATUSC_SERCOM3_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM4_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM4) >> PAC_STATUSC_SERCOM4_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SERCOM5_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SERCOM5) >> PAC_STATUSC_SERCOM5_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TCC0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TCC0) >> PAC_STATUSC_TCC0_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TC0_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TC0) >> PAC_STATUSC_TC0_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TC1_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TC1) >> PAC_STATUSC_TC1_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TC2_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TC2) >> PAC_STATUSC_TC2_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TC3_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TC3) >> PAC_STATUSC_TC3_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_ADC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_ADC) >> PAC_STATUSC_ADC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_AC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_AC) >> PAC_STATUSC_AC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_PTC_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_PTC) >> PAC_STATUSC_PTC_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_SLCD_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_SLCD) >> PAC_STATUSC_SLCD_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_AES_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_AES) >> PAC_STATUSC_AES_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_TRNG_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_TRNG) >> PAC_STATUSC_TRNG_Pos;
+}
+
+static inline bool hri_pac_get_STATUSC_CCL_bit(const void *const hw)
+{
+	return (((Pac *)hw)->STATUSC.reg & PAC_STATUSC_CCL) >> PAC_STATUSC_CCL_Pos;
+}
+
+static inline hri_pac_statusc_reg_t hri_pac_get_STATUSC_reg(const void *const hw, hri_pac_statusc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->STATUSC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pac_statusc_reg_t hri_pac_read_STATUSC_reg(const void *const hw)
+{
+	return ((Pac *)hw)->STATUSC.reg;
+}
+
+static inline void hri_pac_set_WRCTRL_PERID_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg |= PAC_WRCTRL_PERID(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_get_WRCTRL_PERID_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp = (tmp & PAC_WRCTRL_PERID(mask)) >> PAC_WRCTRL_PERID_Pos;
+	return tmp;
+}
+
+static inline void hri_pac_write_WRCTRL_PERID_bf(const void *const hw, hri_pac_wrctrl_reg_t data)
+{
+	uint32_t tmp;
+	PAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp &= ~PAC_WRCTRL_PERID_Msk;
+	tmp |= PAC_WRCTRL_PERID(data);
+	((Pac *)hw)->WRCTRL.reg = tmp;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_clear_WRCTRL_PERID_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg &= ~PAC_WRCTRL_PERID(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_toggle_WRCTRL_PERID_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg ^= PAC_WRCTRL_PERID(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_read_WRCTRL_PERID_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp = (tmp & PAC_WRCTRL_PERID_Msk) >> PAC_WRCTRL_PERID_Pos;
+	return tmp;
+}
+
+static inline void hri_pac_set_WRCTRL_KEY_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg |= PAC_WRCTRL_KEY(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_get_WRCTRL_KEY_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp = (tmp & PAC_WRCTRL_KEY(mask)) >> PAC_WRCTRL_KEY_Pos;
+	return tmp;
+}
+
+static inline void hri_pac_write_WRCTRL_KEY_bf(const void *const hw, hri_pac_wrctrl_reg_t data)
+{
+	uint32_t tmp;
+	PAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp &= ~PAC_WRCTRL_KEY_Msk;
+	tmp |= PAC_WRCTRL_KEY(data);
+	((Pac *)hw)->WRCTRL.reg = tmp;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_clear_WRCTRL_KEY_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg &= ~PAC_WRCTRL_KEY(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_toggle_WRCTRL_KEY_bf(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg ^= PAC_WRCTRL_KEY(mask);
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_read_WRCTRL_KEY_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp = (tmp & PAC_WRCTRL_KEY_Msk) >> PAC_WRCTRL_KEY_Pos;
+	return tmp;
+}
+
+static inline void hri_pac_set_WRCTRL_reg(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg |= mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_get_WRCTRL_reg(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Pac *)hw)->WRCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pac_write_WRCTRL_reg(const void *const hw, hri_pac_wrctrl_reg_t data)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg = data;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_clear_WRCTRL_reg(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg &= ~mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_toggle_WRCTRL_reg(const void *const hw, hri_pac_wrctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->WRCTRL.reg ^= mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_wrctrl_reg_t hri_pac_read_WRCTRL_reg(const void *const hw)
+{
+	return ((Pac *)hw)->WRCTRL.reg;
+}
+
+static inline void hri_pac_set_EVCTRL_ERREO_bit(const void *const hw)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg |= PAC_EVCTRL_ERREO;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_pac_get_EVCTRL_ERREO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Pac *)hw)->EVCTRL.reg;
+	tmp = (tmp & PAC_EVCTRL_ERREO) >> PAC_EVCTRL_ERREO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_pac_write_EVCTRL_ERREO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	PAC_CRITICAL_SECTION_ENTER();
+	tmp = ((Pac *)hw)->EVCTRL.reg;
+	tmp &= ~PAC_EVCTRL_ERREO;
+	tmp |= value << PAC_EVCTRL_ERREO_Pos;
+	((Pac *)hw)->EVCTRL.reg = tmp;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_clear_EVCTRL_ERREO_bit(const void *const hw)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg &= ~PAC_EVCTRL_ERREO;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_toggle_EVCTRL_ERREO_bit(const void *const hw)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg ^= PAC_EVCTRL_ERREO;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_set_EVCTRL_reg(const void *const hw, hri_pac_evctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg |= mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_evctrl_reg_t hri_pac_get_EVCTRL_reg(const void *const hw, hri_pac_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pac *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pac_write_EVCTRL_reg(const void *const hw, hri_pac_evctrl_reg_t data)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg = data;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_clear_EVCTRL_reg(const void *const hw, hri_pac_evctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg &= ~mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pac_toggle_EVCTRL_reg(const void *const hw, hri_pac_evctrl_reg_t mask)
+{
+	PAC_CRITICAL_SECTION_ENTER();
+	((Pac *)hw)->EVCTRL.reg ^= mask;
+	PAC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pac_evctrl_reg_t hri_pac_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Pac *)hw)->EVCTRL.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_PAC_L22_H_INCLUDED */
+#endif /* _SAML22_PAC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_pm_l22.h b/watch-library/hardware/hri/hri_pm_l22.h
new file mode 100644
index 00000000..d56d3cf7
--- /dev/null
+++ b/watch-library/hardware/hri/hri_pm_l22.h
@@ -0,0 +1,592 @@
+/**
+ * \file
+ *
+ * \brief SAM PM
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_PM_COMPONENT_
+#ifndef _HRI_PM_L22_H_INCLUDED_
+#define _HRI_PM_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_PM_CRITICAL_SECTIONS)
+#define PM_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define PM_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define PM_CRITICAL_SECTION_ENTER()
+#define PM_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_pm_stdbycfg_reg_t;
+typedef uint8_t  hri_pm_ctrla_reg_t;
+typedef uint8_t  hri_pm_intenset_reg_t;
+typedef uint8_t  hri_pm_intflag_reg_t;
+typedef uint8_t  hri_pm_plcfg_reg_t;
+typedef uint8_t  hri_pm_sleepcfg_reg_t;
+
+static inline bool hri_pm_get_INTFLAG_PLRDY_bit(const void *const hw)
+{
+	return (((Pm *)hw)->INTFLAG.reg & PM_INTFLAG_PLRDY) >> PM_INTFLAG_PLRDY_Pos;
+}
+
+static inline void hri_pm_clear_INTFLAG_PLRDY_bit(const void *const hw)
+{
+	((Pm *)hw)->INTFLAG.reg = PM_INTFLAG_PLRDY;
+}
+
+static inline bool hri_pm_get_interrupt_PLRDY_bit(const void *const hw)
+{
+	return (((Pm *)hw)->INTFLAG.reg & PM_INTFLAG_PLRDY) >> PM_INTFLAG_PLRDY_Pos;
+}
+
+static inline void hri_pm_clear_interrupt_PLRDY_bit(const void *const hw)
+{
+	((Pm *)hw)->INTFLAG.reg = PM_INTFLAG_PLRDY;
+}
+
+static inline hri_pm_intflag_reg_t hri_pm_get_INTFLAG_reg(const void *const hw, hri_pm_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pm_intflag_reg_t hri_pm_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Pm *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_pm_clear_INTFLAG_reg(const void *const hw, hri_pm_intflag_reg_t mask)
+{
+	((Pm *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_pm_set_INTEN_PLRDY_bit(const void *const hw)
+{
+	((Pm *)hw)->INTENSET.reg = PM_INTENSET_PLRDY;
+}
+
+static inline bool hri_pm_get_INTEN_PLRDY_bit(const void *const hw)
+{
+	return (((Pm *)hw)->INTENSET.reg & PM_INTENSET_PLRDY) >> PM_INTENSET_PLRDY_Pos;
+}
+
+static inline void hri_pm_write_INTEN_PLRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Pm *)hw)->INTENCLR.reg = PM_INTENSET_PLRDY;
+	} else {
+		((Pm *)hw)->INTENSET.reg = PM_INTENSET_PLRDY;
+	}
+}
+
+static inline void hri_pm_clear_INTEN_PLRDY_bit(const void *const hw)
+{
+	((Pm *)hw)->INTENCLR.reg = PM_INTENSET_PLRDY;
+}
+
+static inline void hri_pm_set_INTEN_reg(const void *const hw, hri_pm_intenset_reg_t mask)
+{
+	((Pm *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_pm_intenset_reg_t hri_pm_get_INTEN_reg(const void *const hw, hri_pm_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_pm_intenset_reg_t hri_pm_read_INTEN_reg(const void *const hw)
+{
+	return ((Pm *)hw)->INTENSET.reg;
+}
+
+static inline void hri_pm_write_INTEN_reg(const void *const hw, hri_pm_intenset_reg_t data)
+{
+	((Pm *)hw)->INTENSET.reg = data;
+	((Pm *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_pm_clear_INTEN_reg(const void *const hw, hri_pm_intenset_reg_t mask)
+{
+	((Pm *)hw)->INTENCLR.reg = mask;
+}
+
+static inline void hri_pm_set_CTRLA_IORET_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg |= PM_CTRLA_IORET;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_pm_get_CTRLA_IORET_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->CTRLA.reg;
+	tmp = (tmp & PM_CTRLA_IORET) >> PM_CTRLA_IORET_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_pm_write_CTRLA_IORET_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->CTRLA.reg;
+	tmp &= ~PM_CTRLA_IORET;
+	tmp |= value << PM_CTRLA_IORET_Pos;
+	((Pm *)hw)->CTRLA.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_CTRLA_IORET_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg &= ~PM_CTRLA_IORET;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_CTRLA_IORET_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg ^= PM_CTRLA_IORET;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_set_CTRLA_reg(const void *const hw, hri_pm_ctrla_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg |= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_ctrla_reg_t hri_pm_get_CTRLA_reg(const void *const hw, hri_pm_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pm_write_CTRLA_reg(const void *const hw, hri_pm_ctrla_reg_t data)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg = data;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_CTRLA_reg(const void *const hw, hri_pm_ctrla_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg &= ~mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_CTRLA_reg(const void *const hw, hri_pm_ctrla_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->CTRLA.reg ^= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_ctrla_reg_t hri_pm_read_CTRLA_reg(const void *const hw)
+{
+	return ((Pm *)hw)->CTRLA.reg;
+}
+
+static inline void hri_pm_set_SLEEPCFG_SLEEPMODE_bf(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg |= PM_SLEEPCFG_SLEEPMODE(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_sleepcfg_reg_t hri_pm_get_SLEEPCFG_SLEEPMODE_bf(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->SLEEPCFG.reg;
+	tmp = (tmp & PM_SLEEPCFG_SLEEPMODE(mask)) >> PM_SLEEPCFG_SLEEPMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_write_SLEEPCFG_SLEEPMODE_bf(const void *const hw, hri_pm_sleepcfg_reg_t data)
+{
+	uint8_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->SLEEPCFG.reg;
+	tmp &= ~PM_SLEEPCFG_SLEEPMODE_Msk;
+	tmp |= PM_SLEEPCFG_SLEEPMODE(data);
+	((Pm *)hw)->SLEEPCFG.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_SLEEPCFG_SLEEPMODE_bf(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg &= ~PM_SLEEPCFG_SLEEPMODE(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_SLEEPCFG_SLEEPMODE_bf(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg ^= PM_SLEEPCFG_SLEEPMODE(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_sleepcfg_reg_t hri_pm_read_SLEEPCFG_SLEEPMODE_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->SLEEPCFG.reg;
+	tmp = (tmp & PM_SLEEPCFG_SLEEPMODE_Msk) >> PM_SLEEPCFG_SLEEPMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_set_SLEEPCFG_reg(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg |= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_sleepcfg_reg_t hri_pm_get_SLEEPCFG_reg(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->SLEEPCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pm_write_SLEEPCFG_reg(const void *const hw, hri_pm_sleepcfg_reg_t data)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg = data;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_SLEEPCFG_reg(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg &= ~mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_SLEEPCFG_reg(const void *const hw, hri_pm_sleepcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->SLEEPCFG.reg ^= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_sleepcfg_reg_t hri_pm_read_SLEEPCFG_reg(const void *const hw)
+{
+	return ((Pm *)hw)->SLEEPCFG.reg;
+}
+
+static inline void hri_pm_set_PLCFG_PLDIS_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg |= PM_PLCFG_PLDIS;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_pm_get_PLCFG_PLDIS_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp = (tmp & PM_PLCFG_PLDIS) >> PM_PLCFG_PLDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_pm_write_PLCFG_PLDIS_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp &= ~PM_PLCFG_PLDIS;
+	tmp |= value << PM_PLCFG_PLDIS_Pos;
+	((Pm *)hw)->PLCFG.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_PLCFG_PLDIS_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg &= ~PM_PLCFG_PLDIS;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_PLCFG_PLDIS_bit(const void *const hw)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg ^= PM_PLCFG_PLDIS;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_set_PLCFG_PLSEL_bf(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg |= PM_PLCFG_PLSEL(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_plcfg_reg_t hri_pm_get_PLCFG_PLSEL_bf(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp = (tmp & PM_PLCFG_PLSEL(mask)) >> PM_PLCFG_PLSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_write_PLCFG_PLSEL_bf(const void *const hw, hri_pm_plcfg_reg_t data)
+{
+	uint8_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp &= ~PM_PLCFG_PLSEL_Msk;
+	tmp |= PM_PLCFG_PLSEL(data);
+	((Pm *)hw)->PLCFG.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_PLCFG_PLSEL_bf(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg &= ~PM_PLCFG_PLSEL(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_PLCFG_PLSEL_bf(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg ^= PM_PLCFG_PLSEL(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_plcfg_reg_t hri_pm_read_PLCFG_PLSEL_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp = (tmp & PM_PLCFG_PLSEL_Msk) >> PM_PLCFG_PLSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_set_PLCFG_reg(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg |= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_plcfg_reg_t hri_pm_get_PLCFG_reg(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Pm *)hw)->PLCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pm_write_PLCFG_reg(const void *const hw, hri_pm_plcfg_reg_t data)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg = data;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_PLCFG_reg(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg &= ~mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_PLCFG_reg(const void *const hw, hri_pm_plcfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->PLCFG.reg ^= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_plcfg_reg_t hri_pm_read_PLCFG_reg(const void *const hw)
+{
+	return ((Pm *)hw)->PLCFG.reg;
+}
+
+static inline void hri_pm_set_STDBYCFG_VREGSMOD_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg |= PM_STDBYCFG_VREGSMOD(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_get_STDBYCFG_VREGSMOD_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp = (tmp & PM_STDBYCFG_VREGSMOD(mask)) >> PM_STDBYCFG_VREGSMOD_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_write_STDBYCFG_VREGSMOD_bf(const void *const hw, hri_pm_stdbycfg_reg_t data)
+{
+	uint16_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp &= ~PM_STDBYCFG_VREGSMOD_Msk;
+	tmp |= PM_STDBYCFG_VREGSMOD(data);
+	((Pm *)hw)->STDBYCFG.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_STDBYCFG_VREGSMOD_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg &= ~PM_STDBYCFG_VREGSMOD(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_STDBYCFG_VREGSMOD_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg ^= PM_STDBYCFG_VREGSMOD(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_read_STDBYCFG_VREGSMOD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp = (tmp & PM_STDBYCFG_VREGSMOD_Msk) >> PM_STDBYCFG_VREGSMOD_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_set_STDBYCFG_BBIASHS_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg |= PM_STDBYCFG_BBIASHS(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_get_STDBYCFG_BBIASHS_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp = (tmp & PM_STDBYCFG_BBIASHS(mask)) >> PM_STDBYCFG_BBIASHS_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_write_STDBYCFG_BBIASHS_bf(const void *const hw, hri_pm_stdbycfg_reg_t data)
+{
+	uint16_t tmp;
+	PM_CRITICAL_SECTION_ENTER();
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp &= ~PM_STDBYCFG_BBIASHS_Msk;
+	tmp |= PM_STDBYCFG_BBIASHS(data);
+	((Pm *)hw)->STDBYCFG.reg = tmp;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_STDBYCFG_BBIASHS_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg &= ~PM_STDBYCFG_BBIASHS(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_STDBYCFG_BBIASHS_bf(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg ^= PM_STDBYCFG_BBIASHS(mask);
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_read_STDBYCFG_BBIASHS_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp = (tmp & PM_STDBYCFG_BBIASHS_Msk) >> PM_STDBYCFG_BBIASHS_Pos;
+	return tmp;
+}
+
+static inline void hri_pm_set_STDBYCFG_reg(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg |= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_get_STDBYCFG_reg(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Pm *)hw)->STDBYCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_pm_write_STDBYCFG_reg(const void *const hw, hri_pm_stdbycfg_reg_t data)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg = data;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_clear_STDBYCFG_reg(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg &= ~mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_pm_toggle_STDBYCFG_reg(const void *const hw, hri_pm_stdbycfg_reg_t mask)
+{
+	PM_CRITICAL_SECTION_ENTER();
+	((Pm *)hw)->STDBYCFG.reg ^= mask;
+	PM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_pm_stdbycfg_reg_t hri_pm_read_STDBYCFG_reg(const void *const hw)
+{
+	return ((Pm *)hw)->STDBYCFG.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_PM_L22_H_INCLUDED */
+#endif /* _SAML22_PM_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_port_l22.h b/watch-library/hardware/hri/hri_port_l22.h
new file mode 100644
index 00000000..ee99c2e8
--- /dev/null
+++ b/watch-library/hardware/hri/hri_port_l22.h
@@ -0,0 +1,2357 @@
+/**
+ * \file
+ *
+ * \brief SAM PORT
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_PORT_COMPONENT_
+#ifndef _HRI_PORT_L22_H_INCLUDED_
+#define _HRI_PORT_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_PORT_CRITICAL_SECTIONS)
+#define PORT_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define PORT_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define PORT_CRITICAL_SECTION_ENTER()
+#define PORT_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_port_ctrl_reg_t;
+typedef uint32_t hri_port_dir_reg_t;
+typedef uint32_t hri_port_evctrl_reg_t;
+typedef uint32_t hri_port_in_reg_t;
+typedef uint32_t hri_port_out_reg_t;
+typedef uint32_t hri_port_wrconfig_reg_t;
+typedef uint32_t hri_portgroup_ctrl_reg_t;
+typedef uint32_t hri_portgroup_dir_reg_t;
+typedef uint32_t hri_portgroup_evctrl_reg_t;
+typedef uint32_t hri_portgroup_in_reg_t;
+typedef uint32_t hri_portgroup_out_reg_t;
+typedef uint32_t hri_portgroup_wrconfig_reg_t;
+typedef uint8_t  hri_port_pincfg_reg_t;
+typedef uint8_t  hri_port_pmux_reg_t;
+typedef uint8_t  hri_portgroup_pincfg_reg_t;
+typedef uint8_t  hri_portgroup_pmux_reg_t;
+
+static inline void hri_portgroup_set_DIR_reg(const void *const hw, hri_port_dir_reg_t mask)
+{
+	((PortGroup *)hw)->DIRSET.reg = mask;
+}
+
+static inline hri_port_dir_reg_t hri_portgroup_get_DIR_reg(const void *const hw, hri_port_dir_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->DIR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_dir_reg_t hri_portgroup_read_DIR_reg(const void *const hw)
+{
+	return ((PortGroup *)hw)->DIR.reg;
+}
+
+static inline void hri_portgroup_write_DIR_reg(const void *const hw, hri_port_dir_reg_t data)
+{
+	((PortGroup *)hw)->DIRSET.reg = data;
+	((PortGroup *)hw)->DIRCLR.reg = ~data;
+}
+
+static inline void hri_portgroup_clear_DIR_reg(const void *const hw, hri_port_dir_reg_t mask)
+{
+	((PortGroup *)hw)->DIRCLR.reg = mask;
+}
+
+static inline void hri_portgroup_toggle_DIR_reg(const void *const hw, hri_port_dir_reg_t mask)
+{
+	((PortGroup *)hw)->DIRTGL.reg = mask;
+}
+
+static inline void hri_portgroup_set_OUT_reg(const void *const hw, hri_port_out_reg_t mask)
+{
+	((PortGroup *)hw)->OUTSET.reg = mask;
+}
+
+static inline hri_port_out_reg_t hri_portgroup_get_OUT_reg(const void *const hw, hri_port_out_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->OUT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_out_reg_t hri_portgroup_read_OUT_reg(const void *const hw)
+{
+	return ((PortGroup *)hw)->OUT.reg;
+}
+
+static inline void hri_portgroup_write_OUT_reg(const void *const hw, hri_port_out_reg_t data)
+{
+	((PortGroup *)hw)->OUTSET.reg = data;
+	((PortGroup *)hw)->OUTCLR.reg = ~data;
+}
+
+static inline void hri_portgroup_clear_OUT_reg(const void *const hw, hri_port_out_reg_t mask)
+{
+	((PortGroup *)hw)->OUTCLR.reg = mask;
+}
+
+static inline void hri_portgroup_toggle_OUT_reg(const void *const hw, hri_port_out_reg_t mask)
+{
+	((PortGroup *)hw)->OUTTGL.reg = mask;
+}
+
+static inline hri_port_in_reg_t hri_portgroup_get_IN_reg(const void *const hw, hri_port_in_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->IN.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_in_reg_t hri_portgroup_read_IN_reg(const void *const hw)
+{
+	return ((PortGroup *)hw)->IN.reg;
+}
+
+static inline void hri_portgroup_set_CTRL_SAMPLING_bf(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg |= PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_portgroup_get_CTRL_SAMPLING_bf(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->CTRL.reg;
+	tmp = (tmp & PORT_CTRL_SAMPLING(mask)) >> PORT_CTRL_SAMPLING_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_CTRL_SAMPLING_bf(const void *const hw, hri_port_ctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->CTRL.reg;
+	tmp &= ~PORT_CTRL_SAMPLING_Msk;
+	tmp |= PORT_CTRL_SAMPLING(data);
+	((PortGroup *)hw)->CTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_CTRL_SAMPLING_bf(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg &= ~PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_CTRL_SAMPLING_bf(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg ^= PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_portgroup_read_CTRL_SAMPLING_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->CTRL.reg;
+	tmp = (tmp & PORT_CTRL_SAMPLING_Msk) >> PORT_CTRL_SAMPLING_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_CTRL_reg(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_portgroup_get_CTRL_reg(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->CTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_CTRL_reg(const void *const hw, hri_port_ctrl_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_CTRL_reg(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_CTRL_reg(const void *const hw, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->CTRL.reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_portgroup_read_CTRL_reg(const void *const hw)
+{
+	return ((PortGroup *)hw)->CTRL.reg;
+}
+
+static inline void hri_portgroup_set_EVCTRL_PORTEI0_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_EVCTRL_PORTEI0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI0) >> PORT_EVCTRL_PORTEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PORTEI0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI0;
+	tmp |= value << PORT_EVCTRL_PORTEI0_Pos;
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PORTEI0_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PORTEI0_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_EVCTRL_PORTEI1_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_EVCTRL_PORTEI1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI1) >> PORT_EVCTRL_PORTEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PORTEI1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI1;
+	tmp |= value << PORT_EVCTRL_PORTEI1_Pos;
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PORTEI1_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PORTEI1_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_EVCTRL_PORTEI2_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_EVCTRL_PORTEI2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI2) >> PORT_EVCTRL_PORTEI2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PORTEI2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI2;
+	tmp |= value << PORT_EVCTRL_PORTEI2_Pos;
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PORTEI2_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PORTEI2_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_EVCTRL_PORTEI3_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_EVCTRL_PORTEI3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI3) >> PORT_EVCTRL_PORTEI3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PORTEI3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI3;
+	tmp |= value << PORT_EVCTRL_PORTEI3_Pos;
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PORTEI3_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PORTEI3_bit(const void *const hw)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_EVCTRL_PID0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_PID0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID0(mask)) >> PORT_EVCTRL_PID0_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PID0_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID0_Msk;
+	tmp |= PORT_EVCTRL_PID0(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PID0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PID0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_PID0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID0_Msk) >> PORT_EVCTRL_PID0_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_EVACT0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_EVACT0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT0(mask)) >> PORT_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_EVACT0_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT0_Msk;
+	tmp |= PORT_EVCTRL_EVACT0(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_EVACT0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_EVACT0_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_EVACT0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT0_Msk) >> PORT_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_PID1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_PID1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID1(mask)) >> PORT_EVCTRL_PID1_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PID1_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID1_Msk;
+	tmp |= PORT_EVCTRL_PID1(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PID1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PID1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_PID1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID1_Msk) >> PORT_EVCTRL_PID1_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_EVACT1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_EVACT1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT1(mask)) >> PORT_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_EVACT1_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT1_Msk;
+	tmp |= PORT_EVCTRL_EVACT1(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_EVACT1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_EVACT1_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_EVACT1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT1_Msk) >> PORT_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_PID2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_PID2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID2(mask)) >> PORT_EVCTRL_PID2_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PID2_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID2_Msk;
+	tmp |= PORT_EVCTRL_PID2(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PID2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PID2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_PID2_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID2_Msk) >> PORT_EVCTRL_PID2_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_EVACT2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_EVACT2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT2(mask)) >> PORT_EVCTRL_EVACT2_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_EVACT2_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT2_Msk;
+	tmp |= PORT_EVCTRL_EVACT2(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_EVACT2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_EVACT2_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_EVACT2_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT2_Msk) >> PORT_EVCTRL_EVACT2_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_PID3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_PID3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID3(mask)) >> PORT_EVCTRL_PID3_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_PID3_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID3_Msk;
+	tmp |= PORT_EVCTRL_PID3(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_PID3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_PID3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_PID3_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID3_Msk) >> PORT_EVCTRL_PID3_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_EVACT3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_EVACT3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT3(mask)) >> PORT_EVCTRL_EVACT3_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_EVACT3_bf(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT3_Msk;
+	tmp |= PORT_EVCTRL_EVACT3(data);
+	((PortGroup *)hw)->EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_EVACT3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_EVACT3_bf(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_EVACT3_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT3_Msk) >> PORT_EVCTRL_EVACT3_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_EVCTRL_reg(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_get_EVCTRL_reg(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((PortGroup *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_EVCTRL_reg(const void *const hw, hri_port_evctrl_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_EVCTRL_reg(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_EVCTRL_reg(const void *const hw, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->EVCTRL.reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_portgroup_read_EVCTRL_reg(const void *const hw)
+{
+	return ((PortGroup *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_portgroup_set_PMUX_PMUXE_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg |= PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_get_PMUX_PMUXE_bf(const void *const hw, uint8_t index,
+                                                                  hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXE(mask)) >> PORT_PMUX_PMUXE_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_PMUX_PMUXE_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t data)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp &= ~PORT_PMUX_PMUXE_Msk;
+	tmp |= PORT_PMUX_PMUXE(data);
+	((PortGroup *)hw)->PMUX[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PMUX_PMUXE_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg &= ~PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PMUX_PMUXE_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg ^= PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_read_PMUX_PMUXE_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXE_Msk) >> PORT_PMUX_PMUXE_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_PMUX_PMUXO_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg |= PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_get_PMUX_PMUXO_bf(const void *const hw, uint8_t index,
+                                                                  hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXO(mask)) >> PORT_PMUX_PMUXO_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_PMUX_PMUXO_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t data)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp &= ~PORT_PMUX_PMUXO_Msk;
+	tmp |= PORT_PMUX_PMUXO(data);
+	((PortGroup *)hw)->PMUX[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PMUX_PMUXO_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg &= ~PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PMUX_PMUXO_bf(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg ^= PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_read_PMUX_PMUXO_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXO_Msk) >> PORT_PMUX_PMUXO_Pos;
+	return tmp;
+}
+
+static inline void hri_portgroup_set_PMUX_reg(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_get_PMUX_reg(const void *const hw, uint8_t index,
+                                                             hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PMUX[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_PMUX_reg(const void *const hw, uint8_t index, hri_port_pmux_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PMUX_reg(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PMUX_reg(const void *const hw, uint8_t index, hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PMUX[index].reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_portgroup_read_PMUX_reg(const void *const hw, uint8_t index)
+{
+	return ((PortGroup *)hw)->PMUX[index].reg;
+}
+
+static inline void hri_portgroup_set_PINCFG_PMUXEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg |= PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_PINCFG_PMUXEN_bit(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_PMUXEN) >> PORT_PINCFG_PMUXEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_PINCFG_PMUXEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_PMUXEN;
+	tmp |= value << PORT_PINCFG_PMUXEN_Pos;
+	((PortGroup *)hw)->PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PINCFG_PMUXEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg &= ~PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PINCFG_PMUXEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg ^= PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_PINCFG_INEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg |= PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_PINCFG_INEN_bit(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_INEN) >> PORT_PINCFG_INEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_PINCFG_INEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_INEN;
+	tmp |= value << PORT_PINCFG_INEN_Pos;
+	((PortGroup *)hw)->PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PINCFG_INEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg &= ~PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PINCFG_INEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg ^= PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_PINCFG_PULLEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg |= PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_PINCFG_PULLEN_bit(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_PULLEN) >> PORT_PINCFG_PULLEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_PINCFG_PULLEN_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_PULLEN;
+	tmp |= value << PORT_PINCFG_PULLEN_Pos;
+	((PortGroup *)hw)->PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PINCFG_PULLEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg &= ~PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PINCFG_PULLEN_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg ^= PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_PINCFG_DRVSTR_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg |= PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_portgroup_get_PINCFG_DRVSTR_bit(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_DRVSTR) >> PORT_PINCFG_DRVSTR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_portgroup_write_PINCFG_DRVSTR_bit(const void *const hw, uint8_t index, bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_DRVSTR;
+	tmp |= value << PORT_PINCFG_DRVSTR_Pos;
+	((PortGroup *)hw)->PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PINCFG_DRVSTR_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg &= ~PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PINCFG_DRVSTR_bit(const void *const hw, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg ^= PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_set_PINCFG_reg(const void *const hw, uint8_t index, hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pincfg_reg_t hri_portgroup_get_PINCFG_reg(const void *const hw, uint8_t index,
+                                                                 hri_port_pincfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((PortGroup *)hw)->PINCFG[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_portgroup_write_PINCFG_reg(const void *const hw, uint8_t index, hri_port_pincfg_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_clear_PINCFG_reg(const void *const hw, uint8_t index, hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_portgroup_toggle_PINCFG_reg(const void *const hw, uint8_t index, hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->PINCFG[index].reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pincfg_reg_t hri_portgroup_read_PINCFG_reg(const void *const hw, uint8_t index)
+{
+	return ((PortGroup *)hw)->PINCFG[index].reg;
+}
+
+static inline void hri_portgroup_write_WRCONFIG_reg(const void *const hw, hri_port_wrconfig_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((PortGroup *)hw)->WRCONFIG.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_DIR_reg(const void *const hw, uint8_t submodule_index, hri_port_dir_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].DIRSET.reg = mask;
+}
+
+static inline hri_port_dir_reg_t hri_port_get_DIR_reg(const void *const hw, uint8_t submodule_index,
+                                                      hri_port_dir_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].DIR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_dir_reg_t hri_port_read_DIR_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Port *)hw)->Group[submodule_index].DIR.reg;
+}
+
+static inline void hri_port_write_DIR_reg(const void *const hw, uint8_t submodule_index, hri_port_dir_reg_t data)
+{
+	((Port *)hw)->Group[submodule_index].DIRSET.reg = data;
+	((Port *)hw)->Group[submodule_index].DIRCLR.reg = ~data;
+}
+
+static inline void hri_port_clear_DIR_reg(const void *const hw, uint8_t submodule_index, hri_port_dir_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].DIRCLR.reg = mask;
+}
+
+static inline void hri_port_toggle_DIR_reg(const void *const hw, uint8_t submodule_index, hri_port_dir_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].DIRTGL.reg = mask;
+}
+
+static inline void hri_port_set_OUT_reg(const void *const hw, uint8_t submodule_index, hri_port_out_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].OUTSET.reg = mask;
+}
+
+static inline hri_port_out_reg_t hri_port_get_OUT_reg(const void *const hw, uint8_t submodule_index,
+                                                      hri_port_out_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].OUT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_out_reg_t hri_port_read_OUT_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Port *)hw)->Group[submodule_index].OUT.reg;
+}
+
+static inline void hri_port_write_OUT_reg(const void *const hw, uint8_t submodule_index, hri_port_out_reg_t data)
+{
+	((Port *)hw)->Group[submodule_index].OUTSET.reg = data;
+	((Port *)hw)->Group[submodule_index].OUTCLR.reg = ~data;
+}
+
+static inline void hri_port_clear_OUT_reg(const void *const hw, uint8_t submodule_index, hri_port_out_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].OUTCLR.reg = mask;
+}
+
+static inline void hri_port_toggle_OUT_reg(const void *const hw, uint8_t submodule_index, hri_port_out_reg_t mask)
+{
+	((Port *)hw)->Group[submodule_index].OUTTGL.reg = mask;
+}
+
+static inline hri_port_in_reg_t hri_port_get_IN_reg(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_in_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].IN.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_port_in_reg_t hri_port_read_IN_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Port *)hw)->Group[submodule_index].IN.reg;
+}
+
+static inline void hri_port_set_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg |= PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_port_get_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_port_ctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].CTRL.reg;
+	tmp = (tmp & PORT_CTRL_SAMPLING(mask)) >> PORT_CTRL_SAMPLING_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_ctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].CTRL.reg;
+	tmp &= ~PORT_CTRL_SAMPLING_Msk;
+	tmp |= PORT_CTRL_SAMPLING(data);
+	((Port *)hw)->Group[submodule_index].CTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg &= ~PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg ^= PORT_CTRL_SAMPLING(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_port_read_CTRL_SAMPLING_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].CTRL.reg;
+	tmp = (tmp & PORT_CTRL_SAMPLING_Msk) >> PORT_CTRL_SAMPLING_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_CTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_port_get_CTRL_reg(const void *const hw, uint8_t submodule_index,
+                                                        hri_port_ctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].CTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_port_write_CTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_ctrl_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_CTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_CTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_ctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].CTRL.reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_ctrl_reg_t hri_port_read_CTRL_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Port *)hw)->Group[submodule_index].CTRL.reg;
+}
+
+static inline void hri_port_set_EVCTRL_PORTEI0_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_EVCTRL_PORTEI0_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI0) >> PORT_EVCTRL_PORTEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PORTEI0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI0;
+	tmp |= value << PORT_EVCTRL_PORTEI0_Pos;
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PORTEI0_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PORTEI0_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PORTEI0;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_EVCTRL_PORTEI1_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_EVCTRL_PORTEI1_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI1) >> PORT_EVCTRL_PORTEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PORTEI1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI1;
+	tmp |= value << PORT_EVCTRL_PORTEI1_Pos;
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PORTEI1_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PORTEI1_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PORTEI1;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_EVCTRL_PORTEI2_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_EVCTRL_PORTEI2_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI2) >> PORT_EVCTRL_PORTEI2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PORTEI2_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI2;
+	tmp |= value << PORT_EVCTRL_PORTEI2_Pos;
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PORTEI2_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PORTEI2_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PORTEI2;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_EVCTRL_PORTEI3_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_EVCTRL_PORTEI3_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PORTEI3) >> PORT_EVCTRL_PORTEI3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PORTEI3_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PORTEI3;
+	tmp |= value << PORT_EVCTRL_PORTEI3_Pos;
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PORTEI3_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PORTEI3_bit(const void *const hw, uint8_t submodule_index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PORTEI3;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index,
+                                               hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID0(mask)) >> PORT_EVCTRL_PID0_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID0_Msk;
+	tmp |= PORT_EVCTRL_PID0(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PID0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_PID0_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID0_Msk) >> PORT_EVCTRL_PID0_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT0(mask)) >> PORT_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT0_Msk;
+	tmp |= PORT_EVCTRL_EVACT0(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_EVACT0(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_EVACT0_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT0_Msk) >> PORT_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index,
+                                               hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID1(mask)) >> PORT_EVCTRL_PID1_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID1_Msk;
+	tmp |= PORT_EVCTRL_PID1(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PID1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_PID1_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID1_Msk) >> PORT_EVCTRL_PID1_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT1(mask)) >> PORT_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT1_Msk;
+	tmp |= PORT_EVCTRL_EVACT1(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_EVACT1(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_EVACT1_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT1_Msk) >> PORT_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index,
+                                               hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID2(mask)) >> PORT_EVCTRL_PID2_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID2_Msk;
+	tmp |= PORT_EVCTRL_PID2(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PID2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_PID2_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID2_Msk) >> PORT_EVCTRL_PID2_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT2(mask)) >> PORT_EVCTRL_EVACT2_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT2_Msk;
+	tmp |= PORT_EVCTRL_EVACT2(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_EVACT2(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_EVACT2_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT2_Msk) >> PORT_EVCTRL_EVACT2_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index,
+                                               hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID3(mask)) >> PORT_EVCTRL_PID3_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_PID3_Msk;
+	tmp |= PORT_EVCTRL_PID3(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_PID3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_PID3_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_PID3_Msk) >> PORT_EVCTRL_PID3_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT3(mask)) >> PORT_EVCTRL_EVACT3_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= ~PORT_EVCTRL_EVACT3_Msk;
+	tmp |= PORT_EVCTRL_EVACT3(data);
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= PORT_EVCTRL_EVACT3(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_EVACT3_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp = (tmp & PORT_EVCTRL_EVACT3_Msk) >> PORT_EVCTRL_EVACT3_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_EVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_get_EVCTRL_reg(const void *const hw, uint8_t submodule_index,
+                                                            hri_port_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_port_write_EVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_evctrl_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_EVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_EVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_port_evctrl_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].EVCTRL.reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_evctrl_reg_t hri_port_read_EVCTRL_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Port *)hw)->Group[submodule_index].EVCTRL.reg;
+}
+
+static inline void hri_port_set_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                              hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg |= PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_get_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index,
+                                                             uint8_t index, hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXE(mask)) >> PORT_PMUX_PMUXE_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                hri_port_pmux_reg_t data)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp &= ~PORT_PMUX_PMUXE_Msk;
+	tmp |= PORT_PMUX_PMUXE(data);
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg &= ~PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                 hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg ^= PORT_PMUX_PMUXE(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_read_PMUX_PMUXE_bf(const void *const hw, uint8_t submodule_index,
+                                                              uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXE_Msk) >> PORT_PMUX_PMUXE_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                              hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg |= PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_get_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index,
+                                                             uint8_t index, hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXO(mask)) >> PORT_PMUX_PMUXO_Pos;
+	return tmp;
+}
+
+static inline void hri_port_write_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                hri_port_pmux_reg_t data)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp &= ~PORT_PMUX_PMUXO_Msk;
+	tmp |= PORT_PMUX_PMUXO(data);
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg &= ~PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                 hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg ^= PORT_PMUX_PMUXO(mask);
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_read_PMUX_PMUXO_bf(const void *const hw, uint8_t submodule_index,
+                                                              uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp = (tmp & PORT_PMUX_PMUXO_Msk) >> PORT_PMUX_PMUXO_Pos;
+	return tmp;
+}
+
+static inline void hri_port_set_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                         hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_get_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                        hri_port_pmux_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_port_write_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                           hri_port_pmux_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                           hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                            hri_port_pmux_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PMUX[index].reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pmux_reg_t hri_port_read_PMUX_reg(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	return ((Port *)hw)->Group[submodule_index].PMUX[index].reg;
+}
+
+static inline void hri_port_set_PINCFG_PMUXEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg |= PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_PINCFG_PMUXEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_PMUXEN) >> PORT_PINCFG_PMUXEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_PINCFG_PMUXEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                    bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_PMUXEN;
+	tmp |= value << PORT_PINCFG_PMUXEN_Pos;
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PINCFG_PMUXEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg &= ~PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PINCFG_PMUXEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg ^= PORT_PINCFG_PMUXEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_PINCFG_INEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg |= PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_PINCFG_INEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_INEN) >> PORT_PINCFG_INEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_PINCFG_INEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                  bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_INEN;
+	tmp |= value << PORT_PINCFG_INEN_Pos;
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PINCFG_INEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg &= ~PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PINCFG_INEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg ^= PORT_PINCFG_INEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_PINCFG_PULLEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg |= PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_PINCFG_PULLEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_PULLEN) >> PORT_PINCFG_PULLEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_PINCFG_PULLEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                    bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_PULLEN;
+	tmp |= value << PORT_PINCFG_PULLEN_Pos;
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PINCFG_PULLEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg &= ~PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PINCFG_PULLEN_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg ^= PORT_PINCFG_PULLEN;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_PINCFG_DRVSTR_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg |= PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_port_get_PINCFG_DRVSTR_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp = (tmp & PORT_PINCFG_DRVSTR) >> PORT_PINCFG_DRVSTR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_port_write_PINCFG_DRVSTR_bit(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                                    bool value)
+{
+	uint8_t tmp;
+	PORT_CRITICAL_SECTION_ENTER();
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp &= ~PORT_PINCFG_DRVSTR;
+	tmp |= value << PORT_PINCFG_DRVSTR_Pos;
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg = tmp;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PINCFG_DRVSTR_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg &= ~PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PINCFG_DRVSTR_bit(const void *const hw, uint8_t submodule_index, uint8_t index)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg ^= PORT_PINCFG_DRVSTR;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_set_PINCFG_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                           hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg |= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pincfg_reg_t hri_port_get_PINCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                            uint8_t index, hri_port_pincfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_port_write_PINCFG_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                             hri_port_pincfg_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_clear_PINCFG_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                             hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg &= ~mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_port_toggle_PINCFG_reg(const void *const hw, uint8_t submodule_index, uint8_t index,
+                                              hri_port_pincfg_reg_t mask)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].PINCFG[index].reg ^= mask;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_port_pincfg_reg_t hri_port_read_PINCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                             uint8_t index)
+{
+	return ((Port *)hw)->Group[submodule_index].PINCFG[index].reg;
+}
+
+static inline void hri_port_write_WRCONFIG_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_port_wrconfig_reg_t data)
+{
+	PORT_CRITICAL_SECTION_ENTER();
+	((Port *)hw)->Group[submodule_index].WRCONFIG.reg = data;
+	PORT_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_PORT_L22_H_INCLUDED */
+#endif /* _SAML22_PORT_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_rstc_l22.h b/watch-library/hardware/hri/hri_rstc_l22.h
new file mode 100644
index 00000000..853744e2
--- /dev/null
+++ b/watch-library/hardware/hri/hri_rstc_l22.h
@@ -0,0 +1,132 @@
+/**
+ * \file
+ *
+ * \brief SAM RSTC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_RSTC_COMPONENT_
+#ifndef _HRI_RSTC_L22_H_INCLUDED_
+#define _HRI_RSTC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_RSTC_CRITICAL_SECTIONS)
+#define RSTC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define RSTC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define RSTC_CRITICAL_SECTION_ENTER()
+#define RSTC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint8_t hri_rstc_bkupexit_reg_t;
+typedef uint8_t hri_rstc_rcause_reg_t;
+
+static inline bool hri_rstc_get_RCAUSE_POR_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_POR) >> RSTC_RCAUSE_POR_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_BODCORE_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_BODCORE) >> RSTC_RCAUSE_BODCORE_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_BODVDD_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_BODVDD) >> RSTC_RCAUSE_BODVDD_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_EXT_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_EXT) >> RSTC_RCAUSE_EXT_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_WDT_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_WDT) >> RSTC_RCAUSE_WDT_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_SYST_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_SYST) >> RSTC_RCAUSE_SYST_Pos;
+}
+
+static inline bool hri_rstc_get_RCAUSE_BACKUP_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->RCAUSE.reg & RSTC_RCAUSE_BACKUP) >> RSTC_RCAUSE_BACKUP_Pos;
+}
+
+static inline hri_rstc_rcause_reg_t hri_rstc_get_RCAUSE_reg(const void *const hw, hri_rstc_rcause_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rstc *)hw)->RCAUSE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rstc_rcause_reg_t hri_rstc_read_RCAUSE_reg(const void *const hw)
+{
+	return ((Rstc *)hw)->RCAUSE.reg;
+}
+
+static inline bool hri_rstc_get_BKUPEXIT_RTC_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->BKUPEXIT.reg & RSTC_BKUPEXIT_RTC) >> RSTC_BKUPEXIT_RTC_Pos;
+}
+
+static inline bool hri_rstc_get_BKUPEXIT_BBPS_bit(const void *const hw)
+{
+	return (((Rstc *)hw)->BKUPEXIT.reg & RSTC_BKUPEXIT_BBPS) >> RSTC_BKUPEXIT_BBPS_Pos;
+}
+
+static inline hri_rstc_bkupexit_reg_t hri_rstc_get_BKUPEXIT_reg(const void *const hw, hri_rstc_bkupexit_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rstc *)hw)->BKUPEXIT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rstc_bkupexit_reg_t hri_rstc_read_BKUPEXIT_reg(const void *const hw)
+{
+	return ((Rstc *)hw)->BKUPEXIT.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_RSTC_L22_H_INCLUDED */
+#endif /* _SAML22_RSTC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_rtc_l22.h b/watch-library/hardware/hri/hri_rtc_l22.h
new file mode 100644
index 00000000..0b46f010
--- /dev/null
+++ b/watch-library/hardware/hri/hri_rtc_l22.h
@@ -0,0 +1,9084 @@
+/**
+ * \file
+ *
+ * \brief SAM RTC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_RTC_COMPONENT_
+#ifndef _HRI_RTC_L22_H_INCLUDED_
+#define _HRI_RTC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_RTC_CRITICAL_SECTIONS)
+#define RTC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define RTC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define RTC_CRITICAL_SECTION_ENTER()
+#define RTC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_rtcmode0_ctrla_reg_t;
+typedef uint16_t hri_rtcmode0_ctrlb_reg_t;
+typedef uint16_t hri_rtcmode0_intenset_reg_t;
+typedef uint16_t hri_rtcmode0_intflag_reg_t;
+typedef uint16_t hri_rtcmode1_comp_reg_t;
+typedef uint16_t hri_rtcmode1_count_reg_t;
+typedef uint16_t hri_rtcmode1_ctrla_reg_t;
+typedef uint16_t hri_rtcmode1_ctrlb_reg_t;
+typedef uint16_t hri_rtcmode1_intenset_reg_t;
+typedef uint16_t hri_rtcmode1_intflag_reg_t;
+typedef uint16_t hri_rtcmode1_per_reg_t;
+typedef uint16_t hri_rtcmode2_ctrla_reg_t;
+typedef uint16_t hri_rtcmode2_ctrlb_reg_t;
+typedef uint16_t hri_rtcmode2_intenset_reg_t;
+typedef uint16_t hri_rtcmode2_intflag_reg_t;
+typedef uint32_t hri_rtc_bkup_reg_t;
+typedef uint32_t hri_rtc_gp_reg_t;
+typedef uint32_t hri_rtc_tampctrl_reg_t;
+typedef uint32_t hri_rtc_tampid_reg_t;
+typedef uint32_t hri_rtcalarm_alarm_reg_t;
+typedef uint32_t hri_rtcmode0_comp_reg_t;
+typedef uint32_t hri_rtcmode0_count_reg_t;
+typedef uint32_t hri_rtcmode0_evctrl_reg_t;
+typedef uint32_t hri_rtcmode0_syncbusy_reg_t;
+typedef uint32_t hri_rtcmode0_timestamp_reg_t;
+typedef uint32_t hri_rtcmode1_evctrl_reg_t;
+typedef uint32_t hri_rtcmode1_syncbusy_reg_t;
+typedef uint32_t hri_rtcmode1_timestamp_reg_t;
+typedef uint32_t hri_rtcmode2_alarm_reg_t;
+typedef uint32_t hri_rtcmode2_clock_reg_t;
+typedef uint32_t hri_rtcmode2_evctrl_reg_t;
+typedef uint32_t hri_rtcmode2_syncbusy_reg_t;
+typedef uint32_t hri_rtcmode2_timestamp_reg_t;
+typedef uint8_t  hri_rtc_dbgctrl_reg_t;
+typedef uint8_t  hri_rtc_freqcorr_reg_t;
+typedef uint8_t  hri_rtcalarm_mask_reg_t;
+typedef uint8_t  hri_rtcmode2_mask_reg_t;
+
+static inline void hri_rtcmode0_wait_for_sync(const void *const hw, hri_rtcmode0_syncbusy_reg_t reg)
+{
+	while (((Rtc *)hw)->MODE0.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_rtcmode0_is_syncing(const void *const hw, hri_rtcmode0_syncbusy_reg_t reg)
+{
+	return ((Rtc *)hw)->MODE0.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_rtcmode1_wait_for_sync(const void *const hw, hri_rtcmode1_syncbusy_reg_t reg)
+{
+	while (((Rtc *)hw)->MODE1.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_rtcmode1_is_syncing(const void *const hw, hri_rtcmode1_syncbusy_reg_t reg)
+{
+	return ((Rtc *)hw)->MODE1.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_rtcmode2_wait_for_sync(const void *const hw, hri_rtcmode2_syncbusy_reg_t reg)
+{
+	while (((Rtc *)hw)->MODE2.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_rtcmode2_is_syncing(const void *const hw, hri_rtcmode2_syncbusy_reg_t reg)
+{
+	return ((Rtc *)hw)->MODE2.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_rtcalarm_set_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                                        hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_SECOND(mask)) >> RTC_MODE2_ALARM_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_SECOND_Msk;
+	tmp |= RTC_MODE2_ALARM_SECOND(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                       hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_SECOND_Msk) >> RTC_MODE2_ALARM_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                                        hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MINUTE(mask)) >> RTC_MODE2_ALARM_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_MINUTE_Msk;
+	tmp |= RTC_MODE2_ALARM_MINUTE(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                       hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MINUTE_Msk) >> RTC_MODE2_ALARM_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                                      hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_HOUR(mask)) >> RTC_MODE2_ALARM_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_HOUR_Msk;
+	tmp |= RTC_MODE2_ALARM_HOUR(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_HOUR_Msk) >> RTC_MODE2_ALARM_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                                     hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_DAY(mask)) >> RTC_MODE2_ALARM_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_DAY_Msk;
+	tmp |= RTC_MODE2_ALARM_DAY(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_DAY_Msk) >> RTC_MODE2_ALARM_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                                       hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MONTH(mask)) >> RTC_MODE2_ALARM_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_MONTH_Msk;
+	tmp |= RTC_MODE2_ALARM_MONTH(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MONTH_Msk) >> RTC_MODE2_ALARM_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                                      hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_YEAR(mask)) >> RTC_MODE2_ALARM_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_YEAR_Msk;
+	tmp |= RTC_MODE2_ALARM_YEAR(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_YEAR_Msk) >> RTC_MODE2_ALARM_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                              hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_get_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                                  hri_rtcalarm_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcalarm_alarm_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_rtcalarm_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_alarm_reg_t hri_rtcalarm_read_ALARM_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].ALARM.reg;
+}
+
+static inline void hri_rtcalarm_set_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg |= RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_mask_reg_t hri_rtcalarm_get_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                                   hri_rtcalarm_mask_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg;
+	tmp = (tmp & RTC_MODE2_MASK_SEL(mask)) >> RTC_MODE2_MASK_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcalarm_mask_reg_t data)
+{
+	uint8_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg;
+	tmp &= ~RTC_MODE2_MASK_SEL_Msk;
+	tmp |= RTC_MODE2_MASK_SEL(data);
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg &= ~RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg ^= RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_mask_reg_t hri_rtcalarm_read_MASK_SEL_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg;
+	tmp = (tmp & RTC_MODE2_MASK_SEL_Msk) >> RTC_MODE2_MASK_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_set_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                             hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_mask_reg_t hri_rtcalarm_get_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                                                hri_rtcalarm_mask_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcalarm_write_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_rtcalarm_mask_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_clear_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcalarm_toggle_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcalarm_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcalarm_mask_reg_t hri_rtcalarm_read_MASK_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((RtcMode2 *)hw)->Mode2Alarm[submodule_index].MASK.reg;
+}
+
+static inline void hri_rtcmode2_set_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                                        hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_SECOND(mask)) >> RTC_MODE2_ALARM_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_SECOND_Msk;
+	tmp |= RTC_MODE2_ALARM_SECOND(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index,
+                                                       hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_SECOND(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_SECOND_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_SECOND_Msk) >> RTC_MODE2_ALARM_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                                        hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MINUTE(mask)) >> RTC_MODE2_ALARM_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_MINUTE_Msk;
+	tmp |= RTC_MODE2_ALARM_MINUTE(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index,
+                                                       hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_MINUTE(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_MINUTE_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MINUTE_Msk) >> RTC_MODE2_ALARM_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                                      hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_HOUR(mask)) >> RTC_MODE2_ALARM_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_HOUR_Msk;
+	tmp |= RTC_MODE2_ALARM_HOUR(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_HOUR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_HOUR_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_HOUR_Msk) >> RTC_MODE2_ALARM_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                 hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                                     hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_DAY(mask)) >> RTC_MODE2_ALARM_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_DAY_Msk;
+	tmp |= RTC_MODE2_ALARM_DAY(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_DAY(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_DAY_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_DAY_Msk) >> RTC_MODE2_ALARM_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                                       hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MONTH(mask)) >> RTC_MODE2_ALARM_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_MONTH_Msk;
+	tmp |= RTC_MODE2_ALARM_MONTH(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_MONTH(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_MONTH_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_MONTH_Msk) >> RTC_MODE2_ALARM_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                                      hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_YEAR(mask)) >> RTC_MODE2_ALARM_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= ~RTC_MODE2_ALARM_YEAR_Msk;
+	tmp |= RTC_MODE2_ALARM_YEAR(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                    hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index,
+                                                     hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= RTC_MODE2_ALARM_YEAR(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_YEAR_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp = (tmp & RTC_MODE2_ALARM_YEAR_Msk) >> RTC_MODE2_ALARM_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                              hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_get_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                                  hri_rtcmode2_alarm_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcmode2_alarm_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_ALARM_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_rtcmode2_alarm_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_alarm_reg_t hri_rtcmode2_read_ALARM_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].ALARM.reg;
+}
+
+static inline void hri_rtcmode2_set_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg |= RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_mask_reg_t hri_rtcmode2_get_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                                   hri_rtcmode2_mask_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg;
+	tmp = (tmp & RTC_MODE2_MASK_SEL(mask)) >> RTC_MODE2_MASK_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcmode2_mask_reg_t data)
+{
+	uint8_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg;
+	tmp &= ~RTC_MODE2_MASK_SEL_Msk;
+	tmp |= RTC_MODE2_MASK_SEL(data);
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg &= ~RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_MASK_SEL_bf(const void *const hw, uint8_t submodule_index,
+                                                   hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg ^= RTC_MODE2_MASK_SEL(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_mask_reg_t hri_rtcmode2_read_MASK_SEL_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg;
+	tmp = (tmp & RTC_MODE2_MASK_SEL_Msk) >> RTC_MODE2_MASK_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                             hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_mask_reg_t hri_rtcmode2_get_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                                                hri_rtcmode2_mask_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_rtcmode2_mask_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_MASK_reg(const void *const hw, uint8_t submodule_index,
+                                                hri_rtcmode2_mask_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_mask_reg_t hri_rtcmode2_read_MASK_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Rtc *)hw)->MODE2.Mode2Alarm[submodule_index].MASK.reg;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER0) >> RTC_MODE0_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER1) >> RTC_MODE0_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER2) >> RTC_MODE0_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER3) >> RTC_MODE0_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER4) >> RTC_MODE0_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER5) >> RTC_MODE0_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER6) >> RTC_MODE0_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER7) >> RTC_MODE0_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_CMP0) >> RTC_MODE0_INTFLAG_CMP0_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_CMP0;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_TAMPER) >> RTC_MODE0_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode0_get_INTFLAG_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_OVF) >> RTC_MODE0_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_OVF;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER0) >> RTC_MODE0_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER1) >> RTC_MODE0_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER2) >> RTC_MODE0_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER3) >> RTC_MODE0_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER4) >> RTC_MODE0_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER5) >> RTC_MODE0_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER6) >> RTC_MODE0_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_PER7) >> RTC_MODE0_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_CMP0) >> RTC_MODE0_INTFLAG_CMP0_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_CMP0;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_TAMPER) >> RTC_MODE0_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode0_get_interrupt_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTFLAG.reg & RTC_MODE0_INTFLAG_OVF) >> RTC_MODE0_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode0_clear_interrupt_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = RTC_MODE0_INTFLAG_OVF;
+}
+
+static inline hri_rtcmode0_intflag_reg_t hri_rtcmode0_get_INTFLAG_reg(const void *const          hw,
+                                                                      hri_rtcmode0_intflag_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode0_intflag_reg_t hri_rtcmode0_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.INTFLAG.reg;
+}
+
+static inline void hri_rtcmode0_clear_INTFLAG_reg(const void *const hw, hri_rtcmode0_intflag_reg_t mask)
+{
+	((Rtc *)hw)->MODE0.INTFLAG.reg = mask;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER0) >> RTC_MODE1_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER1) >> RTC_MODE1_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER2) >> RTC_MODE1_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER3) >> RTC_MODE1_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER4) >> RTC_MODE1_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER5) >> RTC_MODE1_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER6) >> RTC_MODE1_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER7) >> RTC_MODE1_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_CMP0) >> RTC_MODE1_INTFLAG_CMP0_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_CMP0;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_CMP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_CMP1) >> RTC_MODE1_INTFLAG_CMP1_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_CMP1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_CMP1;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_TAMPER) >> RTC_MODE1_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode1_get_INTFLAG_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_OVF) >> RTC_MODE1_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_OVF;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER0) >> RTC_MODE1_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER1) >> RTC_MODE1_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER2) >> RTC_MODE1_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER3) >> RTC_MODE1_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER4) >> RTC_MODE1_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER5) >> RTC_MODE1_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER6) >> RTC_MODE1_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_PER7) >> RTC_MODE1_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_CMP0) >> RTC_MODE1_INTFLAG_CMP0_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_CMP0;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_CMP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_CMP1) >> RTC_MODE1_INTFLAG_CMP1_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_CMP1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_CMP1;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_TAMPER) >> RTC_MODE1_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode1_get_interrupt_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTFLAG.reg & RTC_MODE1_INTFLAG_OVF) >> RTC_MODE1_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode1_clear_interrupt_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = RTC_MODE1_INTFLAG_OVF;
+}
+
+static inline hri_rtcmode1_intflag_reg_t hri_rtcmode1_get_INTFLAG_reg(const void *const          hw,
+                                                                      hri_rtcmode1_intflag_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode1_intflag_reg_t hri_rtcmode1_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE1.INTFLAG.reg;
+}
+
+static inline void hri_rtcmode1_clear_INTFLAG_reg(const void *const hw, hri_rtcmode1_intflag_reg_t mask)
+{
+	((Rtc *)hw)->MODE1.INTFLAG.reg = mask;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER0) >> RTC_MODE2_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER1) >> RTC_MODE2_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER2) >> RTC_MODE2_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER3) >> RTC_MODE2_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER4) >> RTC_MODE2_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER5) >> RTC_MODE2_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER6) >> RTC_MODE2_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER7) >> RTC_MODE2_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_ALARM0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_ALARM0) >> RTC_MODE2_INTFLAG_ALARM0_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_ALARM0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_ALARM0;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_TAMPER) >> RTC_MODE2_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode2_get_INTFLAG_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_OVF) >> RTC_MODE2_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_OVF;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER0) >> RTC_MODE2_INTFLAG_PER0_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER0;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER1) >> RTC_MODE2_INTFLAG_PER1_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER1;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER2) >> RTC_MODE2_INTFLAG_PER2_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER2;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER3) >> RTC_MODE2_INTFLAG_PER3_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER3;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER4) >> RTC_MODE2_INTFLAG_PER4_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER4;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER5) >> RTC_MODE2_INTFLAG_PER5_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER5;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER6) >> RTC_MODE2_INTFLAG_PER6_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER6;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_PER7) >> RTC_MODE2_INTFLAG_PER7_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_PER7;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_ALARM0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_ALARM0) >> RTC_MODE2_INTFLAG_ALARM0_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_ALARM0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_ALARM0;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_TAMPER) >> RTC_MODE2_INTFLAG_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_TAMPER;
+}
+
+static inline bool hri_rtcmode2_get_interrupt_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTFLAG.reg & RTC_MODE2_INTFLAG_OVF) >> RTC_MODE2_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_rtcmode2_clear_interrupt_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_OVF;
+}
+
+static inline hri_rtcmode2_intflag_reg_t hri_rtcmode2_get_INTFLAG_reg(const void *const          hw,
+                                                                      hri_rtcmode2_intflag_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode2_intflag_reg_t hri_rtcmode2_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE2.INTFLAG.reg;
+}
+
+static inline void hri_rtcmode2_clear_INTFLAG_reg(const void *const hw, hri_rtcmode2_intflag_reg_t mask)
+{
+	((Rtc *)hw)->MODE2.INTFLAG.reg = mask;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER0;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER0) >> RTC_MODE0_INTENSET_PER0_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER0;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER0;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER0;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER1;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER1) >> RTC_MODE0_INTENSET_PER1_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER1;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER1;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER1;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER2;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER2) >> RTC_MODE0_INTENSET_PER2_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER2;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER2;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER2;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER3;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER3) >> RTC_MODE0_INTENSET_PER3_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER3;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER3;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER3;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER4;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER4) >> RTC_MODE0_INTENSET_PER4_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER4_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER4;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER4;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER4;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER5;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER5) >> RTC_MODE0_INTENSET_PER5_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER5_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER5;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER5;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER5;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER6;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER6) >> RTC_MODE0_INTENSET_PER6_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER6_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER6;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER6;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER6;
+}
+
+static inline void hri_rtcmode0_set_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER7;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_PER7) >> RTC_MODE0_INTENSET_PER7_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_PER7_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER7;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_PER7;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_PER7;
+}
+
+static inline void hri_rtcmode0_set_INTEN_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_CMP0;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_CMP0) >> RTC_MODE0_INTENSET_CMP0_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_CMP0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_CMP0;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_CMP0;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_CMP0;
+}
+
+static inline void hri_rtcmode0_set_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_TAMPER;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_TAMPER) >> RTC_MODE0_INTENSET_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_TAMPER_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_TAMPER;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_TAMPER;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_TAMPER;
+}
+
+static inline void hri_rtcmode0_set_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_OVF;
+}
+
+static inline bool hri_rtcmode0_get_INTEN_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.INTENSET.reg & RTC_MODE0_INTENSET_OVF) >> RTC_MODE0_INTENSET_OVF_Pos;
+}
+
+static inline void hri_rtcmode0_write_INTEN_OVF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_OVF;
+	} else {
+		((Rtc *)hw)->MODE0.INTENSET.reg = RTC_MODE0_INTENSET_OVF;
+	}
+}
+
+static inline void hri_rtcmode0_clear_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = RTC_MODE0_INTENSET_OVF;
+}
+
+static inline void hri_rtcmode0_set_INTEN_reg(const void *const hw, hri_rtcmode0_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = mask;
+}
+
+static inline hri_rtcmode0_intenset_reg_t hri_rtcmode0_get_INTEN_reg(const void *const           hw,
+                                                                     hri_rtcmode0_intenset_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode0_intenset_reg_t hri_rtcmode0_read_INTEN_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.INTENSET.reg;
+}
+
+static inline void hri_rtcmode0_write_INTEN_reg(const void *const hw, hri_rtcmode0_intenset_reg_t data)
+{
+	((Rtc *)hw)->MODE0.INTENSET.reg = data;
+	((Rtc *)hw)->MODE0.INTENCLR.reg = ~data;
+}
+
+static inline void hri_rtcmode0_clear_INTEN_reg(const void *const hw, hri_rtcmode0_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE0.INTENCLR.reg = mask;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER0;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER0) >> RTC_MODE1_INTENSET_PER0_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER0;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER0;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER0;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER1;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER1) >> RTC_MODE1_INTENSET_PER1_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER1;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER1;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER1;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER2;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER2) >> RTC_MODE1_INTENSET_PER2_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER2;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER2;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER2;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER3;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER3) >> RTC_MODE1_INTENSET_PER3_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER3;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER3;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER3;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER4;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER4) >> RTC_MODE1_INTENSET_PER4_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER4_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER4;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER4;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER4;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER5;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER5) >> RTC_MODE1_INTENSET_PER5_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER5_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER5;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER5;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER5;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER6;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER6) >> RTC_MODE1_INTENSET_PER6_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER6_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER6;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER6;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER6;
+}
+
+static inline void hri_rtcmode1_set_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER7;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_PER7) >> RTC_MODE1_INTENSET_PER7_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_PER7_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER7;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_PER7;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_PER7;
+}
+
+static inline void hri_rtcmode1_set_INTEN_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_CMP0;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_CMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_CMP0) >> RTC_MODE1_INTENSET_CMP0_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_CMP0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_CMP0;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_CMP0;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_CMP0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_CMP0;
+}
+
+static inline void hri_rtcmode1_set_INTEN_CMP1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_CMP1;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_CMP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_CMP1) >> RTC_MODE1_INTENSET_CMP1_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_CMP1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_CMP1;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_CMP1;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_CMP1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_CMP1;
+}
+
+static inline void hri_rtcmode1_set_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_TAMPER;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_TAMPER) >> RTC_MODE1_INTENSET_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_TAMPER_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_TAMPER;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_TAMPER;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_TAMPER;
+}
+
+static inline void hri_rtcmode1_set_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_OVF;
+}
+
+static inline bool hri_rtcmode1_get_INTEN_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.INTENSET.reg & RTC_MODE1_INTENSET_OVF) >> RTC_MODE1_INTENSET_OVF_Pos;
+}
+
+static inline void hri_rtcmode1_write_INTEN_OVF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_OVF;
+	} else {
+		((Rtc *)hw)->MODE1.INTENSET.reg = RTC_MODE1_INTENSET_OVF;
+	}
+}
+
+static inline void hri_rtcmode1_clear_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = RTC_MODE1_INTENSET_OVF;
+}
+
+static inline void hri_rtcmode1_set_INTEN_reg(const void *const hw, hri_rtcmode1_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = mask;
+}
+
+static inline hri_rtcmode1_intenset_reg_t hri_rtcmode1_get_INTEN_reg(const void *const           hw,
+                                                                     hri_rtcmode1_intenset_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode1_intenset_reg_t hri_rtcmode1_read_INTEN_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE1.INTENSET.reg;
+}
+
+static inline void hri_rtcmode1_write_INTEN_reg(const void *const hw, hri_rtcmode1_intenset_reg_t data)
+{
+	((Rtc *)hw)->MODE1.INTENSET.reg = data;
+	((Rtc *)hw)->MODE1.INTENCLR.reg = ~data;
+}
+
+static inline void hri_rtcmode1_clear_INTEN_reg(const void *const hw, hri_rtcmode1_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE1.INTENCLR.reg = mask;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER0;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER0) >> RTC_MODE2_INTENSET_PER0_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER0;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER0;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER0;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER1;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER1) >> RTC_MODE2_INTENSET_PER1_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER1;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER1;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER1_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER1;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER2;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER2_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER2) >> RTC_MODE2_INTENSET_PER2_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER2;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER2;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER2_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER2;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER3;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER3_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER3) >> RTC_MODE2_INTENSET_PER3_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER3;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER3;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER3_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER3;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER4;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER4_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER4) >> RTC_MODE2_INTENSET_PER4_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER4_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER4;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER4;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER4_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER4;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER5;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER5_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER5) >> RTC_MODE2_INTENSET_PER5_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER5_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER5;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER5;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER5_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER5;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER6;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER6_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER6) >> RTC_MODE2_INTENSET_PER6_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER6_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER6;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER6;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER6_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER6;
+}
+
+static inline void hri_rtcmode2_set_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER7;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_PER7_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_PER7) >> RTC_MODE2_INTENSET_PER7_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_PER7_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER7;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER7;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_PER7_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_PER7;
+}
+
+static inline void hri_rtcmode2_set_INTEN_ALARM0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_ALARM0;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_ALARM0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_ALARM0) >> RTC_MODE2_INTENSET_ALARM0_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_ALARM0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_ALARM0;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_ALARM0;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_ALARM0_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_ALARM0;
+}
+
+static inline void hri_rtcmode2_set_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_TAMPER;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_TAMPER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_TAMPER) >> RTC_MODE2_INTENSET_TAMPER_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_TAMPER_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_TAMPER;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_TAMPER;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_TAMPER_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_TAMPER;
+}
+
+static inline void hri_rtcmode2_set_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_OVF;
+}
+
+static inline bool hri_rtcmode2_get_INTEN_OVF_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.INTENSET.reg & RTC_MODE2_INTENSET_OVF) >> RTC_MODE2_INTENSET_OVF_Pos;
+}
+
+static inline void hri_rtcmode2_write_INTEN_OVF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_OVF;
+	} else {
+		((Rtc *)hw)->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_OVF;
+	}
+}
+
+static inline void hri_rtcmode2_clear_INTEN_OVF_bit(const void *const hw)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = RTC_MODE2_INTENSET_OVF;
+}
+
+static inline void hri_rtcmode2_set_INTEN_reg(const void *const hw, hri_rtcmode2_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = mask;
+}
+
+static inline hri_rtcmode2_intenset_reg_t hri_rtcmode2_get_INTEN_reg(const void *const           hw,
+                                                                     hri_rtcmode2_intenset_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode2_intenset_reg_t hri_rtcmode2_read_INTEN_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE2.INTENSET.reg;
+}
+
+static inline void hri_rtcmode2_write_INTEN_reg(const void *const hw, hri_rtcmode2_intenset_reg_t data)
+{
+	((Rtc *)hw)->MODE2.INTENSET.reg = data;
+	((Rtc *)hw)->MODE2.INTENCLR.reg = ~data;
+}
+
+static inline void hri_rtcmode2_clear_INTEN_reg(const void *const hw, hri_rtcmode2_intenset_reg_t mask)
+{
+	((Rtc *)hw)->MODE2.INTENCLR.reg = mask;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_SWRST) >> RTC_MODE0_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_ENABLE) >> RTC_MODE0_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_FREQCORR_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_FREQCORR) >> RTC_MODE0_SYNCBUSY_FREQCORR_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_COUNT_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_COUNT) >> RTC_MODE0_SYNCBUSY_COUNT_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_COMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_COMP0) >> RTC_MODE0_SYNCBUSY_COMP0_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_COUNTSYNC_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_COUNTSYNC) >> RTC_MODE0_SYNCBUSY_COUNTSYNC_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_GP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_GP0) >> RTC_MODE0_SYNCBUSY_GP0_Pos;
+}
+
+static inline bool hri_rtcmode0_get_SYNCBUSY_GP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE0.SYNCBUSY.reg & RTC_MODE0_SYNCBUSY_GP1) >> RTC_MODE0_SYNCBUSY_GP1_Pos;
+}
+
+static inline hri_rtcmode0_syncbusy_reg_t hri_rtcmode0_get_SYNCBUSY_reg(const void *const           hw,
+                                                                        hri_rtcmode0_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode0_syncbusy_reg_t hri_rtcmode0_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.SYNCBUSY.reg;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_SWRST) >> RTC_MODE1_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_ENABLE) >> RTC_MODE1_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_FREQCORR_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_FREQCORR) >> RTC_MODE1_SYNCBUSY_FREQCORR_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_COUNT_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_COUNT) >> RTC_MODE1_SYNCBUSY_COUNT_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_PER_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_PER) >> RTC_MODE1_SYNCBUSY_PER_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_COMP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_COMP0) >> RTC_MODE1_SYNCBUSY_COMP0_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_COMP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_COMP1) >> RTC_MODE1_SYNCBUSY_COMP1_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_COUNTSYNC_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_COUNTSYNC) >> RTC_MODE1_SYNCBUSY_COUNTSYNC_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_GP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_GP0) >> RTC_MODE1_SYNCBUSY_GP0_Pos;
+}
+
+static inline bool hri_rtcmode1_get_SYNCBUSY_GP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE1.SYNCBUSY.reg & RTC_MODE1_SYNCBUSY_GP1) >> RTC_MODE1_SYNCBUSY_GP1_Pos;
+}
+
+static inline hri_rtcmode1_syncbusy_reg_t hri_rtcmode1_get_SYNCBUSY_reg(const void *const           hw,
+                                                                        hri_rtcmode1_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode1_syncbusy_reg_t hri_rtcmode1_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE1.SYNCBUSY.reg;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_SWRST) >> RTC_MODE2_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_ENABLE) >> RTC_MODE2_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_FREQCORR_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_FREQCORR) >> RTC_MODE2_SYNCBUSY_FREQCORR_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_CLOCK_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_CLOCK) >> RTC_MODE2_SYNCBUSY_CLOCK_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_ALARM0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_ALARM0) >> RTC_MODE2_SYNCBUSY_ALARM0_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_MASK0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_MASK0) >> RTC_MODE2_SYNCBUSY_MASK0_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_CLOCKSYNC_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_CLOCKSYNC) >> RTC_MODE2_SYNCBUSY_CLOCKSYNC_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_GP0_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_GP0) >> RTC_MODE2_SYNCBUSY_GP0_Pos;
+}
+
+static inline bool hri_rtcmode2_get_SYNCBUSY_GP1_bit(const void *const hw)
+{
+	return (((Rtc *)hw)->MODE2.SYNCBUSY.reg & RTC_MODE2_SYNCBUSY_GP1) >> RTC_MODE2_SYNCBUSY_GP1_Pos;
+}
+
+static inline hri_rtcmode2_syncbusy_reg_t hri_rtcmode2_get_SYNCBUSY_reg(const void *const           hw,
+                                                                        hri_rtcmode2_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode2_syncbusy_reg_t hri_rtcmode2_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE2.SYNCBUSY.reg;
+}
+
+static inline hri_rtcmode0_timestamp_reg_t hri_rtcmode0_get_TIMESTAMP_COUNT_bf(const void *const            hw,
+                                                                               hri_rtcmode0_timestamp_reg_t mask)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	return (((Rtc *)hw)->MODE0.TIMESTAMP.reg & RTC_MODE0_TIMESTAMP_COUNT(mask)) >> RTC_MODE0_TIMESTAMP_COUNT_Pos;
+}
+
+static inline hri_rtcmode0_timestamp_reg_t hri_rtcmode0_read_TIMESTAMP_COUNT_bf(const void *const hw)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	return (((Rtc *)hw)->MODE0.TIMESTAMP.reg & RTC_MODE0_TIMESTAMP_COUNT_Msk) >> RTC_MODE0_TIMESTAMP_COUNT_Pos;
+}
+
+static inline hri_rtcmode0_timestamp_reg_t hri_rtcmode0_get_TIMESTAMP_reg(const void *const            hw,
+                                                                          hri_rtcmode0_timestamp_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE0.TIMESTAMP.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode0_timestamp_reg_t hri_rtcmode0_read_TIMESTAMP_reg(const void *const hw)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	return ((Rtc *)hw)->MODE0.TIMESTAMP.reg;
+}
+
+static inline hri_rtcmode1_timestamp_reg_t hri_rtcmode1_get_TIMESTAMP_COUNT_bf(const void *const            hw,
+                                                                               hri_rtcmode1_timestamp_reg_t mask)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	return (((Rtc *)hw)->MODE1.TIMESTAMP.reg & RTC_MODE1_TIMESTAMP_COUNT(mask)) >> RTC_MODE1_TIMESTAMP_COUNT_Pos;
+}
+
+static inline hri_rtcmode1_timestamp_reg_t hri_rtcmode1_read_TIMESTAMP_COUNT_bf(const void *const hw)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	return (((Rtc *)hw)->MODE1.TIMESTAMP.reg & RTC_MODE1_TIMESTAMP_COUNT_Msk) >> RTC_MODE1_TIMESTAMP_COUNT_Pos;
+}
+
+static inline hri_rtcmode1_timestamp_reg_t hri_rtcmode1_get_TIMESTAMP_reg(const void *const            hw,
+                                                                          hri_rtcmode1_timestamp_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE1.TIMESTAMP.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode1_timestamp_reg_t hri_rtcmode1_read_TIMESTAMP_reg(const void *const hw)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	return ((Rtc *)hw)->MODE1.TIMESTAMP.reg;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_SECOND_bf(const void *const            hw,
+                                                                                hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_SECOND(mask)) >> RTC_MODE2_TIMESTAMP_SECOND_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_SECOND_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_SECOND_Msk) >> RTC_MODE2_TIMESTAMP_SECOND_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_MINUTE_bf(const void *const            hw,
+                                                                                hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_MINUTE(mask)) >> RTC_MODE2_TIMESTAMP_MINUTE_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_MINUTE_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_MINUTE_Msk) >> RTC_MODE2_TIMESTAMP_MINUTE_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_HOUR_bf(const void *const            hw,
+                                                                              hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_HOUR(mask)) >> RTC_MODE2_TIMESTAMP_HOUR_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_HOUR_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_HOUR_Msk) >> RTC_MODE2_TIMESTAMP_HOUR_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_DAY_bf(const void *const            hw,
+                                                                             hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_DAY(mask)) >> RTC_MODE2_TIMESTAMP_DAY_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_DAY_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_DAY_Msk) >> RTC_MODE2_TIMESTAMP_DAY_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_MONTH_bf(const void *const            hw,
+                                                                               hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_MONTH(mask)) >> RTC_MODE2_TIMESTAMP_MONTH_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_MONTH_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_MONTH_Msk) >> RTC_MODE2_TIMESTAMP_MONTH_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_YEAR_bf(const void *const            hw,
+                                                                              hri_rtcmode2_timestamp_reg_t mask)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_YEAR(mask)) >> RTC_MODE2_TIMESTAMP_YEAR_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_YEAR_bf(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return (((Rtc *)hw)->MODE2.TIMESTAMP.reg & RTC_MODE2_TIMESTAMP_YEAR_Msk) >> RTC_MODE2_TIMESTAMP_YEAR_Pos;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_get_TIMESTAMP_reg(const void *const            hw,
+                                                                          hri_rtcmode2_timestamp_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.TIMESTAMP.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_rtcmode2_timestamp_reg_t hri_rtcmode2_read_TIMESTAMP_reg(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return ((Rtc *)hw)->MODE2.TIMESTAMP.reg;
+}
+
+static inline void hri_rtcmode0_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_SWRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST);
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_SWRST) >> RTC_MODE0_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_ENABLE;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_ENABLE) >> RTC_MODE0_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_ENABLE;
+	tmp |= value << RTC_MODE0_CTRLA_ENABLE_Pos;
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_ENABLE;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_ENABLE;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_MATCHCLR;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_MATCHCLR) >> RTC_MODE0_CTRLA_MATCHCLR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_MATCHCLR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_MATCHCLR;
+	tmp |= value << RTC_MODE0_CTRLA_MATCHCLR_Pos;
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_MATCHCLR;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_MATCHCLR;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_BKTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_BKTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_BKTRST) >> RTC_MODE0_CTRLA_BKTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_BKTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_BKTRST;
+	tmp |= value << RTC_MODE0_CTRLA_BKTRST_Pos;
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_BKTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_BKTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_GPTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_GPTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_GPTRST) >> RTC_MODE0_CTRLA_GPTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_GPTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_GPTRST;
+	tmp |= value << RTC_MODE0_CTRLA_GPTRST_Pos;
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_GPTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_GPTRST;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_COUNTSYNC;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_COUNTSYNC) >> RTC_MODE0_CTRLA_COUNTSYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_COUNTSYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_COUNTSYNC;
+	tmp |= value << RTC_MODE0_CTRLA_COUNTSYNC_Pos;
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_COUNTSYNC;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_COUNTSYNC;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLA_MODE_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_MODE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_get_CTRLA_MODE_bf(const void *const        hw,
+                                                                      hri_rtcmode0_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_MODE(mask)) >> RTC_MODE0_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_MODE_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_MODE_Msk;
+	tmp |= RTC_MODE0_CTRLA_MODE(data);
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_MODE_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_MODE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_MODE_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_MODE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_MODE_Msk) >> RTC_MODE0_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= RTC_MODE0_CTRLA_PRESCALER(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_get_CTRLA_PRESCALER_bf(const void *const        hw,
+                                                                           hri_rtcmode0_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_PRESCALER(mask)) >> RTC_MODE0_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= ~RTC_MODE0_CTRLA_PRESCALER_Msk;
+	tmp |= RTC_MODE0_CTRLA_PRESCALER(data);
+	((Rtc *)hw)->MODE0.CTRLA.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~RTC_MODE0_CTRLA_PRESCALER(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= RTC_MODE0_CTRLA_PRESCALER(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_read_CTRLA_PRESCALER_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp = (tmp & RTC_MODE0_CTRLA_PRESCALER_Msk) >> RTC_MODE0_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_CTRLA_reg(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg |= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_get_CTRLA_reg(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE0.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLA_reg(const void *const hw, hri_rtcmode0_ctrla_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg = data;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLA_reg(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg &= ~mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLA_reg(const void *const hw, hri_rtcmode0_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLA.reg ^= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrla_reg_t hri_rtcmode0_read_CTRLA_reg(const void *const hw)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_SWRST | RTC_MODE0_SYNCBUSY_ENABLE | RTC_MODE0_SYNCBUSY_COUNTSYNC);
+	return ((Rtc *)hw)->MODE0.CTRLA.reg;
+}
+
+static inline void hri_rtcmode1_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_SWRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST);
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_SWRST) >> RTC_MODE1_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_ENABLE;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_ENABLE) >> RTC_MODE1_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_ENABLE;
+	tmp |= value << RTC_MODE1_CTRLA_ENABLE_Pos;
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_ENABLE;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_ENABLE;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_BKTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLA_BKTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_BKTRST) >> RTC_MODE1_CTRLA_BKTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_BKTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_BKTRST;
+	tmp |= value << RTC_MODE1_CTRLA_BKTRST_Pos;
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_BKTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_BKTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_GPTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLA_GPTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_GPTRST) >> RTC_MODE1_CTRLA_GPTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_GPTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_GPTRST;
+	tmp |= value << RTC_MODE1_CTRLA_GPTRST_Pos;
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_GPTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_GPTRST;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_COUNTSYNC;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_COUNTSYNC) >> RTC_MODE1_CTRLA_COUNTSYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_COUNTSYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_COUNTSYNC;
+	tmp |= value << RTC_MODE1_CTRLA_COUNTSYNC_Pos;
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_COUNTSYNC;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_COUNTSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_COUNTSYNC;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLA_MODE_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_MODE(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_get_CTRLA_MODE_bf(const void *const        hw,
+                                                                      hri_rtcmode1_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_MODE(mask)) >> RTC_MODE1_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_MODE_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_MODE_Msk;
+	tmp |= RTC_MODE1_CTRLA_MODE(data);
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_MODE_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_MODE(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_MODE_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_MODE(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_MODE_Msk) >> RTC_MODE1_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= RTC_MODE1_CTRLA_PRESCALER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_get_CTRLA_PRESCALER_bf(const void *const        hw,
+                                                                           hri_rtcmode1_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_PRESCALER(mask)) >> RTC_MODE1_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= ~RTC_MODE1_CTRLA_PRESCALER_Msk;
+	tmp |= RTC_MODE1_CTRLA_PRESCALER(data);
+	((Rtc *)hw)->MODE1.CTRLA.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~RTC_MODE1_CTRLA_PRESCALER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= RTC_MODE1_CTRLA_PRESCALER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_read_CTRLA_PRESCALER_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp = (tmp & RTC_MODE1_CTRLA_PRESCALER_Msk) >> RTC_MODE1_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_CTRLA_reg(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg |= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_get_CTRLA_reg(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	tmp = ((Rtc *)hw)->MODE1.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLA_reg(const void *const hw, hri_rtcmode1_ctrla_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg = data;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLA_reg(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg &= ~mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLA_reg(const void *const hw, hri_rtcmode1_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLA.reg ^= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrla_reg_t hri_rtcmode1_read_CTRLA_reg(const void *const hw)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_SWRST | RTC_MODE1_SYNCBUSY_ENABLE | RTC_MODE1_SYNCBUSY_COUNTSYNC);
+	return ((Rtc *)hw)->MODE1.CTRLA.reg;
+}
+
+static inline void hri_rtcmode2_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_SWRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST);
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_SWRST) >> RTC_MODE2_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_ENABLE;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_ENABLE) >> RTC_MODE2_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_ENABLE;
+	tmp |= value << RTC_MODE2_CTRLA_ENABLE_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_ENABLE;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_ENABLE;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_CLKREP_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_CLKREP;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_CLKREP_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_CLKREP) >> RTC_MODE2_CTRLA_CLKREP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_CLKREP_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_CLKREP;
+	tmp |= value << RTC_MODE2_CTRLA_CLKREP_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_CLKREP_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_CLKREP;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_CLKREP_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_CLKREP;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_MATCHCLR;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_MATCHCLR) >> RTC_MODE2_CTRLA_MATCHCLR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_MATCHCLR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_MATCHCLR;
+	tmp |= value << RTC_MODE2_CTRLA_MATCHCLR_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_MATCHCLR;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_MATCHCLR_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_MATCHCLR;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_BKTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_BKTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_BKTRST) >> RTC_MODE2_CTRLA_BKTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_BKTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_BKTRST;
+	tmp |= value << RTC_MODE2_CTRLA_BKTRST_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_BKTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_BKTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_BKTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_GPTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_GPTRST_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_GPTRST) >> RTC_MODE2_CTRLA_GPTRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_GPTRST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_GPTRST;
+	tmp |= value << RTC_MODE2_CTRLA_GPTRST_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_GPTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_GPTRST_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_GPTRST;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_CLOCKSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_CLOCKSYNC;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLA_CLOCKSYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_CLOCKSYNC) >> RTC_MODE2_CTRLA_CLOCKSYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_CLOCKSYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_CLOCKSYNC;
+	tmp |= value << RTC_MODE2_CTRLA_CLOCKSYNC_Pos;
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_CLOCKSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_CLOCKSYNC;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_CLOCKSYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_CLOCKSYNC;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLA_MODE_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_MODE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_get_CTRLA_MODE_bf(const void *const        hw,
+                                                                      hri_rtcmode2_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_MODE(mask)) >> RTC_MODE2_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_MODE_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_MODE_Msk;
+	tmp |= RTC_MODE2_CTRLA_MODE(data);
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_MODE_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_MODE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_MODE_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_MODE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_MODE_Msk) >> RTC_MODE2_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= RTC_MODE2_CTRLA_PRESCALER(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_get_CTRLA_PRESCALER_bf(const void *const        hw,
+                                                                           hri_rtcmode2_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_PRESCALER(mask)) >> RTC_MODE2_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= ~RTC_MODE2_CTRLA_PRESCALER_Msk;
+	tmp |= RTC_MODE2_CTRLA_PRESCALER(data);
+	((Rtc *)hw)->MODE2.CTRLA.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~RTC_MODE2_CTRLA_PRESCALER(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_PRESCALER_bf(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= RTC_MODE2_CTRLA_PRESCALER(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_read_CTRLA_PRESCALER_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp = (tmp & RTC_MODE2_CTRLA_PRESCALER_Msk) >> RTC_MODE2_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CTRLA_reg(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg |= mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_get_CTRLA_reg(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	tmp = ((Rtc *)hw)->MODE2.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLA_reg(const void *const hw, hri_rtcmode2_ctrla_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg = data;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLA_reg(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg &= ~mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLA_reg(const void *const hw, hri_rtcmode2_ctrla_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLA.reg ^= mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrla_reg_t hri_rtcmode2_read_CTRLA_reg(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_SWRST | RTC_MODE2_SYNCBUSY_ENABLE | RTC_MODE2_SYNCBUSY_CLOCKSYNC);
+	return ((Rtc *)hw)->MODE2.CTRLA.reg;
+}
+
+static inline void hri_rtcmode0_set_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLB_GP0EN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_GP0EN) >> RTC_MODE0_CTRLB_GP0EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_GP0EN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_GP0EN;
+	tmp |= value << RTC_MODE0_CTRLB_GP0EN_Pos;
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_DEBMAJ) >> RTC_MODE0_CTRLB_DEBMAJ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_DEBMAJ_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_DEBMAJ;
+	tmp |= value << RTC_MODE0_CTRLB_DEBMAJ_Pos;
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_DEBASYNC) >> RTC_MODE0_CTRLB_DEBASYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_DEBASYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_DEBASYNC;
+	tmp |= value << RTC_MODE0_CTRLB_DEBASYNC_Pos;
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_RTCOUT) >> RTC_MODE0_CTRLB_RTCOUT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_RTCOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_RTCOUT;
+	tmp |= value << RTC_MODE0_CTRLB_RTCOUT_Pos;
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_CTRLB_DMAEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_DMAEN) >> RTC_MODE0_CTRLB_DMAEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_DMAEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_DMAEN;
+	tmp |= value << RTC_MODE0_CTRLB_DMAEN_Pos;
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_get_CTRLB_DEBF_bf(const void *const        hw,
+                                                                      hri_rtcmode0_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_DEBF(mask)) >> RTC_MODE0_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_DEBF_Msk;
+	tmp |= RTC_MODE0_CTRLB_DEBF(data);
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_read_CTRLB_DEBF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_DEBF_Msk) >> RTC_MODE0_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= RTC_MODE0_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_get_CTRLB_ACTF_bf(const void *const        hw,
+                                                                      hri_rtcmode0_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_ACTF(mask)) >> RTC_MODE0_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= ~RTC_MODE0_CTRLB_ACTF_Msk;
+	tmp |= RTC_MODE0_CTRLB_ACTF(data);
+	((Rtc *)hw)->MODE0.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~RTC_MODE0_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= RTC_MODE0_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_read_CTRLB_ACTF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp = (tmp & RTC_MODE0_CTRLB_ACTF_Msk) >> RTC_MODE0_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_CTRLB_reg(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_get_CTRLB_reg(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_CTRLB_reg(const void *const hw, hri_rtcmode0_ctrlb_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_CTRLB_reg(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_CTRLB_reg(const void *const hw, hri_rtcmode0_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.CTRLB.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_ctrlb_reg_t hri_rtcmode0_read_CTRLB_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.CTRLB.reg;
+}
+
+static inline void hri_rtcmode1_set_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLB_GP0EN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_GP0EN) >> RTC_MODE1_CTRLB_GP0EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_GP0EN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_GP0EN;
+	tmp |= value << RTC_MODE1_CTRLB_GP0EN_Pos;
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_DEBMAJ) >> RTC_MODE1_CTRLB_DEBMAJ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_DEBMAJ_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_DEBMAJ;
+	tmp |= value << RTC_MODE1_CTRLB_DEBMAJ_Pos;
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_DEBASYNC) >> RTC_MODE1_CTRLB_DEBASYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_DEBASYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_DEBASYNC;
+	tmp |= value << RTC_MODE1_CTRLB_DEBASYNC_Pos;
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_RTCOUT) >> RTC_MODE1_CTRLB_RTCOUT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_RTCOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_RTCOUT;
+	tmp |= value << RTC_MODE1_CTRLB_RTCOUT_Pos;
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_CTRLB_DMAEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_DMAEN) >> RTC_MODE1_CTRLB_DMAEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_DMAEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_DMAEN;
+	tmp |= value << RTC_MODE1_CTRLB_DMAEN_Pos;
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_get_CTRLB_DEBF_bf(const void *const        hw,
+                                                                      hri_rtcmode1_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_DEBF(mask)) >> RTC_MODE1_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_DEBF_Msk;
+	tmp |= RTC_MODE1_CTRLB_DEBF(data);
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_read_CTRLB_DEBF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_DEBF_Msk) >> RTC_MODE1_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= RTC_MODE1_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_get_CTRLB_ACTF_bf(const void *const        hw,
+                                                                      hri_rtcmode1_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_ACTF(mask)) >> RTC_MODE1_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= ~RTC_MODE1_CTRLB_ACTF_Msk;
+	tmp |= RTC_MODE1_CTRLB_ACTF(data);
+	((Rtc *)hw)->MODE1.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~RTC_MODE1_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= RTC_MODE1_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_read_CTRLB_ACTF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp = (tmp & RTC_MODE1_CTRLB_ACTF_Msk) >> RTC_MODE1_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_CTRLB_reg(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_get_CTRLB_reg(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_CTRLB_reg(const void *const hw, hri_rtcmode1_ctrlb_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_CTRLB_reg(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_CTRLB_reg(const void *const hw, hri_rtcmode1_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.CTRLB.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_ctrlb_reg_t hri_rtcmode1_read_CTRLB_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE1.CTRLB.reg;
+}
+
+static inline void hri_rtcmode2_set_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLB_GP0EN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_GP0EN) >> RTC_MODE2_CTRLB_GP0EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_GP0EN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_GP0EN;
+	tmp |= value << RTC_MODE2_CTRLB_GP0EN_Pos;
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_GP0EN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_GP0EN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_DEBMAJ) >> RTC_MODE2_CTRLB_DEBMAJ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_DEBMAJ_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_DEBMAJ;
+	tmp |= value << RTC_MODE2_CTRLB_DEBMAJ_Pos;
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_DEBMAJ_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_DEBMAJ;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_DEBASYNC) >> RTC_MODE2_CTRLB_DEBASYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_DEBASYNC_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_DEBASYNC;
+	tmp |= value << RTC_MODE2_CTRLB_DEBASYNC_Pos;
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_DEBASYNC_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_DEBASYNC;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_RTCOUT) >> RTC_MODE2_CTRLB_RTCOUT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_RTCOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_RTCOUT;
+	tmp |= value << RTC_MODE2_CTRLB_RTCOUT_Pos;
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_RTCOUT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_RTCOUT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_CTRLB_DMAEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_DMAEN) >> RTC_MODE2_CTRLB_DMAEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_DMAEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_DMAEN;
+	tmp |= value << RTC_MODE2_CTRLB_DMAEN_Pos;
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_DMAEN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_DMAEN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_get_CTRLB_DEBF_bf(const void *const        hw,
+                                                                      hri_rtcmode2_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_DEBF(mask)) >> RTC_MODE2_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_DEBF_Msk;
+	tmp |= RTC_MODE2_CTRLB_DEBF(data);
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_DEBF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_DEBF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_read_CTRLB_DEBF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_DEBF_Msk) >> RTC_MODE2_CTRLB_DEBF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= RTC_MODE2_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_get_CTRLB_ACTF_bf(const void *const        hw,
+                                                                      hri_rtcmode2_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_ACTF(mask)) >> RTC_MODE2_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= ~RTC_MODE2_CTRLB_ACTF_Msk;
+	tmp |= RTC_MODE2_CTRLB_ACTF(data);
+	((Rtc *)hw)->MODE2.CTRLB.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~RTC_MODE2_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_ACTF_bf(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= RTC_MODE2_CTRLB_ACTF(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_read_CTRLB_ACTF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp = (tmp & RTC_MODE2_CTRLB_ACTF_Msk) >> RTC_MODE2_CTRLB_ACTF_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CTRLB_reg(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_get_CTRLB_reg(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CTRLB_reg(const void *const hw, hri_rtcmode2_ctrlb_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CTRLB_reg(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CTRLB_reg(const void *const hw, hri_rtcmode2_ctrlb_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CTRLB.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_ctrlb_reg_t hri_rtcmode2_read_CTRLB_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE2.CTRLB.reg;
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO0) >> RTC_MODE0_EVCTRL_PEREO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO0;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO0_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO1) >> RTC_MODE0_EVCTRL_PEREO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO1;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO1_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO2) >> RTC_MODE0_EVCTRL_PEREO2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO2;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO2_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO3) >> RTC_MODE0_EVCTRL_PEREO3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO3;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO3_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO4) >> RTC_MODE0_EVCTRL_PEREO4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO4;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO4_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO5) >> RTC_MODE0_EVCTRL_PEREO5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO5;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO5_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO6) >> RTC_MODE0_EVCTRL_PEREO6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO6;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO6_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_PEREO7) >> RTC_MODE0_EVCTRL_PEREO7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_PEREO7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_PEREO7;
+	tmp |= value << RTC_MODE0_EVCTRL_PEREO7_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_CMPEO0) >> RTC_MODE0_EVCTRL_CMPEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_CMPEO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_CMPEO0;
+	tmp |= value << RTC_MODE0_EVCTRL_CMPEO0_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_TAMPEREO) >> RTC_MODE0_EVCTRL_TAMPEREO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_TAMPEREO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_TAMPEREO;
+	tmp |= value << RTC_MODE0_EVCTRL_TAMPEREO_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_OVFEO) >> RTC_MODE0_EVCTRL_OVFEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_OVFEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_OVFEO;
+	tmp |= value << RTC_MODE0_EVCTRL_OVFEO_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= RTC_MODE0_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode0_get_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE0_EVCTRL_TAMPEVEI) >> RTC_MODE0_EVCTRL_TAMPEVEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_TAMPEVEI_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= ~RTC_MODE0_EVCTRL_TAMPEVEI;
+	tmp |= value << RTC_MODE0_EVCTRL_TAMPEVEI_Pos;
+	((Rtc *)hw)->MODE0.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~RTC_MODE0_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= RTC_MODE0_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_set_EVCTRL_reg(const void *const hw, hri_rtcmode0_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_evctrl_reg_t hri_rtcmode0_get_EVCTRL_reg(const void *const         hw,
+                                                                    hri_rtcmode0_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_EVCTRL_reg(const void *const hw, hri_rtcmode0_evctrl_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_EVCTRL_reg(const void *const hw, hri_rtcmode0_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_EVCTRL_reg(const void *const hw, hri_rtcmode0_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.EVCTRL.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_evctrl_reg_t hri_rtcmode0_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.EVCTRL.reg;
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO0) >> RTC_MODE1_EVCTRL_PEREO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO0;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO0_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO1) >> RTC_MODE1_EVCTRL_PEREO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO1;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO1_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO2) >> RTC_MODE1_EVCTRL_PEREO2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO2;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO2_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO3) >> RTC_MODE1_EVCTRL_PEREO3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO3;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO3_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO4) >> RTC_MODE1_EVCTRL_PEREO4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO4;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO4_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO5) >> RTC_MODE1_EVCTRL_PEREO5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO5;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO5_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO6) >> RTC_MODE1_EVCTRL_PEREO6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO6;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO6_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_PEREO7) >> RTC_MODE1_EVCTRL_PEREO7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_PEREO7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_PEREO7;
+	tmp |= value << RTC_MODE1_EVCTRL_PEREO7_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_CMPEO0) >> RTC_MODE1_EVCTRL_CMPEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_CMPEO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_CMPEO0;
+	tmp |= value << RTC_MODE1_EVCTRL_CMPEO0_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_CMPEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_CMPEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_CMPEO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_CMPEO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_CMPEO1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_CMPEO1) >> RTC_MODE1_EVCTRL_CMPEO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_CMPEO1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_CMPEO1;
+	tmp |= value << RTC_MODE1_EVCTRL_CMPEO1_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_CMPEO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_CMPEO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_CMPEO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_CMPEO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_TAMPEREO) >> RTC_MODE1_EVCTRL_TAMPEREO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_TAMPEREO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_TAMPEREO;
+	tmp |= value << RTC_MODE1_EVCTRL_TAMPEREO_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_OVFEO) >> RTC_MODE1_EVCTRL_OVFEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_OVFEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_OVFEO;
+	tmp |= value << RTC_MODE1_EVCTRL_OVFEO_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= RTC_MODE1_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode1_get_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE1_EVCTRL_TAMPEVEI) >> RTC_MODE1_EVCTRL_TAMPEVEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_TAMPEVEI_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= ~RTC_MODE1_EVCTRL_TAMPEVEI;
+	tmp |= value << RTC_MODE1_EVCTRL_TAMPEVEI_Pos;
+	((Rtc *)hw)->MODE1.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~RTC_MODE1_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= RTC_MODE1_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_set_EVCTRL_reg(const void *const hw, hri_rtcmode1_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_evctrl_reg_t hri_rtcmode1_get_EVCTRL_reg(const void *const         hw,
+                                                                    hri_rtcmode1_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_EVCTRL_reg(const void *const hw, hri_rtcmode1_evctrl_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_EVCTRL_reg(const void *const hw, hri_rtcmode1_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_EVCTRL_reg(const void *const hw, hri_rtcmode1_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.EVCTRL.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_evctrl_reg_t hri_rtcmode1_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE1.EVCTRL.reg;
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO0) >> RTC_MODE2_EVCTRL_PEREO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO0;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO0_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO1) >> RTC_MODE2_EVCTRL_PEREO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO1;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO1_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO2) >> RTC_MODE2_EVCTRL_PEREO2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO2;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO2_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO3) >> RTC_MODE2_EVCTRL_PEREO3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO3;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO3_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO4) >> RTC_MODE2_EVCTRL_PEREO4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO4;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO4_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO5) >> RTC_MODE2_EVCTRL_PEREO5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO5;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO5_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO5_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO5;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO6) >> RTC_MODE2_EVCTRL_PEREO6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO6;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO6_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO6_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO6;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_PEREO7) >> RTC_MODE2_EVCTRL_PEREO7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_PEREO7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_PEREO7;
+	tmp |= value << RTC_MODE2_EVCTRL_PEREO7_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_PEREO7_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_PEREO7;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_ALARMEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_ALARMEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_ALARMEO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_ALARMEO0) >> RTC_MODE2_EVCTRL_ALARMEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_ALARMEO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_ALARMEO0;
+	tmp |= value << RTC_MODE2_EVCTRL_ALARMEO0_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_ALARMEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_ALARMEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_ALARMEO0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_ALARMEO0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_TAMPEREO) >> RTC_MODE2_EVCTRL_TAMPEREO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_TAMPEREO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_TAMPEREO;
+	tmp |= value << RTC_MODE2_EVCTRL_TAMPEREO_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_TAMPEREO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_TAMPEREO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_OVFEO) >> RTC_MODE2_EVCTRL_OVFEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_OVFEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_OVFEO;
+	tmp |= value << RTC_MODE2_EVCTRL_OVFEO_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_OVFEO;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= RTC_MODE2_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtcmode2_get_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp = (tmp & RTC_MODE2_EVCTRL_TAMPEVEI) >> RTC_MODE2_EVCTRL_TAMPEVEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_TAMPEVEI_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= ~RTC_MODE2_EVCTRL_TAMPEVEI;
+	tmp |= value << RTC_MODE2_EVCTRL_TAMPEVEI_Pos;
+	((Rtc *)hw)->MODE2.EVCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~RTC_MODE2_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_TAMPEVEI_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= RTC_MODE2_EVCTRL_TAMPEVEI;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_set_EVCTRL_reg(const void *const hw, hri_rtcmode2_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_evctrl_reg_t hri_rtcmode2_get_EVCTRL_reg(const void *const         hw,
+                                                                    hri_rtcmode2_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE2.EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_EVCTRL_reg(const void *const hw, hri_rtcmode2_evctrl_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_EVCTRL_reg(const void *const hw, hri_rtcmode2_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_EVCTRL_reg(const void *const hw, hri_rtcmode2_evctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.EVCTRL.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_evctrl_reg_t hri_rtcmode2_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE2.EVCTRL.reg;
+}
+
+static inline void hri_rtc_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg |= RTC_DBGCTRL_DBGRUN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.DBGCTRL.reg;
+	tmp = (tmp & RTC_DBGCTRL_DBGRUN) >> RTC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.DBGCTRL.reg;
+	tmp &= ~RTC_DBGCTRL_DBGRUN;
+	tmp |= value << RTC_DBGCTRL_DBGRUN_Pos;
+	((Rtc *)hw)->MODE0.DBGCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg &= ~RTC_DBGCTRL_DBGRUN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg ^= RTC_DBGCTRL_DBGRUN;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_DBGCTRL_reg(const void *const hw, hri_rtc_dbgctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_dbgctrl_reg_t hri_rtc_get_DBGCTRL_reg(const void *const hw, hri_rtc_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_DBGCTRL_reg(const void *const hw, hri_rtc_dbgctrl_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_DBGCTRL_reg(const void *const hw, hri_rtc_dbgctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_DBGCTRL_reg(const void *const hw, hri_rtc_dbgctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.DBGCTRL.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_dbgctrl_reg_t hri_rtc_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.DBGCTRL.reg;
+}
+
+static inline void hri_rtc_set_FREQCORR_SIGN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg |= RTC_FREQCORR_SIGN;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_FREQCORR_SIGN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp = (tmp & RTC_FREQCORR_SIGN) >> RTC_FREQCORR_SIGN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_FREQCORR_SIGN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp &= ~RTC_FREQCORR_SIGN;
+	tmp |= value << RTC_FREQCORR_SIGN_Pos;
+	((Rtc *)hw)->MODE0.FREQCORR.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_FREQCORR_SIGN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg &= ~RTC_FREQCORR_SIGN;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_FREQCORR_SIGN_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg ^= RTC_FREQCORR_SIGN;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_FREQCORR_VALUE_bf(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg |= RTC_FREQCORR_VALUE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_freqcorr_reg_t hri_rtc_get_FREQCORR_VALUE_bf(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp = (tmp & RTC_FREQCORR_VALUE(mask)) >> RTC_FREQCORR_VALUE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_FREQCORR_VALUE_bf(const void *const hw, hri_rtc_freqcorr_reg_t data)
+{
+	uint8_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp &= ~RTC_FREQCORR_VALUE_Msk;
+	tmp |= RTC_FREQCORR_VALUE(data);
+	((Rtc *)hw)->MODE0.FREQCORR.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_FREQCORR_VALUE_bf(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg &= ~RTC_FREQCORR_VALUE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_FREQCORR_VALUE_bf(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg ^= RTC_FREQCORR_VALUE(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_freqcorr_reg_t hri_rtc_read_FREQCORR_VALUE_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp = (tmp & RTC_FREQCORR_VALUE_Msk) >> RTC_FREQCORR_VALUE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_FREQCORR_reg(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg |= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_freqcorr_reg_t hri_rtc_get_FREQCORR_reg(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	uint8_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	tmp = ((Rtc *)hw)->MODE0.FREQCORR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_FREQCORR_reg(const void *const hw, hri_rtc_freqcorr_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg = data;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_FREQCORR_reg(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg &= ~mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_FREQCORR_reg(const void *const hw, hri_rtc_freqcorr_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.FREQCORR.reg ^= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_freqcorr_reg_t hri_rtc_read_FREQCORR_reg(const void *const hw)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_MASK);
+	return ((Rtc *)hw)->MODE0.FREQCORR.reg;
+}
+
+static inline void hri_rtcmode0_set_COUNT_COUNT_bf(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg |= RTC_MODE0_COUNT_COUNT(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_count_reg_t hri_rtcmode0_get_COUNT_COUNT_bf(const void *const        hw,
+                                                                       hri_rtcmode0_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE0.COUNT.reg;
+	tmp = (tmp & RTC_MODE0_COUNT_COUNT(mask)) >> RTC_MODE0_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_COUNT_COUNT_bf(const void *const hw, hri_rtcmode0_count_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.COUNT.reg;
+	tmp &= ~RTC_MODE0_COUNT_COUNT_Msk;
+	tmp |= RTC_MODE0_COUNT_COUNT(data);
+	((Rtc *)hw)->MODE0.COUNT.reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_COUNT_COUNT_bf(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg &= ~RTC_MODE0_COUNT_COUNT(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_COUNT_COUNT_bf(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg ^= RTC_MODE0_COUNT_COUNT(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_count_reg_t hri_rtcmode0_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE0.COUNT.reg;
+	tmp = (tmp & RTC_MODE0_COUNT_COUNT_Msk) >> RTC_MODE0_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_COUNT_reg(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg |= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_count_reg_t hri_rtcmode0_get_COUNT_reg(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE0.COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_COUNT_reg(const void *const hw, hri_rtcmode0_count_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg = data;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_COUNT_reg(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg &= ~mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_COUNT_reg(const void *const hw, hri_rtcmode0_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COUNT.reg ^= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_count_reg_t hri_rtcmode0_read_COUNT_reg(const void *const hw)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COUNT);
+	return ((Rtc *)hw)->MODE0.COUNT.reg;
+}
+
+static inline void hri_rtcmode1_set_COUNT_COUNT_bf(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg |= RTC_MODE1_COUNT_COUNT(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_count_reg_t hri_rtcmode1_get_COUNT_COUNT_bf(const void *const        hw,
+                                                                       hri_rtcmode1_count_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE1.COUNT.reg;
+	tmp = (tmp & RTC_MODE1_COUNT_COUNT(mask)) >> RTC_MODE1_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_COUNT_COUNT_bf(const void *const hw, hri_rtcmode1_count_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.COUNT.reg;
+	tmp &= ~RTC_MODE1_COUNT_COUNT_Msk;
+	tmp |= RTC_MODE1_COUNT_COUNT(data);
+	((Rtc *)hw)->MODE1.COUNT.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_COUNT_COUNT_bf(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg &= ~RTC_MODE1_COUNT_COUNT(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_COUNT_COUNT_bf(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg ^= RTC_MODE1_COUNT_COUNT(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_count_reg_t hri_rtcmode1_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE1.COUNT.reg;
+	tmp = (tmp & RTC_MODE1_COUNT_COUNT_Msk) >> RTC_MODE1_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_COUNT_reg(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg |= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_count_reg_t hri_rtcmode1_get_COUNT_reg(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	tmp = ((Rtc *)hw)->MODE1.COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_COUNT_reg(const void *const hw, hri_rtcmode1_count_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg = data;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_COUNT_reg(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg &= ~mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_COUNT_reg(const void *const hw, hri_rtcmode1_count_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COUNT.reg ^= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_count_reg_t hri_rtcmode1_read_COUNT_reg(const void *const hw)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COUNT);
+	return ((Rtc *)hw)->MODE1.COUNT.reg;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_SECOND_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_SECOND(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_SECOND_bf(const void *const        hw,
+                                                                        hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_SECOND(mask)) >> RTC_MODE2_CLOCK_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_SECOND_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_SECOND_Msk;
+	tmp |= RTC_MODE2_CLOCK_SECOND(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_SECOND_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_SECOND(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_SECOND_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_SECOND(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_SECOND_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_SECOND_Msk) >> RTC_MODE2_CLOCK_SECOND_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_MINUTE_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_MINUTE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_MINUTE_bf(const void *const        hw,
+                                                                        hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_MINUTE(mask)) >> RTC_MODE2_CLOCK_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_MINUTE_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_MINUTE_Msk;
+	tmp |= RTC_MODE2_CLOCK_MINUTE(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_MINUTE_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_MINUTE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_MINUTE_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_MINUTE(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_MINUTE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_MINUTE_Msk) >> RTC_MODE2_CLOCK_MINUTE_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_HOUR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_HOUR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_HOUR_bf(const void *const        hw,
+                                                                      hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_HOUR(mask)) >> RTC_MODE2_CLOCK_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_HOUR_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_HOUR_Msk;
+	tmp |= RTC_MODE2_CLOCK_HOUR(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_HOUR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_HOUR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_HOUR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_HOUR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_HOUR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_HOUR_Msk) >> RTC_MODE2_CLOCK_HOUR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_DAY_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_DAY(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_DAY_bf(const void *const        hw,
+                                                                     hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_DAY(mask)) >> RTC_MODE2_CLOCK_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_DAY_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_DAY_Msk;
+	tmp |= RTC_MODE2_CLOCK_DAY(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_DAY_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_DAY(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_DAY_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_DAY(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_DAY_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_DAY_Msk) >> RTC_MODE2_CLOCK_DAY_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_MONTH_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_MONTH(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_MONTH_bf(const void *const        hw,
+                                                                       hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_MONTH(mask)) >> RTC_MODE2_CLOCK_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_MONTH_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_MONTH_Msk;
+	tmp |= RTC_MODE2_CLOCK_MONTH(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_MONTH_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_MONTH(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_MONTH_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_MONTH(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_MONTH_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_MONTH_Msk) >> RTC_MODE2_CLOCK_MONTH_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_YEAR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= RTC_MODE2_CLOCK_YEAR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_YEAR_bf(const void *const        hw,
+                                                                      hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_YEAR(mask)) >> RTC_MODE2_CLOCK_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_YEAR_bf(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= ~RTC_MODE2_CLOCK_YEAR_Msk;
+	tmp |= RTC_MODE2_CLOCK_YEAR(data);
+	((Rtc *)hw)->MODE2.CLOCK.reg = tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_YEAR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~RTC_MODE2_CLOCK_YEAR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_YEAR_bf(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= RTC_MODE2_CLOCK_YEAR(mask);
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_YEAR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp = (tmp & RTC_MODE2_CLOCK_YEAR_Msk) >> RTC_MODE2_CLOCK_YEAR_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_set_CLOCK_reg(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg |= mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_get_CLOCK_reg(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	tmp = ((Rtc *)hw)->MODE2.CLOCK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode2_write_CLOCK_reg(const void *const hw, hri_rtcmode2_clock_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg = data;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_clear_CLOCK_reg(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg &= ~mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode2_toggle_CLOCK_reg(const void *const hw, hri_rtcmode2_clock_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE2.CLOCK.reg ^= mask;
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode2_clock_reg_t hri_rtcmode2_read_CLOCK_reg(const void *const hw)
+{
+	hri_rtcmode2_wait_for_sync(hw, RTC_MODE2_SYNCBUSY_MASK_);
+	return ((Rtc *)hw)->MODE2.CLOCK.reg;
+}
+
+static inline void hri_rtcmode1_set_PER_PER_bf(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg |= RTC_MODE1_PER_PER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_per_reg_t hri_rtcmode1_get_PER_PER_bf(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	tmp = ((Rtc *)hw)->MODE1.PER.reg;
+	tmp = (tmp & RTC_MODE1_PER_PER(mask)) >> RTC_MODE1_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_PER_PER_bf(const void *const hw, hri_rtcmode1_per_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.PER.reg;
+	tmp &= ~RTC_MODE1_PER_PER_Msk;
+	tmp |= RTC_MODE1_PER_PER(data);
+	((Rtc *)hw)->MODE1.PER.reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_PER_PER_bf(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg &= ~RTC_MODE1_PER_PER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_PER_PER_bf(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg ^= RTC_MODE1_PER_PER(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_per_reg_t hri_rtcmode1_read_PER_PER_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	tmp = ((Rtc *)hw)->MODE1.PER.reg;
+	tmp = (tmp & RTC_MODE1_PER_PER_Msk) >> RTC_MODE1_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_PER_reg(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg |= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_per_reg_t hri_rtcmode1_get_PER_reg(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	tmp = ((Rtc *)hw)->MODE1.PER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_PER_reg(const void *const hw, hri_rtcmode1_per_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg = data;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_PER_reg(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg &= ~mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_PER_reg(const void *const hw, hri_rtcmode1_per_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.PER.reg ^= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_per_reg_t hri_rtcmode1_read_PER_reg(const void *const hw)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_PER);
+	return ((Rtc *)hw)->MODE1.PER.reg;
+}
+
+static inline void hri_rtcmode0_set_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg |= RTC_MODE0_COMP_COMP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_comp_reg_t hri_rtcmode0_get_COMP_COMP_bf(const void *const hw, uint8_t index,
+                                                                    hri_rtcmode0_comp_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.COMP[index].reg;
+	tmp = (tmp & RTC_MODE0_COMP_COMP(mask)) >> RTC_MODE0_COMP_COMP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.COMP[index].reg;
+	tmp &= ~RTC_MODE0_COMP_COMP_Msk;
+	tmp |= RTC_MODE0_COMP_COMP(data);
+	((Rtc *)hw)->MODE0.COMP[index].reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg &= ~RTC_MODE0_COMP_COMP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg ^= RTC_MODE0_COMP_COMP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_comp_reg_t hri_rtcmode0_read_COMP_COMP_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.COMP[index].reg;
+	tmp = (tmp & RTC_MODE0_COMP_COMP_Msk) >> RTC_MODE0_COMP_COMP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_set_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg |= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_comp_reg_t hri_rtcmode0_get_COMP_reg(const void *const hw, uint8_t index,
+                                                                hri_rtcmode0_comp_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	tmp = ((Rtc *)hw)->MODE0.COMP[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode0_write_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg = data;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_clear_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg &= ~mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode0_toggle_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode0_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.COMP[index].reg ^= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode0_comp_reg_t hri_rtcmode0_read_COMP_reg(const void *const hw, uint8_t index)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_COMP0);
+	return ((Rtc *)hw)->MODE0.COMP[index].reg;
+}
+
+static inline void hri_rtcmode1_set_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg |= RTC_MODE1_COMP_COMP(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_comp_reg_t hri_rtcmode1_get_COMP_COMP_bf(const void *const hw, uint8_t index,
+                                                                    hri_rtcmode1_comp_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.COMP[index].reg;
+	tmp = (tmp & RTC_MODE1_COMP_COMP(mask)) >> RTC_MODE1_COMP_COMP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t data)
+{
+	uint16_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE1.COMP[index].reg;
+	tmp &= ~RTC_MODE1_COMP_COMP_Msk;
+	tmp |= RTC_MODE1_COMP_COMP(data);
+	((Rtc *)hw)->MODE1.COMP[index].reg = tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg &= ~RTC_MODE1_COMP_COMP(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_COMP_COMP_bf(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg ^= RTC_MODE1_COMP_COMP(mask);
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_comp_reg_t hri_rtcmode1_read_COMP_COMP_bf(const void *const hw, uint8_t index)
+{
+	uint16_t tmp;
+	tmp = ((Rtc *)hw)->MODE1.COMP[index].reg;
+	tmp = (tmp & RTC_MODE1_COMP_COMP_Msk) >> RTC_MODE1_COMP_COMP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_set_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg |= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_comp_reg_t hri_rtcmode1_get_COMP_reg(const void *const hw, uint8_t index,
+                                                                hri_rtcmode1_comp_reg_t mask)
+{
+	uint16_t tmp;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	tmp = ((Rtc *)hw)->MODE1.COMP[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtcmode1_write_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg = data;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_clear_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg &= ~mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtcmode1_toggle_COMP_reg(const void *const hw, uint8_t index, hri_rtcmode1_comp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE1.COMP[index].reg ^= mask;
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtcmode1_comp_reg_t hri_rtcmode1_read_COMP_reg(const void *const hw, uint8_t index)
+{
+	hri_rtcmode1_wait_for_sync(hw, RTC_MODE1_SYNCBUSY_COMP0 | RTC_MODE1_SYNCBUSY_COMP1);
+	return ((Rtc *)hw)->MODE1.COMP[index].reg;
+}
+
+static inline void hri_rtc_set_GP_GP_bf(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg |= RTC_GP_GP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_gp_reg_t hri_rtc_get_GP_GP_bf(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.GP[index].reg;
+	tmp = (tmp & RTC_GP_GP(mask)) >> RTC_GP_GP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_GP_GP_bf(const void *const hw, uint8_t index, hri_rtc_gp_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.GP[index].reg;
+	tmp &= ~RTC_GP_GP_Msk;
+	tmp |= RTC_GP_GP(data);
+	((Rtc *)hw)->MODE0.GP[index].reg = tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_GP_GP_bf(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg &= ~RTC_GP_GP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_GP_GP_bf(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg ^= RTC_GP_GP(mask);
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_gp_reg_t hri_rtc_read_GP_GP_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.GP[index].reg;
+	tmp = (tmp & RTC_GP_GP_Msk) >> RTC_GP_GP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_GP_reg(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg |= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_gp_reg_t hri_rtc_get_GP_reg(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	uint32_t tmp;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	tmp = ((Rtc *)hw)->MODE0.GP[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_GP_reg(const void *const hw, uint8_t index, hri_rtc_gp_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg = data;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_GP_reg(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg &= ~mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_GP_reg(const void *const hw, uint8_t index, hri_rtc_gp_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.GP[index].reg ^= mask;
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_gp_reg_t hri_rtc_read_GP_reg(const void *const hw, uint8_t index)
+{
+	hri_rtcmode0_wait_for_sync(hw, RTC_MODE0_SYNCBUSY_GP0 | RTC_MODE0_SYNCBUSY_GP1);
+	return ((Rtc *)hw)->MODE0.GP[index].reg;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_TAMLVL0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_TAMLVL0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_TAMLVL0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_TAMLVL0) >> RTC_TAMPCTRL_TAMLVL0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_TAMLVL0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_TAMLVL0;
+	tmp |= value << RTC_TAMPCTRL_TAMLVL0_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_TAMLVL0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_TAMLVL0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_TAMLVL0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_TAMLVL0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_TAMLVL1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_TAMLVL1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_TAMLVL1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_TAMLVL1) >> RTC_TAMPCTRL_TAMLVL1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_TAMLVL1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_TAMLVL1;
+	tmp |= value << RTC_TAMPCTRL_TAMLVL1_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_TAMLVL1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_TAMLVL1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_TAMLVL1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_TAMLVL1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_TAMLVL2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_TAMLVL2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_TAMLVL2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_TAMLVL2) >> RTC_TAMPCTRL_TAMLVL2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_TAMLVL2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_TAMLVL2;
+	tmp |= value << RTC_TAMPCTRL_TAMLVL2_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_TAMLVL2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_TAMLVL2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_TAMLVL2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_TAMLVL2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_TAMLVL3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_TAMLVL3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_TAMLVL3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_TAMLVL3) >> RTC_TAMPCTRL_TAMLVL3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_TAMLVL3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_TAMLVL3;
+	tmp |= value << RTC_TAMPCTRL_TAMLVL3_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_TAMLVL3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_TAMLVL3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_TAMLVL3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_TAMLVL3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_TAMLVL4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_TAMLVL4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_TAMLVL4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_TAMLVL4) >> RTC_TAMPCTRL_TAMLVL4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_TAMLVL4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_TAMLVL4;
+	tmp |= value << RTC_TAMPCTRL_TAMLVL4_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_TAMLVL4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_TAMLVL4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_TAMLVL4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_TAMLVL4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_DEBNC0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_DEBNC0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_DEBNC0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_DEBNC0) >> RTC_TAMPCTRL_DEBNC0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_DEBNC0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_DEBNC0;
+	tmp |= value << RTC_TAMPCTRL_DEBNC0_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_DEBNC0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_DEBNC0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_DEBNC0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_DEBNC0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_DEBNC1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_DEBNC1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_DEBNC1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_DEBNC1) >> RTC_TAMPCTRL_DEBNC1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_DEBNC1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_DEBNC1;
+	tmp |= value << RTC_TAMPCTRL_DEBNC1_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_DEBNC1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_DEBNC1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_DEBNC1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_DEBNC1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_DEBNC2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_DEBNC2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_DEBNC2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_DEBNC2) >> RTC_TAMPCTRL_DEBNC2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_DEBNC2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_DEBNC2;
+	tmp |= value << RTC_TAMPCTRL_DEBNC2_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_DEBNC2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_DEBNC2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_DEBNC2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_DEBNC2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_DEBNC3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_DEBNC3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_DEBNC3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_DEBNC3) >> RTC_TAMPCTRL_DEBNC3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_DEBNC3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_DEBNC3;
+	tmp |= value << RTC_TAMPCTRL_DEBNC3_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_DEBNC3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_DEBNC3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_DEBNC3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_DEBNC3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_DEBNC4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_DEBNC4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPCTRL_DEBNC4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_DEBNC4) >> RTC_TAMPCTRL_DEBNC4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_DEBNC4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_DEBNC4;
+	tmp |= value << RTC_TAMPCTRL_DEBNC4_Pos;
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_DEBNC4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_DEBNC4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_DEBNC4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_DEBNC4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPCTRL_IN0ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_IN0ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_IN0ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN0ACT(mask)) >> RTC_TAMPCTRL_IN0ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_IN0ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_IN0ACT_Msk;
+	tmp |= RTC_TAMPCTRL_IN0ACT(data);
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_IN0ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_IN0ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_IN0ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_IN0ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_IN0ACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN0ACT_Msk) >> RTC_TAMPCTRL_IN0ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_IN1ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_IN1ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_IN1ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN1ACT(mask)) >> RTC_TAMPCTRL_IN1ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_IN1ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_IN1ACT_Msk;
+	tmp |= RTC_TAMPCTRL_IN1ACT(data);
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_IN1ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_IN1ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_IN1ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_IN1ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_IN1ACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN1ACT_Msk) >> RTC_TAMPCTRL_IN1ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_IN2ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_IN2ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_IN2ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN2ACT(mask)) >> RTC_TAMPCTRL_IN2ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_IN2ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_IN2ACT_Msk;
+	tmp |= RTC_TAMPCTRL_IN2ACT(data);
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_IN2ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_IN2ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_IN2ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_IN2ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_IN2ACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN2ACT_Msk) >> RTC_TAMPCTRL_IN2ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_IN3ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_IN3ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_IN3ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN3ACT(mask)) >> RTC_TAMPCTRL_IN3ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_IN3ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_IN3ACT_Msk;
+	tmp |= RTC_TAMPCTRL_IN3ACT(data);
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_IN3ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_IN3ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_IN3ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_IN3ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_IN3ACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN3ACT_Msk) >> RTC_TAMPCTRL_IN3ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_IN4ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= RTC_TAMPCTRL_IN4ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_IN4ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN4ACT(mask)) >> RTC_TAMPCTRL_IN4ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_IN4ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= ~RTC_TAMPCTRL_IN4ACT_Msk;
+	tmp |= RTC_TAMPCTRL_IN4ACT(data);
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_IN4ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~RTC_TAMPCTRL_IN4ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_IN4ACT_bf(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= RTC_TAMPCTRL_IN4ACT(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_IN4ACT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp = (tmp & RTC_TAMPCTRL_IN4ACT_Msk) >> RTC_TAMPCTRL_IN4ACT_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_TAMPCTRL_reg(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_get_TAMPCTRL_reg(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPCTRL_reg(const void *const hw, hri_rtc_tampctrl_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPCTRL_reg(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPCTRL_reg(const void *const hw, hri_rtc_tampctrl_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPCTRL.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampctrl_reg_t hri_rtc_read_TAMPCTRL_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.TAMPCTRL.reg;
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPID0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPID0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPID0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPID0) >> RTC_TAMPID_TAMPID0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPID0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPID0;
+	tmp |= value << RTC_TAMPID_TAMPID0_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPID0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPID0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPID0_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPID0;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPID1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPID1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPID1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPID1) >> RTC_TAMPID_TAMPID1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPID1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPID1;
+	tmp |= value << RTC_TAMPID_TAMPID1_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPID1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPID1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPID1_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPID1;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPID2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPID2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPID2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPID2) >> RTC_TAMPID_TAMPID2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPID2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPID2;
+	tmp |= value << RTC_TAMPID_TAMPID2_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPID2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPID2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPID2_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPID2;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPID3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPID3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPID3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPID3) >> RTC_TAMPID_TAMPID3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPID3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPID3;
+	tmp |= value << RTC_TAMPID_TAMPID3_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPID3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPID3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPID3_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPID3;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPID4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPID4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPID4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPID4) >> RTC_TAMPID_TAMPID4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPID4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPID4;
+	tmp |= value << RTC_TAMPID_TAMPID4_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPID4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPID4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPID4_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPID4;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_TAMPEVT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= RTC_TAMPID_TAMPEVT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_rtc_get_TAMPID_TAMPEVT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp = (tmp & RTC_TAMPID_TAMPEVT) >> RTC_TAMPID_TAMPEVT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_TAMPEVT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= ~RTC_TAMPID_TAMPEVT;
+	tmp |= value << RTC_TAMPID_TAMPEVT_Pos;
+	((Rtc *)hw)->MODE0.TAMPID.reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_TAMPEVT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~RTC_TAMPID_TAMPEVT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_TAMPEVT_bit(const void *const hw)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= RTC_TAMPID_TAMPEVT;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_set_TAMPID_reg(const void *const hw, hri_rtc_tampid_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampid_reg_t hri_rtc_get_TAMPID_reg(const void *const hw, hri_rtc_tampid_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.TAMPID.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_TAMPID_reg(const void *const hw, hri_rtc_tampid_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_TAMPID_reg(const void *const hw, hri_rtc_tampid_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_TAMPID_reg(const void *const hw, hri_rtc_tampid_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.TAMPID.reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_tampid_reg_t hri_rtc_read_TAMPID_reg(const void *const hw)
+{
+	return ((Rtc *)hw)->MODE0.TAMPID.reg;
+}
+
+static inline void hri_rtc_set_BKUP_BKUP_bf(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg |= RTC_BKUP_BKUP(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_bkup_reg_t hri_rtc_get_BKUP_BKUP_bf(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.BKUP[index].reg;
+	tmp = (tmp & RTC_BKUP_BKUP(mask)) >> RTC_BKUP_BKUP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_write_BKUP_BKUP_bf(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t data)
+{
+	uint32_t tmp;
+	RTC_CRITICAL_SECTION_ENTER();
+	tmp = ((Rtc *)hw)->MODE0.BKUP[index].reg;
+	tmp &= ~RTC_BKUP_BKUP_Msk;
+	tmp |= RTC_BKUP_BKUP(data);
+	((Rtc *)hw)->MODE0.BKUP[index].reg = tmp;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_BKUP_BKUP_bf(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg &= ~RTC_BKUP_BKUP(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_BKUP_BKUP_bf(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg ^= RTC_BKUP_BKUP(mask);
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_bkup_reg_t hri_rtc_read_BKUP_BKUP_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.BKUP[index].reg;
+	tmp = (tmp & RTC_BKUP_BKUP_Msk) >> RTC_BKUP_BKUP_Pos;
+	return tmp;
+}
+
+static inline void hri_rtc_set_BKUP_reg(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg |= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_bkup_reg_t hri_rtc_get_BKUP_reg(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Rtc *)hw)->MODE0.BKUP[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_rtc_write_BKUP_reg(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t data)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg = data;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_clear_BKUP_reg(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg &= ~mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_rtc_toggle_BKUP_reg(const void *const hw, uint8_t index, hri_rtc_bkup_reg_t mask)
+{
+	RTC_CRITICAL_SECTION_ENTER();
+	((Rtc *)hw)->MODE0.BKUP[index].reg ^= mask;
+	RTC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_rtc_bkup_reg_t hri_rtc_read_BKUP_reg(const void *const hw, uint8_t index)
+{
+	return ((Rtc *)hw)->MODE0.BKUP[index].reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_RTC_L22_H_INCLUDED */
+#endif /* _SAML22_RTC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_sercom_l22.h b/watch-library/hardware/hri/hri_sercom_l22.h
new file mode 100644
index 00000000..6d97ca8a
--- /dev/null
+++ b/watch-library/hardware/hri/hri_sercom_l22.h
@@ -0,0 +1,7827 @@
+/**
+ * \file
+ *
+ * \brief SAM SERCOM
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_SERCOM_COMPONENT_
+#ifndef _HRI_SERCOM_L22_H_INCLUDED_
+#define _HRI_SERCOM_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_SERCOM_CRITICAL_SECTIONS)
+#define SERCOM_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define SERCOM_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define SERCOM_CRITICAL_SECTION_ENTER()
+#define SERCOM_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_sercomi2cm_status_reg_t;
+typedef uint16_t hri_sercomi2cs_status_reg_t;
+typedef uint16_t hri_sercomspi_status_reg_t;
+typedef uint16_t hri_sercomusart_baud_reg_t;
+typedef uint16_t hri_sercomusart_data_reg_t;
+typedef uint16_t hri_sercomusart_status_reg_t;
+typedef uint32_t hri_sercomi2cm_addr_reg_t;
+typedef uint32_t hri_sercomi2cm_baud_reg_t;
+typedef uint32_t hri_sercomi2cm_ctrla_reg_t;
+typedef uint32_t hri_sercomi2cm_ctrlb_reg_t;
+typedef uint32_t hri_sercomi2cm_syncbusy_reg_t;
+typedef uint32_t hri_sercomi2cs_addr_reg_t;
+typedef uint32_t hri_sercomi2cs_ctrla_reg_t;
+typedef uint32_t hri_sercomi2cs_ctrlb_reg_t;
+typedef uint32_t hri_sercomi2cs_syncbusy_reg_t;
+typedef uint32_t hri_sercomspi_addr_reg_t;
+typedef uint32_t hri_sercomspi_ctrla_reg_t;
+typedef uint32_t hri_sercomspi_ctrlb_reg_t;
+typedef uint32_t hri_sercomspi_data_reg_t;
+typedef uint32_t hri_sercomspi_syncbusy_reg_t;
+typedef uint32_t hri_sercomusart_ctrla_reg_t;
+typedef uint32_t hri_sercomusart_ctrlb_reg_t;
+typedef uint32_t hri_sercomusart_ctrlc_reg_t;
+typedef uint32_t hri_sercomusart_syncbusy_reg_t;
+typedef uint8_t  hri_sercomi2cm_data_reg_t;
+typedef uint8_t  hri_sercomi2cm_dbgctrl_reg_t;
+typedef uint8_t  hri_sercomi2cm_intenset_reg_t;
+typedef uint8_t  hri_sercomi2cm_intflag_reg_t;
+typedef uint8_t  hri_sercomi2cs_data_reg_t;
+typedef uint8_t  hri_sercomi2cs_intenset_reg_t;
+typedef uint8_t  hri_sercomi2cs_intflag_reg_t;
+typedef uint8_t  hri_sercomspi_baud_reg_t;
+typedef uint8_t  hri_sercomspi_dbgctrl_reg_t;
+typedef uint8_t  hri_sercomspi_intenset_reg_t;
+typedef uint8_t  hri_sercomspi_intflag_reg_t;
+typedef uint8_t  hri_sercomusart_dbgctrl_reg_t;
+typedef uint8_t  hri_sercomusart_intenset_reg_t;
+typedef uint8_t  hri_sercomusart_intflag_reg_t;
+typedef uint8_t  hri_sercomusart_rxerrcnt_reg_t;
+typedef uint8_t  hri_sercomusart_rxpl_reg_t;
+
+static inline void hri_sercomi2cm_wait_for_sync(const void *const hw, hri_sercomi2cm_syncbusy_reg_t reg)
+{
+	while (((Sercom *)hw)->I2CM.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_sercomi2cm_is_syncing(const void *const hw, hri_sercomi2cm_syncbusy_reg_t reg)
+{
+	return ((Sercom *)hw)->I2CM.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_sercomi2cs_wait_for_sync(const void *const hw, hri_sercomi2cs_syncbusy_reg_t reg)
+{
+	while (((Sercom *)hw)->I2CS.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_sercomi2cs_is_syncing(const void *const hw, hri_sercomi2cs_syncbusy_reg_t reg)
+{
+	return ((Sercom *)hw)->I2CS.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_sercomspi_wait_for_sync(const void *const hw, hri_sercomspi_syncbusy_reg_t reg)
+{
+	while (((Sercom *)hw)->SPI.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_sercomspi_is_syncing(const void *const hw, hri_sercomspi_syncbusy_reg_t reg)
+{
+	return ((Sercom *)hw)->SPI.SYNCBUSY.reg & reg;
+}
+
+static inline void hri_sercomusart_wait_for_sync(const void *const hw, hri_sercomusart_syncbusy_reg_t reg)
+{
+	while (((Sercom *)hw)->USART.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_sercomusart_is_syncing(const void *const hw, hri_sercomusart_syncbusy_reg_t reg)
+{
+	return ((Sercom *)hw)->USART.SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_sercomi2cm_get_INTFLAG_MB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_MB) >> SERCOM_I2CM_INTFLAG_MB_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_INTFLAG_MB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_MB;
+}
+
+static inline bool hri_sercomi2cm_get_INTFLAG_SB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_SB) >> SERCOM_I2CM_INTFLAG_SB_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_INTFLAG_SB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_SB;
+}
+
+static inline bool hri_sercomi2cm_get_INTFLAG_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_ERROR) >> SERCOM_I2CM_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_INTFLAG_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_ERROR;
+}
+
+static inline bool hri_sercomi2cm_get_interrupt_MB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_MB) >> SERCOM_I2CM_INTFLAG_MB_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_interrupt_MB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_MB;
+}
+
+static inline bool hri_sercomi2cm_get_interrupt_SB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_SB) >> SERCOM_I2CM_INTFLAG_SB_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_interrupt_SB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_SB;
+}
+
+static inline bool hri_sercomi2cm_get_interrupt_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTFLAG.reg & SERCOM_I2CM_INTFLAG_ERROR) >> SERCOM_I2CM_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cm_clear_interrupt_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = SERCOM_I2CM_INTFLAG_ERROR;
+}
+
+static inline hri_sercomi2cm_intflag_reg_t hri_sercomi2cm_get_INTFLAG_reg(const void *const            hw,
+                                                                          hri_sercomi2cm_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cm_intflag_reg_t hri_sercomi2cm_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CM.INTFLAG.reg;
+}
+
+static inline void hri_sercomi2cm_clear_INTFLAG_reg(const void *const hw, hri_sercomi2cm_intflag_reg_t mask)
+{
+	((Sercom *)hw)->I2CM.INTFLAG.reg = mask;
+}
+
+static inline bool hri_sercomi2cs_get_INTFLAG_PREC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_PREC) >> SERCOM_I2CS_INTFLAG_PREC_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_INTFLAG_PREC_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_PREC;
+}
+
+static inline bool hri_sercomi2cs_get_INTFLAG_AMATCH_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_AMATCH) >> SERCOM_I2CS_INTFLAG_AMATCH_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_INTFLAG_AMATCH_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_AMATCH;
+}
+
+static inline bool hri_sercomi2cs_get_INTFLAG_DRDY_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_DRDY) >> SERCOM_I2CS_INTFLAG_DRDY_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_INTFLAG_DRDY_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_DRDY;
+}
+
+static inline bool hri_sercomi2cs_get_INTFLAG_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_ERROR) >> SERCOM_I2CS_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_INTFLAG_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_ERROR;
+}
+
+static inline bool hri_sercomi2cs_get_interrupt_PREC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_PREC) >> SERCOM_I2CS_INTFLAG_PREC_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_interrupt_PREC_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_PREC;
+}
+
+static inline bool hri_sercomi2cs_get_interrupt_AMATCH_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_AMATCH) >> SERCOM_I2CS_INTFLAG_AMATCH_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_interrupt_AMATCH_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_AMATCH;
+}
+
+static inline bool hri_sercomi2cs_get_interrupt_DRDY_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_DRDY) >> SERCOM_I2CS_INTFLAG_DRDY_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_interrupt_DRDY_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_DRDY;
+}
+
+static inline bool hri_sercomi2cs_get_interrupt_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTFLAG.reg & SERCOM_I2CS_INTFLAG_ERROR) >> SERCOM_I2CS_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_interrupt_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_ERROR;
+}
+
+static inline hri_sercomi2cs_intflag_reg_t hri_sercomi2cs_get_INTFLAG_reg(const void *const            hw,
+                                                                          hri_sercomi2cs_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cs_intflag_reg_t hri_sercomi2cs_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.INTFLAG.reg;
+}
+
+static inline void hri_sercomi2cs_clear_INTFLAG_reg(const void *const hw, hri_sercomi2cs_intflag_reg_t mask)
+{
+	((Sercom *)hw)->I2CS.INTFLAG.reg = mask;
+}
+
+static inline bool hri_sercomspi_get_INTFLAG_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_DRE) >> SERCOM_SPI_INTFLAG_DRE_Pos;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_DRE;
+}
+
+static inline bool hri_sercomspi_get_INTFLAG_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_TXC) >> SERCOM_SPI_INTFLAG_TXC_Pos;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_TXC;
+}
+
+static inline bool hri_sercomspi_get_INTFLAG_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_RXC) >> SERCOM_SPI_INTFLAG_RXC_Pos;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_RXC;
+}
+
+static inline bool hri_sercomspi_get_INTFLAG_SSL_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_SSL) >> SERCOM_SPI_INTFLAG_SSL_Pos;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_SSL_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_SSL;
+}
+
+static inline bool hri_sercomspi_get_INTFLAG_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_ERROR) >> SERCOM_SPI_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_ERROR;
+}
+
+static inline bool hri_sercomspi_get_interrupt_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_DRE) >> SERCOM_SPI_INTFLAG_DRE_Pos;
+}
+
+static inline void hri_sercomspi_clear_interrupt_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_DRE;
+}
+
+static inline bool hri_sercomspi_get_interrupt_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_TXC) >> SERCOM_SPI_INTFLAG_TXC_Pos;
+}
+
+static inline void hri_sercomspi_clear_interrupt_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_TXC;
+}
+
+static inline bool hri_sercomspi_get_interrupt_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_RXC) >> SERCOM_SPI_INTFLAG_RXC_Pos;
+}
+
+static inline void hri_sercomspi_clear_interrupt_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_RXC;
+}
+
+static inline bool hri_sercomspi_get_interrupt_SSL_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_SSL) >> SERCOM_SPI_INTFLAG_SSL_Pos;
+}
+
+static inline void hri_sercomspi_clear_interrupt_SSL_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_SSL;
+}
+
+static inline bool hri_sercomspi_get_interrupt_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTFLAG.reg & SERCOM_SPI_INTFLAG_ERROR) >> SERCOM_SPI_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomspi_clear_interrupt_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = SERCOM_SPI_INTFLAG_ERROR;
+}
+
+static inline hri_sercomspi_intflag_reg_t hri_sercomspi_get_INTFLAG_reg(const void *const           hw,
+                                                                        hri_sercomspi_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomspi_intflag_reg_t hri_sercomspi_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.INTFLAG.reg;
+}
+
+static inline void hri_sercomspi_clear_INTFLAG_reg(const void *const hw, hri_sercomspi_intflag_reg_t mask)
+{
+	((Sercom *)hw)->SPI.INTFLAG.reg = mask;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_DRE) >> SERCOM_USART_INTFLAG_DRE_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_DRE;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_TXC) >> SERCOM_USART_INTFLAG_TXC_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_TXC;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXC) >> SERCOM_USART_INTFLAG_RXC_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXC;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_RXS_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXS) >> SERCOM_USART_INTFLAG_RXS_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_RXS_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXS;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_CTSIC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_CTSIC) >> SERCOM_USART_INTFLAG_CTSIC_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_CTSIC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_CTSIC;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_RXBRK_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXBRK) >> SERCOM_USART_INTFLAG_RXBRK_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_RXBRK_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXBRK;
+}
+
+static inline bool hri_sercomusart_get_INTFLAG_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_ERROR) >> SERCOM_USART_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_ERROR;
+}
+
+static inline bool hri_sercomusart_get_interrupt_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_DRE) >> SERCOM_USART_INTFLAG_DRE_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_DRE;
+}
+
+static inline bool hri_sercomusart_get_interrupt_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_TXC) >> SERCOM_USART_INTFLAG_TXC_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_TXC;
+}
+
+static inline bool hri_sercomusart_get_interrupt_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXC) >> SERCOM_USART_INTFLAG_RXC_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXC;
+}
+
+static inline bool hri_sercomusart_get_interrupt_RXS_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXS) >> SERCOM_USART_INTFLAG_RXS_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_RXS_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXS;
+}
+
+static inline bool hri_sercomusart_get_interrupt_CTSIC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_CTSIC) >> SERCOM_USART_INTFLAG_CTSIC_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_CTSIC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_CTSIC;
+}
+
+static inline bool hri_sercomusart_get_interrupt_RXBRK_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_RXBRK) >> SERCOM_USART_INTFLAG_RXBRK_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_RXBRK_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_RXBRK;
+}
+
+static inline bool hri_sercomusart_get_interrupt_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_ERROR) >> SERCOM_USART_INTFLAG_ERROR_Pos;
+}
+
+static inline void hri_sercomusart_clear_interrupt_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = SERCOM_USART_INTFLAG_ERROR;
+}
+
+static inline hri_sercomusart_intflag_reg_t hri_sercomusart_get_INTFLAG_reg(const void *const             hw,
+                                                                            hri_sercomusart_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomusart_intflag_reg_t hri_sercomusart_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.INTFLAG.reg;
+}
+
+static inline void hri_sercomusart_clear_INTFLAG_reg(const void *const hw, hri_sercomusart_intflag_reg_t mask)
+{
+	((Sercom *)hw)->USART.INTFLAG.reg = mask;
+}
+
+static inline void hri_sercomi2cm_set_INTEN_MB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_MB;
+}
+
+static inline bool hri_sercomi2cm_get_INTEN_MB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTENSET.reg & SERCOM_I2CM_INTENSET_MB) >> SERCOM_I2CM_INTENSET_MB_Pos;
+}
+
+static inline void hri_sercomi2cm_write_INTEN_MB_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_MB;
+	} else {
+		((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_MB;
+	}
+}
+
+static inline void hri_sercomi2cm_clear_INTEN_MB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_MB;
+}
+
+static inline void hri_sercomi2cm_set_INTEN_SB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_SB;
+}
+
+static inline bool hri_sercomi2cm_get_INTEN_SB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTENSET.reg & SERCOM_I2CM_INTENSET_SB) >> SERCOM_I2CM_INTENSET_SB_Pos;
+}
+
+static inline void hri_sercomi2cm_write_INTEN_SB_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_SB;
+	} else {
+		((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_SB;
+	}
+}
+
+static inline void hri_sercomi2cm_clear_INTEN_SB_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_SB;
+}
+
+static inline void hri_sercomi2cm_set_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_ERROR;
+}
+
+static inline bool hri_sercomi2cm_get_INTEN_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.INTENSET.reg & SERCOM_I2CM_INTENSET_ERROR) >> SERCOM_I2CM_INTENSET_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cm_write_INTEN_ERROR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_ERROR;
+	} else {
+		((Sercom *)hw)->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_ERROR;
+	}
+}
+
+static inline void hri_sercomi2cm_clear_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CM.INTENCLR.reg = SERCOM_I2CM_INTENSET_ERROR;
+}
+
+static inline void hri_sercomi2cm_set_INTEN_reg(const void *const hw, hri_sercomi2cm_intenset_reg_t mask)
+{
+	((Sercom *)hw)->I2CM.INTENSET.reg = mask;
+}
+
+static inline hri_sercomi2cm_intenset_reg_t hri_sercomi2cm_get_INTEN_reg(const void *const             hw,
+                                                                         hri_sercomi2cm_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cm_intenset_reg_t hri_sercomi2cm_read_INTEN_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CM.INTENSET.reg;
+}
+
+static inline void hri_sercomi2cm_write_INTEN_reg(const void *const hw, hri_sercomi2cm_intenset_reg_t data)
+{
+	((Sercom *)hw)->I2CM.INTENSET.reg = data;
+	((Sercom *)hw)->I2CM.INTENCLR.reg = ~data;
+}
+
+static inline void hri_sercomi2cm_clear_INTEN_reg(const void *const hw, hri_sercomi2cm_intenset_reg_t mask)
+{
+	((Sercom *)hw)->I2CM.INTENCLR.reg = mask;
+}
+
+static inline void hri_sercomi2cs_set_INTEN_PREC_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_PREC;
+}
+
+static inline bool hri_sercomi2cs_get_INTEN_PREC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTENSET.reg & SERCOM_I2CS_INTENSET_PREC) >> SERCOM_I2CS_INTENSET_PREC_Pos;
+}
+
+static inline void hri_sercomi2cs_write_INTEN_PREC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_PREC;
+	} else {
+		((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_PREC;
+	}
+}
+
+static inline void hri_sercomi2cs_clear_INTEN_PREC_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_PREC;
+}
+
+static inline void hri_sercomi2cs_set_INTEN_AMATCH_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_AMATCH;
+}
+
+static inline bool hri_sercomi2cs_get_INTEN_AMATCH_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTENSET.reg & SERCOM_I2CS_INTENSET_AMATCH) >> SERCOM_I2CS_INTENSET_AMATCH_Pos;
+}
+
+static inline void hri_sercomi2cs_write_INTEN_AMATCH_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_AMATCH;
+	} else {
+		((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_AMATCH;
+	}
+}
+
+static inline void hri_sercomi2cs_clear_INTEN_AMATCH_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_AMATCH;
+}
+
+static inline void hri_sercomi2cs_set_INTEN_DRDY_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_DRDY;
+}
+
+static inline bool hri_sercomi2cs_get_INTEN_DRDY_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTENSET.reg & SERCOM_I2CS_INTENSET_DRDY) >> SERCOM_I2CS_INTENSET_DRDY_Pos;
+}
+
+static inline void hri_sercomi2cs_write_INTEN_DRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_DRDY;
+	} else {
+		((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_DRDY;
+	}
+}
+
+static inline void hri_sercomi2cs_clear_INTEN_DRDY_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_DRDY;
+}
+
+static inline void hri_sercomi2cs_set_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_ERROR;
+}
+
+static inline bool hri_sercomi2cs_get_INTEN_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.INTENSET.reg & SERCOM_I2CS_INTENSET_ERROR) >> SERCOM_I2CS_INTENSET_ERROR_Pos;
+}
+
+static inline void hri_sercomi2cs_write_INTEN_ERROR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_ERROR;
+	} else {
+		((Sercom *)hw)->I2CS.INTENSET.reg = SERCOM_I2CS_INTENSET_ERROR;
+	}
+}
+
+static inline void hri_sercomi2cs_clear_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->I2CS.INTENCLR.reg = SERCOM_I2CS_INTENSET_ERROR;
+}
+
+static inline void hri_sercomi2cs_set_INTEN_reg(const void *const hw, hri_sercomi2cs_intenset_reg_t mask)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = mask;
+}
+
+static inline hri_sercomi2cs_intenset_reg_t hri_sercomi2cs_get_INTEN_reg(const void *const             hw,
+                                                                         hri_sercomi2cs_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cs_intenset_reg_t hri_sercomi2cs_read_INTEN_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.INTENSET.reg;
+}
+
+static inline void hri_sercomi2cs_write_INTEN_reg(const void *const hw, hri_sercomi2cs_intenset_reg_t data)
+{
+	((Sercom *)hw)->I2CS.INTENSET.reg = data;
+	((Sercom *)hw)->I2CS.INTENCLR.reg = ~data;
+}
+
+static inline void hri_sercomi2cs_clear_INTEN_reg(const void *const hw, hri_sercomi2cs_intenset_reg_t mask)
+{
+	((Sercom *)hw)->I2CS.INTENCLR.reg = mask;
+}
+
+static inline void hri_sercomspi_set_INTEN_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_DRE;
+}
+
+static inline bool hri_sercomspi_get_INTEN_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTENSET.reg & SERCOM_SPI_INTENSET_DRE) >> SERCOM_SPI_INTENSET_DRE_Pos;
+}
+
+static inline void hri_sercomspi_write_INTEN_DRE_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_DRE;
+	} else {
+		((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_DRE;
+	}
+}
+
+static inline void hri_sercomspi_clear_INTEN_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_DRE;
+}
+
+static inline void hri_sercomspi_set_INTEN_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_TXC;
+}
+
+static inline bool hri_sercomspi_get_INTEN_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTENSET.reg & SERCOM_SPI_INTENSET_TXC) >> SERCOM_SPI_INTENSET_TXC_Pos;
+}
+
+static inline void hri_sercomspi_write_INTEN_TXC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_TXC;
+	} else {
+		((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_TXC;
+	}
+}
+
+static inline void hri_sercomspi_clear_INTEN_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_TXC;
+}
+
+static inline void hri_sercomspi_set_INTEN_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_RXC;
+}
+
+static inline bool hri_sercomspi_get_INTEN_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTENSET.reg & SERCOM_SPI_INTENSET_RXC) >> SERCOM_SPI_INTENSET_RXC_Pos;
+}
+
+static inline void hri_sercomspi_write_INTEN_RXC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_RXC;
+	} else {
+		((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_RXC;
+	}
+}
+
+static inline void hri_sercomspi_clear_INTEN_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_RXC;
+}
+
+static inline void hri_sercomspi_set_INTEN_SSL_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_SSL;
+}
+
+static inline bool hri_sercomspi_get_INTEN_SSL_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTENSET.reg & SERCOM_SPI_INTENSET_SSL) >> SERCOM_SPI_INTENSET_SSL_Pos;
+}
+
+static inline void hri_sercomspi_write_INTEN_SSL_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_SSL;
+	} else {
+		((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_SSL;
+	}
+}
+
+static inline void hri_sercomspi_clear_INTEN_SSL_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_SSL;
+}
+
+static inline void hri_sercomspi_set_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_ERROR;
+}
+
+static inline bool hri_sercomspi_get_INTEN_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.INTENSET.reg & SERCOM_SPI_INTENSET_ERROR) >> SERCOM_SPI_INTENSET_ERROR_Pos;
+}
+
+static inline void hri_sercomspi_write_INTEN_ERROR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_ERROR;
+	} else {
+		((Sercom *)hw)->SPI.INTENSET.reg = SERCOM_SPI_INTENSET_ERROR;
+	}
+}
+
+static inline void hri_sercomspi_clear_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = SERCOM_SPI_INTENSET_ERROR;
+}
+
+static inline void hri_sercomspi_set_INTEN_reg(const void *const hw, hri_sercomspi_intenset_reg_t mask)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = mask;
+}
+
+static inline hri_sercomspi_intenset_reg_t hri_sercomspi_get_INTEN_reg(const void *const            hw,
+                                                                       hri_sercomspi_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomspi_intenset_reg_t hri_sercomspi_read_INTEN_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.INTENSET.reg;
+}
+
+static inline void hri_sercomspi_write_INTEN_reg(const void *const hw, hri_sercomspi_intenset_reg_t data)
+{
+	((Sercom *)hw)->SPI.INTENSET.reg = data;
+	((Sercom *)hw)->SPI.INTENCLR.reg = ~data;
+}
+
+static inline void hri_sercomspi_clear_INTEN_reg(const void *const hw, hri_sercomspi_intenset_reg_t mask)
+{
+	((Sercom *)hw)->SPI.INTENCLR.reg = mask;
+}
+
+static inline void hri_sercomusart_set_INTEN_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_DRE;
+}
+
+static inline bool hri_sercomusart_get_INTEN_DRE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_DRE) >> SERCOM_USART_INTENSET_DRE_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_DRE_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_DRE;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_DRE;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_DRE_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_DRE;
+}
+
+static inline void hri_sercomusart_set_INTEN_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_TXC;
+}
+
+static inline bool hri_sercomusart_get_INTEN_TXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_TXC) >> SERCOM_USART_INTENSET_TXC_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_TXC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_TXC;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_TXC;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_TXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_TXC;
+}
+
+static inline void hri_sercomusart_set_INTEN_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXC;
+}
+
+static inline bool hri_sercomusart_get_INTEN_RXC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_RXC) >> SERCOM_USART_INTENSET_RXC_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_RXC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXC;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXC;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_RXC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXC;
+}
+
+static inline void hri_sercomusart_set_INTEN_RXS_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXS;
+}
+
+static inline bool hri_sercomusart_get_INTEN_RXS_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_RXS) >> SERCOM_USART_INTENSET_RXS_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_RXS_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXS;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXS;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_RXS_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXS;
+}
+
+static inline void hri_sercomusart_set_INTEN_CTSIC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_CTSIC;
+}
+
+static inline bool hri_sercomusart_get_INTEN_CTSIC_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_CTSIC) >> SERCOM_USART_INTENSET_CTSIC_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_CTSIC_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_CTSIC;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_CTSIC;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_CTSIC_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_CTSIC;
+}
+
+static inline void hri_sercomusart_set_INTEN_RXBRK_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXBRK;
+}
+
+static inline bool hri_sercomusart_get_INTEN_RXBRK_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_RXBRK) >> SERCOM_USART_INTENSET_RXBRK_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_RXBRK_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXBRK;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_RXBRK;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_RXBRK_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_RXBRK;
+}
+
+static inline void hri_sercomusart_set_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_ERROR;
+}
+
+static inline bool hri_sercomusart_get_INTEN_ERROR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.INTENSET.reg & SERCOM_USART_INTENSET_ERROR) >> SERCOM_USART_INTENSET_ERROR_Pos;
+}
+
+static inline void hri_sercomusart_write_INTEN_ERROR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_ERROR;
+	} else {
+		((Sercom *)hw)->USART.INTENSET.reg = SERCOM_USART_INTENSET_ERROR;
+	}
+}
+
+static inline void hri_sercomusart_clear_INTEN_ERROR_bit(const void *const hw)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = SERCOM_USART_INTENSET_ERROR;
+}
+
+static inline void hri_sercomusart_set_INTEN_reg(const void *const hw, hri_sercomusart_intenset_reg_t mask)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = mask;
+}
+
+static inline hri_sercomusart_intenset_reg_t hri_sercomusart_get_INTEN_reg(const void *const              hw,
+                                                                           hri_sercomusart_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomusart_intenset_reg_t hri_sercomusart_read_INTEN_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.INTENSET.reg;
+}
+
+static inline void hri_sercomusart_write_INTEN_reg(const void *const hw, hri_sercomusart_intenset_reg_t data)
+{
+	((Sercom *)hw)->USART.INTENSET.reg = data;
+	((Sercom *)hw)->USART.INTENCLR.reg = ~data;
+}
+
+static inline void hri_sercomusart_clear_INTEN_reg(const void *const hw, hri_sercomusart_intenset_reg_t mask)
+{
+	((Sercom *)hw)->USART.INTENCLR.reg = mask;
+}
+
+static inline bool hri_sercomi2cm_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.SYNCBUSY.reg & SERCOM_I2CM_SYNCBUSY_SWRST) >> SERCOM_I2CM_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_sercomi2cm_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.SYNCBUSY.reg & SERCOM_I2CM_SYNCBUSY_ENABLE) >> SERCOM_I2CM_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_sercomi2cm_get_SYNCBUSY_SYSOP_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.SYNCBUSY.reg & SERCOM_I2CM_SYNCBUSY_SYSOP) >> SERCOM_I2CM_SYNCBUSY_SYSOP_Pos;
+}
+
+static inline hri_sercomi2cm_syncbusy_reg_t hri_sercomi2cm_get_SYNCBUSY_reg(const void *const             hw,
+                                                                            hri_sercomi2cm_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cm_syncbusy_reg_t hri_sercomi2cm_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CM.SYNCBUSY.reg;
+}
+
+static inline bool hri_sercomi2cs_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.SYNCBUSY.reg & SERCOM_I2CS_SYNCBUSY_SWRST) >> SERCOM_I2CS_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_sercomi2cs_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.SYNCBUSY.reg & SERCOM_I2CS_SYNCBUSY_ENABLE) >> SERCOM_I2CS_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline hri_sercomi2cs_syncbusy_reg_t hri_sercomi2cs_get_SYNCBUSY_reg(const void *const             hw,
+                                                                            hri_sercomi2cs_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomi2cs_syncbusy_reg_t hri_sercomi2cs_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.SYNCBUSY.reg;
+}
+
+static inline bool hri_sercomspi_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.SYNCBUSY.reg & SERCOM_SPI_SYNCBUSY_SWRST) >> SERCOM_SPI_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_sercomspi_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.SYNCBUSY.reg & SERCOM_SPI_SYNCBUSY_ENABLE) >> SERCOM_SPI_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_sercomspi_get_SYNCBUSY_CTRLB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.SYNCBUSY.reg & SERCOM_SPI_SYNCBUSY_CTRLB) >> SERCOM_SPI_SYNCBUSY_CTRLB_Pos;
+}
+
+static inline hri_sercomspi_syncbusy_reg_t hri_sercomspi_get_SYNCBUSY_reg(const void *const            hw,
+                                                                          hri_sercomspi_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomspi_syncbusy_reg_t hri_sercomspi_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.SYNCBUSY.reg;
+}
+
+static inline bool hri_sercomusart_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.SYNCBUSY.reg & SERCOM_USART_SYNCBUSY_SWRST) >> SERCOM_USART_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_sercomusart_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.SYNCBUSY.reg & SERCOM_USART_SYNCBUSY_ENABLE) >> SERCOM_USART_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_sercomusart_get_SYNCBUSY_CTRLB_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.SYNCBUSY.reg & SERCOM_USART_SYNCBUSY_CTRLB) >> SERCOM_USART_SYNCBUSY_CTRLB_Pos;
+}
+
+static inline hri_sercomusart_syncbusy_reg_t hri_sercomusart_get_SYNCBUSY_reg(const void *const              hw,
+                                                                              hri_sercomusart_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomusart_syncbusy_reg_t hri_sercomusart_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.SYNCBUSY.reg;
+}
+
+static inline hri_sercomusart_rxerrcnt_reg_t hri_sercomusart_get_RXERRCNT_reg(const void *const              hw,
+                                                                              hri_sercomusart_rxerrcnt_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.RXERRCNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_sercomusart_rxerrcnt_reg_t hri_sercomusart_read_RXERRCNT_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.RXERRCNT.reg;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_SWRST;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST);
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SWRST) >> SERCOM_I2CM_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_ENABLE;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_ENABLE) >> SERCOM_I2CM_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_ENABLE;
+	tmp |= value << SERCOM_I2CM_CTRLA_ENABLE_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_ENABLE;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_ENABLE;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_RUNSTDBY;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_RUNSTDBY) >> SERCOM_I2CM_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_RUNSTDBY;
+	tmp |= value << SERCOM_I2CM_CTRLA_RUNSTDBY_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_RUNSTDBY;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_RUNSTDBY;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_PINOUT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_PINOUT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_PINOUT) >> SERCOM_I2CM_CTRLA_PINOUT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_PINOUT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_PINOUT;
+	tmp |= value << SERCOM_I2CM_CTRLA_PINOUT_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_PINOUT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_PINOUT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_MEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_MEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_MEXTTOEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_MEXTTOEN) >> SERCOM_I2CM_CTRLA_MEXTTOEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_MEXTTOEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_MEXTTOEN;
+	tmp |= value << SERCOM_I2CM_CTRLA_MEXTTOEN_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_MEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_MEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_MEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_MEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_SEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SEXTTOEN) >> SERCOM_I2CM_CTRLA_SEXTTOEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_SEXTTOEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_SEXTTOEN;
+	tmp |= value << SERCOM_I2CM_CTRLA_SEXTTOEN_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_SEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_SEXTTOEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_SCLSM;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_SCLSM_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SCLSM) >> SERCOM_I2CM_CTRLA_SCLSM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_SCLSM_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_SCLSM;
+	tmp |= value << SERCOM_I2CM_CTRLA_SCLSM_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_SCLSM;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_SCLSM;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_LOWTOUTEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_LOWTOUTEN) >> SERCOM_I2CM_CTRLA_LOWTOUTEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_LOWTOUTEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_LOWTOUTEN;
+	tmp |= value << SERCOM_I2CM_CTRLA_LOWTOUTEN_Pos;
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_LOWTOUTEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_LOWTOUTEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_MODE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_get_CTRLA_MODE_bf(const void *const          hw,
+                                                                          hri_sercomi2cm_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_MODE(mask)) >> SERCOM_I2CM_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_MODE_Msk;
+	tmp |= SERCOM_I2CM_CTRLA_MODE(data);
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_MODE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_MODE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_MODE_Msk) >> SERCOM_I2CM_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_get_CTRLA_SDAHOLD_bf(const void *const          hw,
+                                                                             hri_sercomi2cm_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SDAHOLD(mask)) >> SERCOM_I2CM_CTRLA_SDAHOLD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_SDAHOLD_Msk;
+	tmp |= SERCOM_I2CM_CTRLA_SDAHOLD(data);
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_read_CTRLA_SDAHOLD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SDAHOLD_Msk) >> SERCOM_I2CM_CTRLA_SDAHOLD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_SPEED(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_get_CTRLA_SPEED_bf(const void *const          hw,
+                                                                           hri_sercomi2cm_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SPEED(mask)) >> SERCOM_I2CM_CTRLA_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_SPEED_Msk;
+	tmp |= SERCOM_I2CM_CTRLA_SPEED(data);
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_SPEED(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_SPEED(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_read_CTRLA_SPEED_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_SPEED_Msk) >> SERCOM_I2CM_CTRLA_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_INACTOUT_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= SERCOM_I2CM_CTRLA_INACTOUT(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_get_CTRLA_INACTOUT_bf(const void *const          hw,
+                                                                              hri_sercomi2cm_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_INACTOUT(mask)) >> SERCOM_I2CM_CTRLA_INACTOUT_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_INACTOUT_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= ~SERCOM_I2CM_CTRLA_INACTOUT_Msk;
+	tmp |= SERCOM_I2CM_CTRLA_INACTOUT(data);
+	((Sercom *)hw)->I2CM.CTRLA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_INACTOUT_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~SERCOM_I2CM_CTRLA_INACTOUT(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_INACTOUT_bf(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= SERCOM_I2CM_CTRLA_INACTOUT(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_read_CTRLA_INACTOUT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLA_INACTOUT_Msk) >> SERCOM_I2CM_CTRLA_INACTOUT_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLA_reg(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg |= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_get_CTRLA_reg(const void *const          hw,
+                                                                      hri_sercomi2cm_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->I2CM.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLA_reg(const void *const hw, hri_sercomi2cm_ctrla_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg = data;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLA_reg(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg &= ~mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLA_reg(const void *const hw, hri_sercomi2cm_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLA.reg ^= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrla_reg_t hri_sercomi2cm_read_CTRLA_reg(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SWRST | SERCOM_I2CM_SYNCBUSY_ENABLE);
+	return ((Sercom *)hw)->I2CM.CTRLA.reg;
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_SWRST;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST);
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SWRST) >> SERCOM_I2CS_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_ENABLE;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST | SERCOM_I2CS_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST | SERCOM_I2CS_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_ENABLE) >> SERCOM_I2CS_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_ENABLE;
+	tmp |= value << SERCOM_I2CS_CTRLA_ENABLE_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST | SERCOM_I2CS_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_ENABLE;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST | SERCOM_I2CS_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_ENABLE;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_SWRST | SERCOM_I2CS_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_RUNSTDBY;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_RUNSTDBY) >> SERCOM_I2CS_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_RUNSTDBY;
+	tmp |= value << SERCOM_I2CS_CTRLA_RUNSTDBY_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_RUNSTDBY;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_RUNSTDBY;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_PINOUT;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_PINOUT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_PINOUT) >> SERCOM_I2CS_CTRLA_PINOUT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_PINOUT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_PINOUT;
+	tmp |= value << SERCOM_I2CS_CTRLA_PINOUT_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_PINOUT;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_PINOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_PINOUT;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_SEXTTOEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SEXTTOEN) >> SERCOM_I2CS_CTRLA_SEXTTOEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_SEXTTOEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_SEXTTOEN;
+	tmp |= value << SERCOM_I2CS_CTRLA_SEXTTOEN_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_SEXTTOEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_SEXTTOEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_SEXTTOEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_SCLSM;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_SCLSM_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SCLSM) >> SERCOM_I2CS_CTRLA_SCLSM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_SCLSM_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_SCLSM;
+	tmp |= value << SERCOM_I2CS_CTRLA_SCLSM_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_SCLSM;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_SCLSM_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_SCLSM;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_LOWTOUTEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_LOWTOUTEN) >> SERCOM_I2CS_CTRLA_LOWTOUTEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_LOWTOUTEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_LOWTOUTEN;
+	tmp |= value << SERCOM_I2CS_CTRLA_LOWTOUTEN_Pos;
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_LOWTOUTEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_LOWTOUTEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_LOWTOUTEN;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_MODE(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_get_CTRLA_MODE_bf(const void *const          hw,
+                                                                          hri_sercomi2cs_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_MODE(mask)) >> SERCOM_I2CS_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_MODE_Msk;
+	tmp |= SERCOM_I2CS_CTRLA_MODE(data);
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_MODE(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_MODE_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_MODE(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_MODE_Msk) >> SERCOM_I2CS_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_get_CTRLA_SDAHOLD_bf(const void *const          hw,
+                                                                             hri_sercomi2cs_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SDAHOLD(mask)) >> SERCOM_I2CS_CTRLA_SDAHOLD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_SDAHOLD_Msk;
+	tmp |= SERCOM_I2CS_CTRLA_SDAHOLD(data);
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_SDAHOLD_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_SDAHOLD(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_read_CTRLA_SDAHOLD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SDAHOLD_Msk) >> SERCOM_I2CS_CTRLA_SDAHOLD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= SERCOM_I2CS_CTRLA_SPEED(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_get_CTRLA_SPEED_bf(const void *const          hw,
+                                                                           hri_sercomi2cs_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SPEED(mask)) >> SERCOM_I2CS_CTRLA_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= ~SERCOM_I2CS_CTRLA_SPEED_Msk;
+	tmp |= SERCOM_I2CS_CTRLA_SPEED(data);
+	((Sercom *)hw)->I2CS.CTRLA.reg = tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~SERCOM_I2CS_CTRLA_SPEED(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_SPEED_bf(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= SERCOM_I2CS_CTRLA_SPEED(mask);
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_read_CTRLA_SPEED_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLA_SPEED_Msk) >> SERCOM_I2CS_CTRLA_SPEED_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLA_reg(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg |= mask;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_get_CTRLA_reg(const void *const          hw,
+                                                                      hri_sercomi2cs_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	tmp = ((Sercom *)hw)->I2CS.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLA_reg(const void *const hw, hri_sercomi2cs_ctrla_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg = data;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLA_reg(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg &= ~mask;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLA_reg(const void *const hw, hri_sercomi2cs_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLA.reg ^= mask;
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrla_reg_t hri_sercomi2cs_read_CTRLA_reg(const void *const hw)
+{
+	hri_sercomi2cs_wait_for_sync(hw, SERCOM_I2CS_SYNCBUSY_MASK);
+	return ((Sercom *)hw)->I2CS.CTRLA.reg;
+}
+
+static inline void hri_sercomspi_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_SWRST;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST);
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_SWRST) >> SERCOM_SPI_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_ENABLE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_ENABLE) >> SERCOM_SPI_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_ENABLE;
+	tmp |= value << SERCOM_SPI_CTRLA_ENABLE_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_ENABLE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_ENABLE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_RUNSTDBY;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_RUNSTDBY) >> SERCOM_SPI_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_RUNSTDBY;
+	tmp |= value << SERCOM_SPI_CTRLA_RUNSTDBY_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_RUNSTDBY;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_RUNSTDBY;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_IBON;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_IBON_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_IBON) >> SERCOM_SPI_CTRLA_IBON_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_IBON_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_IBON;
+	tmp |= value << SERCOM_SPI_CTRLA_IBON_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_IBON;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_IBON;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_CPHA_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_CPHA;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_CPHA_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_CPHA) >> SERCOM_SPI_CTRLA_CPHA_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_CPHA_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_CPHA;
+	tmp |= value << SERCOM_SPI_CTRLA_CPHA_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_CPHA_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_CPHA;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_CPHA_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_CPHA;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_CPOL;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_CPOL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_CPOL) >> SERCOM_SPI_CTRLA_CPOL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_CPOL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_CPOL;
+	tmp |= value << SERCOM_SPI_CTRLA_CPOL_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_CPOL;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_CPOL;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_DORD;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLA_DORD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_DORD) >> SERCOM_SPI_CTRLA_DORD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_DORD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_DORD;
+	tmp |= value << SERCOM_SPI_CTRLA_DORD_Pos;
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_DORD;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_DORD;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLA_MODE_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_MODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_get_CTRLA_MODE_bf(const void *const         hw,
+                                                                        hri_sercomspi_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_MODE(mask)) >> SERCOM_SPI_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_MODE_bf(const void *const hw, hri_sercomspi_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_MODE_Msk;
+	tmp |= SERCOM_SPI_CTRLA_MODE(data);
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_MODE_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_MODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_MODE_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_MODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_MODE_Msk) >> SERCOM_SPI_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLA_DOPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_DOPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_get_CTRLA_DOPO_bf(const void *const         hw,
+                                                                        hri_sercomspi_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_DOPO(mask)) >> SERCOM_SPI_CTRLA_DOPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_DOPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_DOPO_Msk;
+	tmp |= SERCOM_SPI_CTRLA_DOPO(data);
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_DOPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_DOPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_DOPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_DOPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_read_CTRLA_DOPO_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_DOPO_Msk) >> SERCOM_SPI_CTRLA_DOPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLA_DIPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_DIPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_get_CTRLA_DIPO_bf(const void *const         hw,
+                                                                        hri_sercomspi_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_DIPO(mask)) >> SERCOM_SPI_CTRLA_DIPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_DIPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_DIPO_Msk;
+	tmp |= SERCOM_SPI_CTRLA_DIPO(data);
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_DIPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_DIPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_DIPO_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_DIPO(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_read_CTRLA_DIPO_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_DIPO_Msk) >> SERCOM_SPI_CTRLA_DIPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLA_FORM_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= SERCOM_SPI_CTRLA_FORM(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_get_CTRLA_FORM_bf(const void *const         hw,
+                                                                        hri_sercomspi_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_FORM(mask)) >> SERCOM_SPI_CTRLA_FORM_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_FORM_bf(const void *const hw, hri_sercomspi_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= ~SERCOM_SPI_CTRLA_FORM_Msk;
+	tmp |= SERCOM_SPI_CTRLA_FORM(data);
+	((Sercom *)hw)->SPI.CTRLA.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_FORM_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~SERCOM_SPI_CTRLA_FORM(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_FORM_bf(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= SERCOM_SPI_CTRLA_FORM(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_read_CTRLA_FORM_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLA_FORM_Msk) >> SERCOM_SPI_CTRLA_FORM_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLA_reg(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg |= mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_get_CTRLA_reg(const void *const         hw,
+                                                                    hri_sercomspi_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->SPI.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLA_reg(const void *const hw, hri_sercomspi_ctrla_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg = data;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLA_reg(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg &= ~mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLA_reg(const void *const hw, hri_sercomspi_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLA.reg ^= mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrla_reg_t hri_sercomspi_read_CTRLA_reg(const void *const hw)
+{
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_SWRST | SERCOM_SPI_SYNCBUSY_ENABLE);
+	return ((Sercom *)hw)->SPI.CTRLA.reg;
+}
+
+static inline void hri_sercomusart_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_SWRST;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST);
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_SWRST) >> SERCOM_USART_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_ENABLE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_ENABLE) >> SERCOM_USART_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_ENABLE;
+	tmp |= value << SERCOM_USART_CTRLA_ENABLE_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_ENABLE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_ENABLE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_RUNSTDBY;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_RUNSTDBY) >> SERCOM_USART_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_RUNSTDBY;
+	tmp |= value << SERCOM_USART_CTRLA_RUNSTDBY_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_RUNSTDBY;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_RUNSTDBY;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_IBON;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_IBON_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_IBON) >> SERCOM_USART_CTRLA_IBON_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_IBON_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_IBON;
+	tmp |= value << SERCOM_USART_CTRLA_IBON_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_IBON;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_IBON_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_IBON;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_TXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_TXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_TXINV_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_TXINV) >> SERCOM_USART_CTRLA_TXINV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_TXINV_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_TXINV;
+	tmp |= value << SERCOM_USART_CTRLA_TXINV_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_TXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_TXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_TXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_TXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_RXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_RXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_RXINV_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_RXINV) >> SERCOM_USART_CTRLA_RXINV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_RXINV_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_RXINV;
+	tmp |= value << SERCOM_USART_CTRLA_RXINV_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_RXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_RXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_RXINV_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_RXINV;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_CMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_CMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_CMODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_CMODE) >> SERCOM_USART_CTRLA_CMODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_CMODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_CMODE;
+	tmp |= value << SERCOM_USART_CTRLA_CMODE_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_CMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_CMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_CMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_CMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_CPOL;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_CPOL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_CPOL) >> SERCOM_USART_CTRLA_CPOL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_CPOL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_CPOL;
+	tmp |= value << SERCOM_USART_CTRLA_CPOL_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_CPOL;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_CPOL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_CPOL;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_DORD;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLA_DORD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_DORD) >> SERCOM_USART_CTRLA_DORD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_DORD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_DORD;
+	tmp |= value << SERCOM_USART_CTRLA_DORD_Pos;
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_DORD;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_DORD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_DORD;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLA_MODE_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_MODE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_MODE_bf(const void *const           hw,
+                                                                            hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_MODE(mask)) >> SERCOM_USART_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_MODE_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_MODE_Msk;
+	tmp |= SERCOM_USART_CTRLA_MODE(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_MODE_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_MODE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_MODE_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_MODE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_MODE_Msk) >> SERCOM_USART_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_SAMPR_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_SAMPR(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_SAMPR_bf(const void *const           hw,
+                                                                             hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_SAMPR(mask)) >> SERCOM_USART_CTRLA_SAMPR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_SAMPR_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_SAMPR_Msk;
+	tmp |= SERCOM_USART_CTRLA_SAMPR(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_SAMPR_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_SAMPR(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_SAMPR_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_SAMPR(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_SAMPR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_SAMPR_Msk) >> SERCOM_USART_CTRLA_SAMPR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_TXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_TXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_TXPO_bf(const void *const           hw,
+                                                                            hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_TXPO(mask)) >> SERCOM_USART_CTRLA_TXPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_TXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_TXPO_Msk;
+	tmp |= SERCOM_USART_CTRLA_TXPO(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_TXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_TXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_TXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_TXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_TXPO_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_TXPO_Msk) >> SERCOM_USART_CTRLA_TXPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_RXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_RXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_RXPO_bf(const void *const           hw,
+                                                                            hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_RXPO(mask)) >> SERCOM_USART_CTRLA_RXPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_RXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_RXPO_Msk;
+	tmp |= SERCOM_USART_CTRLA_RXPO(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_RXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_RXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_RXPO_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_RXPO(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_RXPO_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_RXPO_Msk) >> SERCOM_USART_CTRLA_RXPO_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_SAMPA_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_SAMPA(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_SAMPA_bf(const void *const           hw,
+                                                                             hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_SAMPA(mask)) >> SERCOM_USART_CTRLA_SAMPA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_SAMPA_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_SAMPA_Msk;
+	tmp |= SERCOM_USART_CTRLA_SAMPA(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_SAMPA_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_SAMPA(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_SAMPA_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_SAMPA(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_SAMPA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_SAMPA_Msk) >> SERCOM_USART_CTRLA_SAMPA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_FORM_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= SERCOM_USART_CTRLA_FORM(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_FORM_bf(const void *const           hw,
+                                                                            hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_FORM(mask)) >> SERCOM_USART_CTRLA_FORM_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_FORM_bf(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= ~SERCOM_USART_CTRLA_FORM_Msk;
+	tmp |= SERCOM_USART_CTRLA_FORM(data);
+	((Sercom *)hw)->USART.CTRLA.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_FORM_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_FORM(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_FORM_bf(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= SERCOM_USART_CTRLA_FORM(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_FORM_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp = (tmp & SERCOM_USART_CTRLA_FORM_Msk) >> SERCOM_USART_CTRLA_FORM_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLA_reg(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg |= mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_get_CTRLA_reg(const void *const           hw,
+                                                                        hri_sercomusart_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	tmp = ((Sercom *)hw)->USART.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLA_reg(const void *const hw, hri_sercomusart_ctrla_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg = data;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLA_reg(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg &= ~mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLA_reg(const void *const hw, hri_sercomusart_ctrla_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLA.reg ^= mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrla_reg_t hri_sercomusart_read_CTRLA_reg(const void *const hw)
+{
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_SWRST | SERCOM_USART_SYNCBUSY_ENABLE);
+	return ((Sercom *)hw)->USART.CTRLA.reg;
+}
+
+static inline void hri_sercomi2cm_set_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg |= SERCOM_I2CM_CTRLB_SMEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLB_SMEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLB_SMEN) >> SERCOM_I2CM_CTRLB_SMEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLB_SMEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp &= ~SERCOM_I2CM_CTRLB_SMEN;
+	tmp |= value << SERCOM_I2CM_CTRLB_SMEN_Pos;
+	((Sercom *)hw)->I2CM.CTRLB.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg &= ~SERCOM_I2CM_CTRLB_SMEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg ^= SERCOM_I2CM_CTRLB_SMEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLB_QCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg |= SERCOM_I2CM_CTRLB_QCEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLB_QCEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLB_QCEN) >> SERCOM_I2CM_CTRLB_QCEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLB_QCEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp &= ~SERCOM_I2CM_CTRLB_QCEN;
+	tmp |= value << SERCOM_I2CM_CTRLB_QCEN_Pos;
+	((Sercom *)hw)->I2CM.CTRLB.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLB_QCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg &= ~SERCOM_I2CM_CTRLB_QCEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLB_QCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg ^= SERCOM_I2CM_CTRLB_QCEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg |= SERCOM_I2CM_CTRLB_ACKACT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_CTRLB_ACKACT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLB_ACKACT) >> SERCOM_I2CM_CTRLB_ACKACT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLB_ACKACT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp &= ~SERCOM_I2CM_CTRLB_ACKACT;
+	tmp |= value << SERCOM_I2CM_CTRLB_ACKACT_Pos;
+	((Sercom *)hw)->I2CM.CTRLB.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg &= ~SERCOM_I2CM_CTRLB_ACKACT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg ^= SERCOM_I2CM_CTRLB_ACKACT;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg |= SERCOM_I2CM_CTRLB_CMD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrlb_reg_t hri_sercomi2cm_get_CTRLB_CMD_bf(const void *const          hw,
+                                                                         hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLB_CMD(mask)) >> SERCOM_I2CM_CTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cm_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp &= ~SERCOM_I2CM_CTRLB_CMD_Msk;
+	tmp |= SERCOM_I2CM_CTRLB_CMD(data);
+	((Sercom *)hw)->I2CM.CTRLB.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg &= ~SERCOM_I2CM_CTRLB_CMD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg ^= SERCOM_I2CM_CTRLB_CMD(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrlb_reg_t hri_sercomi2cm_read_CTRLB_CMD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CM_CTRLB_CMD_Msk) >> SERCOM_I2CM_CTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_CTRLB_reg(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg |= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrlb_reg_t hri_sercomi2cm_get_CTRLB_reg(const void *const          hw,
+                                                                      hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	tmp = ((Sercom *)hw)->I2CM.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_CTRLB_reg(const void *const hw, hri_sercomi2cm_ctrlb_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg = data;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_CTRLB_reg(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg &= ~mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_CTRLB_reg(const void *const hw, hri_sercomi2cm_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.CTRLB.reg ^= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_ctrlb_reg_t hri_sercomi2cm_read_CTRLB_reg(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return ((Sercom *)hw)->I2CM.CTRLB.reg;
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_SMEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLB_SMEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_SMEN) >> SERCOM_I2CS_CTRLB_SMEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_SMEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_SMEN;
+	tmp |= value << SERCOM_I2CS_CTRLB_SMEN_Pos;
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_SMEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_SMEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_SMEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_GCMD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_GCMD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLB_GCMD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_GCMD) >> SERCOM_I2CS_CTRLB_GCMD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_GCMD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_GCMD;
+	tmp |= value << SERCOM_I2CS_CTRLB_GCMD_Pos;
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_GCMD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_GCMD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_GCMD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_GCMD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_AACKEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_AACKEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLB_AACKEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_AACKEN) >> SERCOM_I2CS_CTRLB_AACKEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_AACKEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_AACKEN;
+	tmp |= value << SERCOM_I2CS_CTRLB_AACKEN_Pos;
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_AACKEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_AACKEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_AACKEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_AACKEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_ACKACT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_CTRLB_ACKACT_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_ACKACT) >> SERCOM_I2CS_CTRLB_ACKACT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_ACKACT_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_ACKACT;
+	tmp |= value << SERCOM_I2CS_CTRLB_ACKACT_Pos;
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_ACKACT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_ACKACT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_ACKACT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_AMODE_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_AMODE(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_get_CTRLB_AMODE_bf(const void *const          hw,
+                                                                           hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_AMODE(mask)) >> SERCOM_I2CS_CTRLB_AMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_AMODE_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_AMODE_Msk;
+	tmp |= SERCOM_I2CS_CTRLB_AMODE(data);
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_AMODE_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_AMODE(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_AMODE_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_AMODE(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_read_CTRLB_AMODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_AMODE_Msk) >> SERCOM_I2CS_CTRLB_AMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= SERCOM_I2CS_CTRLB_CMD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_get_CTRLB_CMD_bf(const void *const          hw,
+                                                                         hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_CMD(mask)) >> SERCOM_I2CS_CTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= ~SERCOM_I2CS_CTRLB_CMD_Msk;
+	tmp |= SERCOM_I2CS_CTRLB_CMD(data);
+	((Sercom *)hw)->I2CS.CTRLB.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~SERCOM_I2CS_CTRLB_CMD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_CMD_bf(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= SERCOM_I2CS_CTRLB_CMD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_read_CTRLB_CMD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp = (tmp & SERCOM_I2CS_CTRLB_CMD_Msk) >> SERCOM_I2CS_CTRLB_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_CTRLB_reg(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_get_CTRLB_reg(const void *const          hw,
+                                                                      hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_CTRLB_reg(const void *const hw, hri_sercomi2cs_ctrlb_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_CTRLB_reg(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_CTRLB_reg(const void *const hw, hri_sercomi2cs_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.CTRLB.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_ctrlb_reg_t hri_sercomi2cs_read_CTRLB_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.CTRLB.reg;
+}
+
+static inline void hri_sercomspi_set_CTRLB_PLOADEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_PLOADEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLB_PLOADEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_PLOADEN) >> SERCOM_SPI_CTRLB_PLOADEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_PLOADEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_PLOADEN;
+	tmp |= value << SERCOM_SPI_CTRLB_PLOADEN_Pos;
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_PLOADEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_PLOADEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_PLOADEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_PLOADEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLB_SSDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_SSDE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLB_SSDE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_SSDE) >> SERCOM_SPI_CTRLB_SSDE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_SSDE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_SSDE;
+	tmp |= value << SERCOM_SPI_CTRLB_SSDE_Pos;
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_SSDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_SSDE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_SSDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_SSDE;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLB_MSSEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_MSSEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLB_MSSEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_MSSEN) >> SERCOM_SPI_CTRLB_MSSEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_MSSEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_MSSEN;
+	tmp |= value << SERCOM_SPI_CTRLB_MSSEN_Pos;
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_MSSEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_MSSEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_MSSEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_MSSEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_RXEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_CTRLB_RXEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_RXEN) >> SERCOM_SPI_CTRLB_RXEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_RXEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_RXEN;
+	tmp |= value << SERCOM_SPI_CTRLB_RXEN_Pos;
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_RXEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_RXEN;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_CHSIZE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_get_CTRLB_CHSIZE_bf(const void *const         hw,
+                                                                          hri_sercomspi_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_CHSIZE(mask)) >> SERCOM_SPI_CTRLB_CHSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_CHSIZE_Msk;
+	tmp |= SERCOM_SPI_CTRLB_CHSIZE(data);
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_CHSIZE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_CHSIZE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_read_CTRLB_CHSIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_CHSIZE_Msk) >> SERCOM_SPI_CTRLB_CHSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLB_AMODE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= SERCOM_SPI_CTRLB_AMODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_get_CTRLB_AMODE_bf(const void *const         hw,
+                                                                         hri_sercomspi_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_AMODE(mask)) >> SERCOM_SPI_CTRLB_AMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_AMODE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= ~SERCOM_SPI_CTRLB_AMODE_Msk;
+	tmp |= SERCOM_SPI_CTRLB_AMODE(data);
+	((Sercom *)hw)->SPI.CTRLB.reg = tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_AMODE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~SERCOM_SPI_CTRLB_AMODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_AMODE_bf(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= SERCOM_SPI_CTRLB_AMODE(mask);
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_read_CTRLB_AMODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp = (tmp & SERCOM_SPI_CTRLB_AMODE_Msk) >> SERCOM_SPI_CTRLB_AMODE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_CTRLB_reg(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg |= mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_get_CTRLB_reg(const void *const         hw,
+                                                                    hri_sercomspi_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	tmp = ((Sercom *)hw)->SPI.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_CTRLB_reg(const void *const hw, hri_sercomspi_ctrlb_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg = data;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_CTRLB_reg(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg &= ~mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_CTRLB_reg(const void *const hw, hri_sercomspi_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.CTRLB.reg ^= mask;
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_ctrlb_reg_t hri_sercomspi_read_CTRLB_reg(const void *const hw)
+{
+	hri_sercomspi_wait_for_sync(hw, SERCOM_SPI_SYNCBUSY_MASK);
+	return ((Sercom *)hw)->SPI.CTRLB.reg;
+}
+
+static inline void hri_sercomusart_set_CTRLB_SBMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_SBMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_SBMODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_SBMODE) >> SERCOM_USART_CTRLB_SBMODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_SBMODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_SBMODE;
+	tmp |= value << SERCOM_USART_CTRLB_SBMODE_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_SBMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_SBMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_SBMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_SBMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_COLDEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_COLDEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_COLDEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_COLDEN) >> SERCOM_USART_CTRLB_COLDEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_COLDEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_COLDEN;
+	tmp |= value << SERCOM_USART_CTRLB_COLDEN_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_COLDEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_COLDEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_COLDEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_COLDEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_SFDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_SFDE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_SFDE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_SFDE) >> SERCOM_USART_CTRLB_SFDE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_SFDE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_SFDE;
+	tmp |= value << SERCOM_USART_CTRLB_SFDE_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_SFDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_SFDE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_SFDE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_SFDE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_ENC_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_ENC;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_ENC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_ENC) >> SERCOM_USART_CTRLB_ENC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_ENC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_ENC;
+	tmp |= value << SERCOM_USART_CTRLB_ENC_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_ENC_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_ENC;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_ENC_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_ENC;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_PMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_PMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_PMODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_PMODE) >> SERCOM_USART_CTRLB_PMODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_PMODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_PMODE;
+	tmp |= value << SERCOM_USART_CTRLB_PMODE_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_PMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_PMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_PMODE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_PMODE;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_TXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_TXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_TXEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_TXEN) >> SERCOM_USART_CTRLB_TXEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_TXEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_TXEN;
+	tmp |= value << SERCOM_USART_CTRLB_TXEN_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_TXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_TXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_TXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_TXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_RXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLB_RXEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_RXEN) >> SERCOM_USART_CTRLB_RXEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_RXEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_RXEN;
+	tmp |= value << SERCOM_USART_CTRLB_RXEN_Pos;
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_RXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_RXEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_RXEN;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= SERCOM_USART_CTRLB_CHSIZE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlb_reg_t hri_sercomusart_get_CTRLB_CHSIZE_bf(const void *const           hw,
+                                                                              hri_sercomusart_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_CHSIZE(mask)) >> SERCOM_USART_CTRLB_CHSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomusart_ctrlb_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= ~SERCOM_USART_CTRLB_CHSIZE_Msk;
+	tmp |= SERCOM_USART_CTRLB_CHSIZE(data);
+	((Sercom *)hw)->USART.CTRLB.reg = tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~SERCOM_USART_CTRLB_CHSIZE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_CHSIZE_bf(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= SERCOM_USART_CTRLB_CHSIZE(mask);
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlb_reg_t hri_sercomusart_read_CTRLB_CHSIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp = (tmp & SERCOM_USART_CTRLB_CHSIZE_Msk) >> SERCOM_USART_CTRLB_CHSIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLB_reg(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg |= mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlb_reg_t hri_sercomusart_get_CTRLB_reg(const void *const           hw,
+                                                                        hri_sercomusart_ctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	tmp = ((Sercom *)hw)->USART.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLB_reg(const void *const hw, hri_sercomusart_ctrlb_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg = data;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLB_reg(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg &= ~mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLB_reg(const void *const hw, hri_sercomusart_ctrlb_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLB.reg ^= mask;
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlb_reg_t hri_sercomusart_read_CTRLB_reg(const void *const hw)
+{
+	hri_sercomusart_wait_for_sync(hw, SERCOM_USART_SYNCBUSY_MASK);
+	return ((Sercom *)hw)->USART.CTRLB.reg;
+}
+
+static inline void hri_sercomusart_set_CTRLC_INACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg |= SERCOM_USART_CTRLC_INACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLC_INACK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_INACK) >> SERCOM_USART_CTRLC_INACK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLC_INACK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp &= ~SERCOM_USART_CTRLC_INACK;
+	tmp |= value << SERCOM_USART_CTRLC_INACK_Pos;
+	((Sercom *)hw)->USART.CTRLC.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLC_INACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg &= ~SERCOM_USART_CTRLC_INACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLC_INACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg ^= SERCOM_USART_CTRLC_INACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLC_DSNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg |= SERCOM_USART_CTRLC_DSNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_CTRLC_DSNACK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_DSNACK) >> SERCOM_USART_CTRLC_DSNACK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLC_DSNACK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp &= ~SERCOM_USART_CTRLC_DSNACK;
+	tmp |= value << SERCOM_USART_CTRLC_DSNACK_Pos;
+	((Sercom *)hw)->USART.CTRLC.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLC_DSNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg &= ~SERCOM_USART_CTRLC_DSNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLC_DSNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg ^= SERCOM_USART_CTRLC_DSNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_CTRLC_GTIME_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg |= SERCOM_USART_CTRLC_GTIME(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_get_CTRLC_GTIME_bf(const void *const           hw,
+                                                                             hri_sercomusart_ctrlc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_GTIME(mask)) >> SERCOM_USART_CTRLC_GTIME_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLC_GTIME_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp &= ~SERCOM_USART_CTRLC_GTIME_Msk;
+	tmp |= SERCOM_USART_CTRLC_GTIME(data);
+	((Sercom *)hw)->USART.CTRLC.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLC_GTIME_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg &= ~SERCOM_USART_CTRLC_GTIME(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLC_GTIME_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg ^= SERCOM_USART_CTRLC_GTIME(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_read_CTRLC_GTIME_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_GTIME_Msk) >> SERCOM_USART_CTRLC_GTIME_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLC_MAXITER_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg |= SERCOM_USART_CTRLC_MAXITER(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_get_CTRLC_MAXITER_bf(const void *const           hw,
+                                                                               hri_sercomusart_ctrlc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_MAXITER(mask)) >> SERCOM_USART_CTRLC_MAXITER_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLC_MAXITER_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp &= ~SERCOM_USART_CTRLC_MAXITER_Msk;
+	tmp |= SERCOM_USART_CTRLC_MAXITER(data);
+	((Sercom *)hw)->USART.CTRLC.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLC_MAXITER_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg &= ~SERCOM_USART_CTRLC_MAXITER(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLC_MAXITER_bf(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg ^= SERCOM_USART_CTRLC_MAXITER(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_read_CTRLC_MAXITER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp = (tmp & SERCOM_USART_CTRLC_MAXITER_Msk) >> SERCOM_USART_CTRLC_MAXITER_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_CTRLC_reg(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_get_CTRLC_reg(const void *const           hw,
+                                                                        hri_sercomusart_ctrlc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->USART.CTRLC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_CTRLC_reg(const void *const hw, hri_sercomusart_ctrlc_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_CTRLC_reg(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_CTRLC_reg(const void *const hw, hri_sercomusart_ctrlc_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.CTRLC.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_ctrlc_reg_t hri_sercomusart_read_CTRLC_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.CTRLC.reg;
+}
+
+static inline void hri_sercomi2cm_set_BAUD_BAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg |= SERCOM_I2CM_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_get_BAUD_BAUD_bf(const void *const         hw,
+                                                                        hri_sercomi2cm_baud_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_BAUD(mask)) >> SERCOM_I2CM_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_BAUD_BAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp &= ~SERCOM_I2CM_BAUD_BAUD_Msk;
+	tmp |= SERCOM_I2CM_BAUD_BAUD(data);
+	((Sercom *)hw)->I2CM.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_BAUD_BAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg &= ~SERCOM_I2CM_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_BAUD_BAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg ^= SERCOM_I2CM_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_read_BAUD_BAUD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_BAUD_Msk) >> SERCOM_I2CM_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_BAUD_BAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg |= SERCOM_I2CM_BAUD_BAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_get_BAUD_BAUDLOW_bf(const void *const         hw,
+                                                                           hri_sercomi2cm_baud_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_BAUDLOW(mask)) >> SERCOM_I2CM_BAUD_BAUDLOW_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_BAUD_BAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp &= ~SERCOM_I2CM_BAUD_BAUDLOW_Msk;
+	tmp |= SERCOM_I2CM_BAUD_BAUDLOW(data);
+	((Sercom *)hw)->I2CM.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_BAUD_BAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg &= ~SERCOM_I2CM_BAUD_BAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_BAUD_BAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg ^= SERCOM_I2CM_BAUD_BAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_read_BAUD_BAUDLOW_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_BAUDLOW_Msk) >> SERCOM_I2CM_BAUD_BAUDLOW_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_BAUD_HSBAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg |= SERCOM_I2CM_BAUD_HSBAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_get_BAUD_HSBAUD_bf(const void *const         hw,
+                                                                          hri_sercomi2cm_baud_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_HSBAUD(mask)) >> SERCOM_I2CM_BAUD_HSBAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_BAUD_HSBAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp &= ~SERCOM_I2CM_BAUD_HSBAUD_Msk;
+	tmp |= SERCOM_I2CM_BAUD_HSBAUD(data);
+	((Sercom *)hw)->I2CM.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_BAUD_HSBAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg &= ~SERCOM_I2CM_BAUD_HSBAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_BAUD_HSBAUD_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg ^= SERCOM_I2CM_BAUD_HSBAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_read_BAUD_HSBAUD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_HSBAUD_Msk) >> SERCOM_I2CM_BAUD_HSBAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_BAUD_HSBAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg |= SERCOM_I2CM_BAUD_HSBAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_get_BAUD_HSBAUDLOW_bf(const void *const         hw,
+                                                                             hri_sercomi2cm_baud_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_HSBAUDLOW(mask)) >> SERCOM_I2CM_BAUD_HSBAUDLOW_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_BAUD_HSBAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp &= ~SERCOM_I2CM_BAUD_HSBAUDLOW_Msk;
+	tmp |= SERCOM_I2CM_BAUD_HSBAUDLOW(data);
+	((Sercom *)hw)->I2CM.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_BAUD_HSBAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg &= ~SERCOM_I2CM_BAUD_HSBAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_BAUD_HSBAUDLOW_bf(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg ^= SERCOM_I2CM_BAUD_HSBAUDLOW(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_read_BAUD_HSBAUDLOW_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp = (tmp & SERCOM_I2CM_BAUD_HSBAUDLOW_Msk) >> SERCOM_I2CM_BAUD_HSBAUDLOW_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_BAUD_reg(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_get_BAUD_reg(const void *const         hw,
+                                                                    hri_sercomi2cm_baud_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.BAUD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_BAUD_reg(const void *const hw, hri_sercomi2cm_baud_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_BAUD_reg(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_BAUD_reg(const void *const hw, hri_sercomi2cm_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.BAUD.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_baud_reg_t hri_sercomi2cm_read_BAUD_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CM.BAUD.reg;
+}
+
+static inline void hri_sercomspi_set_BAUD_BAUD_bf(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg |= SERCOM_SPI_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_baud_reg_t hri_sercomspi_get_BAUD_BAUD_bf(const void *const        hw,
+                                                                      hri_sercomspi_baud_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.BAUD.reg;
+	tmp = (tmp & SERCOM_SPI_BAUD_BAUD(mask)) >> SERCOM_SPI_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_BAUD_BAUD_bf(const void *const hw, hri_sercomspi_baud_reg_t data)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.BAUD.reg;
+	tmp &= ~SERCOM_SPI_BAUD_BAUD_Msk;
+	tmp |= SERCOM_SPI_BAUD_BAUD(data);
+	((Sercom *)hw)->SPI.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_BAUD_BAUD_bf(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg &= ~SERCOM_SPI_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_BAUD_BAUD_bf(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg ^= SERCOM_SPI_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_baud_reg_t hri_sercomspi_read_BAUD_BAUD_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.BAUD.reg;
+	tmp = (tmp & SERCOM_SPI_BAUD_BAUD_Msk) >> SERCOM_SPI_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_BAUD_reg(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_baud_reg_t hri_sercomspi_get_BAUD_reg(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.BAUD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_BAUD_reg(const void *const hw, hri_sercomspi_baud_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_BAUD_reg(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_BAUD_reg(const void *const hw, hri_sercomspi_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.BAUD.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_baud_reg_t hri_sercomspi_read_BAUD_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.BAUD.reg;
+}
+
+static inline void hri_sercomusart_set_BAUD_FRAC_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_BAUD_FRACFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_FRAC_BAUD_bf(const void *const          hw,
+                                                                               hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD(mask)) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_FRACFP_BAUD_bf(const void *const          hw,
+                                                                                 hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD(mask)) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_BAUD_FRAC_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_BAUD_Msk;
+	tmp |= SERCOM_USART_BAUD_BAUD(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_write_BAUD_FRACFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_BAUD_Msk;
+	tmp |= SERCOM_USART_BAUD_BAUD(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_FRAC_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_FRACFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_FRAC_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_FRACFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_FRAC_BAUD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD_Msk) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_FRACFP_BAUD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD_Msk) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_BAUD_FRAC_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_FRAC_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_BAUD_FRACFP_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_FRACFP_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_FRAC_FP_bf(const void *const          hw,
+                                                                             hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_FRAC_FP(mask)) >> SERCOM_USART_BAUD_FRAC_FP_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_FRACFP_FP_bf(const void *const          hw,
+                                                                               hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_FRACFP_FP(mask)) >> SERCOM_USART_BAUD_FRACFP_FP_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_BAUD_FRAC_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_FRAC_FP_Msk;
+	tmp |= SERCOM_USART_BAUD_FRAC_FP(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_write_BAUD_FRACFP_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_FRACFP_FP_Msk;
+	tmp |= SERCOM_USART_BAUD_FRACFP_FP(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_FRAC_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_FRAC_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_FRACFP_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_FRACFP_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_FRAC_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_FRAC_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_FRACFP_FP_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_FRACFP_FP(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_FRAC_FP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_FRAC_FP_Msk) >> SERCOM_USART_BAUD_FRAC_FP_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_FRACFP_FP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_FRACFP_FP_Msk) >> SERCOM_USART_BAUD_FRACFP_FP_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_BAUD_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_BAUD_USARTFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_BAUD_bf(const void *const          hw,
+                                                                          hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD(mask)) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_USARTFP_BAUD_bf(const void *const          hw,
+                                                                                  hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD(mask)) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_BAUD_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_BAUD_Msk;
+	tmp |= SERCOM_USART_BAUD_BAUD(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_write_BAUD_USARTFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= ~SERCOM_USART_BAUD_BAUD_Msk;
+	tmp |= SERCOM_USART_BAUD_BAUD(data);
+	((Sercom *)hw)->USART.BAUD.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_USARTFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_USARTFP_BAUD_bf(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= SERCOM_USART_BAUD_BAUD(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_BAUD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD_Msk) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_USARTFP_BAUD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp = (tmp & SERCOM_USART_BAUD_BAUD_Msk) >> SERCOM_USART_BAUD_BAUD_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_BAUD_reg(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_get_BAUD_reg(const void *const          hw,
+                                                                      hri_sercomusart_baud_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.BAUD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_BAUD_reg(const void *const hw, hri_sercomusart_baud_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_BAUD_reg(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_BAUD_reg(const void *const hw, hri_sercomusart_baud_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.BAUD.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_baud_reg_t hri_sercomusart_read_BAUD_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.BAUD.reg;
+}
+
+static inline void hri_sercomusart_set_RXPL_RXPL_bf(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg |= SERCOM_USART_RXPL_RXPL(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_rxpl_reg_t hri_sercomusart_get_RXPL_RXPL_bf(const void *const          hw,
+                                                                          hri_sercomusart_rxpl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.RXPL.reg;
+	tmp = (tmp & SERCOM_USART_RXPL_RXPL(mask)) >> SERCOM_USART_RXPL_RXPL_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_RXPL_RXPL_bf(const void *const hw, hri_sercomusart_rxpl_reg_t data)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.RXPL.reg;
+	tmp &= ~SERCOM_USART_RXPL_RXPL_Msk;
+	tmp |= SERCOM_USART_RXPL_RXPL(data);
+	((Sercom *)hw)->USART.RXPL.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_RXPL_RXPL_bf(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg &= ~SERCOM_USART_RXPL_RXPL(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_RXPL_RXPL_bf(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg ^= SERCOM_USART_RXPL_RXPL(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_rxpl_reg_t hri_sercomusart_read_RXPL_RXPL_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.RXPL.reg;
+	tmp = (tmp & SERCOM_USART_RXPL_RXPL_Msk) >> SERCOM_USART_RXPL_RXPL_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_RXPL_reg(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_rxpl_reg_t hri_sercomusart_get_RXPL_reg(const void *const          hw,
+                                                                      hri_sercomusart_rxpl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.RXPL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_RXPL_reg(const void *const hw, hri_sercomusart_rxpl_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_RXPL_reg(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_RXPL_reg(const void *const hw, hri_sercomusart_rxpl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.RXPL.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_rxpl_reg_t hri_sercomusart_read_RXPL_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.RXPL.reg;
+}
+
+static inline void hri_sercomi2cm_set_ADDR_LENEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= SERCOM_I2CM_ADDR_LENEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_ADDR_LENEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_LENEN) >> SERCOM_I2CM_ADDR_LENEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_LENEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= ~SERCOM_I2CM_ADDR_LENEN;
+	tmp |= value << SERCOM_I2CM_ADDR_LENEN_Pos;
+	((Sercom *)hw)->I2CM.ADDR.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_LENEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~SERCOM_I2CM_ADDR_LENEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_LENEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= SERCOM_I2CM_ADDR_LENEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_ADDR_HS_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= SERCOM_I2CM_ADDR_HS;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_ADDR_HS_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_HS) >> SERCOM_I2CM_ADDR_HS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_HS_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= ~SERCOM_I2CM_ADDR_HS;
+	tmp |= value << SERCOM_I2CM_ADDR_HS_Pos;
+	((Sercom *)hw)->I2CM.ADDR.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_HS_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~SERCOM_I2CM_ADDR_HS;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_HS_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= SERCOM_I2CM_ADDR_HS;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= SERCOM_I2CM_ADDR_TENBITEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_ADDR_TENBITEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_TENBITEN) >> SERCOM_I2CM_ADDR_TENBITEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_TENBITEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= ~SERCOM_I2CM_ADDR_TENBITEN;
+	tmp |= value << SERCOM_I2CM_ADDR_TENBITEN_Pos;
+	((Sercom *)hw)->I2CM.ADDR.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~SERCOM_I2CM_ADDR_TENBITEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= SERCOM_I2CM_ADDR_TENBITEN;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= SERCOM_I2CM_ADDR_ADDR(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_get_ADDR_ADDR_bf(const void *const         hw,
+                                                                        hri_sercomi2cm_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_ADDR(mask)) >> SERCOM_I2CM_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cm_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= ~SERCOM_I2CM_ADDR_ADDR_Msk;
+	tmp |= SERCOM_I2CM_ADDR_ADDR(data);
+	((Sercom *)hw)->I2CM.ADDR.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~SERCOM_I2CM_ADDR_ADDR(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= SERCOM_I2CM_ADDR_ADDR(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_ADDR_Msk) >> SERCOM_I2CM_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_ADDR_LEN_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= SERCOM_I2CM_ADDR_LEN(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_get_ADDR_LEN_bf(const void *const         hw,
+                                                                       hri_sercomi2cm_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_LEN(mask)) >> SERCOM_I2CM_ADDR_LEN_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_LEN_bf(const void *const hw, hri_sercomi2cm_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= ~SERCOM_I2CM_ADDR_LEN_Msk;
+	tmp |= SERCOM_I2CM_ADDR_LEN(data);
+	((Sercom *)hw)->I2CM.ADDR.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_LEN_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~SERCOM_I2CM_ADDR_LEN(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_LEN_bf(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= SERCOM_I2CM_ADDR_LEN(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_read_ADDR_LEN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CM_ADDR_LEN_Msk) >> SERCOM_I2CM_ADDR_LEN_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_ADDR_reg(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg |= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_get_ADDR_reg(const void *const         hw,
+                                                                    hri_sercomi2cm_addr_reg_t mask)
+{
+	uint32_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	tmp = ((Sercom *)hw)->I2CM.ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_ADDR_reg(const void *const hw, hri_sercomi2cm_addr_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg = data;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_ADDR_reg(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg &= ~mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_ADDR_reg(const void *const hw, hri_sercomi2cm_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.ADDR.reg ^= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_addr_reg_t hri_sercomi2cm_read_ADDR_reg(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return ((Sercom *)hw)->I2CM.ADDR.reg;
+}
+
+static inline void hri_sercomi2cs_set_ADDR_GENCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg |= SERCOM_I2CS_ADDR_GENCEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_ADDR_GENCEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_GENCEN) >> SERCOM_I2CS_ADDR_GENCEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_ADDR_GENCEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp &= ~SERCOM_I2CS_ADDR_GENCEN;
+	tmp |= value << SERCOM_I2CS_ADDR_GENCEN_Pos;
+	((Sercom *)hw)->I2CS.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_ADDR_GENCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg &= ~SERCOM_I2CS_ADDR_GENCEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_ADDR_GENCEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg ^= SERCOM_I2CS_ADDR_GENCEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg |= SERCOM_I2CS_ADDR_TENBITEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_ADDR_TENBITEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_TENBITEN) >> SERCOM_I2CS_ADDR_TENBITEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cs_write_ADDR_TENBITEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp &= ~SERCOM_I2CS_ADDR_TENBITEN;
+	tmp |= value << SERCOM_I2CS_ADDR_TENBITEN_Pos;
+	((Sercom *)hw)->I2CS.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg &= ~SERCOM_I2CS_ADDR_TENBITEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_ADDR_TENBITEN_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg ^= SERCOM_I2CS_ADDR_TENBITEN;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_set_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg |= SERCOM_I2CS_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_get_ADDR_ADDR_bf(const void *const         hw,
+                                                                        hri_sercomi2cs_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_ADDR(mask)) >> SERCOM_I2CS_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cs_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp &= ~SERCOM_I2CS_ADDR_ADDR_Msk;
+	tmp |= SERCOM_I2CS_ADDR_ADDR(data);
+	((Sercom *)hw)->I2CS.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg &= ~SERCOM_I2CS_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_ADDR_ADDR_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg ^= SERCOM_I2CS_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_ADDR_Msk) >> SERCOM_I2CS_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg |= SERCOM_I2CS_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_get_ADDR_ADDRMASK_bf(const void *const         hw,
+                                                                            hri_sercomi2cs_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_ADDRMASK(mask)) >> SERCOM_I2CS_ADDR_ADDRMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomi2cs_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp &= ~SERCOM_I2CS_ADDR_ADDRMASK_Msk;
+	tmp |= SERCOM_I2CS_ADDR_ADDRMASK(data);
+	((Sercom *)hw)->I2CS.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg &= ~SERCOM_I2CS_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg ^= SERCOM_I2CS_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_read_ADDR_ADDRMASK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp = (tmp & SERCOM_I2CS_ADDR_ADDRMASK_Msk) >> SERCOM_I2CS_ADDR_ADDRMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_ADDR_reg(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_get_ADDR_reg(const void *const         hw,
+                                                                    hri_sercomi2cs_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_ADDR_reg(const void *const hw, hri_sercomi2cs_addr_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_ADDR_reg(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_ADDR_reg(const void *const hw, hri_sercomi2cs_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.ADDR.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_addr_reg_t hri_sercomi2cs_read_ADDR_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.ADDR.reg;
+}
+
+static inline void hri_sercomspi_set_ADDR_ADDR_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg |= SERCOM_SPI_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_get_ADDR_ADDR_bf(const void *const        hw,
+                                                                      hri_sercomspi_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp = (tmp & SERCOM_SPI_ADDR_ADDR(mask)) >> SERCOM_SPI_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_ADDR_ADDR_bf(const void *const hw, hri_sercomspi_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp &= ~SERCOM_SPI_ADDR_ADDR_Msk;
+	tmp |= SERCOM_SPI_ADDR_ADDR(data);
+	((Sercom *)hw)->SPI.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_ADDR_ADDR_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg &= ~SERCOM_SPI_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_ADDR_ADDR_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg ^= SERCOM_SPI_ADDR_ADDR(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp = (tmp & SERCOM_SPI_ADDR_ADDR_Msk) >> SERCOM_SPI_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg |= SERCOM_SPI_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_get_ADDR_ADDRMASK_bf(const void *const        hw,
+                                                                          hri_sercomspi_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp = (tmp & SERCOM_SPI_ADDR_ADDRMASK(mask)) >> SERCOM_SPI_ADDR_ADDRMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomspi_addr_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp &= ~SERCOM_SPI_ADDR_ADDRMASK_Msk;
+	tmp |= SERCOM_SPI_ADDR_ADDRMASK(data);
+	((Sercom *)hw)->SPI.ADDR.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg &= ~SERCOM_SPI_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_ADDR_ADDRMASK_bf(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg ^= SERCOM_SPI_ADDR_ADDRMASK(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_read_ADDR_ADDRMASK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp = (tmp & SERCOM_SPI_ADDR_ADDRMASK_Msk) >> SERCOM_SPI_ADDR_ADDRMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_ADDR_reg(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_get_ADDR_reg(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_ADDR_reg(const void *const hw, hri_sercomspi_addr_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_ADDR_reg(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_ADDR_reg(const void *const hw, hri_sercomspi_addr_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.ADDR.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_addr_reg_t hri_sercomspi_read_ADDR_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.ADDR.reg;
+}
+
+static inline void hri_sercomi2cm_set_DATA_DATA_bf(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg |= SERCOM_I2CM_DATA_DATA(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_data_reg_t hri_sercomi2cm_get_DATA_DATA_bf(const void *const         hw,
+                                                                        hri_sercomi2cm_data_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.DATA.reg;
+	tmp = (tmp & SERCOM_I2CM_DATA_DATA(mask)) >> SERCOM_I2CM_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_DATA_DATA_bf(const void *const hw, hri_sercomi2cm_data_reg_t data)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.DATA.reg;
+	tmp &= ~SERCOM_I2CM_DATA_DATA_Msk;
+	tmp |= SERCOM_I2CM_DATA_DATA(data);
+	((Sercom *)hw)->I2CM.DATA.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_DATA_DATA_bf(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg &= ~SERCOM_I2CM_DATA_DATA(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_DATA_DATA_bf(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg ^= SERCOM_I2CM_DATA_DATA(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_data_reg_t hri_sercomi2cm_read_DATA_DATA_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.DATA.reg;
+	tmp = (tmp & SERCOM_I2CM_DATA_DATA_Msk) >> SERCOM_I2CM_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_DATA_reg(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg |= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_data_reg_t hri_sercomi2cm_get_DATA_reg(const void *const         hw,
+                                                                    hri_sercomi2cm_data_reg_t mask)
+{
+	uint8_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	tmp = ((Sercom *)hw)->I2CM.DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_DATA_reg(const void *const hw, hri_sercomi2cm_data_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg = data;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_DATA_reg(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg &= ~mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_DATA_reg(const void *const hw, hri_sercomi2cm_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DATA.reg ^= mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_data_reg_t hri_sercomi2cm_read_DATA_reg(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return ((Sercom *)hw)->I2CM.DATA.reg;
+}
+
+static inline void hri_sercomi2cs_set_DATA_DATA_bf(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg |= SERCOM_I2CS_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_data_reg_t hri_sercomi2cs_get_DATA_DATA_bf(const void *const         hw,
+                                                                        hri_sercomi2cs_data_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.DATA.reg;
+	tmp = (tmp & SERCOM_I2CS_DATA_DATA(mask)) >> SERCOM_I2CS_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_DATA_DATA_bf(const void *const hw, hri_sercomi2cs_data_reg_t data)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CS.DATA.reg;
+	tmp &= ~SERCOM_I2CS_DATA_DATA_Msk;
+	tmp |= SERCOM_I2CS_DATA_DATA(data);
+	((Sercom *)hw)->I2CS.DATA.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_DATA_DATA_bf(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg &= ~SERCOM_I2CS_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_DATA_DATA_bf(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg ^= SERCOM_I2CS_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_data_reg_t hri_sercomi2cs_read_DATA_DATA_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.DATA.reg;
+	tmp = (tmp & SERCOM_I2CS_DATA_DATA_Msk) >> SERCOM_I2CS_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_set_DATA_reg(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_data_reg_t hri_sercomi2cs_get_DATA_reg(const void *const         hw,
+                                                                    hri_sercomi2cs_data_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_write_DATA_reg(const void *const hw, hri_sercomi2cs_data_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_clear_DATA_reg(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cs_toggle_DATA_reg(const void *const hw, hri_sercomi2cs_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.DATA.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_data_reg_t hri_sercomi2cs_read_DATA_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.DATA.reg;
+}
+
+static inline void hri_sercomspi_set_DATA_DATA_bf(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg |= SERCOM_SPI_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_data_reg_t hri_sercomspi_get_DATA_DATA_bf(const void *const        hw,
+                                                                      hri_sercomspi_data_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.DATA.reg;
+	tmp = (tmp & SERCOM_SPI_DATA_DATA(mask)) >> SERCOM_SPI_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_DATA_DATA_bf(const void *const hw, hri_sercomspi_data_reg_t data)
+{
+	uint32_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.DATA.reg;
+	tmp &= ~SERCOM_SPI_DATA_DATA_Msk;
+	tmp |= SERCOM_SPI_DATA_DATA(data);
+	((Sercom *)hw)->SPI.DATA.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_DATA_DATA_bf(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg &= ~SERCOM_SPI_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_DATA_DATA_bf(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg ^= SERCOM_SPI_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_data_reg_t hri_sercomspi_read_DATA_DATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.DATA.reg;
+	tmp = (tmp & SERCOM_SPI_DATA_DATA_Msk) >> SERCOM_SPI_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomspi_set_DATA_reg(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_data_reg_t hri_sercomspi_get_DATA_reg(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Sercom *)hw)->SPI.DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_DATA_reg(const void *const hw, hri_sercomspi_data_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_DATA_reg(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_DATA_reg(const void *const hw, hri_sercomspi_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DATA.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_data_reg_t hri_sercomspi_read_DATA_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.DATA.reg;
+}
+
+static inline void hri_sercomusart_set_DATA_DATA_bf(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg |= SERCOM_USART_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_data_reg_t hri_sercomusart_get_DATA_DATA_bf(const void *const          hw,
+                                                                          hri_sercomusart_data_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.DATA.reg;
+	tmp = (tmp & SERCOM_USART_DATA_DATA(mask)) >> SERCOM_USART_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_DATA_DATA_bf(const void *const hw, hri_sercomusart_data_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.DATA.reg;
+	tmp &= ~SERCOM_USART_DATA_DATA_Msk;
+	tmp |= SERCOM_USART_DATA_DATA(data);
+	((Sercom *)hw)->USART.DATA.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_DATA_DATA_bf(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg &= ~SERCOM_USART_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_DATA_DATA_bf(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg ^= SERCOM_USART_DATA_DATA(mask);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_data_reg_t hri_sercomusart_read_DATA_DATA_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.DATA.reg;
+	tmp = (tmp & SERCOM_USART_DATA_DATA_Msk) >> SERCOM_USART_DATA_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_sercomusart_set_DATA_reg(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_data_reg_t hri_sercomusart_get_DATA_reg(const void *const          hw,
+                                                                      hri_sercomusart_data_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_DATA_reg(const void *const hw, hri_sercomusart_data_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_DATA_reg(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_DATA_reg(const void *const hw, hri_sercomusart_data_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DATA.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_data_reg_t hri_sercomusart_read_DATA_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.DATA.reg;
+}
+
+static inline void hri_sercomi2cm_set_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg |= SERCOM_I2CM_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.DBGCTRL.reg;
+	tmp = (tmp & SERCOM_I2CM_DBGCTRL_DBGSTOP) >> SERCOM_I2CM_DBGCTRL_DBGSTOP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomi2cm_write_DBGCTRL_DBGSTOP_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.DBGCTRL.reg;
+	tmp &= ~SERCOM_I2CM_DBGCTRL_DBGSTOP;
+	tmp |= value << SERCOM_I2CM_DBGCTRL_DBGSTOP_Pos;
+	((Sercom *)hw)->I2CM.DBGCTRL.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg &= ~SERCOM_I2CM_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg ^= SERCOM_I2CM_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_DBGCTRL_reg(const void *const hw, hri_sercomi2cm_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_dbgctrl_reg_t hri_sercomi2cm_get_DBGCTRL_reg(const void *const            hw,
+                                                                          hri_sercomi2cm_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->I2CM.DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_write_DBGCTRL_reg(const void *const hw, hri_sercomi2cm_dbgctrl_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_DBGCTRL_reg(const void *const hw, hri_sercomi2cm_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_DBGCTRL_reg(const void *const hw, hri_sercomi2cm_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.DBGCTRL.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_dbgctrl_reg_t hri_sercomi2cm_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CM.DBGCTRL.reg;
+}
+
+static inline void hri_sercomspi_set_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg |= SERCOM_SPI_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomspi_get_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.DBGCTRL.reg;
+	tmp = (tmp & SERCOM_SPI_DBGCTRL_DBGSTOP) >> SERCOM_SPI_DBGCTRL_DBGSTOP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomspi_write_DBGCTRL_DBGSTOP_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->SPI.DBGCTRL.reg;
+	tmp &= ~SERCOM_SPI_DBGCTRL_DBGSTOP;
+	tmp |= value << SERCOM_SPI_DBGCTRL_DBGSTOP_Pos;
+	((Sercom *)hw)->SPI.DBGCTRL.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg &= ~SERCOM_SPI_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg ^= SERCOM_SPI_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_set_DBGCTRL_reg(const void *const hw, hri_sercomspi_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_dbgctrl_reg_t hri_sercomspi_get_DBGCTRL_reg(const void *const           hw,
+                                                                        hri_sercomspi_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->SPI.DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_write_DBGCTRL_reg(const void *const hw, hri_sercomspi_dbgctrl_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_clear_DBGCTRL_reg(const void *const hw, hri_sercomspi_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomspi_toggle_DBGCTRL_reg(const void *const hw, hri_sercomspi_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.DBGCTRL.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_dbgctrl_reg_t hri_sercomspi_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.DBGCTRL.reg;
+}
+
+static inline void hri_sercomusart_set_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg |= SERCOM_USART_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.DBGCTRL.reg;
+	tmp = (tmp & SERCOM_USART_DBGCTRL_DBGSTOP) >> SERCOM_USART_DBGCTRL_DBGSTOP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_sercomusart_write_DBGCTRL_DBGSTOP_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->USART.DBGCTRL.reg;
+	tmp &= ~SERCOM_USART_DBGCTRL_DBGSTOP;
+	tmp |= value << SERCOM_USART_DBGCTRL_DBGSTOP_Pos;
+	((Sercom *)hw)->USART.DBGCTRL.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg &= ~SERCOM_USART_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_DBGCTRL_DBGSTOP_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg ^= SERCOM_USART_DBGCTRL_DBGSTOP;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_set_DBGCTRL_reg(const void *const hw, hri_sercomusart_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg |= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_dbgctrl_reg_t hri_sercomusart_get_DBGCTRL_reg(const void *const             hw,
+                                                                            hri_sercomusart_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Sercom *)hw)->USART.DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_write_DBGCTRL_reg(const void *const hw, hri_sercomusart_dbgctrl_reg_t data)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg = data;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_clear_DBGCTRL_reg(const void *const hw, hri_sercomusart_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg &= ~mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomusart_toggle_DBGCTRL_reg(const void *const hw, hri_sercomusart_dbgctrl_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.DBGCTRL.reg ^= mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_dbgctrl_reg_t hri_sercomusart_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.DBGCTRL.reg;
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_BUSERR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_BUSERR) >> SERCOM_I2CS_STATUS_BUSERR_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_BUSERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_BUSERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_COLL_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_COLL) >> SERCOM_I2CS_STATUS_COLL_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_COLL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_COLL;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_RXNACK_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_RXNACK) >> SERCOM_I2CS_STATUS_RXNACK_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_RXNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_RXNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_DIR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_DIR) >> SERCOM_I2CS_STATUS_DIR_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_DIR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_DIR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_SR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_SR) >> SERCOM_I2CS_STATUS_SR_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_SR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_SR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_LOWTOUT) >> SERCOM_I2CS_STATUS_LOWTOUT_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_LOWTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_CLKHOLD) >> SERCOM_I2CS_STATUS_CLKHOLD_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_CLKHOLD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_SEXTTOUT) >> SERCOM_I2CS_STATUS_SEXTTOUT_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_SEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cs_get_STATUS_HS_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CS.STATUS.reg & SERCOM_I2CS_STATUS_HS) >> SERCOM_I2CS_STATUS_HS_Pos;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_HS_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = SERCOM_I2CS_STATUS_HS;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_status_reg_t hri_sercomi2cs_get_STATUS_reg(const void *const           hw,
+                                                                        hri_sercomi2cs_status_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->I2CS.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cs_clear_STATUS_reg(const void *const hw, hri_sercomi2cs_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CS.STATUS.reg = mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cs_status_reg_t hri_sercomi2cs_read_STATUS_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->I2CS.STATUS.reg;
+}
+
+static inline bool hri_sercomspi_get_STATUS_BUFOVF_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->SPI.STATUS.reg & SERCOM_SPI_STATUS_BUFOVF) >> SERCOM_SPI_STATUS_BUFOVF_Pos;
+}
+
+static inline void hri_sercomspi_clear_STATUS_BUFOVF_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.STATUS.reg = SERCOM_SPI_STATUS_BUFOVF;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_status_reg_t hri_sercomspi_get_STATUS_reg(const void *const          hw,
+                                                                      hri_sercomspi_status_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->SPI.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomspi_clear_STATUS_reg(const void *const hw, hri_sercomspi_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->SPI.STATUS.reg = mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomspi_status_reg_t hri_sercomspi_read_STATUS_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->SPI.STATUS.reg;
+}
+
+static inline bool hri_sercomusart_get_STATUS_PERR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_PERR) >> SERCOM_USART_STATUS_PERR_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_PERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_PERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_FERR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_FERR) >> SERCOM_USART_STATUS_FERR_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_FERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_FERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_BUFOVF_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_BUFOVF) >> SERCOM_USART_STATUS_BUFOVF_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_BUFOVF_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_BUFOVF;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_CTS_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_CTS) >> SERCOM_USART_STATUS_CTS_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_CTS_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_CTS;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_ISF_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_ISF) >> SERCOM_USART_STATUS_ISF_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_ISF_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_ISF;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_COLL_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_COLL) >> SERCOM_USART_STATUS_COLL_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_COLL_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_COLL;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_TXE_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_TXE) >> SERCOM_USART_STATUS_TXE_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_TXE_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_TXE;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomusart_get_STATUS_ITER_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->USART.STATUS.reg & SERCOM_USART_STATUS_ITER) >> SERCOM_USART_STATUS_ITER_Pos;
+}
+
+static inline void hri_sercomusart_clear_STATUS_ITER_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = SERCOM_USART_STATUS_ITER;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_status_reg_t hri_sercomusart_get_STATUS_reg(const void *const            hw,
+                                                                          hri_sercomusart_status_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Sercom *)hw)->USART.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomusart_clear_STATUS_reg(const void *const hw, hri_sercomusart_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->USART.STATUS.reg = mask;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomusart_status_reg_t hri_sercomusart_read_STATUS_reg(const void *const hw)
+{
+	return ((Sercom *)hw)->USART.STATUS.reg;
+}
+
+static inline void hri_sercomi2cm_set_STATUS_BUSERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_BUSERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_BUSERR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_BUSERR) >> SERCOM_I2CM_STATUS_BUSERR_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_BUSERR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_BUSERR;
+	tmp |= value << SERCOM_I2CM_STATUS_BUSERR_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_BUSERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_BUSERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_BUSERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_BUSERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_ARBLOST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_ARBLOST;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_ARBLOST_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_ARBLOST) >> SERCOM_I2CM_STATUS_ARBLOST_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_ARBLOST_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_ARBLOST;
+	tmp |= value << SERCOM_I2CM_STATUS_ARBLOST_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_ARBLOST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_ARBLOST;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_ARBLOST_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_ARBLOST;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_RXNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_RXNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_RXNACK_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_RXNACK) >> SERCOM_I2CM_STATUS_RXNACK_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_RXNACK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_RXNACK;
+	tmp |= value << SERCOM_I2CM_STATUS_RXNACK_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_RXNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_RXNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_RXNACK_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_RXNACK;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_LOWTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_LOWTOUT) >> SERCOM_I2CM_STATUS_LOWTOUT_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_LOWTOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_LOWTOUT;
+	tmp |= value << SERCOM_I2CM_STATUS_LOWTOUT_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_LOWTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_LOWTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_LOWTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_CLKHOLD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_CLKHOLD) >> SERCOM_I2CM_STATUS_CLKHOLD_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_CLKHOLD_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_CLKHOLD;
+	tmp |= value << SERCOM_I2CM_STATUS_CLKHOLD_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_CLKHOLD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_CLKHOLD_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_CLKHOLD;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_MEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_MEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_MEXTTOUT_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_MEXTTOUT) >> SERCOM_I2CM_STATUS_MEXTTOUT_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_MEXTTOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_MEXTTOUT;
+	tmp |= value << SERCOM_I2CM_STATUS_MEXTTOUT_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_MEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_MEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_MEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_MEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_SEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_SEXTTOUT) >> SERCOM_I2CM_STATUS_SEXTTOUT_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_SEXTTOUT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_SEXTTOUT;
+	tmp |= value << SERCOM_I2CM_STATUS_SEXTTOUT_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_SEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_SEXTTOUT_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_SEXTTOUT;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_set_STATUS_LENERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_LENERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_sercomi2cm_get_STATUS_LENERR_bit(const void *const hw)
+{
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_LENERR) >> SERCOM_I2CM_STATUS_LENERR_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_LENERR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_LENERR;
+	tmp |= value << SERCOM_I2CM_STATUS_LENERR_Pos;
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_LENERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_LENERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_LENERR_bit(const void *const hw)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_LENERR;
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_status_reg_t hri_sercomi2cm_get_STATUS_BUSSTATE_bf(const void *const           hw,
+                                                                                hri_sercomi2cm_status_reg_t mask)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_BUSSTATE(mask)) >> SERCOM_I2CM_STATUS_BUSSTATE_Pos;
+}
+
+static inline void hri_sercomi2cm_set_STATUS_BUSSTATE_bf(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg |= SERCOM_I2CM_STATUS_BUSSTATE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_status_reg_t hri_sercomi2cm_read_STATUS_BUSSTATE_bf(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return (((Sercom *)hw)->I2CM.STATUS.reg & SERCOM_I2CM_STATUS_BUSSTATE_Msk) >> SERCOM_I2CM_STATUS_BUSSTATE_Pos;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_BUSSTATE_bf(const void *const hw, hri_sercomi2cm_status_reg_t data)
+{
+	uint16_t tmp;
+	SERCOM_CRITICAL_SECTION_ENTER();
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= ~SERCOM_I2CM_STATUS_BUSSTATE_Msk;
+	tmp |= SERCOM_I2CM_STATUS_BUSSTATE(data);
+	((Sercom *)hw)->I2CM.STATUS.reg = tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_BUSSTATE_bf(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg ^= SERCOM_I2CM_STATUS_BUSSTATE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_BUSSTATE_bf(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = SERCOM_I2CM_STATUS_BUSSTATE(mask);
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_sercomi2cm_status_reg_t hri_sercomi2cm_get_STATUS_reg(const void *const           hw,
+                                                                        hri_sercomi2cm_status_reg_t mask)
+{
+	uint16_t tmp;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	tmp = ((Sercom *)hw)->I2CM.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_sercomi2cm_set_STATUS_reg(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	((Sercom *)hw)->I2CM.STATUS.reg |= mask;
+}
+
+static inline hri_sercomi2cm_status_reg_t hri_sercomi2cm_read_STATUS_reg(const void *const hw)
+{
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	return ((Sercom *)hw)->I2CM.STATUS.reg;
+}
+
+static inline void hri_sercomi2cm_write_STATUS_reg(const void *const hw, hri_sercomi2cm_status_reg_t data)
+{
+	((Sercom *)hw)->I2CM.STATUS.reg = data;
+}
+
+static inline void hri_sercomi2cm_toggle_STATUS_reg(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	((Sercom *)hw)->I2CM.STATUS.reg ^= mask;
+}
+
+static inline void hri_sercomi2cm_clear_STATUS_reg(const void *const hw, hri_sercomi2cm_status_reg_t mask)
+{
+	SERCOM_CRITICAL_SECTION_ENTER();
+	((Sercom *)hw)->I2CM.STATUS.reg = mask;
+	hri_sercomi2cm_wait_for_sync(hw, SERCOM_I2CM_SYNCBUSY_SYSOP);
+	SERCOM_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_SERCOM_L22_H_INCLUDED */
+#endif /* _SAML22_SERCOM_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_slcd_l22.h b/watch-library/hardware/hri/hri_slcd_l22.h
new file mode 100644
index 00000000..89fde269
--- /dev/null
+++ b/watch-library/hardware/hri/hri_slcd_l22.h
@@ -0,0 +1,5440 @@
+/**
+ * \file
+ *
+ * \brief SAM SLCD
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_SLCD_COMPONENT_
+#ifndef _HRI_SLCD_L22_H_INCLUDED_
+#define _HRI_SLCD_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_SLCD_CRITICAL_SECTIONS)
+#define SLCD_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define SLCD_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define SLCD_CRITICAL_SECTION_ENTER()
+#define SLCD_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_slcd_cmindex_reg_t;
+typedef uint16_t hri_slcd_ctrlb_reg_t;
+typedef uint16_t hri_slcd_ctrlc_reg_t;
+typedef uint32_t hri_slcd_acmcfg_reg_t;
+typedef uint32_t hri_slcd_bcfg_reg_t;
+typedef uint32_t hri_slcd_cmdata_reg_t;
+typedef uint32_t hri_slcd_cmdmask_reg_t;
+typedef uint32_t hri_slcd_csrcfg_reg_t;
+typedef uint32_t hri_slcd_ctrla_reg_t;
+typedef uint32_t hri_slcd_isdata_reg_t;
+typedef uint32_t hri_slcd_lpenh_reg_t;
+typedef uint32_t hri_slcd_lpenl_reg_t;
+typedef uint32_t hri_slcd_sdatah0_reg_t;
+typedef uint32_t hri_slcd_sdatah1_reg_t;
+typedef uint32_t hri_slcd_sdatah2_reg_t;
+typedef uint32_t hri_slcd_sdatah3_reg_t;
+typedef uint32_t hri_slcd_sdatah4_reg_t;
+typedef uint32_t hri_slcd_sdatah5_reg_t;
+typedef uint32_t hri_slcd_sdatah6_reg_t;
+typedef uint32_t hri_slcd_sdatah7_reg_t;
+typedef uint32_t hri_slcd_sdatal0_reg_t;
+typedef uint32_t hri_slcd_sdatal1_reg_t;
+typedef uint32_t hri_slcd_sdatal2_reg_t;
+typedef uint32_t hri_slcd_sdatal3_reg_t;
+typedef uint32_t hri_slcd_sdatal4_reg_t;
+typedef uint32_t hri_slcd_sdatal5_reg_t;
+typedef uint32_t hri_slcd_sdatal6_reg_t;
+typedef uint32_t hri_slcd_sdatal7_reg_t;
+typedef uint32_t hri_slcd_syncbusy_reg_t;
+typedef uint8_t  hri_slcd_abmcfg_reg_t;
+typedef uint8_t  hri_slcd_cmcfg_reg_t;
+typedef uint8_t  hri_slcd_ctrld_reg_t;
+typedef uint8_t  hri_slcd_evctrl_reg_t;
+typedef uint8_t  hri_slcd_fc0_reg_t;
+typedef uint8_t  hri_slcd_fc1_reg_t;
+typedef uint8_t  hri_slcd_fc2_reg_t;
+typedef uint8_t  hri_slcd_intenset_reg_t;
+typedef uint8_t  hri_slcd_intflag_reg_t;
+typedef uint8_t  hri_slcd_status_reg_t;
+
+static inline void hri_slcd_wait_for_sync(const void *const hw, hri_slcd_syncbusy_reg_t reg)
+{
+	while (((Slcd *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_slcd_is_syncing(const void *const hw, hri_slcd_syncbusy_reg_t reg)
+{
+	return ((Slcd *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_slcd_get_INTFLAG_FC0O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC0O) >> SLCD_INTFLAG_FC0O_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_FC0O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC0O;
+}
+
+static inline bool hri_slcd_get_INTFLAG_FC1O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC1O) >> SLCD_INTFLAG_FC1O_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_FC1O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC1O;
+}
+
+static inline bool hri_slcd_get_INTFLAG_FC2O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC2O) >> SLCD_INTFLAG_FC2O_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_FC2O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC2O;
+}
+
+static inline bool hri_slcd_get_INTFLAG_VLCDRT_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_VLCDRT) >> SLCD_INTFLAG_VLCDRT_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_VLCDRT_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_VLCDRT;
+}
+
+static inline bool hri_slcd_get_INTFLAG_VLCDST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_VLCDST) >> SLCD_INTFLAG_VLCDST_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_VLCDST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_VLCDST;
+}
+
+static inline bool hri_slcd_get_INTFLAG_PRST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_PRST) >> SLCD_INTFLAG_PRST_Pos;
+}
+
+static inline void hri_slcd_clear_INTFLAG_PRST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_PRST;
+}
+
+static inline bool hri_slcd_get_interrupt_FC0O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC0O) >> SLCD_INTFLAG_FC0O_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_FC0O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC0O;
+}
+
+static inline bool hri_slcd_get_interrupt_FC1O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC1O) >> SLCD_INTFLAG_FC1O_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_FC1O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC1O;
+}
+
+static inline bool hri_slcd_get_interrupt_FC2O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_FC2O) >> SLCD_INTFLAG_FC2O_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_FC2O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_FC2O;
+}
+
+static inline bool hri_slcd_get_interrupt_VLCDRT_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_VLCDRT) >> SLCD_INTFLAG_VLCDRT_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_VLCDRT_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_VLCDRT;
+}
+
+static inline bool hri_slcd_get_interrupt_VLCDST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_VLCDST) >> SLCD_INTFLAG_VLCDST_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_VLCDST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_VLCDST;
+}
+
+static inline bool hri_slcd_get_interrupt_PRST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTFLAG.reg & SLCD_INTFLAG_PRST) >> SLCD_INTFLAG_PRST_Pos;
+}
+
+static inline void hri_slcd_clear_interrupt_PRST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTFLAG.reg = SLCD_INTFLAG_PRST;
+}
+
+static inline hri_slcd_intflag_reg_t hri_slcd_get_INTFLAG_reg(const void *const hw, hri_slcd_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_slcd_intflag_reg_t hri_slcd_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_slcd_clear_INTFLAG_reg(const void *const hw, hri_slcd_intflag_reg_t mask)
+{
+	((Slcd *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_slcd_set_INTEN_FC0O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC0O;
+}
+
+static inline bool hri_slcd_get_INTEN_FC0O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_FC0O) >> SLCD_INTENSET_FC0O_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_FC0O_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC0O;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC0O;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_FC0O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC0O;
+}
+
+static inline void hri_slcd_set_INTEN_FC1O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC1O;
+}
+
+static inline bool hri_slcd_get_INTEN_FC1O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_FC1O) >> SLCD_INTENSET_FC1O_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_FC1O_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC1O;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC1O;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_FC1O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC1O;
+}
+
+static inline void hri_slcd_set_INTEN_FC2O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC2O;
+}
+
+static inline bool hri_slcd_get_INTEN_FC2O_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_FC2O) >> SLCD_INTENSET_FC2O_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_FC2O_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC2O;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_FC2O;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_FC2O_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_FC2O;
+}
+
+static inline void hri_slcd_set_INTEN_VLCDRT_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_VLCDRT;
+}
+
+static inline bool hri_slcd_get_INTEN_VLCDRT_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_VLCDRT) >> SLCD_INTENSET_VLCDRT_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_VLCDRT_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_VLCDRT;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_VLCDRT;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_VLCDRT_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_VLCDRT;
+}
+
+static inline void hri_slcd_set_INTEN_VLCDST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_VLCDST;
+}
+
+static inline bool hri_slcd_get_INTEN_VLCDST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_VLCDST) >> SLCD_INTENSET_VLCDST_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_VLCDST_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_VLCDST;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_VLCDST;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_VLCDST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_VLCDST;
+}
+
+static inline void hri_slcd_set_INTEN_PRST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_PRST;
+}
+
+static inline bool hri_slcd_get_INTEN_PRST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->INTENSET.reg & SLCD_INTENSET_PRST) >> SLCD_INTENSET_PRST_Pos;
+}
+
+static inline void hri_slcd_write_INTEN_PRST_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_PRST;
+	} else {
+		((Slcd *)hw)->INTENSET.reg = SLCD_INTENSET_PRST;
+	}
+}
+
+static inline void hri_slcd_clear_INTEN_PRST_bit(const void *const hw)
+{
+	((Slcd *)hw)->INTENCLR.reg = SLCD_INTENSET_PRST;
+}
+
+static inline void hri_slcd_set_INTEN_reg(const void *const hw, hri_slcd_intenset_reg_t mask)
+{
+	((Slcd *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_slcd_intenset_reg_t hri_slcd_get_INTEN_reg(const void *const hw, hri_slcd_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_slcd_intenset_reg_t hri_slcd_read_INTEN_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->INTENSET.reg;
+}
+
+static inline void hri_slcd_write_INTEN_reg(const void *const hw, hri_slcd_intenset_reg_t data)
+{
+	((Slcd *)hw)->INTENSET.reg = data;
+	((Slcd *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_slcd_clear_INTEN_reg(const void *const hw, hri_slcd_intenset_reg_t mask)
+{
+	((Slcd *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_slcd_get_STATUS_VLCDR_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_VLCDR) >> SLCD_STATUS_VLCDR_Pos;
+}
+
+static inline bool hri_slcd_get_STATUS_PRUN_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_PRUN) >> SLCD_STATUS_PRUN_Pos;
+}
+
+static inline bool hri_slcd_get_STATUS_VLCDS_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_VLCDS) >> SLCD_STATUS_VLCDS_Pos;
+}
+
+static inline bool hri_slcd_get_STATUS_CMWRBUSY_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_CMWRBUSY) >> SLCD_STATUS_CMWRBUSY_Pos;
+}
+
+static inline bool hri_slcd_get_STATUS_ACMBUSY_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_ACMBUSY) >> SLCD_STATUS_ACMBUSY_Pos;
+}
+
+static inline bool hri_slcd_get_STATUS_ABMBUSY_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->STATUS.reg & SLCD_STATUS_ABMBUSY) >> SLCD_STATUS_ABMBUSY_Pos;
+}
+
+static inline hri_slcd_status_reg_t hri_slcd_get_STATUS_reg(const void *const hw, hri_slcd_status_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_slcd_status_reg_t hri_slcd_read_STATUS_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->STATUS.reg;
+}
+
+static inline bool hri_slcd_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->SYNCBUSY.reg & SLCD_SYNCBUSY_SWRST) >> SLCD_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_slcd_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->SYNCBUSY.reg & SLCD_SYNCBUSY_ENABLE) >> SLCD_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_slcd_get_SYNCBUSY_CTRLD_bit(const void *const hw)
+{
+	return (((Slcd *)hw)->SYNCBUSY.reg & SLCD_SYNCBUSY_CTRLD) >> SLCD_SYNCBUSY_CTRLD_Pos;
+}
+
+static inline hri_slcd_syncbusy_reg_t hri_slcd_get_SYNCBUSY_reg(const void *const hw, hri_slcd_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_slcd_syncbusy_reg_t hri_slcd_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_slcd_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_SWRST;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST);
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_SWRST) >> SLCD_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_ENABLE;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_ENABLE) >> SLCD_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_ENABLE;
+	tmp |= value << SLCD_CTRLA_ENABLE_Pos;
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_ENABLE;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_ENABLE;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLA_WMOD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_WMOD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLA_WMOD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_WMOD) >> SLCD_CTRLA_WMOD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_WMOD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_WMOD;
+	tmp |= value << SLCD_CTRLA_WMOD_Pos;
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_WMOD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_WMOD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_WMOD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_WMOD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_RUNSTDBY;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_RUNSTDBY) >> SLCD_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_RUNSTDBY;
+	tmp |= value << SLCD_CTRLA_RUNSTDBY_Pos;
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_RUNSTDBY;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_RUNSTDBY;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLA_XVLCD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_XVLCD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLA_XVLCD_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_XVLCD) >> SLCD_CTRLA_XVLCD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_XVLCD_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_XVLCD;
+	tmp |= value << SLCD_CTRLA_XVLCD_Pos;
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_XVLCD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_XVLCD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_XVLCD_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_XVLCD;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLA_DUTY_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_DUTY(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_DUTY_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_DUTY(mask)) >> SLCD_CTRLA_DUTY_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_DUTY_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_DUTY_Msk;
+	tmp |= SLCD_CTRLA_DUTY(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_DUTY_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_DUTY(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_DUTY_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_DUTY(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_DUTY_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_DUTY_Msk) >> SLCD_CTRLA_DUTY_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_PRESC_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_PRESC(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_PRESC_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_PRESC(mask)) >> SLCD_CTRLA_PRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_PRESC_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_PRESC_Msk;
+	tmp |= SLCD_CTRLA_PRESC(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_PRESC_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_PRESC(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_PRESC_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_PRESC(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_PRESC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_PRESC_Msk) >> SLCD_CTRLA_PRESC_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_CKDIV_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_CKDIV(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_CKDIV_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_CKDIV(mask)) >> SLCD_CTRLA_CKDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_CKDIV_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_CKDIV_Msk;
+	tmp |= SLCD_CTRLA_CKDIV(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_CKDIV_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_CKDIV(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_CKDIV_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_CKDIV(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_CKDIV_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_CKDIV_Msk) >> SLCD_CTRLA_CKDIV_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_BIAS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_BIAS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_BIAS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_BIAS(mask)) >> SLCD_CTRLA_BIAS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_BIAS_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_BIAS_Msk;
+	tmp |= SLCD_CTRLA_BIAS(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_BIAS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_BIAS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_BIAS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_BIAS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_BIAS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_BIAS_Msk) >> SLCD_CTRLA_BIAS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_PRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_PRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_PRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_PRF(mask)) >> SLCD_CTRLA_PRF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_PRF_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_PRF_Msk;
+	tmp |= SLCD_CTRLA_PRF(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_PRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_PRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_PRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_PRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_PRF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_PRF_Msk) >> SLCD_CTRLA_PRF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_DMFCS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_DMFCS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_DMFCS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_DMFCS(mask)) >> SLCD_CTRLA_DMFCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_DMFCS_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_DMFCS_Msk;
+	tmp |= SLCD_CTRLA_DMFCS(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_DMFCS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_DMFCS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_DMFCS_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_DMFCS(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_DMFCS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_DMFCS_Msk) >> SLCD_CTRLA_DMFCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_RRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= SLCD_CTRLA_RRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_RRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_RRF(mask)) >> SLCD_CTRLA_RRF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_RRF_bf(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= ~SLCD_CTRLA_RRF_Msk;
+	tmp |= SLCD_CTRLA_RRF(data);
+	((Slcd *)hw)->CTRLA.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_RRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~SLCD_CTRLA_RRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_RRF_bf(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= SLCD_CTRLA_RRF(mask);
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_RRF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp = (tmp & SLCD_CTRLA_RRF_Msk) >> SLCD_CTRLA_RRF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLA_reg(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg |= mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_get_CTRLA_reg(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	tmp = ((Slcd *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLA_reg(const void *const hw, hri_slcd_ctrla_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg = data;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLA_reg(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg &= ~mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLA_reg(const void *const hw, hri_slcd_ctrla_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLA.reg ^= mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrla_reg_t hri_slcd_read_CTRLA_reg(const void *const hw)
+{
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_SWRST | SLCD_SYNCBUSY_ENABLE);
+	return ((Slcd *)hw)->CTRLA.reg;
+}
+
+static inline void hri_slcd_set_CTRLB_BBEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg |= SLCD_CTRLB_BBEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLB_BBEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_BBEN) >> SLCD_CTRLB_BBEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLB_BBEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp &= ~SLCD_CTRLB_BBEN;
+	tmp |= value << SLCD_CTRLB_BBEN_Pos;
+	((Slcd *)hw)->CTRLB.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLB_BBEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg &= ~SLCD_CTRLB_BBEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLB_BBEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg ^= SLCD_CTRLB_BBEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLB_LREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg |= SLCD_CTRLB_LREN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLB_LREN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_LREN) >> SLCD_CTRLB_LREN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLB_LREN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp &= ~SLCD_CTRLB_LREN;
+	tmp |= value << SLCD_CTRLB_LREN_Pos;
+	((Slcd *)hw)->CTRLB.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLB_LREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg &= ~SLCD_CTRLB_LREN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLB_LREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg ^= SLCD_CTRLB_LREN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLB_BBD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg |= SLCD_CTRLB_BBD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_get_CTRLB_BBD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_BBD(mask)) >> SLCD_CTRLB_BBD_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLB_BBD_bf(const void *const hw, hri_slcd_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp &= ~SLCD_CTRLB_BBD_Msk;
+	tmp |= SLCD_CTRLB_BBD(data);
+	((Slcd *)hw)->CTRLB.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLB_BBD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg &= ~SLCD_CTRLB_BBD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLB_BBD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg ^= SLCD_CTRLB_BBD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_read_CTRLB_BBD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_BBD_Msk) >> SLCD_CTRLB_BBD_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLB_LRD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg |= SLCD_CTRLB_LRD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_get_CTRLB_LRD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_LRD(mask)) >> SLCD_CTRLB_LRD_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLB_LRD_bf(const void *const hw, hri_slcd_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp &= ~SLCD_CTRLB_LRD_Msk;
+	tmp |= SLCD_CTRLB_LRD(data);
+	((Slcd *)hw)->CTRLB.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLB_LRD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg &= ~SLCD_CTRLB_LRD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLB_LRD_bf(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg ^= SLCD_CTRLB_LRD(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_read_CTRLB_LRD_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp = (tmp & SLCD_CTRLB_LRD_Msk) >> SLCD_CTRLB_LRD_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLB_reg(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_get_CTRLB_reg(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLB_reg(const void *const hw, hri_slcd_ctrlb_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLB_reg(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLB_reg(const void *const hw, hri_slcd_ctrlb_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLB.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlb_reg_t hri_slcd_read_CTRLB_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CTRLB.reg;
+}
+
+static inline void hri_slcd_set_CTRLC_CLEAR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_CLEAR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLC_CLEAR_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_CLEAR) >> SLCD_CTRLC_CLEAR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_CLEAR_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_CLEAR;
+	tmp |= value << SLCD_CTRLC_CLEAR_Pos;
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_CLEAR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_CLEAR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_CLEAR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_CLEAR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLC_LOCK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_LOCK;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLC_LOCK_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_LOCK) >> SLCD_CTRLC_LOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_LOCK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_LOCK;
+	tmp |= value << SLCD_CTRLC_LOCK_Pos;
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_LOCK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_LOCK;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_LOCK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_LOCK;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLC_ABMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_ABMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLC_ABMEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_ABMEN) >> SLCD_CTRLC_ABMEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_ABMEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_ABMEN;
+	tmp |= value << SLCD_CTRLC_ABMEN_Pos;
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_ABMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_ABMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_ABMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_ABMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLC_ACMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_ACMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLC_ACMEN_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_ACMEN) >> SLCD_CTRLC_ACMEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_ACMEN_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_ACMEN;
+	tmp |= value << SLCD_CTRLC_ACMEN_Pos;
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_ACMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_ACMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_ACMEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_ACMEN;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLC_CTST_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_CTST(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_get_CTRLC_CTST_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_CTST(mask)) >> SLCD_CTRLC_CTST_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_CTST_bf(const void *const hw, hri_slcd_ctrlc_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_CTST_Msk;
+	tmp |= SLCD_CTRLC_CTST(data);
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_CTST_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_CTST(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_CTST_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_CTST(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_read_CTRLC_CTST_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_CTST_Msk) >> SLCD_CTRLC_CTST_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLC_LPPM_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= SLCD_CTRLC_LPPM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_get_CTRLC_LPPM_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_LPPM(mask)) >> SLCD_CTRLC_LPPM_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_LPPM_bf(const void *const hw, hri_slcd_ctrlc_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= ~SLCD_CTRLC_LPPM_Msk;
+	tmp |= SLCD_CTRLC_LPPM(data);
+	((Slcd *)hw)->CTRLC.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_LPPM_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~SLCD_CTRLC_LPPM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_LPPM_bf(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= SLCD_CTRLC_LPPM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_read_CTRLC_LPPM_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp = (tmp & SLCD_CTRLC_LPPM_Msk) >> SLCD_CTRLC_LPPM_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CTRLC_reg(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_get_CTRLC_reg(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CTRLC.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLC_reg(const void *const hw, hri_slcd_ctrlc_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLC_reg(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLC_reg(const void *const hw, hri_slcd_ctrlc_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLC.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrlc_reg_t hri_slcd_read_CTRLC_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CTRLC.reg;
+}
+
+static inline void hri_slcd_set_CTRLD_BLANK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_BLANK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_BLANK_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_BLANK) >> SLCD_CTRLD_BLANK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_BLANK_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_BLANK;
+	tmp |= value << SLCD_CTRLD_BLANK_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_BLANK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_BLANK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_BLANK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_BLANK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_BLINK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_BLINK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_BLINK_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_BLINK) >> SLCD_CTRLD_BLINK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_BLINK_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_BLINK;
+	tmp |= value << SLCD_CTRLD_BLINK_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_BLINK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_BLINK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_BLINK_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_BLINK;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_CSREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_CSREN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_CSREN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_CSREN) >> SLCD_CTRLD_CSREN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_CSREN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_CSREN;
+	tmp |= value << SLCD_CTRLD_CSREN_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_CSREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_CSREN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_CSREN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_CSREN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_FC0EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_FC0EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_FC0EN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_FC0EN) >> SLCD_CTRLD_FC0EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_FC0EN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_FC0EN;
+	tmp |= value << SLCD_CTRLD_FC0EN_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_FC0EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_FC0EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_FC0EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_FC0EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_FC1EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_FC1EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_FC1EN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_FC1EN) >> SLCD_CTRLD_FC1EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_FC1EN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_FC1EN;
+	tmp |= value << SLCD_CTRLD_FC1EN_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_FC1EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_FC1EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_FC1EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_FC1EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_FC2EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_FC2EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_FC2EN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_FC2EN) >> SLCD_CTRLD_FC2EN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_FC2EN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_FC2EN;
+	tmp |= value << SLCD_CTRLD_FC2EN_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_FC2EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_FC2EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_FC2EN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_FC2EN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_DISPEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= SLCD_CTRLD_DISPEN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CTRLD_DISPEN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp = (tmp & SLCD_CTRLD_DISPEN) >> SLCD_CTRLD_DISPEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_DISPEN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= ~SLCD_CTRLD_DISPEN;
+	tmp |= value << SLCD_CTRLD_DISPEN_Pos;
+	((Slcd *)hw)->CTRLD.reg = tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_DISPEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~SLCD_CTRLD_DISPEN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_DISPEN_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= SLCD_CTRLD_DISPEN;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CTRLD_reg(const void *const hw, hri_slcd_ctrld_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg |= mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrld_reg_t hri_slcd_get_CTRLD_reg(const void *const hw, hri_slcd_ctrld_reg_t mask)
+{
+	uint8_t tmp;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	tmp = ((Slcd *)hw)->CTRLD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CTRLD_reg(const void *const hw, hri_slcd_ctrld_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg = data;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CTRLD_reg(const void *const hw, hri_slcd_ctrld_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg &= ~mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CTRLD_reg(const void *const hw, hri_slcd_ctrld_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CTRLD.reg ^= mask;
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_ctrld_reg_t hri_slcd_read_CTRLD_reg(const void *const hw)
+{
+	hri_slcd_wait_for_sync(hw, SLCD_SYNCBUSY_MASK);
+	return ((Slcd *)hw)->CTRLD.reg;
+}
+
+static inline void hri_slcd_set_EVCTRL_FC0OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg |= SLCD_EVCTRL_FC0OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_EVCTRL_FC0OEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp = (tmp & SLCD_EVCTRL_FC0OEO) >> SLCD_EVCTRL_FC0OEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_EVCTRL_FC0OEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp &= ~SLCD_EVCTRL_FC0OEO;
+	tmp |= value << SLCD_EVCTRL_FC0OEO_Pos;
+	((Slcd *)hw)->EVCTRL.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_EVCTRL_FC0OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg &= ~SLCD_EVCTRL_FC0OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_EVCTRL_FC0OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg ^= SLCD_EVCTRL_FC0OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_EVCTRL_FC1OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg |= SLCD_EVCTRL_FC1OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_EVCTRL_FC1OEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp = (tmp & SLCD_EVCTRL_FC1OEO) >> SLCD_EVCTRL_FC1OEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_EVCTRL_FC1OEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp &= ~SLCD_EVCTRL_FC1OEO;
+	tmp |= value << SLCD_EVCTRL_FC1OEO_Pos;
+	((Slcd *)hw)->EVCTRL.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_EVCTRL_FC1OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg &= ~SLCD_EVCTRL_FC1OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_EVCTRL_FC1OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg ^= SLCD_EVCTRL_FC1OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_EVCTRL_FC2OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg |= SLCD_EVCTRL_FC2OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_EVCTRL_FC2OEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp = (tmp & SLCD_EVCTRL_FC2OEO) >> SLCD_EVCTRL_FC2OEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_EVCTRL_FC2OEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp &= ~SLCD_EVCTRL_FC2OEO;
+	tmp |= value << SLCD_EVCTRL_FC2OEO_Pos;
+	((Slcd *)hw)->EVCTRL.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_EVCTRL_FC2OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg &= ~SLCD_EVCTRL_FC2OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_EVCTRL_FC2OEO_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg ^= SLCD_EVCTRL_FC2OEO;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_EVCTRL_reg(const void *const hw, hri_slcd_evctrl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_evctrl_reg_t hri_slcd_get_EVCTRL_reg(const void *const hw, hri_slcd_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_EVCTRL_reg(const void *const hw, hri_slcd_evctrl_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_EVCTRL_reg(const void *const hw, hri_slcd_evctrl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_EVCTRL_reg(const void *const hw, hri_slcd_evctrl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->EVCTRL.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_evctrl_reg_t hri_slcd_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_slcd_set_FC0_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg |= SLCD_FC0_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_FC0_PB_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp = (tmp & SLCD_FC0_PB) >> SLCD_FC0_PB_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_FC0_PB_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp &= ~SLCD_FC0_PB;
+	tmp |= value << SLCD_FC0_PB_Pos;
+	((Slcd *)hw)->FC0.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC0_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg &= ~SLCD_FC0_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC0_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg ^= SLCD_FC0_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_FC0_OVF_bf(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg |= SLCD_FC0_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc0_reg_t hri_slcd_get_FC0_OVF_bf(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp = (tmp & SLCD_FC0_OVF(mask)) >> SLCD_FC0_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC0_OVF_bf(const void *const hw, hri_slcd_fc0_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp &= ~SLCD_FC0_OVF_Msk;
+	tmp |= SLCD_FC0_OVF(data);
+	((Slcd *)hw)->FC0.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC0_OVF_bf(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg &= ~SLCD_FC0_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC0_OVF_bf(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg ^= SLCD_FC0_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc0_reg_t hri_slcd_read_FC0_OVF_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp = (tmp & SLCD_FC0_OVF_Msk) >> SLCD_FC0_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_FC0_reg(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc0_reg_t hri_slcd_get_FC0_reg(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC0_reg(const void *const hw, hri_slcd_fc0_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC0_reg(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC0_reg(const void *const hw, hri_slcd_fc0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC0.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc0_reg_t hri_slcd_read_FC0_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->FC0.reg;
+}
+
+static inline void hri_slcd_set_FC1_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg |= SLCD_FC1_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_FC1_PB_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp = (tmp & SLCD_FC1_PB) >> SLCD_FC1_PB_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_FC1_PB_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp &= ~SLCD_FC1_PB;
+	tmp |= value << SLCD_FC1_PB_Pos;
+	((Slcd *)hw)->FC1.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC1_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg &= ~SLCD_FC1_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC1_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg ^= SLCD_FC1_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_FC1_OVF_bf(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg |= SLCD_FC1_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc1_reg_t hri_slcd_get_FC1_OVF_bf(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp = (tmp & SLCD_FC1_OVF(mask)) >> SLCD_FC1_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC1_OVF_bf(const void *const hw, hri_slcd_fc1_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp &= ~SLCD_FC1_OVF_Msk;
+	tmp |= SLCD_FC1_OVF(data);
+	((Slcd *)hw)->FC1.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC1_OVF_bf(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg &= ~SLCD_FC1_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC1_OVF_bf(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg ^= SLCD_FC1_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc1_reg_t hri_slcd_read_FC1_OVF_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp = (tmp & SLCD_FC1_OVF_Msk) >> SLCD_FC1_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_FC1_reg(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc1_reg_t hri_slcd_get_FC1_reg(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC1_reg(const void *const hw, hri_slcd_fc1_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC1_reg(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC1_reg(const void *const hw, hri_slcd_fc1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC1.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc1_reg_t hri_slcd_read_FC1_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->FC1.reg;
+}
+
+static inline void hri_slcd_set_FC2_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg |= SLCD_FC2_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_FC2_PB_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp = (tmp & SLCD_FC2_PB) >> SLCD_FC2_PB_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_FC2_PB_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp &= ~SLCD_FC2_PB;
+	tmp |= value << SLCD_FC2_PB_Pos;
+	((Slcd *)hw)->FC2.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC2_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg &= ~SLCD_FC2_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC2_PB_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg ^= SLCD_FC2_PB;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_FC2_OVF_bf(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg |= SLCD_FC2_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc2_reg_t hri_slcd_get_FC2_OVF_bf(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp = (tmp & SLCD_FC2_OVF(mask)) >> SLCD_FC2_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC2_OVF_bf(const void *const hw, hri_slcd_fc2_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp &= ~SLCD_FC2_OVF_Msk;
+	tmp |= SLCD_FC2_OVF(data);
+	((Slcd *)hw)->FC2.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC2_OVF_bf(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg &= ~SLCD_FC2_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC2_OVF_bf(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg ^= SLCD_FC2_OVF(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc2_reg_t hri_slcd_read_FC2_OVF_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp = (tmp & SLCD_FC2_OVF_Msk) >> SLCD_FC2_OVF_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_FC2_reg(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc2_reg_t hri_slcd_get_FC2_reg(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->FC2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_FC2_reg(const void *const hw, hri_slcd_fc2_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_FC2_reg(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_FC2_reg(const void *const hw, hri_slcd_fc2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->FC2.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_fc2_reg_t hri_slcd_read_FC2_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->FC2.reg;
+}
+
+static inline void hri_slcd_set_LPENL_LPEN_bf(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg |= SLCD_LPENL_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenl_reg_t hri_slcd_get_LPENL_LPEN_bf(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENL.reg;
+	tmp = (tmp & SLCD_LPENL_LPEN(mask)) >> SLCD_LPENL_LPEN_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_LPENL_LPEN_bf(const void *const hw, hri_slcd_lpenl_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->LPENL.reg;
+	tmp &= ~SLCD_LPENL_LPEN_Msk;
+	tmp |= SLCD_LPENL_LPEN(data);
+	((Slcd *)hw)->LPENL.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_LPENL_LPEN_bf(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg &= ~SLCD_LPENL_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_LPENL_LPEN_bf(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg ^= SLCD_LPENL_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenl_reg_t hri_slcd_read_LPENL_LPEN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENL.reg;
+	tmp = (tmp & SLCD_LPENL_LPEN_Msk) >> SLCD_LPENL_LPEN_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_LPENL_reg(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenl_reg_t hri_slcd_get_LPENL_reg(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_LPENL_reg(const void *const hw, hri_slcd_lpenl_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_LPENL_reg(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_LPENL_reg(const void *const hw, hri_slcd_lpenl_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENL.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenl_reg_t hri_slcd_read_LPENL_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->LPENL.reg;
+}
+
+static inline void hri_slcd_set_LPENH_LPEN_bf(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg |= SLCD_LPENH_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenh_reg_t hri_slcd_get_LPENH_LPEN_bf(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENH.reg;
+	tmp = (tmp & SLCD_LPENH_LPEN(mask)) >> SLCD_LPENH_LPEN_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_LPENH_LPEN_bf(const void *const hw, hri_slcd_lpenh_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->LPENH.reg;
+	tmp &= ~SLCD_LPENH_LPEN_Msk;
+	tmp |= SLCD_LPENH_LPEN(data);
+	((Slcd *)hw)->LPENH.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_LPENH_LPEN_bf(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg &= ~SLCD_LPENH_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_LPENH_LPEN_bf(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg ^= SLCD_LPENH_LPEN(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenh_reg_t hri_slcd_read_LPENH_LPEN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENH.reg;
+	tmp = (tmp & SLCD_LPENH_LPEN_Msk) >> SLCD_LPENH_LPEN_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_LPENH_reg(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenh_reg_t hri_slcd_get_LPENH_reg(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->LPENH.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_LPENH_reg(const void *const hw, hri_slcd_lpenh_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_LPENH_reg(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_LPENH_reg(const void *const hw, hri_slcd_lpenh_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->LPENH.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_lpenh_reg_t hri_slcd_read_LPENH_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->LPENH.reg;
+}
+
+static inline void hri_slcd_set_SDATAL0_SDATA_bf(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg |= SLCD_SDATAL0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal0_reg_t hri_slcd_get_SDATAL0_SDATA_bf(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL0.reg;
+	tmp = (tmp & SLCD_SDATAL0_SDATA(mask)) >> SLCD_SDATAL0_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL0_SDATA_bf(const void *const hw, hri_slcd_sdatal0_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL0.reg;
+	tmp &= ~SLCD_SDATAL0_SDATA_Msk;
+	tmp |= SLCD_SDATAL0_SDATA(data);
+	((Slcd *)hw)->SDATAL0.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL0_SDATA_bf(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg &= ~SLCD_SDATAL0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL0_SDATA_bf(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg ^= SLCD_SDATAL0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal0_reg_t hri_slcd_read_SDATAL0_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL0.reg;
+	tmp = (tmp & SLCD_SDATAL0_SDATA_Msk) >> SLCD_SDATAL0_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL0_reg(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal0_reg_t hri_slcd_get_SDATAL0_reg(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL0_reg(const void *const hw, hri_slcd_sdatal0_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL0_reg(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL0_reg(const void *const hw, hri_slcd_sdatal0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL0.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal0_reg_t hri_slcd_read_SDATAL0_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL0.reg;
+}
+
+static inline void hri_slcd_set_SDATAH0_SDATA_bf(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg |= SLCD_SDATAH0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah0_reg_t hri_slcd_get_SDATAH0_SDATA_bf(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH0.reg;
+	tmp = (tmp & SLCD_SDATAH0_SDATA(mask)) >> SLCD_SDATAH0_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH0_SDATA_bf(const void *const hw, hri_slcd_sdatah0_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH0.reg;
+	tmp &= ~SLCD_SDATAH0_SDATA_Msk;
+	tmp |= SLCD_SDATAH0_SDATA(data);
+	((Slcd *)hw)->SDATAH0.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH0_SDATA_bf(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg &= ~SLCD_SDATAH0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH0_SDATA_bf(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg ^= SLCD_SDATAH0_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah0_reg_t hri_slcd_read_SDATAH0_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH0.reg;
+	tmp = (tmp & SLCD_SDATAH0_SDATA_Msk) >> SLCD_SDATAH0_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH0_reg(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah0_reg_t hri_slcd_get_SDATAH0_reg(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH0.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH0_reg(const void *const hw, hri_slcd_sdatah0_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH0_reg(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH0_reg(const void *const hw, hri_slcd_sdatah0_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH0.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah0_reg_t hri_slcd_read_SDATAH0_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH0.reg;
+}
+
+static inline void hri_slcd_set_SDATAL1_SDATA_bf(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg |= SLCD_SDATAL1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal1_reg_t hri_slcd_get_SDATAL1_SDATA_bf(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL1.reg;
+	tmp = (tmp & SLCD_SDATAL1_SDATA(mask)) >> SLCD_SDATAL1_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL1_SDATA_bf(const void *const hw, hri_slcd_sdatal1_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL1.reg;
+	tmp &= ~SLCD_SDATAL1_SDATA_Msk;
+	tmp |= SLCD_SDATAL1_SDATA(data);
+	((Slcd *)hw)->SDATAL1.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL1_SDATA_bf(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg &= ~SLCD_SDATAL1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL1_SDATA_bf(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg ^= SLCD_SDATAL1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal1_reg_t hri_slcd_read_SDATAL1_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL1.reg;
+	tmp = (tmp & SLCD_SDATAL1_SDATA_Msk) >> SLCD_SDATAL1_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL1_reg(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal1_reg_t hri_slcd_get_SDATAL1_reg(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL1_reg(const void *const hw, hri_slcd_sdatal1_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL1_reg(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL1_reg(const void *const hw, hri_slcd_sdatal1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL1.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal1_reg_t hri_slcd_read_SDATAL1_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL1.reg;
+}
+
+static inline void hri_slcd_set_SDATAH1_SDATA_bf(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg |= SLCD_SDATAH1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah1_reg_t hri_slcd_get_SDATAH1_SDATA_bf(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH1.reg;
+	tmp = (tmp & SLCD_SDATAH1_SDATA(mask)) >> SLCD_SDATAH1_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH1_SDATA_bf(const void *const hw, hri_slcd_sdatah1_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH1.reg;
+	tmp &= ~SLCD_SDATAH1_SDATA_Msk;
+	tmp |= SLCD_SDATAH1_SDATA(data);
+	((Slcd *)hw)->SDATAH1.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH1_SDATA_bf(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg &= ~SLCD_SDATAH1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH1_SDATA_bf(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg ^= SLCD_SDATAH1_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah1_reg_t hri_slcd_read_SDATAH1_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH1.reg;
+	tmp = (tmp & SLCD_SDATAH1_SDATA_Msk) >> SLCD_SDATAH1_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH1_reg(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah1_reg_t hri_slcd_get_SDATAH1_reg(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH1.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH1_reg(const void *const hw, hri_slcd_sdatah1_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH1_reg(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH1_reg(const void *const hw, hri_slcd_sdatah1_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH1.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah1_reg_t hri_slcd_read_SDATAH1_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH1.reg;
+}
+
+static inline void hri_slcd_set_SDATAL2_SDATA_bf(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg |= SLCD_SDATAL2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal2_reg_t hri_slcd_get_SDATAL2_SDATA_bf(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL2.reg;
+	tmp = (tmp & SLCD_SDATAL2_SDATA(mask)) >> SLCD_SDATAL2_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL2_SDATA_bf(const void *const hw, hri_slcd_sdatal2_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL2.reg;
+	tmp &= ~SLCD_SDATAL2_SDATA_Msk;
+	tmp |= SLCD_SDATAL2_SDATA(data);
+	((Slcd *)hw)->SDATAL2.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL2_SDATA_bf(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg &= ~SLCD_SDATAL2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL2_SDATA_bf(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg ^= SLCD_SDATAL2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal2_reg_t hri_slcd_read_SDATAL2_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL2.reg;
+	tmp = (tmp & SLCD_SDATAL2_SDATA_Msk) >> SLCD_SDATAL2_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL2_reg(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal2_reg_t hri_slcd_get_SDATAL2_reg(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL2_reg(const void *const hw, hri_slcd_sdatal2_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL2_reg(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL2_reg(const void *const hw, hri_slcd_sdatal2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL2.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal2_reg_t hri_slcd_read_SDATAL2_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL2.reg;
+}
+
+static inline void hri_slcd_set_SDATAH2_SDATA_bf(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg |= SLCD_SDATAH2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah2_reg_t hri_slcd_get_SDATAH2_SDATA_bf(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH2.reg;
+	tmp = (tmp & SLCD_SDATAH2_SDATA(mask)) >> SLCD_SDATAH2_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH2_SDATA_bf(const void *const hw, hri_slcd_sdatah2_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH2.reg;
+	tmp &= ~SLCD_SDATAH2_SDATA_Msk;
+	tmp |= SLCD_SDATAH2_SDATA(data);
+	((Slcd *)hw)->SDATAH2.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH2_SDATA_bf(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg &= ~SLCD_SDATAH2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH2_SDATA_bf(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg ^= SLCD_SDATAH2_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah2_reg_t hri_slcd_read_SDATAH2_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH2.reg;
+	tmp = (tmp & SLCD_SDATAH2_SDATA_Msk) >> SLCD_SDATAH2_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH2_reg(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah2_reg_t hri_slcd_get_SDATAH2_reg(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH2_reg(const void *const hw, hri_slcd_sdatah2_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH2_reg(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH2_reg(const void *const hw, hri_slcd_sdatah2_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH2.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah2_reg_t hri_slcd_read_SDATAH2_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH2.reg;
+}
+
+static inline void hri_slcd_set_SDATAL3_SDATA_bf(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg |= SLCD_SDATAL3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal3_reg_t hri_slcd_get_SDATAL3_SDATA_bf(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL3.reg;
+	tmp = (tmp & SLCD_SDATAL3_SDATA(mask)) >> SLCD_SDATAL3_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL3_SDATA_bf(const void *const hw, hri_slcd_sdatal3_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL3.reg;
+	tmp &= ~SLCD_SDATAL3_SDATA_Msk;
+	tmp |= SLCD_SDATAL3_SDATA(data);
+	((Slcd *)hw)->SDATAL3.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL3_SDATA_bf(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg &= ~SLCD_SDATAL3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL3_SDATA_bf(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg ^= SLCD_SDATAL3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal3_reg_t hri_slcd_read_SDATAL3_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL3.reg;
+	tmp = (tmp & SLCD_SDATAL3_SDATA_Msk) >> SLCD_SDATAL3_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL3_reg(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal3_reg_t hri_slcd_get_SDATAL3_reg(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL3_reg(const void *const hw, hri_slcd_sdatal3_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL3_reg(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL3_reg(const void *const hw, hri_slcd_sdatal3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL3.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal3_reg_t hri_slcd_read_SDATAL3_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL3.reg;
+}
+
+static inline void hri_slcd_set_SDATAH3_SDATA_bf(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg |= SLCD_SDATAH3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah3_reg_t hri_slcd_get_SDATAH3_SDATA_bf(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH3.reg;
+	tmp = (tmp & SLCD_SDATAH3_SDATA(mask)) >> SLCD_SDATAH3_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH3_SDATA_bf(const void *const hw, hri_slcd_sdatah3_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH3.reg;
+	tmp &= ~SLCD_SDATAH3_SDATA_Msk;
+	tmp |= SLCD_SDATAH3_SDATA(data);
+	((Slcd *)hw)->SDATAH3.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH3_SDATA_bf(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg &= ~SLCD_SDATAH3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH3_SDATA_bf(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg ^= SLCD_SDATAH3_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah3_reg_t hri_slcd_read_SDATAH3_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH3.reg;
+	tmp = (tmp & SLCD_SDATAH3_SDATA_Msk) >> SLCD_SDATAH3_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH3_reg(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah3_reg_t hri_slcd_get_SDATAH3_reg(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH3_reg(const void *const hw, hri_slcd_sdatah3_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH3_reg(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH3_reg(const void *const hw, hri_slcd_sdatah3_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH3.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah3_reg_t hri_slcd_read_SDATAH3_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH3.reg;
+}
+
+static inline void hri_slcd_set_SDATAL4_SDATA_bf(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg |= SLCD_SDATAL4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal4_reg_t hri_slcd_get_SDATAL4_SDATA_bf(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL4.reg;
+	tmp = (tmp & SLCD_SDATAL4_SDATA(mask)) >> SLCD_SDATAL4_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL4_SDATA_bf(const void *const hw, hri_slcd_sdatal4_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL4.reg;
+	tmp &= ~SLCD_SDATAL4_SDATA_Msk;
+	tmp |= SLCD_SDATAL4_SDATA(data);
+	((Slcd *)hw)->SDATAL4.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL4_SDATA_bf(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg &= ~SLCD_SDATAL4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL4_SDATA_bf(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg ^= SLCD_SDATAL4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal4_reg_t hri_slcd_read_SDATAL4_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL4.reg;
+	tmp = (tmp & SLCD_SDATAL4_SDATA_Msk) >> SLCD_SDATAL4_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL4_reg(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal4_reg_t hri_slcd_get_SDATAL4_reg(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL4.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL4_reg(const void *const hw, hri_slcd_sdatal4_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL4_reg(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL4_reg(const void *const hw, hri_slcd_sdatal4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL4.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal4_reg_t hri_slcd_read_SDATAL4_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL4.reg;
+}
+
+static inline void hri_slcd_set_SDATAH4_SDATA_bf(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg |= SLCD_SDATAH4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah4_reg_t hri_slcd_get_SDATAH4_SDATA_bf(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH4.reg;
+	tmp = (tmp & SLCD_SDATAH4_SDATA(mask)) >> SLCD_SDATAH4_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH4_SDATA_bf(const void *const hw, hri_slcd_sdatah4_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH4.reg;
+	tmp &= ~SLCD_SDATAH4_SDATA_Msk;
+	tmp |= SLCD_SDATAH4_SDATA(data);
+	((Slcd *)hw)->SDATAH4.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH4_SDATA_bf(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg &= ~SLCD_SDATAH4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH4_SDATA_bf(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg ^= SLCD_SDATAH4_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah4_reg_t hri_slcd_read_SDATAH4_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH4.reg;
+	tmp = (tmp & SLCD_SDATAH4_SDATA_Msk) >> SLCD_SDATAH4_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH4_reg(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah4_reg_t hri_slcd_get_SDATAH4_reg(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH4.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH4_reg(const void *const hw, hri_slcd_sdatah4_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH4_reg(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH4_reg(const void *const hw, hri_slcd_sdatah4_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH4.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah4_reg_t hri_slcd_read_SDATAH4_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH4.reg;
+}
+
+static inline void hri_slcd_set_SDATAL5_SDATA_bf(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg |= SLCD_SDATAL5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal5_reg_t hri_slcd_get_SDATAL5_SDATA_bf(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL5.reg;
+	tmp = (tmp & SLCD_SDATAL5_SDATA(mask)) >> SLCD_SDATAL5_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL5_SDATA_bf(const void *const hw, hri_slcd_sdatal5_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL5.reg;
+	tmp &= ~SLCD_SDATAL5_SDATA_Msk;
+	tmp |= SLCD_SDATAL5_SDATA(data);
+	((Slcd *)hw)->SDATAL5.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL5_SDATA_bf(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg &= ~SLCD_SDATAL5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL5_SDATA_bf(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg ^= SLCD_SDATAL5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal5_reg_t hri_slcd_read_SDATAL5_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL5.reg;
+	tmp = (tmp & SLCD_SDATAL5_SDATA_Msk) >> SLCD_SDATAL5_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL5_reg(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal5_reg_t hri_slcd_get_SDATAL5_reg(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL5.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL5_reg(const void *const hw, hri_slcd_sdatal5_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL5_reg(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL5_reg(const void *const hw, hri_slcd_sdatal5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL5.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal5_reg_t hri_slcd_read_SDATAL5_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL5.reg;
+}
+
+static inline void hri_slcd_set_SDATAH5_SDATA_bf(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg |= SLCD_SDATAH5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah5_reg_t hri_slcd_get_SDATAH5_SDATA_bf(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH5.reg;
+	tmp = (tmp & SLCD_SDATAH5_SDATA(mask)) >> SLCD_SDATAH5_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH5_SDATA_bf(const void *const hw, hri_slcd_sdatah5_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH5.reg;
+	tmp &= ~SLCD_SDATAH5_SDATA_Msk;
+	tmp |= SLCD_SDATAH5_SDATA(data);
+	((Slcd *)hw)->SDATAH5.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH5_SDATA_bf(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg &= ~SLCD_SDATAH5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH5_SDATA_bf(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg ^= SLCD_SDATAH5_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah5_reg_t hri_slcd_read_SDATAH5_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH5.reg;
+	tmp = (tmp & SLCD_SDATAH5_SDATA_Msk) >> SLCD_SDATAH5_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH5_reg(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah5_reg_t hri_slcd_get_SDATAH5_reg(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH5.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH5_reg(const void *const hw, hri_slcd_sdatah5_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH5_reg(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH5_reg(const void *const hw, hri_slcd_sdatah5_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH5.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah5_reg_t hri_slcd_read_SDATAH5_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH5.reg;
+}
+
+static inline void hri_slcd_set_SDATAL6_SDATA_bf(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg |= SLCD_SDATAL6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal6_reg_t hri_slcd_get_SDATAL6_SDATA_bf(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL6.reg;
+	tmp = (tmp & SLCD_SDATAL6_SDATA(mask)) >> SLCD_SDATAL6_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL6_SDATA_bf(const void *const hw, hri_slcd_sdatal6_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL6.reg;
+	tmp &= ~SLCD_SDATAL6_SDATA_Msk;
+	tmp |= SLCD_SDATAL6_SDATA(data);
+	((Slcd *)hw)->SDATAL6.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL6_SDATA_bf(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg &= ~SLCD_SDATAL6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL6_SDATA_bf(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg ^= SLCD_SDATAL6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal6_reg_t hri_slcd_read_SDATAL6_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL6.reg;
+	tmp = (tmp & SLCD_SDATAL6_SDATA_Msk) >> SLCD_SDATAL6_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL6_reg(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal6_reg_t hri_slcd_get_SDATAL6_reg(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL6.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL6_reg(const void *const hw, hri_slcd_sdatal6_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL6_reg(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL6_reg(const void *const hw, hri_slcd_sdatal6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL6.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal6_reg_t hri_slcd_read_SDATAL6_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL6.reg;
+}
+
+static inline void hri_slcd_set_SDATAH6_SDATA_bf(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg |= SLCD_SDATAH6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah6_reg_t hri_slcd_get_SDATAH6_SDATA_bf(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH6.reg;
+	tmp = (tmp & SLCD_SDATAH6_SDATA(mask)) >> SLCD_SDATAH6_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH6_SDATA_bf(const void *const hw, hri_slcd_sdatah6_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH6.reg;
+	tmp &= ~SLCD_SDATAH6_SDATA_Msk;
+	tmp |= SLCD_SDATAH6_SDATA(data);
+	((Slcd *)hw)->SDATAH6.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH6_SDATA_bf(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg &= ~SLCD_SDATAH6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH6_SDATA_bf(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg ^= SLCD_SDATAH6_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah6_reg_t hri_slcd_read_SDATAH6_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH6.reg;
+	tmp = (tmp & SLCD_SDATAH6_SDATA_Msk) >> SLCD_SDATAH6_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH6_reg(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah6_reg_t hri_slcd_get_SDATAH6_reg(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH6.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH6_reg(const void *const hw, hri_slcd_sdatah6_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH6_reg(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH6_reg(const void *const hw, hri_slcd_sdatah6_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH6.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah6_reg_t hri_slcd_read_SDATAH6_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH6.reg;
+}
+
+static inline void hri_slcd_set_SDATAL7_SDATA_bf(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg |= SLCD_SDATAL7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal7_reg_t hri_slcd_get_SDATAL7_SDATA_bf(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL7.reg;
+	tmp = (tmp & SLCD_SDATAL7_SDATA(mask)) >> SLCD_SDATAL7_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL7_SDATA_bf(const void *const hw, hri_slcd_sdatal7_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAL7.reg;
+	tmp &= ~SLCD_SDATAL7_SDATA_Msk;
+	tmp |= SLCD_SDATAL7_SDATA(data);
+	((Slcd *)hw)->SDATAL7.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL7_SDATA_bf(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg &= ~SLCD_SDATAL7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL7_SDATA_bf(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg ^= SLCD_SDATAL7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal7_reg_t hri_slcd_read_SDATAL7_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL7.reg;
+	tmp = (tmp & SLCD_SDATAL7_SDATA_Msk) >> SLCD_SDATAL7_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAL7_reg(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal7_reg_t hri_slcd_get_SDATAL7_reg(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAL7.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAL7_reg(const void *const hw, hri_slcd_sdatal7_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAL7_reg(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAL7_reg(const void *const hw, hri_slcd_sdatal7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAL7.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatal7_reg_t hri_slcd_read_SDATAL7_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAL7.reg;
+}
+
+static inline void hri_slcd_set_SDATAH7_SDATA_bf(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg |= SLCD_SDATAH7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah7_reg_t hri_slcd_get_SDATAH7_SDATA_bf(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH7.reg;
+	tmp = (tmp & SLCD_SDATAH7_SDATA(mask)) >> SLCD_SDATAH7_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH7_SDATA_bf(const void *const hw, hri_slcd_sdatah7_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->SDATAH7.reg;
+	tmp &= ~SLCD_SDATAH7_SDATA_Msk;
+	tmp |= SLCD_SDATAH7_SDATA(data);
+	((Slcd *)hw)->SDATAH7.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH7_SDATA_bf(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg &= ~SLCD_SDATAH7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH7_SDATA_bf(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg ^= SLCD_SDATAH7_SDATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah7_reg_t hri_slcd_read_SDATAH7_SDATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH7.reg;
+	tmp = (tmp & SLCD_SDATAH7_SDATA_Msk) >> SLCD_SDATAH7_SDATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_SDATAH7_reg(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah7_reg_t hri_slcd_get_SDATAH7_reg(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->SDATAH7.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_SDATAH7_reg(const void *const hw, hri_slcd_sdatah7_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_SDATAH7_reg(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_SDATAH7_reg(const void *const hw, hri_slcd_sdatah7_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->SDATAH7.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_sdatah7_reg_t hri_slcd_read_SDATAH7_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->SDATAH7.reg;
+}
+
+static inline void hri_slcd_set_BCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg |= SLCD_BCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_BCFG_MODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_MODE) >> SLCD_BCFG_MODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_BCFG_MODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp &= ~SLCD_BCFG_MODE;
+	tmp |= value << SLCD_BCFG_MODE_Pos;
+	((Slcd *)hw)->BCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_BCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg &= ~SLCD_BCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_BCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg ^= SLCD_BCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_BCFG_FCS_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg |= SLCD_BCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_get_BCFG_FCS_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_FCS(mask)) >> SLCD_BCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_BCFG_FCS_bf(const void *const hw, hri_slcd_bcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp &= ~SLCD_BCFG_FCS_Msk;
+	tmp |= SLCD_BCFG_FCS(data);
+	((Slcd *)hw)->BCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_BCFG_FCS_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg &= ~SLCD_BCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_BCFG_FCS_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg ^= SLCD_BCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_read_BCFG_FCS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_FCS_Msk) >> SLCD_BCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_BCFG_BSS0_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg |= SLCD_BCFG_BSS0(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_get_BCFG_BSS0_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_BSS0(mask)) >> SLCD_BCFG_BSS0_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_BCFG_BSS0_bf(const void *const hw, hri_slcd_bcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp &= ~SLCD_BCFG_BSS0_Msk;
+	tmp |= SLCD_BCFG_BSS0(data);
+	((Slcd *)hw)->BCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_BCFG_BSS0_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg &= ~SLCD_BCFG_BSS0(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_BCFG_BSS0_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg ^= SLCD_BCFG_BSS0(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_read_BCFG_BSS0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_BSS0_Msk) >> SLCD_BCFG_BSS0_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_BCFG_BSS1_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg |= SLCD_BCFG_BSS1(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_get_BCFG_BSS1_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_BSS1(mask)) >> SLCD_BCFG_BSS1_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_BCFG_BSS1_bf(const void *const hw, hri_slcd_bcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp &= ~SLCD_BCFG_BSS1_Msk;
+	tmp |= SLCD_BCFG_BSS1(data);
+	((Slcd *)hw)->BCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_BCFG_BSS1_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg &= ~SLCD_BCFG_BSS1(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_BCFG_BSS1_bf(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg ^= SLCD_BCFG_BSS1(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_read_BCFG_BSS1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp = (tmp & SLCD_BCFG_BSS1_Msk) >> SLCD_BCFG_BSS1_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_BCFG_reg(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_get_BCFG_reg(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->BCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_BCFG_reg(const void *const hw, hri_slcd_bcfg_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_BCFG_reg(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_BCFG_reg(const void *const hw, hri_slcd_bcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->BCFG.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_bcfg_reg_t hri_slcd_read_BCFG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->BCFG.reg;
+}
+
+static inline void hri_slcd_set_CSRCFG_DIR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg |= SLCD_CSRCFG_DIR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CSRCFG_DIR_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_DIR) >> SLCD_CSRCFG_DIR_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CSRCFG_DIR_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp &= ~SLCD_CSRCFG_DIR;
+	tmp |= value << SLCD_CSRCFG_DIR_Pos;
+	((Slcd *)hw)->CSRCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CSRCFG_DIR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg &= ~SLCD_CSRCFG_DIR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CSRCFG_DIR_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg ^= SLCD_CSRCFG_DIR;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CSRCFG_FCS_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg |= SLCD_CSRCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_get_CSRCFG_FCS_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_FCS(mask)) >> SLCD_CSRCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CSRCFG_FCS_bf(const void *const hw, hri_slcd_csrcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp &= ~SLCD_CSRCFG_FCS_Msk;
+	tmp |= SLCD_CSRCFG_FCS(data);
+	((Slcd *)hw)->CSRCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CSRCFG_FCS_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg &= ~SLCD_CSRCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CSRCFG_FCS_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg ^= SLCD_CSRCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_read_CSRCFG_FCS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_FCS_Msk) >> SLCD_CSRCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CSRCFG_SIZE_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg |= SLCD_CSRCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_get_CSRCFG_SIZE_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_SIZE(mask)) >> SLCD_CSRCFG_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CSRCFG_SIZE_bf(const void *const hw, hri_slcd_csrcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp &= ~SLCD_CSRCFG_SIZE_Msk;
+	tmp |= SLCD_CSRCFG_SIZE(data);
+	((Slcd *)hw)->CSRCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CSRCFG_SIZE_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg &= ~SLCD_CSRCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CSRCFG_SIZE_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg ^= SLCD_CSRCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_read_CSRCFG_SIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_SIZE_Msk) >> SLCD_CSRCFG_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CSRCFG_DATA_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg |= SLCD_CSRCFG_DATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_get_CSRCFG_DATA_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_DATA(mask)) >> SLCD_CSRCFG_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CSRCFG_DATA_bf(const void *const hw, hri_slcd_csrcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp &= ~SLCD_CSRCFG_DATA_Msk;
+	tmp |= SLCD_CSRCFG_DATA(data);
+	((Slcd *)hw)->CSRCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CSRCFG_DATA_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg &= ~SLCD_CSRCFG_DATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CSRCFG_DATA_bf(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg ^= SLCD_CSRCFG_DATA(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_read_CSRCFG_DATA_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp = (tmp & SLCD_CSRCFG_DATA_Msk) >> SLCD_CSRCFG_DATA_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CSRCFG_reg(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_get_CSRCFG_reg(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CSRCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CSRCFG_reg(const void *const hw, hri_slcd_csrcfg_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CSRCFG_reg(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CSRCFG_reg(const void *const hw, hri_slcd_csrcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CSRCFG.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_csrcfg_reg_t hri_slcd_read_CSRCFG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CSRCFG.reg;
+}
+
+static inline void hri_slcd_set_CMCFG_DEC_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg |= SLCD_CMCFG_DEC;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_CMCFG_DEC_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp = (tmp & SLCD_CMCFG_DEC) >> SLCD_CMCFG_DEC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_CMCFG_DEC_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp &= ~SLCD_CMCFG_DEC;
+	tmp |= value << SLCD_CMCFG_DEC_Pos;
+	((Slcd *)hw)->CMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMCFG_DEC_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg &= ~SLCD_CMCFG_DEC;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMCFG_DEC_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg ^= SLCD_CMCFG_DEC;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_CMCFG_NSEG_bf(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg |= SLCD_CMCFG_NSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmcfg_reg_t hri_slcd_get_CMCFG_NSEG_bf(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp = (tmp & SLCD_CMCFG_NSEG(mask)) >> SLCD_CMCFG_NSEG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMCFG_NSEG_bf(const void *const hw, hri_slcd_cmcfg_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp &= ~SLCD_CMCFG_NSEG_Msk;
+	tmp |= SLCD_CMCFG_NSEG(data);
+	((Slcd *)hw)->CMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMCFG_NSEG_bf(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg &= ~SLCD_CMCFG_NSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMCFG_NSEG_bf(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg ^= SLCD_CMCFG_NSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmcfg_reg_t hri_slcd_read_CMCFG_NSEG_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp = (tmp & SLCD_CMCFG_NSEG_Msk) >> SLCD_CMCFG_NSEG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CMCFG_reg(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmcfg_reg_t hri_slcd_get_CMCFG_reg(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->CMCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMCFG_reg(const void *const hw, hri_slcd_cmcfg_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMCFG_reg(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMCFG_reg(const void *const hw, hri_slcd_cmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMCFG.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmcfg_reg_t hri_slcd_read_CMCFG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CMCFG.reg;
+}
+
+static inline void hri_slcd_set_ACMCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_slcd_get_ACMCFG_MODE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_MODE) >> SLCD_ACMCFG_MODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_MODE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_MODE;
+	tmp |= value << SLCD_ACMCFG_MODE_Pos;
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_MODE_bit(const void *const hw)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_MODE;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_set_ACMCFG_NCOM_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_NCOM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_NCOM_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NCOM(mask)) >> SLCD_ACMCFG_NCOM_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_NCOM_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_NCOM_Msk;
+	tmp |= SLCD_ACMCFG_NCOM(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_NCOM_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_NCOM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_NCOM_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_NCOM(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_NCOM_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NCOM_Msk) >> SLCD_ACMCFG_NCOM_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_NDIG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_NDIG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_NDIG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NDIG(mask)) >> SLCD_ACMCFG_NDIG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_NDIG_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_NDIG_Msk;
+	tmp |= SLCD_ACMCFG_NDIG(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_NDIG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_NDIG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_NDIG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_NDIG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_NDIG_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NDIG_Msk) >> SLCD_ACMCFG_NDIG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_STEPS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_STEPS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_STEPS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_STEPS(mask)) >> SLCD_ACMCFG_STEPS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_STEPS_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_STEPS_Msk;
+	tmp |= SLCD_ACMCFG_STEPS(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_STEPS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_STEPS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_STEPS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_STEPS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_STEPS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_STEPS_Msk) >> SLCD_ACMCFG_STEPS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_NDROW_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_NDROW(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_NDROW_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NDROW(mask)) >> SLCD_ACMCFG_NDROW_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_NDROW_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_NDROW_Msk;
+	tmp |= SLCD_ACMCFG_NDROW(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_NDROW_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_NDROW(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_NDROW_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_NDROW(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_NDROW_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_NDROW_Msk) >> SLCD_ACMCFG_NDROW_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_STSEG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_STSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_STSEG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_STSEG(mask)) >> SLCD_ACMCFG_STSEG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_STSEG_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_STSEG_Msk;
+	tmp |= SLCD_ACMCFG_STSEG(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_STSEG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_STSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_STSEG_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_STSEG(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_STSEG_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_STSEG_Msk) >> SLCD_ACMCFG_STSEG_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_FCS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= SLCD_ACMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_FCS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_FCS(mask)) >> SLCD_ACMCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_FCS_bf(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= ~SLCD_ACMCFG_FCS_Msk;
+	tmp |= SLCD_ACMCFG_FCS(data);
+	((Slcd *)hw)->ACMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_FCS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~SLCD_ACMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_FCS_bf(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= SLCD_ACMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_FCS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp = (tmp & SLCD_ACMCFG_FCS_Msk) >> SLCD_ACMCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ACMCFG_reg(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_get_ACMCFG_reg(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->ACMCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ACMCFG_reg(const void *const hw, hri_slcd_acmcfg_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ACMCFG_reg(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ACMCFG_reg(const void *const hw, hri_slcd_acmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ACMCFG.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_acmcfg_reg_t hri_slcd_read_ACMCFG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->ACMCFG.reg;
+}
+
+static inline void hri_slcd_set_ABMCFG_FCS_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg |= SLCD_ABMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_get_ABMCFG_FCS_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp = (tmp & SLCD_ABMCFG_FCS(mask)) >> SLCD_ABMCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ABMCFG_FCS_bf(const void *const hw, hri_slcd_abmcfg_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp &= ~SLCD_ABMCFG_FCS_Msk;
+	tmp |= SLCD_ABMCFG_FCS(data);
+	((Slcd *)hw)->ABMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ABMCFG_FCS_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg &= ~SLCD_ABMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ABMCFG_FCS_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg ^= SLCD_ABMCFG_FCS(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_read_ABMCFG_FCS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp = (tmp & SLCD_ABMCFG_FCS_Msk) >> SLCD_ABMCFG_FCS_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ABMCFG_SIZE_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg |= SLCD_ABMCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_get_ABMCFG_SIZE_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp = (tmp & SLCD_ABMCFG_SIZE(mask)) >> SLCD_ABMCFG_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ABMCFG_SIZE_bf(const void *const hw, hri_slcd_abmcfg_reg_t data)
+{
+	uint8_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp &= ~SLCD_ABMCFG_SIZE_Msk;
+	tmp |= SLCD_ABMCFG_SIZE(data);
+	((Slcd *)hw)->ABMCFG.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ABMCFG_SIZE_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg &= ~SLCD_ABMCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ABMCFG_SIZE_bf(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg ^= SLCD_ABMCFG_SIZE(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_read_ABMCFG_SIZE_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp = (tmp & SLCD_ABMCFG_SIZE_Msk) >> SLCD_ABMCFG_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_ABMCFG_reg(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_get_ABMCFG_reg(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Slcd *)hw)->ABMCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_ABMCFG_reg(const void *const hw, hri_slcd_abmcfg_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_ABMCFG_reg(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_ABMCFG_reg(const void *const hw, hri_slcd_abmcfg_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ABMCFG.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_abmcfg_reg_t hri_slcd_read_ABMCFG_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->ABMCFG.reg;
+}
+
+static inline void hri_slcd_set_CMDMASK_SDMASK_bf(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg |= SLCD_CMDMASK_SDMASK(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmdmask_reg_t hri_slcd_get_CMDMASK_SDMASK_bf(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CMDMASK.reg;
+	tmp = (tmp & SLCD_CMDMASK_SDMASK(mask)) >> SLCD_CMDMASK_SDMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMDMASK_SDMASK_bf(const void *const hw, hri_slcd_cmdmask_reg_t data)
+{
+	uint32_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CMDMASK.reg;
+	tmp &= ~SLCD_CMDMASK_SDMASK_Msk;
+	tmp |= SLCD_CMDMASK_SDMASK(data);
+	((Slcd *)hw)->CMDMASK.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMDMASK_SDMASK_bf(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg &= ~SLCD_CMDMASK_SDMASK(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMDMASK_SDMASK_bf(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg ^= SLCD_CMDMASK_SDMASK(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmdmask_reg_t hri_slcd_read_CMDMASK_SDMASK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CMDMASK.reg;
+	tmp = (tmp & SLCD_CMDMASK_SDMASK_Msk) >> SLCD_CMDMASK_SDMASK_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CMDMASK_reg(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmdmask_reg_t hri_slcd_get_CMDMASK_reg(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Slcd *)hw)->CMDMASK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMDMASK_reg(const void *const hw, hri_slcd_cmdmask_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMDMASK_reg(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMDMASK_reg(const void *const hw, hri_slcd_cmdmask_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDMASK.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmdmask_reg_t hri_slcd_read_CMDMASK_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CMDMASK.reg;
+}
+
+static inline void hri_slcd_set_CMINDEX_SINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg |= SLCD_CMINDEX_SINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_get_CMINDEX_SINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp = (tmp & SLCD_CMINDEX_SINDEX(mask)) >> SLCD_CMINDEX_SINDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMINDEX_SINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp &= ~SLCD_CMINDEX_SINDEX_Msk;
+	tmp |= SLCD_CMINDEX_SINDEX(data);
+	((Slcd *)hw)->CMINDEX.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMINDEX_SINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg &= ~SLCD_CMINDEX_SINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMINDEX_SINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg ^= SLCD_CMINDEX_SINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_read_CMINDEX_SINDEX_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp = (tmp & SLCD_CMINDEX_SINDEX_Msk) >> SLCD_CMINDEX_SINDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CMINDEX_CINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg |= SLCD_CMINDEX_CINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_get_CMINDEX_CINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp = (tmp & SLCD_CMINDEX_CINDEX(mask)) >> SLCD_CMINDEX_CINDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMINDEX_CINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t data)
+{
+	uint16_t tmp;
+	SLCD_CRITICAL_SECTION_ENTER();
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp &= ~SLCD_CMINDEX_CINDEX_Msk;
+	tmp |= SLCD_CMINDEX_CINDEX(data);
+	((Slcd *)hw)->CMINDEX.reg = tmp;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMINDEX_CINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg &= ~SLCD_CMINDEX_CINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMINDEX_CINDEX_bf(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg ^= SLCD_CMINDEX_CINDEX(mask);
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_read_CMINDEX_CINDEX_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp = (tmp & SLCD_CMINDEX_CINDEX_Msk) >> SLCD_CMINDEX_CINDEX_Pos;
+	return tmp;
+}
+
+static inline void hri_slcd_set_CMINDEX_reg(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg |= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_get_CMINDEX_reg(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Slcd *)hw)->CMINDEX.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_slcd_write_CMINDEX_reg(const void *const hw, hri_slcd_cmindex_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_clear_CMINDEX_reg(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg &= ~mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_toggle_CMINDEX_reg(const void *const hw, hri_slcd_cmindex_reg_t mask)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMINDEX.reg ^= mask;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_slcd_cmindex_reg_t hri_slcd_read_CMINDEX_reg(const void *const hw)
+{
+	return ((Slcd *)hw)->CMINDEX.reg;
+}
+
+static inline void hri_slcd_write_ISDATA_reg(const void *const hw, hri_slcd_isdata_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->ISDATA.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_slcd_write_CMDATA_reg(const void *const hw, hri_slcd_cmdata_reg_t data)
+{
+	SLCD_CRITICAL_SECTION_ENTER();
+	((Slcd *)hw)->CMDATA.reg = data;
+	SLCD_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_SLCD_L22_H_INCLUDED */
+#endif /* _SAML22_SLCD_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_supc_l22.h b/watch-library/hardware/hri/hri_supc_l22.h
new file mode 100644
index 00000000..9488ef0b
--- /dev/null
+++ b/watch-library/hardware/hri/hri_supc_l22.h
@@ -0,0 +1,2532 @@
+/**
+ * \file
+ *
+ * \brief SAM SUPC
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_SUPC_COMPONENT_
+#ifndef _HRI_SUPC_L22_H_INCLUDED_
+#define _HRI_SUPC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_SUPC_CRITICAL_SECTIONS)
+#define SUPC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define SUPC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define SUPC_CRITICAL_SECTION_ENTER()
+#define SUPC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_supc_bbps_reg_t;
+typedef uint32_t hri_supc_bkin_reg_t;
+typedef uint32_t hri_supc_bkout_reg_t;
+typedef uint32_t hri_supc_bod12_reg_t;
+typedef uint32_t hri_supc_bod33_reg_t;
+typedef uint32_t hri_supc_intenset_reg_t;
+typedef uint32_t hri_supc_intflag_reg_t;
+typedef uint32_t hri_supc_status_reg_t;
+typedef uint32_t hri_supc_vref_reg_t;
+typedef uint32_t hri_supc_vreg_reg_t;
+
+static inline bool hri_supc_get_INTFLAG_BOD33RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD33RDY) >> SUPC_INTFLAG_BOD33RDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_BOD33RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD33RDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_BOD33DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD33DET) >> SUPC_INTFLAG_BOD33DET_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_BOD33DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD33DET;
+}
+
+static inline bool hri_supc_get_INTFLAG_B33SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_B33SRDY) >> SUPC_INTFLAG_B33SRDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_B33SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_B33SRDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_BOD12RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD12RDY) >> SUPC_INTFLAG_BOD12RDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_BOD12RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD12RDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_BOD12DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD12DET) >> SUPC_INTFLAG_BOD12DET_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_BOD12DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD12DET;
+}
+
+static inline bool hri_supc_get_INTFLAG_B12SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_B12SRDY) >> SUPC_INTFLAG_B12SRDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_B12SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_B12SRDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_VREGRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_VREGRDY) >> SUPC_INTFLAG_VREGRDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_VREGRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_VREGRDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_APWSRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_APWSRDY) >> SUPC_INTFLAG_APWSRDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_APWSRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_APWSRDY;
+}
+
+static inline bool hri_supc_get_INTFLAG_VCORERDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_VCORERDY) >> SUPC_INTFLAG_VCORERDY_Pos;
+}
+
+static inline void hri_supc_clear_INTFLAG_VCORERDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_VCORERDY;
+}
+
+static inline bool hri_supc_get_interrupt_BOD33RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD33RDY) >> SUPC_INTFLAG_BOD33RDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_BOD33RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD33RDY;
+}
+
+static inline bool hri_supc_get_interrupt_BOD33DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD33DET) >> SUPC_INTFLAG_BOD33DET_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_BOD33DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD33DET;
+}
+
+static inline bool hri_supc_get_interrupt_B33SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_B33SRDY) >> SUPC_INTFLAG_B33SRDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_B33SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_B33SRDY;
+}
+
+static inline bool hri_supc_get_interrupt_BOD12RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD12RDY) >> SUPC_INTFLAG_BOD12RDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_BOD12RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD12RDY;
+}
+
+static inline bool hri_supc_get_interrupt_BOD12DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_BOD12DET) >> SUPC_INTFLAG_BOD12DET_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_BOD12DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_BOD12DET;
+}
+
+static inline bool hri_supc_get_interrupt_B12SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_B12SRDY) >> SUPC_INTFLAG_B12SRDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_B12SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_B12SRDY;
+}
+
+static inline bool hri_supc_get_interrupt_VREGRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_VREGRDY) >> SUPC_INTFLAG_VREGRDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_VREGRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_VREGRDY;
+}
+
+static inline bool hri_supc_get_interrupt_APWSRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_APWSRDY) >> SUPC_INTFLAG_APWSRDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_APWSRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_APWSRDY;
+}
+
+static inline bool hri_supc_get_interrupt_VCORERDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTFLAG.reg & SUPC_INTFLAG_VCORERDY) >> SUPC_INTFLAG_VCORERDY_Pos;
+}
+
+static inline void hri_supc_clear_interrupt_VCORERDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTFLAG.reg = SUPC_INTFLAG_VCORERDY;
+}
+
+static inline hri_supc_intflag_reg_t hri_supc_get_INTFLAG_reg(const void *const hw, hri_supc_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_supc_intflag_reg_t hri_supc_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Supc *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_supc_clear_INTFLAG_reg(const void *const hw, hri_supc_intflag_reg_t mask)
+{
+	((Supc *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_supc_set_INTEN_BOD33RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD33RDY;
+}
+
+static inline bool hri_supc_get_INTEN_BOD33RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_BOD33RDY) >> SUPC_INTENSET_BOD33RDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_BOD33RDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD33RDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD33RDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_BOD33RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD33RDY;
+}
+
+static inline void hri_supc_set_INTEN_BOD33DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD33DET;
+}
+
+static inline bool hri_supc_get_INTEN_BOD33DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_BOD33DET) >> SUPC_INTENSET_BOD33DET_Pos;
+}
+
+static inline void hri_supc_write_INTEN_BOD33DET_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD33DET;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD33DET;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_BOD33DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD33DET;
+}
+
+static inline void hri_supc_set_INTEN_B33SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_B33SRDY;
+}
+
+static inline bool hri_supc_get_INTEN_B33SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_B33SRDY) >> SUPC_INTENSET_B33SRDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_B33SRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_B33SRDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_B33SRDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_B33SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_B33SRDY;
+}
+
+static inline void hri_supc_set_INTEN_BOD12RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD12RDY;
+}
+
+static inline bool hri_supc_get_INTEN_BOD12RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_BOD12RDY) >> SUPC_INTENSET_BOD12RDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_BOD12RDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD12RDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD12RDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_BOD12RDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD12RDY;
+}
+
+static inline void hri_supc_set_INTEN_BOD12DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD12DET;
+}
+
+static inline bool hri_supc_get_INTEN_BOD12DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_BOD12DET) >> SUPC_INTENSET_BOD12DET_Pos;
+}
+
+static inline void hri_supc_write_INTEN_BOD12DET_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD12DET;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_BOD12DET;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_BOD12DET_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_BOD12DET;
+}
+
+static inline void hri_supc_set_INTEN_B12SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_B12SRDY;
+}
+
+static inline bool hri_supc_get_INTEN_B12SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_B12SRDY) >> SUPC_INTENSET_B12SRDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_B12SRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_B12SRDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_B12SRDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_B12SRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_B12SRDY;
+}
+
+static inline void hri_supc_set_INTEN_VREGRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_VREGRDY;
+}
+
+static inline bool hri_supc_get_INTEN_VREGRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_VREGRDY) >> SUPC_INTENSET_VREGRDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_VREGRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_VREGRDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_VREGRDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_VREGRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_VREGRDY;
+}
+
+static inline void hri_supc_set_INTEN_APWSRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_APWSRDY;
+}
+
+static inline bool hri_supc_get_INTEN_APWSRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_APWSRDY) >> SUPC_INTENSET_APWSRDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_APWSRDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_APWSRDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_APWSRDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_APWSRDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_APWSRDY;
+}
+
+static inline void hri_supc_set_INTEN_VCORERDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_VCORERDY;
+}
+
+static inline bool hri_supc_get_INTEN_VCORERDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->INTENSET.reg & SUPC_INTENSET_VCORERDY) >> SUPC_INTENSET_VCORERDY_Pos;
+}
+
+static inline void hri_supc_write_INTEN_VCORERDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_VCORERDY;
+	} else {
+		((Supc *)hw)->INTENSET.reg = SUPC_INTENSET_VCORERDY;
+	}
+}
+
+static inline void hri_supc_clear_INTEN_VCORERDY_bit(const void *const hw)
+{
+	((Supc *)hw)->INTENCLR.reg = SUPC_INTENSET_VCORERDY;
+}
+
+static inline void hri_supc_set_INTEN_reg(const void *const hw, hri_supc_intenset_reg_t mask)
+{
+	((Supc *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_supc_intenset_reg_t hri_supc_get_INTEN_reg(const void *const hw, hri_supc_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_supc_intenset_reg_t hri_supc_read_INTEN_reg(const void *const hw)
+{
+	return ((Supc *)hw)->INTENSET.reg;
+}
+
+static inline void hri_supc_write_INTEN_reg(const void *const hw, hri_supc_intenset_reg_t data)
+{
+	((Supc *)hw)->INTENSET.reg = data;
+	((Supc *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_supc_clear_INTEN_reg(const void *const hw, hri_supc_intenset_reg_t mask)
+{
+	((Supc *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_supc_get_STATUS_BOD33RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_BOD33RDY) >> SUPC_STATUS_BOD33RDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_BOD33DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_BOD33DET) >> SUPC_STATUS_BOD33DET_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_B33SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_B33SRDY) >> SUPC_STATUS_B33SRDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_BOD12RDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_BOD12RDY) >> SUPC_STATUS_BOD12RDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_BOD12DET_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_BOD12DET) >> SUPC_STATUS_BOD12DET_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_B12SRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_B12SRDY) >> SUPC_STATUS_B12SRDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_VREGRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_VREGRDY) >> SUPC_STATUS_VREGRDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_APWSRDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_APWSRDY) >> SUPC_STATUS_APWSRDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_VCORERDY_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_VCORERDY) >> SUPC_STATUS_VCORERDY_Pos;
+}
+
+static inline bool hri_supc_get_STATUS_BBPS_bit(const void *const hw)
+{
+	return (((Supc *)hw)->STATUS.reg & SUPC_STATUS_BBPS) >> SUPC_STATUS_BBPS_Pos;
+}
+
+static inline hri_supc_status_reg_t hri_supc_get_STATUS_reg(const void *const hw, hri_supc_status_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_supc_status_reg_t hri_supc_read_STATUS_reg(const void *const hw)
+{
+	return ((Supc *)hw)->STATUS.reg;
+}
+
+static inline hri_supc_bkin_reg_t hri_supc_get_BKIN_BKIN_bf(const void *const hw, hri_supc_bkin_reg_t mask)
+{
+	return (((Supc *)hw)->BKIN.reg & SUPC_BKIN_BKIN(mask)) >> SUPC_BKIN_BKIN_Pos;
+}
+
+static inline hri_supc_bkin_reg_t hri_supc_read_BKIN_BKIN_bf(const void *const hw)
+{
+	return (((Supc *)hw)->BKIN.reg & SUPC_BKIN_BKIN_Msk) >> SUPC_BKIN_BKIN_Pos;
+}
+
+static inline hri_supc_bkin_reg_t hri_supc_get_BKIN_reg(const void *const hw, hri_supc_bkin_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKIN.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_supc_bkin_reg_t hri_supc_read_BKIN_reg(const void *const hw)
+{
+	return ((Supc *)hw)->BKIN.reg;
+}
+
+static inline void hri_supc_set_BOD33_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_ENABLE) >> SUPC_BOD33_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_ENABLE;
+	tmp |= value << SUPC_BOD33_ENABLE_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_HYST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_HYST) >> SUPC_BOD33_HYST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_HYST_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_HYST;
+	tmp |= value << SUPC_BOD33_HYST_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_STDBYCFG_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_STDBYCFG) >> SUPC_BOD33_STDBYCFG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_STDBYCFG_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_STDBYCFG;
+	tmp |= value << SUPC_BOD33_STDBYCFG_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_RUNSTDBY) >> SUPC_BOD33_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_RUNSTDBY;
+	tmp |= value << SUPC_BOD33_RUNSTDBY_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_RUNBKUP_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_RUNBKUP;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_RUNBKUP_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_RUNBKUP) >> SUPC_BOD33_RUNBKUP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_RUNBKUP_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_RUNBKUP;
+	tmp |= value << SUPC_BOD33_RUNBKUP_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_RUNBKUP_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_RUNBKUP;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_RUNBKUP_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_RUNBKUP;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_ACTCFG_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_ACTCFG) >> SUPC_BOD33_ACTCFG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_ACTCFG_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_ACTCFG;
+	tmp |= value << SUPC_BOD33_ACTCFG_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_VMON_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_VMON;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD33_VMON_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_VMON) >> SUPC_BOD33_VMON_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD33_VMON_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_VMON;
+	tmp |= value << SUPC_BOD33_VMON_Pos;
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_VMON_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_VMON;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_VMON_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_VMON;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD33_ACTION_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_get_BOD33_ACTION_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_ACTION(mask)) >> SUPC_BOD33_ACTION_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD33_ACTION_bf(const void *const hw, hri_supc_bod33_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_ACTION_Msk;
+	tmp |= SUPC_BOD33_ACTION(data);
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_ACTION_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_ACTION_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_read_BOD33_ACTION_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_ACTION_Msk) >> SUPC_BOD33_ACTION_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD33_PSEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_get_BOD33_PSEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_PSEL(mask)) >> SUPC_BOD33_PSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD33_PSEL_bf(const void *const hw, hri_supc_bod33_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_PSEL_Msk;
+	tmp |= SUPC_BOD33_PSEL(data);
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_PSEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_PSEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_read_BOD33_PSEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_PSEL_Msk) >> SUPC_BOD33_PSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD33_LEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_get_BOD33_LEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_LEVEL(mask)) >> SUPC_BOD33_LEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD33_LEVEL_bf(const void *const hw, hri_supc_bod33_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_LEVEL_Msk;
+	tmp |= SUPC_BOD33_LEVEL(data);
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_LEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_LEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_read_BOD33_LEVEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_LEVEL_Msk) >> SUPC_BOD33_LEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD33_BKUPLEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= SUPC_BOD33_BKUPLEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_get_BOD33_BKUPLEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_BKUPLEVEL(mask)) >> SUPC_BOD33_BKUPLEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD33_BKUPLEVEL_bf(const void *const hw, hri_supc_bod33_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= ~SUPC_BOD33_BKUPLEVEL_Msk;
+	tmp |= SUPC_BOD33_BKUPLEVEL(data);
+	((Supc *)hw)->BOD33.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_BKUPLEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~SUPC_BOD33_BKUPLEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_BKUPLEVEL_bf(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= SUPC_BOD33_BKUPLEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_read_BOD33_BKUPLEVEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp = (tmp & SUPC_BOD33_BKUPLEVEL_Msk) >> SUPC_BOD33_BKUPLEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD33_reg(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_get_BOD33_reg(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD33.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD33_reg(const void *const hw, hri_supc_bod33_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD33_reg(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD33_reg(const void *const hw, hri_supc_bod33_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD33.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod33_reg_t hri_supc_read_BOD33_reg(const void *const hw)
+{
+	return ((Supc *)hw)->BOD33.reg;
+}
+
+static inline void hri_supc_set_BOD12_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD12_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_ENABLE) >> SUPC_BOD12_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD12_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_ENABLE;
+	tmp |= value << SUPC_BOD12_ENABLE_Pos;
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD12_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD12_HYST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_HYST) >> SUPC_BOD12_HYST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD12_HYST_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_HYST;
+	tmp |= value << SUPC_BOD12_HYST_Pos;
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_HYST_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_HYST;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD12_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD12_STDBYCFG_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_STDBYCFG) >> SUPC_BOD12_STDBYCFG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD12_STDBYCFG_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_STDBYCFG;
+	tmp |= value << SUPC_BOD12_STDBYCFG_Pos;
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_STDBYCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_STDBYCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD12_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD12_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_RUNSTDBY) >> SUPC_BOD12_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD12_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_RUNSTDBY;
+	tmp |= value << SUPC_BOD12_RUNSTDBY_Pos;
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD12_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BOD12_ACTCFG_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_ACTCFG) >> SUPC_BOD12_ACTCFG_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BOD12_ACTCFG_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_ACTCFG;
+	tmp |= value << SUPC_BOD12_ACTCFG_Pos;
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_ACTCFG_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_ACTCFG;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BOD12_ACTION_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_get_BOD12_ACTION_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_ACTION(mask)) >> SUPC_BOD12_ACTION_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD12_ACTION_bf(const void *const hw, hri_supc_bod12_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_ACTION_Msk;
+	tmp |= SUPC_BOD12_ACTION(data);
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_ACTION_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_ACTION_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_ACTION(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_read_BOD12_ACTION_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_ACTION_Msk) >> SUPC_BOD12_ACTION_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD12_PSEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_get_BOD12_PSEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_PSEL(mask)) >> SUPC_BOD12_PSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD12_PSEL_bf(const void *const hw, hri_supc_bod12_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_PSEL_Msk;
+	tmp |= SUPC_BOD12_PSEL(data);
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_PSEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_PSEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_PSEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_read_BOD12_PSEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_PSEL_Msk) >> SUPC_BOD12_PSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD12_LEVEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= SUPC_BOD12_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_get_BOD12_LEVEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_LEVEL(mask)) >> SUPC_BOD12_LEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD12_LEVEL_bf(const void *const hw, hri_supc_bod12_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= ~SUPC_BOD12_LEVEL_Msk;
+	tmp |= SUPC_BOD12_LEVEL(data);
+	((Supc *)hw)->BOD12.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_LEVEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~SUPC_BOD12_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_LEVEL_bf(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= SUPC_BOD12_LEVEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_read_BOD12_LEVEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp = (tmp & SUPC_BOD12_LEVEL_Msk) >> SUPC_BOD12_LEVEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BOD12_reg(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_get_BOD12_reg(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BOD12.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_BOD12_reg(const void *const hw, hri_supc_bod12_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BOD12_reg(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BOD12_reg(const void *const hw, hri_supc_bod12_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BOD12.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bod12_reg_t hri_supc_read_BOD12_reg(const void *const hw)
+{
+	return ((Supc *)hw)->BOD12.reg;
+}
+
+static inline void hri_supc_set_VREG_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREG_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_ENABLE) >> SUPC_VREG_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREG_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_ENABLE;
+	tmp |= value << SUPC_VREG_ENABLE_Pos;
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_ENABLE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_ENABLE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREG_STDBYPL0_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_STDBYPL0;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREG_STDBYPL0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_STDBYPL0) >> SUPC_VREG_STDBYPL0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREG_STDBYPL0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_STDBYPL0;
+	tmp |= value << SUPC_VREG_STDBYPL0_Pos;
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_STDBYPL0_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_STDBYPL0;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_STDBYPL0_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_STDBYPL0;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREG_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREG_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_RUNSTDBY) >> SUPC_VREG_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREG_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_RUNSTDBY;
+	tmp |= value << SUPC_VREG_RUNSTDBY_Pos;
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREG_LPEFF_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_LPEFF;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREG_LPEFF_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_LPEFF) >> SUPC_VREG_LPEFF_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREG_LPEFF_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_LPEFF;
+	tmp |= value << SUPC_VREG_LPEFF_Pos;
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_LPEFF_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_LPEFF;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_LPEFF_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_LPEFF;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREG_SEL_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_get_VREG_SEL_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_SEL(mask)) >> SUPC_VREG_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREG_SEL_bf(const void *const hw, hri_supc_vreg_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_SEL_Msk;
+	tmp |= SUPC_VREG_SEL(data);
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_SEL_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_SEL_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_read_VREG_SEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_SEL_Msk) >> SUPC_VREG_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_VREG_VSVSTEP_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_VSVSTEP(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_get_VREG_VSVSTEP_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_VSVSTEP(mask)) >> SUPC_VREG_VSVSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREG_VSVSTEP_bf(const void *const hw, hri_supc_vreg_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_VSVSTEP_Msk;
+	tmp |= SUPC_VREG_VSVSTEP(data);
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_VSVSTEP_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_VSVSTEP(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_VSVSTEP_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_VSVSTEP(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_read_VREG_VSVSTEP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_VSVSTEP_Msk) >> SUPC_VREG_VSVSTEP_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_VREG_VSPER_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= SUPC_VREG_VSPER(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_get_VREG_VSPER_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_VSPER(mask)) >> SUPC_VREG_VSPER_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREG_VSPER_bf(const void *const hw, hri_supc_vreg_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= ~SUPC_VREG_VSPER_Msk;
+	tmp |= SUPC_VREG_VSPER(data);
+	((Supc *)hw)->VREG.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_VSPER_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~SUPC_VREG_VSPER(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_VSPER_bf(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= SUPC_VREG_VSPER(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_read_VREG_VSPER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp = (tmp & SUPC_VREG_VSPER_Msk) >> SUPC_VREG_VSPER_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_VREG_reg(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_get_VREG_reg(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREG_reg(const void *const hw, hri_supc_vreg_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREG_reg(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREG_reg(const void *const hw, hri_supc_vreg_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREG.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vreg_reg_t hri_supc_read_VREG_reg(const void *const hw)
+{
+	return ((Supc *)hw)->VREG.reg;
+}
+
+static inline void hri_supc_set_VREF_TSEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_TSEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREF_TSEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_TSEN) >> SUPC_VREF_TSEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREF_TSEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_TSEN;
+	tmp |= value << SUPC_VREF_TSEN_Pos;
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_TSEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_TSEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_TSEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_TSEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREF_VREFOE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_VREFOE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREF_VREFOE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_VREFOE) >> SUPC_VREF_VREFOE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREF_VREFOE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_VREFOE;
+	tmp |= value << SUPC_VREF_VREFOE_Pos;
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_VREFOE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_VREFOE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_VREFOE_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_VREFOE;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREF_TSSEL_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_TSSEL;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREF_TSSEL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_TSSEL) >> SUPC_VREF_TSSEL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREF_TSSEL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_TSSEL;
+	tmp |= value << SUPC_VREF_TSSEL_Pos;
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_TSSEL_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_TSSEL;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_TSSEL_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_TSSEL;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREF_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREF_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_RUNSTDBY) >> SUPC_VREF_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREF_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_RUNSTDBY;
+	tmp |= value << SUPC_VREF_RUNSTDBY_Pos;
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_RUNSTDBY_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_RUNSTDBY;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREF_ONDEMAND_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_ONDEMAND;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_VREF_ONDEMAND_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_ONDEMAND) >> SUPC_VREF_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_VREF_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_ONDEMAND;
+	tmp |= value << SUPC_VREF_ONDEMAND_Pos;
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_ONDEMAND_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_ONDEMAND;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_ONDEMAND_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_ONDEMAND;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_VREF_SEL_bf(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= SUPC_VREF_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vref_reg_t hri_supc_get_VREF_SEL_bf(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_SEL(mask)) >> SUPC_VREF_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREF_SEL_bf(const void *const hw, hri_supc_vref_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= ~SUPC_VREF_SEL_Msk;
+	tmp |= SUPC_VREF_SEL(data);
+	((Supc *)hw)->VREF.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_SEL_bf(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~SUPC_VREF_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_SEL_bf(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= SUPC_VREF_SEL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vref_reg_t hri_supc_read_VREF_SEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp = (tmp & SUPC_VREF_SEL_Msk) >> SUPC_VREF_SEL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_VREF_reg(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vref_reg_t hri_supc_get_VREF_reg(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->VREF.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_VREF_reg(const void *const hw, hri_supc_vref_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_VREF_reg(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_VREF_reg(const void *const hw, hri_supc_vref_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->VREF.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_vref_reg_t hri_supc_read_VREF_reg(const void *const hw)
+{
+	return ((Supc *)hw)->VREF.reg;
+}
+
+static inline void hri_supc_set_BBPS_WAKEEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg |= SUPC_BBPS_WAKEEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BBPS_WAKEEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp = (tmp & SUPC_BBPS_WAKEEN) >> SUPC_BBPS_WAKEEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BBPS_WAKEEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp &= ~SUPC_BBPS_WAKEEN;
+	tmp |= value << SUPC_BBPS_WAKEEN_Pos;
+	((Supc *)hw)->BBPS.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BBPS_WAKEEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg &= ~SUPC_BBPS_WAKEEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BBPS_WAKEEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg ^= SUPC_BBPS_WAKEEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BBPS_PSOKEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg |= SUPC_BBPS_PSOKEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_supc_get_BBPS_PSOKEN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp = (tmp & SUPC_BBPS_PSOKEN) >> SUPC_BBPS_PSOKEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_supc_write_BBPS_PSOKEN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp &= ~SUPC_BBPS_PSOKEN;
+	tmp |= value << SUPC_BBPS_PSOKEN_Pos;
+	((Supc *)hw)->BBPS.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BBPS_PSOKEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg &= ~SUPC_BBPS_PSOKEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BBPS_PSOKEN_bit(const void *const hw)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg ^= SUPC_BBPS_PSOKEN;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_set_BBPS_CONF_bf(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg |= SUPC_BBPS_CONF(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bbps_reg_t hri_supc_get_BBPS_CONF_bf(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp = (tmp & SUPC_BBPS_CONF(mask)) >> SUPC_BBPS_CONF_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BBPS_CONF_bf(const void *const hw, hri_supc_bbps_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp &= ~SUPC_BBPS_CONF_Msk;
+	tmp |= SUPC_BBPS_CONF(data);
+	((Supc *)hw)->BBPS.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BBPS_CONF_bf(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg &= ~SUPC_BBPS_CONF(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BBPS_CONF_bf(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg ^= SUPC_BBPS_CONF(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bbps_reg_t hri_supc_read_BBPS_CONF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp = (tmp & SUPC_BBPS_CONF_Msk) >> SUPC_BBPS_CONF_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BBPS_reg(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bbps_reg_t hri_supc_get_BBPS_reg(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BBPS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_BBPS_reg(const void *const hw, hri_supc_bbps_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BBPS_reg(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BBPS_reg(const void *const hw, hri_supc_bbps_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BBPS.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bbps_reg_t hri_supc_read_BBPS_reg(const void *const hw)
+{
+	return ((Supc *)hw)->BBPS.reg;
+}
+
+static inline void hri_supc_set_BKOUT_EN_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg |= SUPC_BKOUT_EN(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_get_BKOUT_EN_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_EN(mask)) >> SUPC_BKOUT_EN_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BKOUT_EN_bf(const void *const hw, hri_supc_bkout_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp &= ~SUPC_BKOUT_EN_Msk;
+	tmp |= SUPC_BKOUT_EN(data);
+	((Supc *)hw)->BKOUT.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BKOUT_EN_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg &= ~SUPC_BKOUT_EN(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BKOUT_EN_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg ^= SUPC_BKOUT_EN(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_read_BKOUT_EN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_EN_Msk) >> SUPC_BKOUT_EN_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BKOUT_CLR_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg |= SUPC_BKOUT_CLR(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_get_BKOUT_CLR_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_CLR(mask)) >> SUPC_BKOUT_CLR_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BKOUT_CLR_bf(const void *const hw, hri_supc_bkout_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp &= ~SUPC_BKOUT_CLR_Msk;
+	tmp |= SUPC_BKOUT_CLR(data);
+	((Supc *)hw)->BKOUT.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BKOUT_CLR_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg &= ~SUPC_BKOUT_CLR(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BKOUT_CLR_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg ^= SUPC_BKOUT_CLR(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_read_BKOUT_CLR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_CLR_Msk) >> SUPC_BKOUT_CLR_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BKOUT_SET_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg |= SUPC_BKOUT_SET(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_get_BKOUT_SET_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_SET(mask)) >> SUPC_BKOUT_SET_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BKOUT_SET_bf(const void *const hw, hri_supc_bkout_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp &= ~SUPC_BKOUT_SET_Msk;
+	tmp |= SUPC_BKOUT_SET(data);
+	((Supc *)hw)->BKOUT.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BKOUT_SET_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg &= ~SUPC_BKOUT_SET(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BKOUT_SET_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg ^= SUPC_BKOUT_SET(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_read_BKOUT_SET_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_SET_Msk) >> SUPC_BKOUT_SET_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BKOUT_RTCTGL_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg |= SUPC_BKOUT_RTCTGL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_get_BKOUT_RTCTGL_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_RTCTGL(mask)) >> SUPC_BKOUT_RTCTGL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_write_BKOUT_RTCTGL_bf(const void *const hw, hri_supc_bkout_reg_t data)
+{
+	uint32_t tmp;
+	SUPC_CRITICAL_SECTION_ENTER();
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp &= ~SUPC_BKOUT_RTCTGL_Msk;
+	tmp |= SUPC_BKOUT_RTCTGL(data);
+	((Supc *)hw)->BKOUT.reg = tmp;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BKOUT_RTCTGL_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg &= ~SUPC_BKOUT_RTCTGL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BKOUT_RTCTGL_bf(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg ^= SUPC_BKOUT_RTCTGL(mask);
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_read_BKOUT_RTCTGL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp = (tmp & SUPC_BKOUT_RTCTGL_Msk) >> SUPC_BKOUT_RTCTGL_Pos;
+	return tmp;
+}
+
+static inline void hri_supc_set_BKOUT_reg(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg |= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_get_BKOUT_reg(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Supc *)hw)->BKOUT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_supc_write_BKOUT_reg(const void *const hw, hri_supc_bkout_reg_t data)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg = data;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_clear_BKOUT_reg(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg &= ~mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_supc_toggle_BKOUT_reg(const void *const hw, hri_supc_bkout_reg_t mask)
+{
+	SUPC_CRITICAL_SECTION_ENTER();
+	((Supc *)hw)->BKOUT.reg ^= mask;
+	SUPC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_supc_bkout_reg_t hri_supc_read_BKOUT_reg(const void *const hw)
+{
+	return ((Supc *)hw)->BKOUT.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_SUPC_L22_H_INCLUDED */
+#endif /* _SAML22_SUPC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_systemcontrol_l22.h b/watch-library/hardware/hri/hri_systemcontrol_l22.h
new file mode 100644
index 00000000..9553d51a
--- /dev/null
+++ b/watch-library/hardware/hri/hri_systemcontrol_l22.h
@@ -0,0 +1,498 @@
+/**
+ * \file
+ *
+ * \brief SAM SystemControl
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_SystemControl_COMPONENT_
+#ifndef _HRI_SystemControl_L22_H_INCLUDED_
+#define _HRI_SystemControl_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_SystemControl_CRITICAL_SECTIONS)
+#define SystemControl_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define SystemControl_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define SystemControl_CRITICAL_SECTION_ENTER()
+#define SystemControl_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_systemcontrol_aircr_reg_t;
+typedef uint32_t hri_systemcontrol_ccr_reg_t;
+typedef uint32_t hri_systemcontrol_cpuid_reg_t;
+typedef uint32_t hri_systemcontrol_dfsr_reg_t;
+typedef uint32_t hri_systemcontrol_icsr_reg_t;
+typedef uint32_t hri_systemcontrol_scr_reg_t;
+typedef uint32_t hri_systemcontrol_shcsr_reg_t;
+typedef uint32_t hri_systemcontrol_shpr2_reg_t;
+typedef uint32_t hri_systemcontrol_shpr3_reg_t;
+typedef uint32_t hri_systemcontrol_vtor_reg_t;
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_get_CPUID_REVISION_bf(const void *const             hw,
+                                                                                    hri_systemcontrol_cpuid_reg_t mask)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_REVISION(mask)) >> 0;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_REVISION_bf(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_REVISION_Msk) >> 0;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_get_CPUID_PARTNO_bf(const void *const             hw,
+                                                                                  hri_systemcontrol_cpuid_reg_t mask)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_PARTNO(mask)) >> 4;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_PARTNO_bf(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_PARTNO_Msk) >> 4;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t
+hri_systemcontrol_get_CPUID_ARCHITECTURE_bf(const void *const hw, hri_systemcontrol_cpuid_reg_t mask)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_ARCHITECTURE(mask)) >> 16;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_ARCHITECTURE_bf(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_ARCHITECTURE_Msk) >> 16;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_get_CPUID_VARIANT_bf(const void *const             hw,
+                                                                                   hri_systemcontrol_cpuid_reg_t mask)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_VARIANT(mask)) >> 20;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_VARIANT_bf(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_VARIANT_Msk) >> 20;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t
+hri_systemcontrol_get_CPUID_IMPLEMENTER_bf(const void *const hw, hri_systemcontrol_cpuid_reg_t mask)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_IMPLEMENTER(mask)) >> 24;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_IMPLEMENTER_bf(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CPUID.reg & SystemControl_CPUID_IMPLEMENTER_Msk) >> 24;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_get_CPUID_reg(const void *const             hw,
+                                                                            hri_systemcontrol_cpuid_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->CPUID.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_systemcontrol_cpuid_reg_t hri_systemcontrol_read_CPUID_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->CPUID.reg;
+}
+
+static inline bool hri_systemcontrol_get_CCR_UNALIGN_TRP_bit(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CCR.reg & SystemControl_CCR_UNALIGN_TRP) >> 3;
+}
+
+static inline bool hri_systemcontrol_get_CCR_STKALIGN_bit(const void *const hw)
+{
+	return (((Systemcontrol *)hw)->CCR.reg & SystemControl_CCR_STKALIGN) >> 9;
+}
+
+static inline hri_systemcontrol_ccr_reg_t hri_systemcontrol_get_CCR_reg(const void *const           hw,
+                                                                        hri_systemcontrol_ccr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->CCR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_systemcontrol_ccr_reg_t hri_systemcontrol_read_CCR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->CCR.reg;
+}
+
+static inline void hri_systemcontrol_set_ICSR_reg(const void *const hw, hri_systemcontrol_icsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->ICSR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_icsr_reg_t hri_systemcontrol_get_ICSR_reg(const void *const            hw,
+                                                                          hri_systemcontrol_icsr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->ICSR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_ICSR_reg(const void *const hw, hri_systemcontrol_icsr_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->ICSR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_ICSR_reg(const void *const hw, hri_systemcontrol_icsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->ICSR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_ICSR_reg(const void *const hw, hri_systemcontrol_icsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->ICSR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_icsr_reg_t hri_systemcontrol_read_ICSR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->ICSR.reg;
+}
+
+static inline void hri_systemcontrol_set_VTOR_reg(const void *const hw, hri_systemcontrol_vtor_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->VTOR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_vtor_reg_t hri_systemcontrol_get_VTOR_reg(const void *const            hw,
+                                                                          hri_systemcontrol_vtor_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->VTOR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_VTOR_reg(const void *const hw, hri_systemcontrol_vtor_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->VTOR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_VTOR_reg(const void *const hw, hri_systemcontrol_vtor_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->VTOR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_VTOR_reg(const void *const hw, hri_systemcontrol_vtor_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->VTOR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_vtor_reg_t hri_systemcontrol_read_VTOR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->VTOR.reg;
+}
+
+static inline void hri_systemcontrol_set_AIRCR_reg(const void *const hw, hri_systemcontrol_aircr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->AIRCR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_aircr_reg_t hri_systemcontrol_get_AIRCR_reg(const void *const             hw,
+                                                                            hri_systemcontrol_aircr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->AIRCR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_AIRCR_reg(const void *const hw, hri_systemcontrol_aircr_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->AIRCR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_AIRCR_reg(const void *const hw, hri_systemcontrol_aircr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->AIRCR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_AIRCR_reg(const void *const hw, hri_systemcontrol_aircr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->AIRCR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_aircr_reg_t hri_systemcontrol_read_AIRCR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->AIRCR.reg;
+}
+
+static inline void hri_systemcontrol_set_SCR_reg(const void *const hw, hri_systemcontrol_scr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SCR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_scr_reg_t hri_systemcontrol_get_SCR_reg(const void *const           hw,
+                                                                        hri_systemcontrol_scr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->SCR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_SCR_reg(const void *const hw, hri_systemcontrol_scr_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SCR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_SCR_reg(const void *const hw, hri_systemcontrol_scr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SCR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_SCR_reg(const void *const hw, hri_systemcontrol_scr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SCR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_scr_reg_t hri_systemcontrol_read_SCR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->SCR.reg;
+}
+
+static inline void hri_systemcontrol_set_SHPR2_reg(const void *const hw, hri_systemcontrol_shpr2_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR2.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shpr2_reg_t hri_systemcontrol_get_SHPR2_reg(const void *const             hw,
+                                                                            hri_systemcontrol_shpr2_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->SHPR2.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_SHPR2_reg(const void *const hw, hri_systemcontrol_shpr2_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR2.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_SHPR2_reg(const void *const hw, hri_systemcontrol_shpr2_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR2.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_SHPR2_reg(const void *const hw, hri_systemcontrol_shpr2_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR2.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shpr2_reg_t hri_systemcontrol_read_SHPR2_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->SHPR2.reg;
+}
+
+static inline void hri_systemcontrol_set_SHPR3_reg(const void *const hw, hri_systemcontrol_shpr3_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR3.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shpr3_reg_t hri_systemcontrol_get_SHPR3_reg(const void *const             hw,
+                                                                            hri_systemcontrol_shpr3_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->SHPR3.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_SHPR3_reg(const void *const hw, hri_systemcontrol_shpr3_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR3.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_SHPR3_reg(const void *const hw, hri_systemcontrol_shpr3_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR3.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_SHPR3_reg(const void *const hw, hri_systemcontrol_shpr3_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHPR3.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shpr3_reg_t hri_systemcontrol_read_SHPR3_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->SHPR3.reg;
+}
+
+static inline void hri_systemcontrol_set_SHCSR_reg(const void *const hw, hri_systemcontrol_shcsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHCSR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shcsr_reg_t hri_systemcontrol_get_SHCSR_reg(const void *const             hw,
+                                                                            hri_systemcontrol_shcsr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->SHCSR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_SHCSR_reg(const void *const hw, hri_systemcontrol_shcsr_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHCSR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_SHCSR_reg(const void *const hw, hri_systemcontrol_shcsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHCSR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_SHCSR_reg(const void *const hw, hri_systemcontrol_shcsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->SHCSR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_shcsr_reg_t hri_systemcontrol_read_SHCSR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->SHCSR.reg;
+}
+
+static inline void hri_systemcontrol_set_DFSR_reg(const void *const hw, hri_systemcontrol_dfsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->DFSR.reg |= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_dfsr_reg_t hri_systemcontrol_get_DFSR_reg(const void *const            hw,
+                                                                          hri_systemcontrol_dfsr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systemcontrol *)hw)->DFSR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systemcontrol_write_DFSR_reg(const void *const hw, hri_systemcontrol_dfsr_reg_t data)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->DFSR.reg = data;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_clear_DFSR_reg(const void *const hw, hri_systemcontrol_dfsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->DFSR.reg &= ~mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systemcontrol_toggle_DFSR_reg(const void *const hw, hri_systemcontrol_dfsr_reg_t mask)
+{
+	SystemControl_CRITICAL_SECTION_ENTER();
+	((Systemcontrol *)hw)->DFSR.reg ^= mask;
+	SystemControl_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systemcontrol_dfsr_reg_t hri_systemcontrol_read_DFSR_reg(const void *const hw)
+{
+	return ((Systemcontrol *)hw)->DFSR.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_SystemControl_L22_H_INCLUDED */
+#endif /* _SAML22_SystemControl_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_systick_l22.h b/watch-library/hardware/hri/hri_systick_l22.h
new file mode 100644
index 00000000..aa09233f
--- /dev/null
+++ b/watch-library/hardware/hri/hri_systick_l22.h
@@ -0,0 +1,219 @@
+/**
+ * \file
+ *
+ * \brief SAM SysTick
+ *
+ * Copyright (c) 2017-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_SysTick_COMPONENT_
+#ifndef _HRI_SysTick_L22_H_INCLUDED_
+#define _HRI_SysTick_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_SysTick_CRITICAL_SECTIONS)
+#define SysTick_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define SysTick_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define SysTick_CRITICAL_SECTION_ENTER()
+#define SysTick_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_systick_calib_reg_t;
+typedef uint32_t hri_systick_csr_reg_t;
+typedef uint32_t hri_systick_cvr_reg_t;
+typedef uint32_t hri_systick_rvr_reg_t;
+
+static inline bool hri_systick_get_CALIB_SKEW_bit(const void *const hw)
+{
+	return (((Systick *)hw)->CALIB.reg & SysTick_CALIB_SKEW) >> 30;
+}
+
+static inline bool hri_systick_get_CALIB_NOREF_bit(const void *const hw)
+{
+	return (((Systick *)hw)->CALIB.reg & SysTick_CALIB_NOREF) >> 31;
+}
+
+static inline hri_systick_calib_reg_t hri_systick_get_CALIB_TENMS_bf(const void *const hw, hri_systick_calib_reg_t mask)
+{
+	return (((Systick *)hw)->CALIB.reg & SysTick_CALIB_TENMS(mask)) >> 0;
+}
+
+static inline hri_systick_calib_reg_t hri_systick_read_CALIB_TENMS_bf(const void *const hw)
+{
+	return (((Systick *)hw)->CALIB.reg & SysTick_CALIB_TENMS_Msk) >> 0;
+}
+
+static inline hri_systick_calib_reg_t hri_systick_get_CALIB_reg(const void *const hw, hri_systick_calib_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systick *)hw)->CALIB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_systick_calib_reg_t hri_systick_read_CALIB_reg(const void *const hw)
+{
+	return ((Systick *)hw)->CALIB.reg;
+}
+
+static inline void hri_systick_set_CSR_reg(const void *const hw, hri_systick_csr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CSR.reg |= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_csr_reg_t hri_systick_get_CSR_reg(const void *const hw, hri_systick_csr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systick *)hw)->CSR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systick_write_CSR_reg(const void *const hw, hri_systick_csr_reg_t data)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CSR.reg = data;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_clear_CSR_reg(const void *const hw, hri_systick_csr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CSR.reg &= ~mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_toggle_CSR_reg(const void *const hw, hri_systick_csr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CSR.reg ^= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_csr_reg_t hri_systick_read_CSR_reg(const void *const hw)
+{
+	return ((Systick *)hw)->CSR.reg;
+}
+
+static inline void hri_systick_set_RVR_reg(const void *const hw, hri_systick_rvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->RVR.reg |= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_rvr_reg_t hri_systick_get_RVR_reg(const void *const hw, hri_systick_rvr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systick *)hw)->RVR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systick_write_RVR_reg(const void *const hw, hri_systick_rvr_reg_t data)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->RVR.reg = data;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_clear_RVR_reg(const void *const hw, hri_systick_rvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->RVR.reg &= ~mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_toggle_RVR_reg(const void *const hw, hri_systick_rvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->RVR.reg ^= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_rvr_reg_t hri_systick_read_RVR_reg(const void *const hw)
+{
+	return ((Systick *)hw)->RVR.reg;
+}
+
+static inline void hri_systick_set_CVR_reg(const void *const hw, hri_systick_cvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CVR.reg |= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_cvr_reg_t hri_systick_get_CVR_reg(const void *const hw, hri_systick_cvr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Systick *)hw)->CVR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_systick_write_CVR_reg(const void *const hw, hri_systick_cvr_reg_t data)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CVR.reg = data;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_clear_CVR_reg(const void *const hw, hri_systick_cvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CVR.reg &= ~mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_systick_toggle_CVR_reg(const void *const hw, hri_systick_cvr_reg_t mask)
+{
+	SysTick_CRITICAL_SECTION_ENTER();
+	((Systick *)hw)->CVR.reg ^= mask;
+	SysTick_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_systick_cvr_reg_t hri_systick_read_CVR_reg(const void *const hw)
+{
+	return ((Systick *)hw)->CVR.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_SysTick_L22_H_INCLUDED */
+#endif /* _SAML22_SysTick_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_tc_l22.h b/watch-library/hardware/hri/hri_tc_l22.h
new file mode 100644
index 00000000..8fab128c
--- /dev/null
+++ b/watch-library/hardware/hri/hri_tc_l22.h
@@ -0,0 +1,2899 @@
+/**
+ * \file
+ *
+ * \brief SAM TC
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_TC_COMPONENT_
+#ifndef _HRI_TC_L22_H_INCLUDED_
+#define _HRI_TC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_TC_CRITICAL_SECTIONS)
+#define TC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define TC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define TC_CRITICAL_SECTION_ENTER()
+#define TC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_tc_evctrl_reg_t;
+typedef uint16_t hri_tccount16_cc_reg_t;
+typedef uint16_t hri_tccount16_ccbuf_reg_t;
+typedef uint16_t hri_tccount16_count_reg_t;
+typedef uint32_t hri_tc_ctrla_reg_t;
+typedef uint32_t hri_tc_syncbusy_reg_t;
+typedef uint32_t hri_tccount32_cc_reg_t;
+typedef uint32_t hri_tccount32_ccbuf_reg_t;
+typedef uint32_t hri_tccount32_count_reg_t;
+typedef uint8_t  hri_tc_ctrlbset_reg_t;
+typedef uint8_t  hri_tc_dbgctrl_reg_t;
+typedef uint8_t  hri_tc_drvctrl_reg_t;
+typedef uint8_t  hri_tc_intenset_reg_t;
+typedef uint8_t  hri_tc_intflag_reg_t;
+typedef uint8_t  hri_tc_status_reg_t;
+typedef uint8_t  hri_tc_wave_reg_t;
+typedef uint8_t  hri_tccount8_cc_reg_t;
+typedef uint8_t  hri_tccount8_ccbuf_reg_t;
+typedef uint8_t  hri_tccount8_count_reg_t;
+typedef uint8_t  hri_tccount8_per_reg_t;
+typedef uint8_t  hri_tccount8_perbuf_reg_t;
+
+static inline void hri_tc_wait_for_sync(const void *const hw, hri_tc_syncbusy_reg_t reg)
+{
+	while (((Tc *)hw)->COUNT8.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_tc_is_syncing(const void *const hw, hri_tc_syncbusy_reg_t reg)
+{
+	return ((Tc *)hw)->COUNT8.SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_tc_get_INTFLAG_OVF_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_OVF) >> TC_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_tc_clear_INTFLAG_OVF_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_OVF;
+}
+
+static inline bool hri_tc_get_INTFLAG_ERR_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_ERR) >> TC_INTFLAG_ERR_Pos;
+}
+
+static inline void hri_tc_clear_INTFLAG_ERR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_ERR;
+}
+
+static inline bool hri_tc_get_INTFLAG_MC0_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_MC0) >> TC_INTFLAG_MC0_Pos;
+}
+
+static inline void hri_tc_clear_INTFLAG_MC0_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_MC0;
+}
+
+static inline bool hri_tc_get_INTFLAG_MC1_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_MC1) >> TC_INTFLAG_MC1_Pos;
+}
+
+static inline void hri_tc_clear_INTFLAG_MC1_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_MC1;
+}
+
+static inline bool hri_tc_get_interrupt_OVF_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_OVF) >> TC_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_tc_clear_interrupt_OVF_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_OVF;
+}
+
+static inline bool hri_tc_get_interrupt_ERR_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_ERR) >> TC_INTFLAG_ERR_Pos;
+}
+
+static inline void hri_tc_clear_interrupt_ERR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_ERR;
+}
+
+static inline bool hri_tc_get_interrupt_MC0_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_MC0) >> TC_INTFLAG_MC0_Pos;
+}
+
+static inline void hri_tc_clear_interrupt_MC0_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_MC0;
+}
+
+static inline bool hri_tc_get_interrupt_MC1_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTFLAG.reg & TC_INTFLAG_MC1) >> TC_INTFLAG_MC1_Pos;
+}
+
+static inline void hri_tc_clear_interrupt_MC1_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = TC_INTFLAG_MC1;
+}
+
+static inline hri_tc_intflag_reg_t hri_tc_get_INTFLAG_reg(const void *const hw, hri_tc_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tc_intflag_reg_t hri_tc_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.INTFLAG.reg;
+}
+
+static inline void hri_tc_clear_INTFLAG_reg(const void *const hw, hri_tc_intflag_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.INTFLAG.reg = mask;
+}
+
+static inline void hri_tc_set_CTRLB_DIR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_DIR;
+}
+
+static inline bool hri_tc_get_CTRLB_DIR_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.CTRLBSET.reg & TC_CTRLBSET_DIR) >> TC_CTRLBSET_DIR_Pos;
+}
+
+static inline void hri_tc_write_CTRLB_DIR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_DIR;
+	} else {
+		((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_DIR;
+	}
+}
+
+static inline void hri_tc_clear_CTRLB_DIR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_DIR;
+}
+
+static inline void hri_tc_set_CTRLB_LUPD_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_LUPD;
+}
+
+static inline bool hri_tc_get_CTRLB_LUPD_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.CTRLBSET.reg & TC_CTRLBSET_LUPD) >> TC_CTRLBSET_LUPD_Pos;
+}
+
+static inline void hri_tc_write_CTRLB_LUPD_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_LUPD;
+	} else {
+		((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_LUPD;
+	}
+}
+
+static inline void hri_tc_clear_CTRLB_LUPD_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_LUPD;
+}
+
+static inline void hri_tc_set_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_ONESHOT;
+}
+
+static inline bool hri_tc_get_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.CTRLBSET.reg & TC_CTRLBSET_ONESHOT) >> TC_CTRLBSET_ONESHOT_Pos;
+}
+
+static inline void hri_tc_write_CTRLB_ONESHOT_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_ONESHOT;
+	} else {
+		((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_ONESHOT;
+	}
+}
+
+static inline void hri_tc_clear_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_ONESHOT;
+}
+
+static inline void hri_tc_set_CTRLB_CMD_bf(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_CMD(mask);
+}
+
+static inline hri_tc_ctrlbset_reg_t hri_tc_get_CTRLB_CMD_bf(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLBSET.reg;
+	tmp = (tmp & TC_CTRLBSET_CMD(mask)) >> TC_CTRLBSET_CMD_Pos;
+	return tmp;
+}
+
+static inline hri_tc_ctrlbset_reg_t hri_tc_read_CTRLB_CMD_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLBSET.reg;
+	tmp = (tmp & TC_CTRLBSET_CMD_Msk) >> TC_CTRLBSET_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_CTRLB_CMD_bf(const void *const hw, hri_tc_ctrlbset_reg_t data)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = TC_CTRLBSET_CMD(data);
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = ~TC_CTRLBSET_CMD(data);
+}
+
+static inline void hri_tc_clear_CTRLB_CMD_bf(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = TC_CTRLBSET_CMD(mask);
+}
+
+static inline void hri_tc_set_CTRLB_reg(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = mask;
+}
+
+static inline hri_tc_ctrlbset_reg_t hri_tc_get_CTRLB_reg(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLBSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tc_ctrlbset_reg_t hri_tc_read_CTRLB_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.CTRLBSET.reg;
+}
+
+static inline void hri_tc_write_CTRLB_reg(const void *const hw, hri_tc_ctrlbset_reg_t data)
+{
+	((Tc *)hw)->COUNT16.CTRLBSET.reg = data;
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = ~data;
+}
+
+static inline void hri_tc_clear_CTRLB_reg(const void *const hw, hri_tc_ctrlbset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.CTRLBCLR.reg = mask;
+}
+
+static inline void hri_tc_set_INTEN_OVF_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_OVF;
+}
+
+static inline bool hri_tc_get_INTEN_OVF_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTENSET.reg & TC_INTENSET_OVF) >> TC_INTENSET_OVF_Pos;
+}
+
+static inline void hri_tc_write_INTEN_OVF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_OVF;
+	} else {
+		((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_OVF;
+	}
+}
+
+static inline void hri_tc_clear_INTEN_OVF_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_OVF;
+}
+
+static inline void hri_tc_set_INTEN_ERR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_ERR;
+}
+
+static inline bool hri_tc_get_INTEN_ERR_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTENSET.reg & TC_INTENSET_ERR) >> TC_INTENSET_ERR_Pos;
+}
+
+static inline void hri_tc_write_INTEN_ERR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_ERR;
+	} else {
+		((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_ERR;
+	}
+}
+
+static inline void hri_tc_clear_INTEN_ERR_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_ERR;
+}
+
+static inline void hri_tc_set_INTEN_MC0_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_MC0;
+}
+
+static inline bool hri_tc_get_INTEN_MC0_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTENSET.reg & TC_INTENSET_MC0) >> TC_INTENSET_MC0_Pos;
+}
+
+static inline void hri_tc_write_INTEN_MC0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_MC0;
+	} else {
+		((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_MC0;
+	}
+}
+
+static inline void hri_tc_clear_INTEN_MC0_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_MC0;
+}
+
+static inline void hri_tc_set_INTEN_MC1_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_MC1;
+}
+
+static inline bool hri_tc_get_INTEN_MC1_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.INTENSET.reg & TC_INTENSET_MC1) >> TC_INTENSET_MC1_Pos;
+}
+
+static inline void hri_tc_write_INTEN_MC1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_MC1;
+	} else {
+		((Tc *)hw)->COUNT16.INTENSET.reg = TC_INTENSET_MC1;
+	}
+}
+
+static inline void hri_tc_clear_INTEN_MC1_bit(const void *const hw)
+{
+	((Tc *)hw)->COUNT16.INTENCLR.reg = TC_INTENSET_MC1;
+}
+
+static inline void hri_tc_set_INTEN_reg(const void *const hw, hri_tc_intenset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = mask;
+}
+
+static inline hri_tc_intenset_reg_t hri_tc_get_INTEN_reg(const void *const hw, hri_tc_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tc_intenset_reg_t hri_tc_read_INTEN_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.INTENSET.reg;
+}
+
+static inline void hri_tc_write_INTEN_reg(const void *const hw, hri_tc_intenset_reg_t data)
+{
+	((Tc *)hw)->COUNT16.INTENSET.reg = data;
+	((Tc *)hw)->COUNT16.INTENCLR.reg = ~data;
+}
+
+static inline void hri_tc_clear_INTEN_reg(const void *const hw, hri_tc_intenset_reg_t mask)
+{
+	((Tc *)hw)->COUNT16.INTENCLR.reg = mask;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_SWRST) >> TC_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_ENABLE) >> TC_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_CTRLB_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_CTRLB) >> TC_SYNCBUSY_CTRLB_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_STATUS_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_STATUS) >> TC_SYNCBUSY_STATUS_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_COUNT_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_COUNT) >> TC_SYNCBUSY_COUNT_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_PER_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_PER) >> TC_SYNCBUSY_PER_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_CC0_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_CC0) >> TC_SYNCBUSY_CC0_Pos;
+}
+
+static inline bool hri_tc_get_SYNCBUSY_CC1_bit(const void *const hw)
+{
+	return (((Tc *)hw)->COUNT16.SYNCBUSY.reg & TC_SYNCBUSY_CC1) >> TC_SYNCBUSY_CC1_Pos;
+}
+
+static inline hri_tc_syncbusy_reg_t hri_tc_get_SYNCBUSY_reg(const void *const hw, hri_tc_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tc_syncbusy_reg_t hri_tc_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.SYNCBUSY.reg;
+}
+
+static inline void hri_tc_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_SWRST;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST);
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_SWRST) >> TC_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_ENABLE;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_ENABLE) >> TC_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_ENABLE;
+	tmp |= value << TC_CTRLA_ENABLE_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_ENABLE;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_ENABLE;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_RUNSTDBY;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_RUNSTDBY) >> TC_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_RUNSTDBY;
+	tmp |= value << TC_CTRLA_RUNSTDBY_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_RUNSTDBY;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_RUNSTDBY;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_ONDEMAND;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_ONDEMAND) >> TC_CTRLA_ONDEMAND_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_ONDEMAND_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_ONDEMAND;
+	tmp |= value << TC_CTRLA_ONDEMAND_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_ONDEMAND;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_ONDEMAND_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_ONDEMAND;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_ALOCK;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_ALOCK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_ALOCK) >> TC_CTRLA_ALOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_ALOCK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_ALOCK;
+	tmp |= value << TC_CTRLA_ALOCK_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_ALOCK;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_ALOCK;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_CAPTEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_CAPTEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_CAPTEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_CAPTEN0) >> TC_CTRLA_CAPTEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_CAPTEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_CAPTEN0;
+	tmp |= value << TC_CTRLA_CAPTEN0_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_CAPTEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_CAPTEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_CAPTEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_CAPTEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_CAPTEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_CAPTEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_CAPTEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_CAPTEN1) >> TC_CTRLA_CAPTEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_CAPTEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_CAPTEN1;
+	tmp |= value << TC_CTRLA_CAPTEN1_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_CAPTEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_CAPTEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_CAPTEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_CAPTEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_COPEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_COPEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_COPEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_COPEN0) >> TC_CTRLA_COPEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_COPEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_COPEN0;
+	tmp |= value << TC_CTRLA_COPEN0_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_COPEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_COPEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_COPEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_COPEN0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_COPEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_COPEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_CTRLA_COPEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_COPEN1) >> TC_CTRLA_COPEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_CTRLA_COPEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_COPEN1;
+	tmp |= value << TC_CTRLA_COPEN1_Pos;
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_COPEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_COPEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_COPEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_COPEN1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_CTRLA_MODE_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_MODE(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_get_CTRLA_MODE_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_MODE(mask)) >> TC_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_CTRLA_MODE_bf(const void *const hw, hri_tc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_MODE_Msk;
+	tmp |= TC_CTRLA_MODE(data);
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_MODE_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_MODE(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_MODE_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_MODE(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_read_CTRLA_MODE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_MODE_Msk) >> TC_CTRLA_MODE_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_set_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_PRESCSYNC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_get_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_PRESCSYNC(mask)) >> TC_CTRLA_PRESCSYNC_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_PRESCSYNC_Msk;
+	tmp |= TC_CTRLA_PRESCSYNC(data);
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_PRESCSYNC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_PRESCSYNC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_read_CTRLA_PRESCSYNC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_PRESCSYNC_Msk) >> TC_CTRLA_PRESCSYNC_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_set_CTRLA_PRESCALER_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= TC_CTRLA_PRESCALER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_get_CTRLA_PRESCALER_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_PRESCALER(mask)) >> TC_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_CTRLA_PRESCALER_bf(const void *const hw, hri_tc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= ~TC_CTRLA_PRESCALER_Msk;
+	tmp |= TC_CTRLA_PRESCALER(data);
+	((Tc *)hw)->COUNT16.CTRLA.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_PRESCALER_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~TC_CTRLA_PRESCALER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_PRESCALER_bf(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= TC_CTRLA_PRESCALER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_read_CTRLA_PRESCALER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp = (tmp & TC_CTRLA_PRESCALER_Msk) >> TC_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_set_CTRLA_reg(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_get_CTRLA_reg(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	tmp = ((Tc *)hw)->COUNT16.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_write_CTRLA_reg(const void *const hw, hri_tc_ctrla_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_CTRLA_reg(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_CTRLA_reg(const void *const hw, hri_tc_ctrla_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CTRLA.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_ctrla_reg_t hri_tc_read_CTRLA_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_SWRST | TC_SYNCBUSY_ENABLE);
+	return ((Tc *)hw)->COUNT16.CTRLA.reg;
+}
+
+static inline void hri_tc_set_EVCTRL_TCINV_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_TCINV;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_EVCTRL_TCINV_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_TCINV) >> TC_EVCTRL_TCINV_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_TCINV_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_TCINV;
+	tmp |= value << TC_EVCTRL_TCINV_Pos;
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_TCINV_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_TCINV;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_TCINV_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_TCINV;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_EVCTRL_TCEI_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_TCEI;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_EVCTRL_TCEI_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_TCEI) >> TC_EVCTRL_TCEI_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_TCEI_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_TCEI;
+	tmp |= value << TC_EVCTRL_TCEI_Pos;
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_TCEI_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_TCEI;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_TCEI_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_TCEI;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_OVFEO;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_OVFEO) >> TC_EVCTRL_OVFEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_OVFEO_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_OVFEO;
+	tmp |= value << TC_EVCTRL_OVFEO_Pos;
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_OVFEO;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_OVFEO;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_MCEO0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_MCEO0) >> TC_EVCTRL_MCEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_MCEO0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_MCEO0;
+	tmp |= value << TC_EVCTRL_MCEO0_Pos;
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_MCEO0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_MCEO0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_MCEO1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_MCEO1) >> TC_EVCTRL_MCEO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_MCEO1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_MCEO1;
+	tmp |= value << TC_EVCTRL_MCEO1_Pos;
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_MCEO1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_MCEO1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_EVCTRL_EVACT_bf(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= TC_EVCTRL_EVACT(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_evctrl_reg_t hri_tc_get_EVCTRL_EVACT_bf(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_EVACT(mask)) >> TC_EVCTRL_EVACT_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_EVACT_bf(const void *const hw, hri_tc_evctrl_reg_t data)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= ~TC_EVCTRL_EVACT_Msk;
+	tmp |= TC_EVCTRL_EVACT(data);
+	((Tc *)hw)->COUNT16.EVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_EVACT_bf(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~TC_EVCTRL_EVACT(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_EVACT_bf(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= TC_EVCTRL_EVACT(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_evctrl_reg_t hri_tc_read_EVCTRL_EVACT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp = (tmp & TC_EVCTRL_EVACT_Msk) >> TC_EVCTRL_EVACT_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_set_EVCTRL_reg(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg |= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_evctrl_reg_t hri_tc_get_EVCTRL_reg(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_write_EVCTRL_reg(const void *const hw, hri_tc_evctrl_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg = data;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_EVCTRL_reg(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg &= ~mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_EVCTRL_reg(const void *const hw, hri_tc_evctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.EVCTRL.reg ^= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_evctrl_reg_t hri_tc_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.EVCTRL.reg;
+}
+
+static inline void hri_tc_set_WAVE_WAVEGEN_bf(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg |= TC_WAVE_WAVEGEN(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_wave_reg_t hri_tc_get_WAVE_WAVEGEN_bf(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.WAVE.reg;
+	tmp = (tmp & TC_WAVE_WAVEGEN(mask)) >> TC_WAVE_WAVEGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_write_WAVE_WAVEGEN_bf(const void *const hw, hri_tc_wave_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.WAVE.reg;
+	tmp &= ~TC_WAVE_WAVEGEN_Msk;
+	tmp |= TC_WAVE_WAVEGEN(data);
+	((Tc *)hw)->COUNT16.WAVE.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_WAVE_WAVEGEN_bf(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg &= ~TC_WAVE_WAVEGEN(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_WAVE_WAVEGEN_bf(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg ^= TC_WAVE_WAVEGEN(mask);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_wave_reg_t hri_tc_read_WAVE_WAVEGEN_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.WAVE.reg;
+	tmp = (tmp & TC_WAVE_WAVEGEN_Msk) >> TC_WAVE_WAVEGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_tc_set_WAVE_reg(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg |= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_wave_reg_t hri_tc_get_WAVE_reg(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.WAVE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_write_WAVE_reg(const void *const hw, hri_tc_wave_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg = data;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_WAVE_reg(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg &= ~mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_WAVE_reg(const void *const hw, hri_tc_wave_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.WAVE.reg ^= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_wave_reg_t hri_tc_read_WAVE_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.WAVE.reg;
+}
+
+static inline void hri_tc_set_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg |= TC_DRVCTRL_INVEN0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+	tmp = (tmp & TC_DRVCTRL_INVEN0) >> TC_DRVCTRL_INVEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_DRVCTRL_INVEN0_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+	tmp &= ~TC_DRVCTRL_INVEN0;
+	tmp |= value << TC_DRVCTRL_INVEN0_Pos;
+	((Tc *)hw)->COUNT16.DRVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg &= ~TC_DRVCTRL_INVEN0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg ^= TC_DRVCTRL_INVEN0;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg |= TC_DRVCTRL_INVEN1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+	tmp = (tmp & TC_DRVCTRL_INVEN1) >> TC_DRVCTRL_INVEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_DRVCTRL_INVEN1_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+	tmp &= ~TC_DRVCTRL_INVEN1;
+	tmp |= value << TC_DRVCTRL_INVEN1_Pos;
+	((Tc *)hw)->COUNT16.DRVCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg &= ~TC_DRVCTRL_INVEN1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg ^= TC_DRVCTRL_INVEN1;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_DRVCTRL_reg(const void *const hw, hri_tc_drvctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg |= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_drvctrl_reg_t hri_tc_get_DRVCTRL_reg(const void *const hw, hri_tc_drvctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_write_DRVCTRL_reg(const void *const hw, hri_tc_drvctrl_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg = data;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_DRVCTRL_reg(const void *const hw, hri_tc_drvctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg &= ~mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_DRVCTRL_reg(const void *const hw, hri_tc_drvctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DRVCTRL.reg ^= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_drvctrl_reg_t hri_tc_read_DRVCTRL_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.DRVCTRL.reg;
+}
+
+static inline void hri_tc_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg |= TC_DBGCTRL_DBGRUN;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.DBGCTRL.reg;
+	tmp = (tmp & TC_DBGCTRL_DBGRUN) >> TC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tc_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.DBGCTRL.reg;
+	tmp &= ~TC_DBGCTRL_DBGRUN;
+	tmp |= value << TC_DBGCTRL_DBGRUN_Pos;
+	((Tc *)hw)->COUNT16.DBGCTRL.reg = tmp;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg &= ~TC_DBGCTRL_DBGRUN;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg ^= TC_DBGCTRL_DBGRUN;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_set_DBGCTRL_reg(const void *const hw, hri_tc_dbgctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg |= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_dbgctrl_reg_t hri_tc_get_DBGCTRL_reg(const void *const hw, hri_tc_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_write_DBGCTRL_reg(const void *const hw, hri_tc_dbgctrl_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg = data;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_clear_DBGCTRL_reg(const void *const hw, hri_tc_dbgctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg &= ~mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tc_toggle_DBGCTRL_reg(const void *const hw, hri_tc_dbgctrl_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.DBGCTRL.reg ^= mask;
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_dbgctrl_reg_t hri_tc_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Tc *)hw)->COUNT16.DBGCTRL.reg;
+}
+
+static inline void hri_tccount8_set_COUNT_COUNT_bf(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg |= TC_COUNT8_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_count_reg_t hri_tccount8_get_COUNT_COUNT_bf(const void *const        hw,
+                                                                       hri_tccount8_count_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT8.COUNT.reg;
+	tmp = (tmp & TC_COUNT8_COUNT_COUNT(mask)) >> TC_COUNT8_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_COUNT_COUNT_bf(const void *const hw, hri_tccount8_count_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT8.COUNT.reg;
+	tmp &= ~TC_COUNT8_COUNT_COUNT_Msk;
+	tmp |= TC_COUNT8_COUNT_COUNT(data);
+	((Tc *)hw)->COUNT8.COUNT.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_COUNT_COUNT_bf(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg &= ~TC_COUNT8_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_COUNT_COUNT_bf(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg ^= TC_COUNT8_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_count_reg_t hri_tccount8_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT8.COUNT.reg;
+	tmp = (tmp & TC_COUNT8_COUNT_COUNT_Msk) >> TC_COUNT8_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_set_COUNT_reg(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_count_reg_t hri_tccount8_get_COUNT_reg(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT8.COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_COUNT_reg(const void *const hw, hri_tccount8_count_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_COUNT_reg(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_COUNT_reg(const void *const hw, hri_tccount8_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.COUNT.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_count_reg_t hri_tccount8_read_COUNT_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	return ((Tc *)hw)->COUNT8.COUNT.reg;
+}
+
+static inline void hri_tccount16_set_COUNT_COUNT_bf(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg |= TC_COUNT16_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_count_reg_t hri_tccount16_get_COUNT_COUNT_bf(const void *const         hw,
+                                                                         hri_tccount16_count_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT16.COUNT.reg;
+	tmp = (tmp & TC_COUNT16_COUNT_COUNT(mask)) >> TC_COUNT16_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_COUNT_COUNT_bf(const void *const hw, hri_tccount16_count_reg_t data)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.COUNT.reg;
+	tmp &= ~TC_COUNT16_COUNT_COUNT_Msk;
+	tmp |= TC_COUNT16_COUNT_COUNT(data);
+	((Tc *)hw)->COUNT16.COUNT.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_COUNT_COUNT_bf(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg &= ~TC_COUNT16_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_COUNT_COUNT_bf(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg ^= TC_COUNT16_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_count_reg_t hri_tccount16_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT16.COUNT.reg;
+	tmp = (tmp & TC_COUNT16_COUNT_COUNT_Msk) >> TC_COUNT16_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_set_COUNT_reg(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_count_reg_t hri_tccount16_get_COUNT_reg(const void *const         hw,
+                                                                    hri_tccount16_count_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT16.COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_COUNT_reg(const void *const hw, hri_tccount16_count_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_COUNT_reg(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_COUNT_reg(const void *const hw, hri_tccount16_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.COUNT.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_count_reg_t hri_tccount16_read_COUNT_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	return ((Tc *)hw)->COUNT16.COUNT.reg;
+}
+
+static inline void hri_tccount32_set_COUNT_COUNT_bf(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg |= TC_COUNT32_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_count_reg_t hri_tccount32_get_COUNT_COUNT_bf(const void *const         hw,
+                                                                         hri_tccount32_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT32.COUNT.reg;
+	tmp = (tmp & TC_COUNT32_COUNT_COUNT(mask)) >> TC_COUNT32_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_COUNT_COUNT_bf(const void *const hw, hri_tccount32_count_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT32.COUNT.reg;
+	tmp &= ~TC_COUNT32_COUNT_COUNT_Msk;
+	tmp |= TC_COUNT32_COUNT_COUNT(data);
+	((Tc *)hw)->COUNT32.COUNT.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_COUNT_COUNT_bf(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg &= ~TC_COUNT32_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_COUNT_COUNT_bf(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg ^= TC_COUNT32_COUNT_COUNT(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_count_reg_t hri_tccount32_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT32.COUNT.reg;
+	tmp = (tmp & TC_COUNT32_COUNT_COUNT_Msk) >> TC_COUNT32_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_set_COUNT_reg(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_count_reg_t hri_tccount32_get_COUNT_reg(const void *const         hw,
+                                                                    hri_tccount32_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	tmp = ((Tc *)hw)->COUNT32.COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_COUNT_reg(const void *const hw, hri_tccount32_count_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_COUNT_reg(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_COUNT_reg(const void *const hw, hri_tccount32_count_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.COUNT.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_count_reg_t hri_tccount32_read_COUNT_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_COUNT);
+	return ((Tc *)hw)->COUNT32.COUNT.reg;
+}
+
+static inline void hri_tccount8_set_PER_PER_bf(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg |= TC_COUNT8_PER_PER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_per_reg_t hri_tccount8_get_PER_PER_bf(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	tmp = ((Tc *)hw)->COUNT8.PER.reg;
+	tmp = (tmp & TC_COUNT8_PER_PER(mask)) >> TC_COUNT8_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_PER_PER_bf(const void *const hw, hri_tccount8_per_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT8.PER.reg;
+	tmp &= ~TC_COUNT8_PER_PER_Msk;
+	tmp |= TC_COUNT8_PER_PER(data);
+	((Tc *)hw)->COUNT8.PER.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_PER_PER_bf(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg &= ~TC_COUNT8_PER_PER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_PER_PER_bf(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg ^= TC_COUNT8_PER_PER(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_per_reg_t hri_tccount8_read_PER_PER_bf(const void *const hw)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	tmp = ((Tc *)hw)->COUNT8.PER.reg;
+	tmp = (tmp & TC_COUNT8_PER_PER_Msk) >> TC_COUNT8_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_set_PER_reg(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_per_reg_t hri_tccount8_get_PER_reg(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	tmp = ((Tc *)hw)->COUNT8.PER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_PER_reg(const void *const hw, hri_tccount8_per_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_PER_reg(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_PER_reg(const void *const hw, hri_tccount8_per_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PER.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_per_reg_t hri_tccount8_read_PER_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_PER);
+	return ((Tc *)hw)->COUNT8.PER.reg;
+}
+
+static inline void hri_tccount8_set_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg |= TC_COUNT8_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_cc_reg_t hri_tccount8_get_CC_CC_bf(const void *const hw, uint8_t index,
+                                                              hri_tccount8_cc_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT8.CC[index].reg;
+	tmp = (tmp & TC_COUNT8_CC_CC(mask)) >> TC_COUNT8_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT8.CC[index].reg;
+	tmp &= ~TC_COUNT8_CC_CC_Msk;
+	tmp |= TC_COUNT8_CC_CC(data);
+	((Tc *)hw)->COUNT8.CC[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg &= ~TC_COUNT8_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg ^= TC_COUNT8_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_cc_reg_t hri_tccount8_read_CC_CC_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT8.CC[index].reg;
+	tmp = (tmp & TC_COUNT8_CC_CC_Msk) >> TC_COUNT8_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_set_CC_reg(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_cc_reg_t hri_tccount8_get_CC_reg(const void *const hw, uint8_t index,
+                                                            hri_tccount8_cc_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT8.CC[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_CC_reg(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_CC_reg(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_CC_reg(const void *const hw, uint8_t index, hri_tccount8_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CC[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_cc_reg_t hri_tccount8_read_CC_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	return ((Tc *)hw)->COUNT8.CC[index].reg;
+}
+
+static inline void hri_tccount16_set_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg |= TC_COUNT16_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_cc_reg_t hri_tccount16_get_CC_CC_bf(const void *const hw, uint8_t index,
+                                                                hri_tccount16_cc_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT16.CC[index].reg;
+	tmp = (tmp & TC_COUNT16_CC_CC(mask)) >> TC_COUNT16_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t data)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CC[index].reg;
+	tmp &= ~TC_COUNT16_CC_CC_Msk;
+	tmp |= TC_COUNT16_CC_CC(data);
+	((Tc *)hw)->COUNT16.CC[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg &= ~TC_COUNT16_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg ^= TC_COUNT16_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_cc_reg_t hri_tccount16_read_CC_CC_bf(const void *const hw, uint8_t index)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT16.CC[index].reg;
+	tmp = (tmp & TC_COUNT16_CC_CC_Msk) >> TC_COUNT16_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_set_CC_reg(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_cc_reg_t hri_tccount16_get_CC_reg(const void *const hw, uint8_t index,
+                                                              hri_tccount16_cc_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT16.CC[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_CC_reg(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_CC_reg(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_CC_reg(const void *const hw, uint8_t index, hri_tccount16_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CC[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_cc_reg_t hri_tccount16_read_CC_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	return ((Tc *)hw)->COUNT16.CC[index].reg;
+}
+
+static inline void hri_tccount32_set_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg |= TC_COUNT32_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_cc_reg_t hri_tccount32_get_CC_CC_bf(const void *const hw, uint8_t index,
+                                                                hri_tccount32_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT32.CC[index].reg;
+	tmp = (tmp & TC_COUNT32_CC_CC(mask)) >> TC_COUNT32_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT32.CC[index].reg;
+	tmp &= ~TC_COUNT32_CC_CC_Msk;
+	tmp |= TC_COUNT32_CC_CC(data);
+	((Tc *)hw)->COUNT32.CC[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg &= ~TC_COUNT32_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_CC_CC_bf(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg ^= TC_COUNT32_CC_CC(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_cc_reg_t hri_tccount32_read_CC_CC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT32.CC[index].reg;
+	tmp = (tmp & TC_COUNT32_CC_CC_Msk) >> TC_COUNT32_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_set_CC_reg(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_cc_reg_t hri_tccount32_get_CC_reg(const void *const hw, uint8_t index,
+                                                              hri_tccount32_cc_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	tmp = ((Tc *)hw)->COUNT32.CC[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_CC_reg(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_CC_reg(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_CC_reg(const void *const hw, uint8_t index, hri_tccount32_cc_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CC[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_cc_reg_t hri_tccount32_read_CC_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_CC0 | TC_SYNCBUSY_CC1);
+	return ((Tc *)hw)->COUNT32.CC[index].reg;
+}
+
+static inline void hri_tccount8_set_PERBUF_PERBUF_bf(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg |= TC_COUNT8_PERBUF_PERBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_perbuf_reg_t hri_tccount8_get_PERBUF_PERBUF_bf(const void *const         hw,
+                                                                          hri_tccount8_perbuf_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT8.PERBUF.reg;
+	tmp = (tmp & TC_COUNT8_PERBUF_PERBUF(mask)) >> TC_COUNT8_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_PERBUF_PERBUF_bf(const void *const hw, hri_tccount8_perbuf_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT8.PERBUF.reg;
+	tmp &= ~TC_COUNT8_PERBUF_PERBUF_Msk;
+	tmp |= TC_COUNT8_PERBUF_PERBUF(data);
+	((Tc *)hw)->COUNT8.PERBUF.reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_PERBUF_PERBUF_bf(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg &= ~TC_COUNT8_PERBUF_PERBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_PERBUF_PERBUF_bf(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg ^= TC_COUNT8_PERBUF_PERBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_perbuf_reg_t hri_tccount8_read_PERBUF_PERBUF_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT8.PERBUF.reg;
+	tmp = (tmp & TC_COUNT8_PERBUF_PERBUF_Msk) >> TC_COUNT8_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_set_PERBUF_reg(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_perbuf_reg_t hri_tccount8_get_PERBUF_reg(const void *const         hw,
+                                                                    hri_tccount8_perbuf_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	tmp = ((Tc *)hw)->COUNT8.PERBUF.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_PERBUF_reg(const void *const hw, hri_tccount8_perbuf_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_PERBUF_reg(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_PERBUF_reg(const void *const hw, hri_tccount8_perbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.PERBUF.reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_perbuf_reg_t hri_tccount8_read_PERBUF_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return ((Tc *)hw)->COUNT8.PERBUF.reg;
+}
+
+static inline void hri_tccount8_set_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg |= TC_COUNT8_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_ccbuf_reg_t hri_tccount8_get_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                       hri_tccount8_ccbuf_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT8.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT8_CCBUF_CCBUF(mask)) >> TC_COUNT8_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t data)
+{
+	uint8_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT8.CCBUF[index].reg;
+	tmp &= ~TC_COUNT8_CCBUF_CCBUF_Msk;
+	tmp |= TC_COUNT8_CCBUF_CCBUF(data);
+	((Tc *)hw)->COUNT8.CCBUF[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg &= ~TC_COUNT8_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                      hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg ^= TC_COUNT8_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_ccbuf_reg_t hri_tccount8_read_CCBUF_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint8_t tmp;
+	tmp = ((Tc *)hw)->COUNT8.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT8_CCBUF_CCBUF_Msk) >> TC_COUNT8_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount8_set_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_ccbuf_reg_t hri_tccount8_get_CCBUF_reg(const void *const hw, uint8_t index,
+                                                                  hri_tccount8_ccbuf_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	tmp = ((Tc *)hw)->COUNT8.CCBUF[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount8_write_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_clear_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount8_toggle_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount8_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT8.CCBUF[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount8_ccbuf_reg_t hri_tccount8_read_CCBUF_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return ((Tc *)hw)->COUNT8.CCBUF[index].reg;
+}
+
+static inline void hri_tccount16_set_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg |= TC_COUNT16_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_ccbuf_reg_t hri_tccount16_get_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                         hri_tccount16_ccbuf_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT16_CCBUF_CCBUF(mask)) >> TC_COUNT16_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                      hri_tccount16_ccbuf_reg_t data)
+{
+	uint16_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT16.CCBUF[index].reg;
+	tmp &= ~TC_COUNT16_CCBUF_CCBUF_Msk;
+	tmp |= TC_COUNT16_CCBUF_CCBUF(data);
+	((Tc *)hw)->COUNT16.CCBUF[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                      hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg &= ~TC_COUNT16_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                       hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg ^= TC_COUNT16_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_ccbuf_reg_t hri_tccount16_read_CCBUF_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint16_t tmp;
+	tmp = ((Tc *)hw)->COUNT16.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT16_CCBUF_CCBUF_Msk) >> TC_COUNT16_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount16_set_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_ccbuf_reg_t hri_tccount16_get_CCBUF_reg(const void *const hw, uint8_t index,
+                                                                    hri_tccount16_ccbuf_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	tmp = ((Tc *)hw)->COUNT16.CCBUF[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount16_write_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount16_ccbuf_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_clear_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount16_toggle_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount16_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.CCBUF[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount16_ccbuf_reg_t hri_tccount16_read_CCBUF_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return ((Tc *)hw)->COUNT16.CCBUF[index].reg;
+}
+
+static inline void hri_tccount32_set_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg |= TC_COUNT32_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_ccbuf_reg_t hri_tccount32_get_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                         hri_tccount32_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT32.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT32_CCBUF_CCBUF(mask)) >> TC_COUNT32_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                      hri_tccount32_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tc *)hw)->COUNT32.CCBUF[index].reg;
+	tmp &= ~TC_COUNT32_CCBUF_CCBUF_Msk;
+	tmp |= TC_COUNT32_CCBUF_CCBUF(data);
+	((Tc *)hw)->COUNT32.CCBUF[index].reg = tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                      hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg &= ~TC_COUNT32_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                       hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg ^= TC_COUNT32_CCBUF_CCBUF(mask);
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_ccbuf_reg_t hri_tccount32_read_CCBUF_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tc *)hw)->COUNT32.CCBUF[index].reg;
+	tmp = (tmp & TC_COUNT32_CCBUF_CCBUF_Msk) >> TC_COUNT32_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tccount32_set_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg |= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_ccbuf_reg_t hri_tccount32_get_CCBUF_reg(const void *const hw, uint8_t index,
+                                                                    hri_tccount32_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	tmp = ((Tc *)hw)->COUNT32.CCBUF[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tccount32_write_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount32_ccbuf_reg_t data)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg = data;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_clear_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg &= ~mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tccount32_toggle_CCBUF_reg(const void *const hw, uint8_t index, hri_tccount32_ccbuf_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT32.CCBUF[index].reg ^= mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tccount32_ccbuf_reg_t hri_tccount32_read_CCBUF_reg(const void *const hw, uint8_t index)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return ((Tc *)hw)->COUNT32.CCBUF[index].reg;
+}
+
+static inline bool hri_tc_get_STATUS_STOP_bit(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return (((Tc *)hw)->COUNT16.STATUS.reg & TC_STATUS_STOP) >> TC_STATUS_STOP_Pos;
+}
+
+static inline void hri_tc_clear_STATUS_STOP_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = TC_STATUS_STOP;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_STATUS_SLAVE_bit(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return (((Tc *)hw)->COUNT16.STATUS.reg & TC_STATUS_SLAVE) >> TC_STATUS_SLAVE_Pos;
+}
+
+static inline void hri_tc_clear_STATUS_SLAVE_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = TC_STATUS_SLAVE;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_STATUS_PERBUFV_bit(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return (((Tc *)hw)->COUNT16.STATUS.reg & TC_STATUS_PERBUFV) >> TC_STATUS_PERBUFV_Pos;
+}
+
+static inline void hri_tc_clear_STATUS_PERBUFV_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = TC_STATUS_PERBUFV;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_STATUS_CCBUFV0_bit(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return (((Tc *)hw)->COUNT16.STATUS.reg & TC_STATUS_CCBUFV0) >> TC_STATUS_CCBUFV0_Pos;
+}
+
+static inline void hri_tc_clear_STATUS_CCBUFV0_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = TC_STATUS_CCBUFV0;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tc_get_STATUS_CCBUFV1_bit(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return (((Tc *)hw)->COUNT16.STATUS.reg & TC_STATUS_CCBUFV1) >> TC_STATUS_CCBUFV1_Pos;
+}
+
+static inline void hri_tc_clear_STATUS_CCBUFV1_bit(const void *const hw)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = TC_STATUS_CCBUFV1;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_status_reg_t hri_tc_get_STATUS_reg(const void *const hw, hri_tc_status_reg_t mask)
+{
+	uint8_t tmp;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	tmp = ((Tc *)hw)->COUNT16.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tc_clear_STATUS_reg(const void *const hw, hri_tc_status_reg_t mask)
+{
+	TC_CRITICAL_SECTION_ENTER();
+	((Tc *)hw)->COUNT16.STATUS.reg = mask;
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	TC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tc_status_reg_t hri_tc_read_STATUS_reg(const void *const hw)
+{
+	hri_tc_wait_for_sync(hw, TC_SYNCBUSY_MASK);
+	return ((Tc *)hw)->COUNT16.STATUS.reg;
+}
+
+/* Below section is for legacy hri apis name, not recommended to use below left side apis in application */
+#define hri_tc_set_PER_PER_bf(a, b) hri_tccount8_set_PER_PER_bf(a, b)
+#define hri_tc_get_PER_PER_bf(a, b) hri_tccount8_get_PER_PER_bf(a, b)
+#define hri_tc_write_PER_PER_bf(a, b) hri_tccount8_write_PER_PER_bf(a, b)
+#define hri_tc_clear_PER_PER_bf(a, b) hri_tccount8_clear_PER_PER_bf(a, b)
+#define hri_tc_toggle_PER_PER_bf(a, b) hri_tccount8_toggle_PER_PER_bf(a, b)
+#define hri_tc_read_PER_PER_bf(a) hri_tccount8_read_PER_PER_bf(a)
+#define hri_tc_set_PER_reg(a, b) hri_tccount8_set_PER_reg(a, b)
+#define hri_tc_get_PER_reg(a, b) hri_tccount8_get_PER_reg(a, b)
+#define hri_tc_write_PER_reg(a, b) hri_tccount8_write_PER_reg(a, b)
+#define hri_tc_clear_PER_reg(a, b) hri_tccount8_clear_PER_reg(a, b)
+#define hri_tc_toggle_PER_reg(a, b) hri_tccount8_toggle_PER_reg(a, b)
+#define hri_tc_read_PER_reg(a) hri_tccount8_read_PER_reg(a)
+#define hri_tc_set_PERBUF_PERBUF_bf(a, b) hri_tccount8_set_PERBUF_PERBUF_bf(a, b)
+#define hri_tc_get_PERBUF_PERBUF_bf(a, b) hri_tccount8_get_PERBUF_PERBUF_bf(a, b)
+#define hri_tc_write_PERBUF_PERBUF_bf(a, b) hri_tccount8_write_PERBUF_PERBUF_bf(a, b)
+#define hri_tc_clear_PERBUF_PERBUF_bf(a, b) hri_tccount8_clear_PERBUF_PERBUF_bf(a, b)
+#define hri_tc_toggle_PERBUF_PERBUF_bf(a, b) hri_tccount8_toggle_PERBUF_PERBUF_bf(a, b)
+#define hri_tc_read_PERBUF_PERBUF_bf(a) hri_tccount8_read_PERBUF_PERBUF_bf(a)
+#define hri_tc_set_PERBUF_reg(a, b) hri_tccount8_set_PERBUF_reg(a, b)
+#define hri_tc_get_PERBUF_reg(a, b) hri_tccount8_get_PERBUF_reg(a, b)
+#define hri_tc_write_PERBUF_reg(a, b) hri_tccount8_write_PERBUF_reg(a, b)
+#define hri_tc_clear_PERBUF_reg(a, b) hri_tccount8_clear_PERBUF_reg(a, b)
+#define hri_tc_toggle_PERBUF_reg(a, b) hri_tccount8_toggle_PERBUF_reg(a, b)
+#define hri_tc_read_PERBUF_reg(a) hri_tccount8_read_PERBUF_reg(a)
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_TC_L22_H_INCLUDED */
+#endif /* _SAML22_TC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_tcc_l22.h b/watch-library/hardware/hri/hri_tcc_l22.h
new file mode 100644
index 00000000..c10442af
--- /dev/null
+++ b/watch-library/hardware/hri/hri_tcc_l22.h
@@ -0,0 +1,9462 @@
+/**
+ * \file
+ *
+ * \brief SAM TCC
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_TCC_COMPONENT_
+#ifndef _HRI_TCC_L22_H_INCLUDED_
+#define _HRI_TCC_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_TCC_CRITICAL_SECTIONS)
+#define TCC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define TCC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define TCC_CRITICAL_SECTION_ENTER()
+#define TCC_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_tcc_patt_reg_t;
+typedef uint16_t hri_tcc_pattbuf_reg_t;
+typedef uint32_t hri_tcc_cc_reg_t;
+typedef uint32_t hri_tcc_ccbuf_reg_t;
+typedef uint32_t hri_tcc_count_reg_t;
+typedef uint32_t hri_tcc_ctrla_reg_t;
+typedef uint32_t hri_tcc_drvctrl_reg_t;
+typedef uint32_t hri_tcc_evctrl_reg_t;
+typedef uint32_t hri_tcc_fctrla_reg_t;
+typedef uint32_t hri_tcc_fctrlb_reg_t;
+typedef uint32_t hri_tcc_intenset_reg_t;
+typedef uint32_t hri_tcc_intflag_reg_t;
+typedef uint32_t hri_tcc_per_reg_t;
+typedef uint32_t hri_tcc_perbuf_reg_t;
+typedef uint32_t hri_tcc_status_reg_t;
+typedef uint32_t hri_tcc_syncbusy_reg_t;
+typedef uint32_t hri_tcc_wave_reg_t;
+typedef uint32_t hri_tcc_wexctrl_reg_t;
+typedef uint8_t  hri_tcc_ctrlbset_reg_t;
+typedef uint8_t  hri_tcc_dbgctrl_reg_t;
+
+static inline void hri_tcc_wait_for_sync(const void *const hw, hri_tcc_syncbusy_reg_t reg)
+{
+	while (((Tcc *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_tcc_is_syncing(const void *const hw, hri_tcc_syncbusy_reg_t reg)
+{
+	return ((Tcc *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_tcc_get_INTFLAG_OVF_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_OVF) >> TCC_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_OVF_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_OVF;
+}
+
+static inline bool hri_tcc_get_INTFLAG_TRG_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_TRG) >> TCC_INTFLAG_TRG_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_TRG_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_TRG;
+}
+
+static inline bool hri_tcc_get_INTFLAG_CNT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_CNT) >> TCC_INTFLAG_CNT_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_CNT_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_CNT;
+}
+
+static inline bool hri_tcc_get_INTFLAG_ERR_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_ERR) >> TCC_INTFLAG_ERR_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_ERR_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_ERR;
+}
+
+static inline bool hri_tcc_get_INTFLAG_UFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_UFS) >> TCC_INTFLAG_UFS_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_UFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_UFS;
+}
+
+static inline bool hri_tcc_get_INTFLAG_DFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_DFS) >> TCC_INTFLAG_DFS_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_DFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_DFS;
+}
+
+static inline bool hri_tcc_get_INTFLAG_FAULTA_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULTA) >> TCC_INTFLAG_FAULTA_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_FAULTA_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULTA;
+}
+
+static inline bool hri_tcc_get_INTFLAG_FAULTB_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULTB) >> TCC_INTFLAG_FAULTB_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_FAULTB_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULTB;
+}
+
+static inline bool hri_tcc_get_INTFLAG_FAULT0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULT0) >> TCC_INTFLAG_FAULT0_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_FAULT0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULT0;
+}
+
+static inline bool hri_tcc_get_INTFLAG_FAULT1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULT1) >> TCC_INTFLAG_FAULT1_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_FAULT1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULT1;
+}
+
+static inline bool hri_tcc_get_INTFLAG_MC0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC0) >> TCC_INTFLAG_MC0_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_MC0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC0;
+}
+
+static inline bool hri_tcc_get_INTFLAG_MC1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC1) >> TCC_INTFLAG_MC1_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_MC1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC1;
+}
+
+static inline bool hri_tcc_get_INTFLAG_MC2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC2) >> TCC_INTFLAG_MC2_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_MC2_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC2;
+}
+
+static inline bool hri_tcc_get_INTFLAG_MC3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC3) >> TCC_INTFLAG_MC3_Pos;
+}
+
+static inline void hri_tcc_clear_INTFLAG_MC3_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC3;
+}
+
+static inline bool hri_tcc_get_interrupt_OVF_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_OVF) >> TCC_INTFLAG_OVF_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_OVF_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_OVF;
+}
+
+static inline bool hri_tcc_get_interrupt_TRG_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_TRG) >> TCC_INTFLAG_TRG_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_TRG_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_TRG;
+}
+
+static inline bool hri_tcc_get_interrupt_CNT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_CNT) >> TCC_INTFLAG_CNT_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_CNT_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_CNT;
+}
+
+static inline bool hri_tcc_get_interrupt_ERR_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_ERR) >> TCC_INTFLAG_ERR_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_ERR_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_ERR;
+}
+
+static inline bool hri_tcc_get_interrupt_UFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_UFS) >> TCC_INTFLAG_UFS_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_UFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_UFS;
+}
+
+static inline bool hri_tcc_get_interrupt_DFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_DFS) >> TCC_INTFLAG_DFS_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_DFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_DFS;
+}
+
+static inline bool hri_tcc_get_interrupt_FAULTA_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULTA) >> TCC_INTFLAG_FAULTA_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_FAULTA_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULTA;
+}
+
+static inline bool hri_tcc_get_interrupt_FAULTB_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULTB) >> TCC_INTFLAG_FAULTB_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_FAULTB_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULTB;
+}
+
+static inline bool hri_tcc_get_interrupt_FAULT0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULT0) >> TCC_INTFLAG_FAULT0_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_FAULT0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULT0;
+}
+
+static inline bool hri_tcc_get_interrupt_FAULT1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_FAULT1) >> TCC_INTFLAG_FAULT1_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_FAULT1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_FAULT1;
+}
+
+static inline bool hri_tcc_get_interrupt_MC0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC0) >> TCC_INTFLAG_MC0_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_MC0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC0;
+}
+
+static inline bool hri_tcc_get_interrupt_MC1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC1) >> TCC_INTFLAG_MC1_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_MC1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC1;
+}
+
+static inline bool hri_tcc_get_interrupt_MC2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC2) >> TCC_INTFLAG_MC2_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_MC2_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC2;
+}
+
+static inline bool hri_tcc_get_interrupt_MC3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTFLAG.reg & TCC_INTFLAG_MC3) >> TCC_INTFLAG_MC3_Pos;
+}
+
+static inline void hri_tcc_clear_interrupt_MC3_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTFLAG.reg = TCC_INTFLAG_MC3;
+}
+
+static inline hri_tcc_intflag_reg_t hri_tcc_get_INTFLAG_reg(const void *const hw, hri_tcc_intflag_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tcc_intflag_reg_t hri_tcc_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_tcc_clear_INTFLAG_reg(const void *const hw, hri_tcc_intflag_reg_t mask)
+{
+	((Tcc *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_tcc_set_CTRLB_DIR_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_DIR;
+}
+
+static inline bool hri_tcc_get_CTRLB_DIR_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->CTRLBSET.reg & TCC_CTRLBSET_DIR) >> TCC_CTRLBSET_DIR_Pos;
+}
+
+static inline void hri_tcc_write_CTRLB_DIR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_DIR;
+	} else {
+		((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_DIR;
+	}
+}
+
+static inline void hri_tcc_clear_CTRLB_DIR_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_DIR;
+}
+
+static inline void hri_tcc_set_CTRLB_LUPD_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_LUPD;
+}
+
+static inline bool hri_tcc_get_CTRLB_LUPD_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->CTRLBSET.reg & TCC_CTRLBSET_LUPD) >> TCC_CTRLBSET_LUPD_Pos;
+}
+
+static inline void hri_tcc_write_CTRLB_LUPD_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_LUPD;
+	} else {
+		((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_LUPD;
+	}
+}
+
+static inline void hri_tcc_clear_CTRLB_LUPD_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_LUPD;
+}
+
+static inline void hri_tcc_set_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_ONESHOT;
+}
+
+static inline bool hri_tcc_get_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->CTRLBSET.reg & TCC_CTRLBSET_ONESHOT) >> TCC_CTRLBSET_ONESHOT_Pos;
+}
+
+static inline void hri_tcc_write_CTRLB_ONESHOT_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_ONESHOT;
+	} else {
+		((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_ONESHOT;
+	}
+}
+
+static inline void hri_tcc_clear_CTRLB_ONESHOT_bit(const void *const hw)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_ONESHOT;
+}
+
+static inline void hri_tcc_set_CTRLB_IDXCMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_IDXCMD(mask);
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_get_CTRLB_IDXCMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->CTRLBSET.reg;
+	tmp = (tmp & TCC_CTRLBSET_IDXCMD(mask)) >> TCC_CTRLBSET_IDXCMD_Pos;
+	return tmp;
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_read_CTRLB_IDXCMD_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->CTRLBSET.reg;
+	tmp = (tmp & TCC_CTRLBSET_IDXCMD_Msk) >> TCC_CTRLBSET_IDXCMD_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLB_IDXCMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t data)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_IDXCMD(data);
+	((Tcc *)hw)->CTRLBCLR.reg = ~TCC_CTRLBSET_IDXCMD(data);
+}
+
+static inline void hri_tcc_clear_CTRLB_IDXCMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_IDXCMD(mask);
+}
+
+static inline void hri_tcc_set_CTRLB_CMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_CMD(mask);
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_get_CTRLB_CMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->CTRLBSET.reg;
+	tmp = (tmp & TCC_CTRLBSET_CMD(mask)) >> TCC_CTRLBSET_CMD_Pos;
+	return tmp;
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_read_CTRLB_CMD_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->CTRLBSET.reg;
+	tmp = (tmp & TCC_CTRLBSET_CMD_Msk) >> TCC_CTRLBSET_CMD_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLB_CMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t data)
+{
+	((Tcc *)hw)->CTRLBSET.reg = TCC_CTRLBSET_CMD(data);
+	((Tcc *)hw)->CTRLBCLR.reg = ~TCC_CTRLBSET_CMD(data);
+}
+
+static inline void hri_tcc_clear_CTRLB_CMD_bf(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = TCC_CTRLBSET_CMD(mask);
+}
+
+static inline void hri_tcc_set_CTRLB_reg(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBSET.reg = mask;
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_get_CTRLB_reg(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->CTRLBSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tcc_ctrlbset_reg_t hri_tcc_read_CTRLB_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->CTRLBSET.reg;
+}
+
+static inline void hri_tcc_write_CTRLB_reg(const void *const hw, hri_tcc_ctrlbset_reg_t data)
+{
+	((Tcc *)hw)->CTRLBSET.reg = data;
+	((Tcc *)hw)->CTRLBCLR.reg = ~data;
+}
+
+static inline void hri_tcc_clear_CTRLB_reg(const void *const hw, hri_tcc_ctrlbset_reg_t mask)
+{
+	((Tcc *)hw)->CTRLBCLR.reg = mask;
+}
+
+static inline void hri_tcc_set_INTEN_OVF_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_OVF;
+}
+
+static inline bool hri_tcc_get_INTEN_OVF_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_OVF) >> TCC_INTENSET_OVF_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_OVF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_OVF;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_OVF;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_OVF_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_OVF;
+}
+
+static inline void hri_tcc_set_INTEN_TRG_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_TRG;
+}
+
+static inline bool hri_tcc_get_INTEN_TRG_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_TRG) >> TCC_INTENSET_TRG_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_TRG_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_TRG;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_TRG;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_TRG_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_TRG;
+}
+
+static inline void hri_tcc_set_INTEN_CNT_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_CNT;
+}
+
+static inline bool hri_tcc_get_INTEN_CNT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_CNT) >> TCC_INTENSET_CNT_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_CNT_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_CNT;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_CNT;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_CNT_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_CNT;
+}
+
+static inline void hri_tcc_set_INTEN_ERR_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_ERR;
+}
+
+static inline bool hri_tcc_get_INTEN_ERR_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_ERR) >> TCC_INTENSET_ERR_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_ERR_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_ERR;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_ERR;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_ERR_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_ERR;
+}
+
+static inline void hri_tcc_set_INTEN_UFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_UFS;
+}
+
+static inline bool hri_tcc_get_INTEN_UFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_UFS) >> TCC_INTENSET_UFS_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_UFS_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_UFS;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_UFS;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_UFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_UFS;
+}
+
+static inline void hri_tcc_set_INTEN_DFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_DFS;
+}
+
+static inline bool hri_tcc_get_INTEN_DFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_DFS) >> TCC_INTENSET_DFS_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_DFS_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_DFS;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_DFS;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_DFS_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_DFS;
+}
+
+static inline void hri_tcc_set_INTEN_FAULTA_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULTA;
+}
+
+static inline bool hri_tcc_get_INTEN_FAULTA_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_FAULTA) >> TCC_INTENSET_FAULTA_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_FAULTA_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULTA;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULTA;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_FAULTA_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULTA;
+}
+
+static inline void hri_tcc_set_INTEN_FAULTB_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULTB;
+}
+
+static inline bool hri_tcc_get_INTEN_FAULTB_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_FAULTB) >> TCC_INTENSET_FAULTB_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_FAULTB_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULTB;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULTB;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_FAULTB_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULTB;
+}
+
+static inline void hri_tcc_set_INTEN_FAULT0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULT0;
+}
+
+static inline bool hri_tcc_get_INTEN_FAULT0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_FAULT0) >> TCC_INTENSET_FAULT0_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_FAULT0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULT0;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULT0;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_FAULT0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULT0;
+}
+
+static inline void hri_tcc_set_INTEN_FAULT1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULT1;
+}
+
+static inline bool hri_tcc_get_INTEN_FAULT1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_FAULT1) >> TCC_INTENSET_FAULT1_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_FAULT1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULT1;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_FAULT1;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_FAULT1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_FAULT1;
+}
+
+static inline void hri_tcc_set_INTEN_MC0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC0;
+}
+
+static inline bool hri_tcc_get_INTEN_MC0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_MC0) >> TCC_INTENSET_MC0_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_MC0_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC0;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC0;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_MC0_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC0;
+}
+
+static inline void hri_tcc_set_INTEN_MC1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC1;
+}
+
+static inline bool hri_tcc_get_INTEN_MC1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_MC1) >> TCC_INTENSET_MC1_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_MC1_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC1;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC1;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_MC1_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC1;
+}
+
+static inline void hri_tcc_set_INTEN_MC2_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC2;
+}
+
+static inline bool hri_tcc_get_INTEN_MC2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_MC2) >> TCC_INTENSET_MC2_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_MC2_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC2;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC2;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_MC2_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC2;
+}
+
+static inline void hri_tcc_set_INTEN_MC3_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC3;
+}
+
+static inline bool hri_tcc_get_INTEN_MC3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->INTENSET.reg & TCC_INTENSET_MC3) >> TCC_INTENSET_MC3_Pos;
+}
+
+static inline void hri_tcc_write_INTEN_MC3_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC3;
+	} else {
+		((Tcc *)hw)->INTENSET.reg = TCC_INTENSET_MC3;
+	}
+}
+
+static inline void hri_tcc_clear_INTEN_MC3_bit(const void *const hw)
+{
+	((Tcc *)hw)->INTENCLR.reg = TCC_INTENSET_MC3;
+}
+
+static inline void hri_tcc_set_INTEN_reg(const void *const hw, hri_tcc_intenset_reg_t mask)
+{
+	((Tcc *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_tcc_intenset_reg_t hri_tcc_get_INTEN_reg(const void *const hw, hri_tcc_intenset_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tcc_intenset_reg_t hri_tcc_read_INTEN_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->INTENSET.reg;
+}
+
+static inline void hri_tcc_write_INTEN_reg(const void *const hw, hri_tcc_intenset_reg_t data)
+{
+	((Tcc *)hw)->INTENSET.reg = data;
+	((Tcc *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_tcc_clear_INTEN_reg(const void *const hw, hri_tcc_intenset_reg_t mask)
+{
+	((Tcc *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_SWRST) >> TCC_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_ENABLE) >> TCC_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_CTRLB_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_CTRLB) >> TCC_SYNCBUSY_CTRLB_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_STATUS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_STATUS) >> TCC_SYNCBUSY_STATUS_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_COUNT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_COUNT) >> TCC_SYNCBUSY_COUNT_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_PATT_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_PATT) >> TCC_SYNCBUSY_PATT_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_WAVE_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_WAVE) >> TCC_SYNCBUSY_WAVE_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_PER_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_PER) >> TCC_SYNCBUSY_PER_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_CC0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_CC0) >> TCC_SYNCBUSY_CC0_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_CC1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_CC1) >> TCC_SYNCBUSY_CC1_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_CC2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_CC2) >> TCC_SYNCBUSY_CC2_Pos;
+}
+
+static inline bool hri_tcc_get_SYNCBUSY_CC3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->SYNCBUSY.reg & TCC_SYNCBUSY_CC3) >> TCC_SYNCBUSY_CC3_Pos;
+}
+
+static inline hri_tcc_syncbusy_reg_t hri_tcc_get_SYNCBUSY_reg(const void *const hw, hri_tcc_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_tcc_syncbusy_reg_t hri_tcc_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_tcc_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_SWRST;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST);
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_SWRST) >> TCC_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_ENABLE;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_ENABLE) >> TCC_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_ENABLE;
+	tmp |= value << TCC_CTRLA_ENABLE_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_ENABLE;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_ENABLE;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_RUNSTDBY;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_RUNSTDBY) >> TCC_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_RUNSTDBY;
+	tmp |= value << TCC_CTRLA_RUNSTDBY_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_RUNSTDBY;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_RUNSTDBY;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_ALOCK;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_ALOCK_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_ALOCK) >> TCC_CTRLA_ALOCK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_ALOCK_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_ALOCK;
+	tmp |= value << TCC_CTRLA_ALOCK_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_ALOCK;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_ALOCK_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_ALOCK;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_MSYNC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_MSYNC;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_MSYNC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_MSYNC) >> TCC_CTRLA_MSYNC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_MSYNC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_MSYNC;
+	tmp |= value << TCC_CTRLA_MSYNC_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_MSYNC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_MSYNC;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_MSYNC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_MSYNC;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_DMAOS_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_DMAOS;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_DMAOS_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_DMAOS) >> TCC_CTRLA_DMAOS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_DMAOS_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_DMAOS;
+	tmp |= value << TCC_CTRLA_DMAOS_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_DMAOS_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_DMAOS;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_DMAOS_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_DMAOS;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_CPTEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_CPTEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_CPTEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_CPTEN0) >> TCC_CTRLA_CPTEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_CPTEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_CPTEN0;
+	tmp |= value << TCC_CTRLA_CPTEN0_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_CPTEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_CPTEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_CPTEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_CPTEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_CPTEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_CPTEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_CPTEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_CPTEN1) >> TCC_CTRLA_CPTEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_CPTEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_CPTEN1;
+	tmp |= value << TCC_CTRLA_CPTEN1_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_CPTEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_CPTEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_CPTEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_CPTEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_CPTEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_CPTEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_CPTEN2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_CPTEN2) >> TCC_CTRLA_CPTEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_CPTEN2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_CPTEN2;
+	tmp |= value << TCC_CTRLA_CPTEN2_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_CPTEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_CPTEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_CPTEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_CPTEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_CPTEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_CPTEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_CTRLA_CPTEN3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_CPTEN3) >> TCC_CTRLA_CPTEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_CPTEN3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_CPTEN3;
+	tmp |= value << TCC_CTRLA_CPTEN3_Pos;
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_CPTEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_CPTEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_CPTEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_CPTEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_CTRLA_RESOLUTION_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_RESOLUTION(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_get_CTRLA_RESOLUTION_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_RESOLUTION(mask)) >> TCC_CTRLA_RESOLUTION_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_RESOLUTION_bf(const void *const hw, hri_tcc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_RESOLUTION_Msk;
+	tmp |= TCC_CTRLA_RESOLUTION(data);
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_RESOLUTION_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_RESOLUTION(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_RESOLUTION_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_RESOLUTION(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_read_CTRLA_RESOLUTION_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_RESOLUTION_Msk) >> TCC_CTRLA_RESOLUTION_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CTRLA_PRESCALER_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_PRESCALER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_get_CTRLA_PRESCALER_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_PRESCALER(mask)) >> TCC_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_PRESCALER_bf(const void *const hw, hri_tcc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_PRESCALER_Msk;
+	tmp |= TCC_CTRLA_PRESCALER(data);
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_PRESCALER_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_PRESCALER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_PRESCALER_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_PRESCALER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_read_CTRLA_PRESCALER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_PRESCALER_Msk) >> TCC_CTRLA_PRESCALER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= TCC_CTRLA_PRESCSYNC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_get_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_PRESCSYNC(mask)) >> TCC_CTRLA_PRESCSYNC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tcc_ctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= ~TCC_CTRLA_PRESCSYNC_Msk;
+	tmp |= TCC_CTRLA_PRESCSYNC(data);
+	((Tcc *)hw)->CTRLA.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~TCC_CTRLA_PRESCSYNC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_PRESCSYNC_bf(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= TCC_CTRLA_PRESCSYNC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_read_CTRLA_PRESCSYNC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp = (tmp & TCC_CTRLA_PRESCSYNC_Msk) >> TCC_CTRLA_PRESCSYNC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CTRLA_reg(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_get_CTRLA_reg(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	tmp = ((Tcc *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CTRLA_reg(const void *const hw, hri_tcc_ctrla_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CTRLA_reg(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CTRLA_reg(const void *const hw, hri_tcc_ctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CTRLA.reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ctrla_reg_t hri_tcc_read_CTRLA_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_SWRST | TCC_SYNCBUSY_ENABLE);
+	return ((Tcc *)hw)->CTRLA.reg;
+}
+
+static inline void hri_tcc_set_FCTRLA_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLA_KEEP_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_KEEP) >> TCC_FCTRLA_KEEP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_KEEP_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_KEEP;
+	tmp |= value << TCC_FCTRLA_KEEP_Pos;
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLA_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLA_QUAL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_QUAL) >> TCC_FCTRLA_QUAL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_QUAL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_QUAL;
+	tmp |= value << TCC_FCTRLA_QUAL_Pos;
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLA_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLA_RESTART_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_RESTART) >> TCC_FCTRLA_RESTART_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_RESTART_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_RESTART;
+	tmp |= value << TCC_FCTRLA_RESTART_Pos;
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLA_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLA_BLANKPRESC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_BLANKPRESC) >> TCC_FCTRLA_BLANKPRESC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_BLANKPRESC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_BLANKPRESC;
+	tmp |= value << TCC_FCTRLA_BLANKPRESC_Pos;
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLA_SRC_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_SRC_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_SRC(mask)) >> TCC_FCTRLA_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_SRC_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_SRC_Msk;
+	tmp |= TCC_FCTRLA_SRC(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_SRC_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_SRC_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_SRC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_SRC_Msk) >> TCC_FCTRLA_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_BLANK_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_BLANK_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_BLANK(mask)) >> TCC_FCTRLA_BLANK_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_BLANK_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_BLANK_Msk;
+	tmp |= TCC_FCTRLA_BLANK(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_BLANK_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_BLANK_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_BLANK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_BLANK_Msk) >> TCC_FCTRLA_BLANK_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_HALT_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_HALT_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_HALT(mask)) >> TCC_FCTRLA_HALT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_HALT_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_HALT_Msk;
+	tmp |= TCC_FCTRLA_HALT(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_HALT_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_HALT_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_HALT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_HALT_Msk) >> TCC_FCTRLA_HALT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_CHSEL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_CHSEL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_CHSEL(mask)) >> TCC_FCTRLA_CHSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_CHSEL_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_CHSEL_Msk;
+	tmp |= TCC_FCTRLA_CHSEL(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_CHSEL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_CHSEL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_CHSEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_CHSEL_Msk) >> TCC_FCTRLA_CHSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_CAPTURE_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_CAPTURE_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_CAPTURE(mask)) >> TCC_FCTRLA_CAPTURE_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_CAPTURE_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_CAPTURE_Msk;
+	tmp |= TCC_FCTRLA_CAPTURE(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_CAPTURE_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_CAPTURE_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_CAPTURE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_CAPTURE_Msk) >> TCC_FCTRLA_CAPTURE_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_BLANKVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_BLANKVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_BLANKVAL(mask)) >> TCC_FCTRLA_BLANKVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_BLANKVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_BLANKVAL_Msk;
+	tmp |= TCC_FCTRLA_BLANKVAL(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_BLANKVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_BLANKVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_BLANKVAL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_BLANKVAL_Msk) >> TCC_FCTRLA_BLANKVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_FILTERVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= TCC_FCTRLA_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_FILTERVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_FILTERVAL(mask)) >> TCC_FCTRLA_FILTERVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_FILTERVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= ~TCC_FCTRLA_FILTERVAL_Msk;
+	tmp |= TCC_FCTRLA_FILTERVAL(data);
+	((Tcc *)hw)->FCTRLA.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_FILTERVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~TCC_FCTRLA_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_FILTERVAL_bf(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= TCC_FCTRLA_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_FILTERVAL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp = (tmp & TCC_FCTRLA_FILTERVAL_Msk) >> TCC_FCTRLA_FILTERVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLA_reg(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_get_FCTRLA_reg(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLA_reg(const void *const hw, hri_tcc_fctrla_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLA_reg(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLA_reg(const void *const hw, hri_tcc_fctrla_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLA.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrla_reg_t hri_tcc_read_FCTRLA_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->FCTRLA.reg;
+}
+
+static inline void hri_tcc_set_FCTRLB_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLB_KEEP_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_KEEP) >> TCC_FCTRLB_KEEP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_KEEP_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_KEEP;
+	tmp |= value << TCC_FCTRLB_KEEP_Pos;
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_KEEP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_KEEP;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLB_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLB_QUAL_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_QUAL) >> TCC_FCTRLB_QUAL_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_QUAL_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_QUAL;
+	tmp |= value << TCC_FCTRLB_QUAL_Pos;
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_QUAL_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_QUAL;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLB_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLB_RESTART_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_RESTART) >> TCC_FCTRLB_RESTART_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_RESTART_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_RESTART;
+	tmp |= value << TCC_FCTRLB_RESTART_Pos;
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_RESTART_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_RESTART;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLB_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_FCTRLB_BLANKPRESC_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_BLANKPRESC) >> TCC_FCTRLB_BLANKPRESC_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_BLANKPRESC_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_BLANKPRESC;
+	tmp |= value << TCC_FCTRLB_BLANKPRESC_Pos;
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_BLANKPRESC_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_BLANKPRESC;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_FCTRLB_SRC_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_SRC_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_SRC(mask)) >> TCC_FCTRLB_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_SRC_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_SRC_Msk;
+	tmp |= TCC_FCTRLB_SRC(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_SRC_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_SRC_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_SRC(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_SRC_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_SRC_Msk) >> TCC_FCTRLB_SRC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_BLANK_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_BLANK_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_BLANK(mask)) >> TCC_FCTRLB_BLANK_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_BLANK_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_BLANK_Msk;
+	tmp |= TCC_FCTRLB_BLANK(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_BLANK_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_BLANK_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_BLANK(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_BLANK_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_BLANK_Msk) >> TCC_FCTRLB_BLANK_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_HALT_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_HALT_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_HALT(mask)) >> TCC_FCTRLB_HALT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_HALT_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_HALT_Msk;
+	tmp |= TCC_FCTRLB_HALT(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_HALT_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_HALT_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_HALT(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_HALT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_HALT_Msk) >> TCC_FCTRLB_HALT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_CHSEL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_CHSEL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_CHSEL(mask)) >> TCC_FCTRLB_CHSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_CHSEL_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_CHSEL_Msk;
+	tmp |= TCC_FCTRLB_CHSEL(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_CHSEL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_CHSEL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_CHSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_CHSEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_CHSEL_Msk) >> TCC_FCTRLB_CHSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_CAPTURE_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_CAPTURE_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_CAPTURE(mask)) >> TCC_FCTRLB_CAPTURE_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_CAPTURE_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_CAPTURE_Msk;
+	tmp |= TCC_FCTRLB_CAPTURE(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_CAPTURE_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_CAPTURE_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_CAPTURE(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_CAPTURE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_CAPTURE_Msk) >> TCC_FCTRLB_CAPTURE_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_BLANKVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_BLANKVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_BLANKVAL(mask)) >> TCC_FCTRLB_BLANKVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_BLANKVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_BLANKVAL_Msk;
+	tmp |= TCC_FCTRLB_BLANKVAL(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_BLANKVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_BLANKVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_BLANKVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_BLANKVAL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_BLANKVAL_Msk) >> TCC_FCTRLB_BLANKVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_FILTERVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= TCC_FCTRLB_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_FILTERVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_FILTERVAL(mask)) >> TCC_FCTRLB_FILTERVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_FILTERVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= ~TCC_FCTRLB_FILTERVAL_Msk;
+	tmp |= TCC_FCTRLB_FILTERVAL(data);
+	((Tcc *)hw)->FCTRLB.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_FILTERVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~TCC_FCTRLB_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_FILTERVAL_bf(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= TCC_FCTRLB_FILTERVAL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_FILTERVAL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp = (tmp & TCC_FCTRLB_FILTERVAL_Msk) >> TCC_FCTRLB_FILTERVAL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_FCTRLB_reg(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_get_FCTRLB_reg(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->FCTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_FCTRLB_reg(const void *const hw, hri_tcc_fctrlb_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_FCTRLB_reg(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_FCTRLB_reg(const void *const hw, hri_tcc_fctrlb_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->FCTRLB.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_fctrlb_reg_t hri_tcc_read_FCTRLB_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->FCTRLB.reg;
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTIEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTIEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WEXCTRL_DTIEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTIEN0) >> TCC_WEXCTRL_DTIEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTIEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTIEN0;
+	tmp |= value << TCC_WEXCTRL_DTIEN0_Pos;
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTIEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTIEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTIEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTIEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTIEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTIEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WEXCTRL_DTIEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTIEN1) >> TCC_WEXCTRL_DTIEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTIEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTIEN1;
+	tmp |= value << TCC_WEXCTRL_DTIEN1_Pos;
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTIEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTIEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTIEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTIEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTIEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTIEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WEXCTRL_DTIEN2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTIEN2) >> TCC_WEXCTRL_DTIEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTIEN2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTIEN2;
+	tmp |= value << TCC_WEXCTRL_DTIEN2_Pos;
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTIEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTIEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTIEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTIEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTIEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTIEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WEXCTRL_DTIEN3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTIEN3) >> TCC_WEXCTRL_DTIEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTIEN3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTIEN3;
+	tmp |= value << TCC_WEXCTRL_DTIEN3_Pos;
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTIEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTIEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTIEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTIEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WEXCTRL_OTMX_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_OTMX(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_get_WEXCTRL_OTMX_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_OTMX(mask)) >> TCC_WEXCTRL_OTMX_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_OTMX_bf(const void *const hw, hri_tcc_wexctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_OTMX_Msk;
+	tmp |= TCC_WEXCTRL_OTMX(data);
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_OTMX_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_OTMX(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_OTMX_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_OTMX(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_read_WEXCTRL_OTMX_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_OTMX_Msk) >> TCC_WEXCTRL_OTMX_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTLS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTLS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_get_WEXCTRL_DTLS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTLS(mask)) >> TCC_WEXCTRL_DTLS_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTLS_bf(const void *const hw, hri_tcc_wexctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTLS_Msk;
+	tmp |= TCC_WEXCTRL_DTLS(data);
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTLS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTLS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTLS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTLS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_read_WEXCTRL_DTLS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTLS_Msk) >> TCC_WEXCTRL_DTLS_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_WEXCTRL_DTHS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= TCC_WEXCTRL_DTHS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_get_WEXCTRL_DTHS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTHS(mask)) >> TCC_WEXCTRL_DTHS_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_DTHS_bf(const void *const hw, hri_tcc_wexctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= ~TCC_WEXCTRL_DTHS_Msk;
+	tmp |= TCC_WEXCTRL_DTHS(data);
+	((Tcc *)hw)->WEXCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_DTHS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~TCC_WEXCTRL_DTHS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_DTHS_bf(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= TCC_WEXCTRL_DTHS(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_read_WEXCTRL_DTHS_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp = (tmp & TCC_WEXCTRL_DTHS_Msk) >> TCC_WEXCTRL_DTHS_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_WEXCTRL_reg(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_get_WEXCTRL_reg(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WEXCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WEXCTRL_reg(const void *const hw, hri_tcc_wexctrl_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WEXCTRL_reg(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WEXCTRL_reg(const void *const hw, hri_tcc_wexctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WEXCTRL.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wexctrl_reg_t hri_tcc_read_WEXCTRL_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->WEXCTRL.reg;
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE0) >> TCC_DRVCTRL_NRE0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE0;
+	tmp |= value << TCC_DRVCTRL_NRE0_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE1) >> TCC_DRVCTRL_NRE1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE1;
+	tmp |= value << TCC_DRVCTRL_NRE1_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE2) >> TCC_DRVCTRL_NRE2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE2;
+	tmp |= value << TCC_DRVCTRL_NRE2_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE3) >> TCC_DRVCTRL_NRE3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE3;
+	tmp |= value << TCC_DRVCTRL_NRE3_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE4) >> TCC_DRVCTRL_NRE4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE4;
+	tmp |= value << TCC_DRVCTRL_NRE4_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE5) >> TCC_DRVCTRL_NRE5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE5;
+	tmp |= value << TCC_DRVCTRL_NRE5_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE6) >> TCC_DRVCTRL_NRE6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE6;
+	tmp |= value << TCC_DRVCTRL_NRE6_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRE7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRE7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRE7) >> TCC_DRVCTRL_NRE7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRE7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRE7;
+	tmp |= value << TCC_DRVCTRL_NRE7_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRE7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRE7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV0) >> TCC_DRVCTRL_NRV0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV0;
+	tmp |= value << TCC_DRVCTRL_NRV0_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV1) >> TCC_DRVCTRL_NRV1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV1;
+	tmp |= value << TCC_DRVCTRL_NRV1_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV2) >> TCC_DRVCTRL_NRV2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV2;
+	tmp |= value << TCC_DRVCTRL_NRV2_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV3) >> TCC_DRVCTRL_NRV3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV3;
+	tmp |= value << TCC_DRVCTRL_NRV3_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV4) >> TCC_DRVCTRL_NRV4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV4;
+	tmp |= value << TCC_DRVCTRL_NRV4_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV5) >> TCC_DRVCTRL_NRV5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV5;
+	tmp |= value << TCC_DRVCTRL_NRV5_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV6) >> TCC_DRVCTRL_NRV6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV6;
+	tmp |= value << TCC_DRVCTRL_NRV6_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_NRV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_NRV7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_NRV7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_NRV7) >> TCC_DRVCTRL_NRV7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_NRV7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_NRV7;
+	tmp |= value << TCC_DRVCTRL_NRV7_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_NRV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_NRV7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_NRV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_NRV7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN0) >> TCC_DRVCTRL_INVEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN0;
+	tmp |= value << TCC_DRVCTRL_INVEN0_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN1) >> TCC_DRVCTRL_INVEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN1;
+	tmp |= value << TCC_DRVCTRL_INVEN1_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN2) >> TCC_DRVCTRL_INVEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN2;
+	tmp |= value << TCC_DRVCTRL_INVEN2_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN3) >> TCC_DRVCTRL_INVEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN3;
+	tmp |= value << TCC_DRVCTRL_INVEN3_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN4_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN4) >> TCC_DRVCTRL_INVEN4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN4_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN4;
+	tmp |= value << TCC_DRVCTRL_INVEN4_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN5_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN5) >> TCC_DRVCTRL_INVEN5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN5_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN5;
+	tmp |= value << TCC_DRVCTRL_INVEN5_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN6_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN6) >> TCC_DRVCTRL_INVEN6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN6_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN6;
+	tmp |= value << TCC_DRVCTRL_INVEN6_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_INVEN7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_INVEN7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DRVCTRL_INVEN7_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_INVEN7) >> TCC_DRVCTRL_INVEN7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_INVEN7_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_INVEN7;
+	tmp |= value << TCC_DRVCTRL_INVEN7_Pos;
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_INVEN7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_INVEN7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_INVEN7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_INVEN7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DRVCTRL_FILTERVAL0_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_FILTERVAL0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_get_DRVCTRL_FILTERVAL0_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_FILTERVAL0(mask)) >> TCC_DRVCTRL_FILTERVAL0_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_FILTERVAL0_bf(const void *const hw, hri_tcc_drvctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_FILTERVAL0_Msk;
+	tmp |= TCC_DRVCTRL_FILTERVAL0(data);
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_FILTERVAL0_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_FILTERVAL0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_FILTERVAL0_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_FILTERVAL0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_read_DRVCTRL_FILTERVAL0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_FILTERVAL0_Msk) >> TCC_DRVCTRL_FILTERVAL0_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_DRVCTRL_FILTERVAL1_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= TCC_DRVCTRL_FILTERVAL1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_get_DRVCTRL_FILTERVAL1_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_FILTERVAL1(mask)) >> TCC_DRVCTRL_FILTERVAL1_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_FILTERVAL1_bf(const void *const hw, hri_tcc_drvctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= ~TCC_DRVCTRL_FILTERVAL1_Msk;
+	tmp |= TCC_DRVCTRL_FILTERVAL1(data);
+	((Tcc *)hw)->DRVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_FILTERVAL1_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~TCC_DRVCTRL_FILTERVAL1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_FILTERVAL1_bf(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= TCC_DRVCTRL_FILTERVAL1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_read_DRVCTRL_FILTERVAL1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp = (tmp & TCC_DRVCTRL_FILTERVAL1_Msk) >> TCC_DRVCTRL_FILTERVAL1_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_DRVCTRL_reg(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_get_DRVCTRL_reg(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->DRVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_DRVCTRL_reg(const void *const hw, hri_tcc_drvctrl_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DRVCTRL_reg(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DRVCTRL_reg(const void *const hw, hri_tcc_drvctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DRVCTRL.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_drvctrl_reg_t hri_tcc_read_DRVCTRL_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->DRVCTRL.reg;
+}
+
+static inline void hri_tcc_set_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg |= TCC_DBGCTRL_DBGRUN;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->DBGCTRL.reg;
+	tmp = (tmp & TCC_DBGCTRL_DBGRUN) >> TCC_DBGCTRL_DBGRUN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DBGCTRL.reg;
+	tmp &= ~TCC_DBGCTRL_DBGRUN;
+	tmp |= value << TCC_DBGCTRL_DBGRUN_Pos;
+	((Tcc *)hw)->DBGCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg &= ~TCC_DBGCTRL_DBGRUN;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DBGCTRL_DBGRUN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg ^= TCC_DBGCTRL_DBGRUN;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DBGCTRL_FDDBD_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg |= TCC_DBGCTRL_FDDBD;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_DBGCTRL_FDDBD_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->DBGCTRL.reg;
+	tmp = (tmp & TCC_DBGCTRL_FDDBD) >> TCC_DBGCTRL_FDDBD_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_DBGCTRL_FDDBD_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->DBGCTRL.reg;
+	tmp &= ~TCC_DBGCTRL_FDDBD;
+	tmp |= value << TCC_DBGCTRL_FDDBD_Pos;
+	((Tcc *)hw)->DBGCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DBGCTRL_FDDBD_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg &= ~TCC_DBGCTRL_FDDBD;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DBGCTRL_FDDBD_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg ^= TCC_DBGCTRL_FDDBD;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_DBGCTRL_reg(const void *const hw, hri_tcc_dbgctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_dbgctrl_reg_t hri_tcc_get_DBGCTRL_reg(const void *const hw, hri_tcc_dbgctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Tcc *)hw)->DBGCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_DBGCTRL_reg(const void *const hw, hri_tcc_dbgctrl_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_DBGCTRL_reg(const void *const hw, hri_tcc_dbgctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_DBGCTRL_reg(const void *const hw, hri_tcc_dbgctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->DBGCTRL.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_dbgctrl_reg_t hri_tcc_read_DBGCTRL_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->DBGCTRL.reg;
+}
+
+static inline void hri_tcc_set_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_OVFEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_OVFEO) >> TCC_EVCTRL_OVFEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_OVFEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_OVFEO;
+	tmp |= value << TCC_EVCTRL_OVFEO_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_OVFEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_OVFEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_OVFEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_TRGEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_TRGEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_TRGEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_TRGEO) >> TCC_EVCTRL_TRGEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_TRGEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_TRGEO;
+	tmp |= value << TCC_EVCTRL_TRGEO_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_TRGEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_TRGEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_TRGEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_TRGEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_CNTEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_CNTEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_CNTEO_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_CNTEO) >> TCC_EVCTRL_CNTEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_CNTEO_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_CNTEO;
+	tmp |= value << TCC_EVCTRL_CNTEO_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_CNTEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_CNTEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_CNTEO_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_CNTEO;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_TCINV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_TCINV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_TCINV0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_TCINV0) >> TCC_EVCTRL_TCINV0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_TCINV0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_TCINV0;
+	tmp |= value << TCC_EVCTRL_TCINV0_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_TCINV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_TCINV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_TCINV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_TCINV0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_TCINV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_TCINV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_TCINV1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_TCINV1) >> TCC_EVCTRL_TCINV1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_TCINV1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_TCINV1;
+	tmp |= value << TCC_EVCTRL_TCINV1_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_TCINV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_TCINV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_TCINV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_TCINV1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_TCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_TCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_TCEI0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_TCEI0) >> TCC_EVCTRL_TCEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_TCEI0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_TCEI0;
+	tmp |= value << TCC_EVCTRL_TCEI0_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_TCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_TCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_TCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_TCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_TCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_TCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_TCEI1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_TCEI1) >> TCC_EVCTRL_TCEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_TCEI1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_TCEI1;
+	tmp |= value << TCC_EVCTRL_TCEI1_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_TCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_TCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_TCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_TCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEI0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEI0) >> TCC_EVCTRL_MCEI0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEI0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEI0;
+	tmp |= value << TCC_EVCTRL_MCEI0_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEI0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEI0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEI1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEI1) >> TCC_EVCTRL_MCEI1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEI1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEI1;
+	tmp |= value << TCC_EVCTRL_MCEI1_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEI1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEI1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEI2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEI2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEI2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEI2) >> TCC_EVCTRL_MCEI2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEI2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEI2;
+	tmp |= value << TCC_EVCTRL_MCEI2_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEI2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEI2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEI2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEI2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEI3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEI3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEI3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEI3) >> TCC_EVCTRL_MCEI3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEI3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEI3;
+	tmp |= value << TCC_EVCTRL_MCEI3_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEI3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEI3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEI3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEI3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEO0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEO0) >> TCC_EVCTRL_MCEO0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEO0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEO0;
+	tmp |= value << TCC_EVCTRL_MCEO0_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEO0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEO0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEO0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEO1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEO1) >> TCC_EVCTRL_MCEO1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEO1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEO1;
+	tmp |= value << TCC_EVCTRL_MCEO1_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEO1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEO1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEO1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEO2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEO2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEO2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEO2) >> TCC_EVCTRL_MCEO2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEO2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEO2;
+	tmp |= value << TCC_EVCTRL_MCEO2_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEO2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEO2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEO2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEO2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_MCEO3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_MCEO3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_EVCTRL_MCEO3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_MCEO3) >> TCC_EVCTRL_MCEO3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_MCEO3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_MCEO3;
+	tmp |= value << TCC_EVCTRL_MCEO3_Pos;
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_MCEO3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_MCEO3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_MCEO3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_MCEO3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_EVCTRL_EVACT0_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_EVACT0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_get_EVCTRL_EVACT0_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_EVACT0(mask)) >> TCC_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_EVACT0_bf(const void *const hw, hri_tcc_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_EVACT0_Msk;
+	tmp |= TCC_EVCTRL_EVACT0(data);
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_EVACT0_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_EVACT0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_EVACT0_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_EVACT0(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_read_EVCTRL_EVACT0_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_EVACT0_Msk) >> TCC_EVCTRL_EVACT0_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_EVCTRL_EVACT1_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_EVACT1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_get_EVCTRL_EVACT1_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_EVACT1(mask)) >> TCC_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_EVACT1_bf(const void *const hw, hri_tcc_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_EVACT1_Msk;
+	tmp |= TCC_EVCTRL_EVACT1(data);
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_EVACT1_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_EVACT1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_EVACT1_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_EVACT1(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_read_EVCTRL_EVACT1_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_EVACT1_Msk) >> TCC_EVCTRL_EVACT1_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_EVCTRL_CNTSEL_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= TCC_EVCTRL_CNTSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_get_EVCTRL_CNTSEL_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_CNTSEL(mask)) >> TCC_EVCTRL_CNTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_CNTSEL_bf(const void *const hw, hri_tcc_evctrl_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= ~TCC_EVCTRL_CNTSEL_Msk;
+	tmp |= TCC_EVCTRL_CNTSEL(data);
+	((Tcc *)hw)->EVCTRL.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_CNTSEL_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~TCC_EVCTRL_CNTSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_CNTSEL_bf(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= TCC_EVCTRL_CNTSEL(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_read_EVCTRL_CNTSEL_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp = (tmp & TCC_EVCTRL_CNTSEL_Msk) >> TCC_EVCTRL_CNTSEL_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_EVCTRL_reg(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_get_EVCTRL_reg(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_EVCTRL_reg(const void *const hw, hri_tcc_evctrl_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_EVCTRL_reg(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_EVCTRL_reg(const void *const hw, hri_tcc_evctrl_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->EVCTRL.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_evctrl_reg_t hri_tcc_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->EVCTRL.reg;
+}
+
+static inline void hri_tcc_set_COUNT_DITH6_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg |= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_get_COUNT_DITH6_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT(mask)) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_COUNT_DITH6_COUNT_bf(const void *const hw, hri_tcc_count_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp &= ~TCC_COUNT_COUNT_Msk;
+	tmp |= TCC_COUNT_COUNT(data);
+	((Tcc *)hw)->COUNT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_COUNT_DITH6_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg &= ~TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_COUNT_DITH6_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg ^= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_read_COUNT_DITH6_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT_Msk) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_COUNT_DITH5_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg |= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_get_COUNT_DITH5_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT(mask)) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_COUNT_DITH5_COUNT_bf(const void *const hw, hri_tcc_count_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp &= ~TCC_COUNT_COUNT_Msk;
+	tmp |= TCC_COUNT_COUNT(data);
+	((Tcc *)hw)->COUNT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_COUNT_DITH5_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg &= ~TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_COUNT_DITH5_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg ^= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_read_COUNT_DITH5_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT_Msk) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_COUNT_DITH4_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg |= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_get_COUNT_DITH4_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT(mask)) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_COUNT_DITH4_COUNT_bf(const void *const hw, hri_tcc_count_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp &= ~TCC_COUNT_COUNT_Msk;
+	tmp |= TCC_COUNT_COUNT(data);
+	((Tcc *)hw)->COUNT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_COUNT_DITH4_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg &= ~TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_COUNT_DITH4_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg ^= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_read_COUNT_DITH4_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT_Msk) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_COUNT_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg |= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_get_COUNT_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT(mask)) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_COUNT_COUNT_bf(const void *const hw, hri_tcc_count_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp &= ~TCC_COUNT_COUNT_Msk;
+	tmp |= TCC_COUNT_COUNT(data);
+	((Tcc *)hw)->COUNT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_COUNT_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg &= ~TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_COUNT_COUNT_bf(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg ^= TCC_COUNT_COUNT(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_read_COUNT_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp = (tmp & TCC_COUNT_COUNT_Msk) >> TCC_COUNT_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_COUNT_reg(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_get_COUNT_reg(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	tmp = ((Tcc *)hw)->COUNT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_COUNT_reg(const void *const hw, hri_tcc_count_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_COUNT_reg(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_COUNT_reg(const void *const hw, hri_tcc_count_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->COUNT.reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_count_reg_t hri_tcc_read_COUNT_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_COUNT);
+	return ((Tcc *)hw)->COUNT.reg;
+}
+
+static inline void hri_tcc_set_PATT_PGE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE0) >> TCC_PATT_PGE0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE0;
+	tmp |= value << TCC_PATT_PGE0_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE1) >> TCC_PATT_PGE1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE1;
+	tmp |= value << TCC_PATT_PGE1_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE2) >> TCC_PATT_PGE2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE2;
+	tmp |= value << TCC_PATT_PGE2_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE3_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE3) >> TCC_PATT_PGE3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE3_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE3;
+	tmp |= value << TCC_PATT_PGE3_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE4_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE4) >> TCC_PATT_PGE4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE4_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE4;
+	tmp |= value << TCC_PATT_PGE4_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE5_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE5) >> TCC_PATT_PGE5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE5_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE5;
+	tmp |= value << TCC_PATT_PGE5_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE6_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE6) >> TCC_PATT_PGE6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE6_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE6;
+	tmp |= value << TCC_PATT_PGE6_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGE7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGE7_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGE7) >> TCC_PATT_PGE7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGE7_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGE7;
+	tmp |= value << TCC_PATT_PGE7_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGE7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGE7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGE7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV0) >> TCC_PATT_PGV0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV0;
+	tmp |= value << TCC_PATT_PGV0_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV1) >> TCC_PATT_PGV1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV1;
+	tmp |= value << TCC_PATT_PGV1_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV2) >> TCC_PATT_PGV2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV2;
+	tmp |= value << TCC_PATT_PGV2_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV3_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV3) >> TCC_PATT_PGV3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV3_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV3;
+	tmp |= value << TCC_PATT_PGV3_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV4_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV4) >> TCC_PATT_PGV4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV4_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV4;
+	tmp |= value << TCC_PATT_PGV4_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV4;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV5_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV5) >> TCC_PATT_PGV5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV5_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV5;
+	tmp |= value << TCC_PATT_PGV5_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV5;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV6_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV6) >> TCC_PATT_PGV6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV6_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV6;
+	tmp |= value << TCC_PATT_PGV6_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV6;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_PGV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= TCC_PATT_PGV7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATT_PGV7_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp = (tmp & TCC_PATT_PGV7) >> TCC_PATT_PGV7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATT_PGV7_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= ~TCC_PATT_PGV7;
+	tmp |= value << TCC_PATT_PGV7_Pos;
+	((Tcc *)hw)->PATT.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_PGV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~TCC_PATT_PGV7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_PGV7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= TCC_PATT_PGV7;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATT_reg(const void *const hw, hri_tcc_patt_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_patt_reg_t hri_tcc_get_PATT_reg(const void *const hw, hri_tcc_patt_reg_t mask)
+{
+	uint16_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	tmp = ((Tcc *)hw)->PATT.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PATT_reg(const void *const hw, hri_tcc_patt_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATT_reg(const void *const hw, hri_tcc_patt_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATT_reg(const void *const hw, hri_tcc_patt_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATT.reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_patt_reg_t hri_tcc_read_PATT_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	return ((Tcc *)hw)->PATT.reg;
+}
+
+static inline void hri_tcc_set_WAVE_CIPEREN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_CIPEREN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_CIPEREN_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_CIPEREN) >> TCC_WAVE_CIPEREN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_CIPEREN_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_CIPEREN;
+	tmp |= value << TCC_WAVE_CIPEREN_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_CIPEREN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_CIPEREN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_CIPEREN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_CIPEREN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_CICCEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_CICCEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_CICCEN0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_CICCEN0) >> TCC_WAVE_CICCEN0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_CICCEN0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_CICCEN0;
+	tmp |= value << TCC_WAVE_CICCEN0_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_CICCEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_CICCEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_CICCEN0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_CICCEN0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_CICCEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_CICCEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_CICCEN1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_CICCEN1) >> TCC_WAVE_CICCEN1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_CICCEN1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_CICCEN1;
+	tmp |= value << TCC_WAVE_CICCEN1_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_CICCEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_CICCEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_CICCEN1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_CICCEN1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_CICCEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_CICCEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_CICCEN2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_CICCEN2) >> TCC_WAVE_CICCEN2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_CICCEN2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_CICCEN2;
+	tmp |= value << TCC_WAVE_CICCEN2_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_CICCEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_CICCEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_CICCEN2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_CICCEN2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_CICCEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_CICCEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_CICCEN3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_CICCEN3) >> TCC_WAVE_CICCEN3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_CICCEN3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_CICCEN3;
+	tmp |= value << TCC_WAVE_CICCEN3_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_CICCEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_CICCEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_CICCEN3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_CICCEN3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_POL0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_POL0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_POL0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_POL0) >> TCC_WAVE_POL0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_POL0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_POL0;
+	tmp |= value << TCC_WAVE_POL0_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_POL0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_POL0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_POL0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_POL0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_POL1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_POL1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_POL1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_POL1) >> TCC_WAVE_POL1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_POL1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_POL1;
+	tmp |= value << TCC_WAVE_POL1_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_POL1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_POL1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_POL1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_POL1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_POL2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_POL2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_POL2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_POL2) >> TCC_WAVE_POL2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_POL2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_POL2;
+	tmp |= value << TCC_WAVE_POL2_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_POL2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_POL2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_POL2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_POL2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_POL3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_POL3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_POL3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_POL3) >> TCC_WAVE_POL3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_POL3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_POL3;
+	tmp |= value << TCC_WAVE_POL3_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_POL3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_POL3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_POL3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_POL3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_SWAP0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_SWAP0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_SWAP0_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_SWAP0) >> TCC_WAVE_SWAP0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_SWAP0_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_SWAP0;
+	tmp |= value << TCC_WAVE_SWAP0_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_SWAP0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_SWAP0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_SWAP0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_SWAP0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_SWAP1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_SWAP1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_SWAP1_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_SWAP1) >> TCC_WAVE_SWAP1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_SWAP1_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_SWAP1;
+	tmp |= value << TCC_WAVE_SWAP1_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_SWAP1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_SWAP1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_SWAP1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_SWAP1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_SWAP2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_SWAP2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_SWAP2_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_SWAP2) >> TCC_WAVE_SWAP2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_SWAP2_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_SWAP2;
+	tmp |= value << TCC_WAVE_SWAP2_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_SWAP2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_SWAP2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_SWAP2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_SWAP2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_SWAP3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_SWAP3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_WAVE_SWAP3_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_SWAP3) >> TCC_WAVE_SWAP3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_WAVE_SWAP3_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_SWAP3;
+	tmp |= value << TCC_WAVE_SWAP3_Pos;
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_SWAP3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_SWAP3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_SWAP3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_SWAP3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_WAVE_WAVEGEN_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_WAVEGEN(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_get_WAVE_WAVEGEN_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_WAVEGEN(mask)) >> TCC_WAVE_WAVEGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WAVE_WAVEGEN_bf(const void *const hw, hri_tcc_wave_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_WAVEGEN_Msk;
+	tmp |= TCC_WAVE_WAVEGEN(data);
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_WAVEGEN_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_WAVEGEN(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_WAVEGEN_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_WAVEGEN(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_read_WAVE_WAVEGEN_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_WAVEGEN_Msk) >> TCC_WAVE_WAVEGEN_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_WAVE_RAMP_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= TCC_WAVE_RAMP(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_get_WAVE_RAMP_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_RAMP(mask)) >> TCC_WAVE_RAMP_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WAVE_RAMP_bf(const void *const hw, hri_tcc_wave_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= ~TCC_WAVE_RAMP_Msk;
+	tmp |= TCC_WAVE_RAMP(data);
+	((Tcc *)hw)->WAVE.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_RAMP_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~TCC_WAVE_RAMP(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_RAMP_bf(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= TCC_WAVE_RAMP(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_read_WAVE_RAMP_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp = (tmp & TCC_WAVE_RAMP_Msk) >> TCC_WAVE_RAMP_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_WAVE_reg(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_get_WAVE_reg(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	tmp = ((Tcc *)hw)->WAVE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_WAVE_reg(const void *const hw, hri_tcc_wave_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_WAVE_reg(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_WAVE_reg(const void *const hw, hri_tcc_wave_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->WAVE.reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_wave_reg_t hri_tcc_read_WAVE_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	return ((Tcc *)hw)->WAVE.reg;
+}
+
+static inline void hri_tcc_set_PER_DITH4_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH4_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH4_DITHER(mask)) >> TCC_PER_DITH4_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH4_DITHER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_DITH4_DITHER_Msk;
+	tmp |= TCC_PER_DITH4_DITHER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH4_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH4_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH4_DITHER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH4_DITHER_Msk) >> TCC_PER_DITH4_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_DITH5_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH5_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH5_DITHER(mask)) >> TCC_PER_DITH5_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH5_DITHER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_DITH5_DITHER_Msk;
+	tmp |= TCC_PER_DITH5_DITHER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH5_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH5_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH5_DITHER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH5_DITHER_Msk) >> TCC_PER_DITH5_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_DITH6_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH6_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH6_DITHER(mask)) >> TCC_PER_DITH6_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH6_DITHER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_DITH6_DITHER_Msk;
+	tmp |= TCC_PER_DITH6_DITHER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH6_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH6_DITHER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH6_DITHER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_DITH6_DITHER_Msk) >> TCC_PER_DITH6_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_DITH6_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH6_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER(mask)) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH6_PER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_PER_Msk;
+	tmp |= TCC_PER_PER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH6_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH6_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH6_PER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER_Msk) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_DITH5_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH5_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER(mask)) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH5_PER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_PER_Msk;
+	tmp |= TCC_PER_PER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH5_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH5_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH5_PER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER_Msk) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_DITH4_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_DITH4_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER(mask)) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_DITH4_PER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_PER_Msk;
+	tmp |= TCC_PER_PER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_DITH4_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_DITH4_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_DITH4_PER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER_Msk) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER(mask)) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_PER_bf(const void *const hw, hri_tcc_per_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= ~TCC_PER_PER_Msk;
+	tmp |= TCC_PER_PER(data);
+	((Tcc *)hw)->PER.reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_PER_bf(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= TCC_PER_PER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_PER_bf(const void *const hw)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp = (tmp & TCC_PER_PER_Msk) >> TCC_PER_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PER_reg(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_get_PER_reg(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	tmp = ((Tcc *)hw)->PER.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PER_reg(const void *const hw, hri_tcc_per_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PER_reg(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PER_reg(const void *const hw, hri_tcc_per_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PER.reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_per_reg_t hri_tcc_read_PER_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_PER);
+	return ((Tcc *)hw)->PER.reg;
+}
+
+static inline void hri_tcc_set_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index,
+                                                              hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH4_DITHER(mask)) >> TCC_CC_DITH4_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_DITH4_DITHER_Msk;
+	tmp |= TCC_CC_DITH4_DITHER(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_DITH4_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH4_DITHER_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH4_DITHER_Msk) >> TCC_CC_DITH4_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index,
+                                                              hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH5_DITHER(mask)) >> TCC_CC_DITH5_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_DITH5_DITHER_Msk;
+	tmp |= TCC_CC_DITH5_DITHER(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_DITH5_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH5_DITHER_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH5_DITHER_Msk) >> TCC_CC_DITH5_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index,
+                                                              hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH6_DITHER(mask)) >> TCC_CC_DITH6_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_DITH6_DITHER_Msk;
+	tmp |= TCC_CC_DITH6_DITHER(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_DITH6_DITHER(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH6_DITHER_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_DITH6_DITHER_Msk) >> TCC_CC_DITH6_DITHER_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_DITH6_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH6_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC(mask)) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH6_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_CC_Msk;
+	tmp |= TCC_CC_CC(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH6_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH6_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH6_CC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC_Msk) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_DITH5_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH5_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC(mask)) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH5_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_CC_Msk;
+	tmp |= TCC_CC_CC(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH5_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH5_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH5_CC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC_Msk) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_DITH4_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_DITH4_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC(mask)) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_DITH4_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_CC_Msk;
+	tmp |= TCC_CC_CC(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_DITH4_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_DITH4_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_DITH4_CC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC_Msk) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC(mask)) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= ~TCC_CC_CC_Msk;
+	tmp |= TCC_CC_CC(data);
+	((Tcc *)hw)->CC[index].reg = tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_CC_bf(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= TCC_CC_CC(mask);
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_CC_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp = (tmp & TCC_CC_CC_Msk) >> TCC_CC_CC_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CC_reg(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg |= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_get_CC_reg(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	tmp = ((Tcc *)hw)->CC[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CC_reg(const void *const hw, uint8_t index, hri_tcc_cc_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg = data;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CC_reg(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg &= ~mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CC_reg(const void *const hw, uint8_t index, hri_tcc_cc_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CC[index].reg ^= mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_cc_reg_t hri_tcc_read_CC_reg(const void *const hw, uint8_t index)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_CC0 | TCC_SYNCBUSY_CC1 | TCC_SYNCBUSY_CC2 | TCC_SYNCBUSY_CC3);
+	return ((Tcc *)hw)->CC[index].reg;
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB0) >> TCC_PATTBUF_PGEB0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB0;
+	tmp |= value << TCC_PATTBUF_PGEB0_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB1) >> TCC_PATTBUF_PGEB1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB1;
+	tmp |= value << TCC_PATTBUF_PGEB1_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB2) >> TCC_PATTBUF_PGEB2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB2;
+	tmp |= value << TCC_PATTBUF_PGEB2_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB3_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB3) >> TCC_PATTBUF_PGEB3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB3_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB3;
+	tmp |= value << TCC_PATTBUF_PGEB3_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB4_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB4) >> TCC_PATTBUF_PGEB4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB4_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB4;
+	tmp |= value << TCC_PATTBUF_PGEB4_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB5_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB5) >> TCC_PATTBUF_PGEB5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB5_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB5;
+	tmp |= value << TCC_PATTBUF_PGEB5_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB6_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB6) >> TCC_PATTBUF_PGEB6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB6_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB6;
+	tmp |= value << TCC_PATTBUF_PGEB6_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGEB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGEB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGEB7_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGEB7) >> TCC_PATTBUF_PGEB7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGEB7_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGEB7;
+	tmp |= value << TCC_PATTBUF_PGEB7_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGEB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGEB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGEB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGEB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB0_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB0) >> TCC_PATTBUF_PGVB0_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB0_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB0;
+	tmp |= value << TCC_PATTBUF_PGVB0_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB0;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB1_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB1) >> TCC_PATTBUF_PGVB1_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB1_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB1;
+	tmp |= value << TCC_PATTBUF_PGVB1_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB1;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB2) >> TCC_PATTBUF_PGVB2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB2;
+	tmp |= value << TCC_PATTBUF_PGVB2_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB2;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB3_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB3) >> TCC_PATTBUF_PGVB3_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB3_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB3;
+	tmp |= value << TCC_PATTBUF_PGVB3_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB3;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB4_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB4) >> TCC_PATTBUF_PGVB4_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB4_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB4;
+	tmp |= value << TCC_PATTBUF_PGVB4_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB4_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB4;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB5_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB5) >> TCC_PATTBUF_PGVB5_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB5_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB5;
+	tmp |= value << TCC_PATTBUF_PGVB5_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB5_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB5;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB6_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB6) >> TCC_PATTBUF_PGVB6_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB6_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB6;
+	tmp |= value << TCC_PATTBUF_PGVB6_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB6_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB6;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_PGVB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= TCC_PATTBUF_PGVB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_PATTBUF_PGVB7_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp = (tmp & TCC_PATTBUF_PGVB7) >> TCC_PATTBUF_PGVB7_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_PGVB7_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= ~TCC_PATTBUF_PGVB7;
+	tmp |= value << TCC_PATTBUF_PGVB7_Pos;
+	((Tcc *)hw)->PATTBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_PGVB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~TCC_PATTBUF_PGVB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_PGVB7_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= TCC_PATTBUF_PGVB7;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_set_PATTBUF_reg(const void *const hw, hri_tcc_pattbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_pattbuf_reg_t hri_tcc_get_PATTBUF_reg(const void *const hw, hri_tcc_pattbuf_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Tcc *)hw)->PATTBUF.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PATTBUF_reg(const void *const hw, hri_tcc_pattbuf_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PATTBUF_reg(const void *const hw, hri_tcc_pattbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PATTBUF_reg(const void *const hw, hri_tcc_pattbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PATTBUF.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_pattbuf_reg_t hri_tcc_read_PATTBUF_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->PATTBUF.reg;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH4_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH4_DITHERBUF_bf(const void *const    hw,
+                                                                         hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH4_DITHERBUF(mask)) >> TCC_PERBUF_DITH4_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH4_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_DITH4_DITHERBUF_Msk;
+	tmp |= TCC_PERBUF_DITH4_DITHERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH4_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH4_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH4_DITHERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH4_DITHERBUF_Msk) >> TCC_PERBUF_DITH4_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH5_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH5_DITHERBUF_bf(const void *const    hw,
+                                                                         hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH5_DITHERBUF(mask)) >> TCC_PERBUF_DITH5_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH5_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_DITH5_DITHERBUF_Msk;
+	tmp |= TCC_PERBUF_DITH5_DITHERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH5_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH5_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH5_DITHERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH5_DITHERBUF_Msk) >> TCC_PERBUF_DITH5_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH6_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH6_DITHERBUF_bf(const void *const    hw,
+                                                                         hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH6_DITHERBUF(mask)) >> TCC_PERBUF_DITH6_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH6_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_DITH6_DITHERBUF_Msk;
+	tmp |= TCC_PERBUF_DITH6_DITHERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH6_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH6_DITHERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH6_DITHERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_DITH6_DITHERBUF_Msk) >> TCC_PERBUF_DITH6_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH6_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH6_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF(mask)) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH6_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_PERBUF_Msk;
+	tmp |= TCC_PERBUF_PERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH6_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH6_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH6_PERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF_Msk) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH5_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH5_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF(mask)) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH5_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_PERBUF_Msk;
+	tmp |= TCC_PERBUF_PERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH5_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH5_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH5_PERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF_Msk) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_DITH4_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_DITH4_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF(mask)) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_DITH4_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_PERBUF_Msk;
+	tmp |= TCC_PERBUF_PERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_DITH4_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_DITH4_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_DITH4_PERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF_Msk) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF(mask)) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= ~TCC_PERBUF_PERBUF_Msk;
+	tmp |= TCC_PERBUF_PERBUF(data);
+	((Tcc *)hw)->PERBUF.reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_PERBUF_bf(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= TCC_PERBUF_PERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_PERBUF_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp = (tmp & TCC_PERBUF_PERBUF_Msk) >> TCC_PERBUF_PERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_PERBUF_reg(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_get_PERBUF_reg(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->PERBUF.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_PERBUF_reg(const void *const hw, hri_tcc_perbuf_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_PERBUF_reg(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_PERBUF_reg(const void *const hw, hri_tcc_perbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->PERBUF.reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_perbuf_reg_t hri_tcc_read_PERBUF_reg(const void *const hw)
+{
+	return ((Tcc *)hw)->PERBUF.reg;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                   hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF(mask)) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_CCBUF_Msk;
+	tmp |= TCC_CCBUF_CCBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH4_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF_Msk) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                                       hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH5_DITHERBUF(mask)) >> TCC_CCBUF_DITH5_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_DITH5_DITHERBUF_Msk;
+	tmp |= TCC_CCBUF_DITH5_DITHERBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                           hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_DITH5_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH5_DITHERBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH5_DITHERBUF_Msk) >> TCC_CCBUF_DITH5_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                                       hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH6_DITHERBUF(mask)) >> TCC_CCBUF_DITH6_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_DITH6_DITHERBUF_Msk;
+	tmp |= TCC_CCBUF_DITH6_DITHERBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                           hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_DITH6_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH6_DITHERBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH6_DITHERBUF_Msk) >> TCC_CCBUF_DITH6_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                   hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF(mask)) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_CCBUF_Msk;
+	tmp |= TCC_CCBUF_CCBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH6_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF_Msk) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index,
+                                                                   hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF(mask)) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_CCBUF_Msk;
+	tmp |= TCC_CCBUF_CCBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH5_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF_Msk) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                                       hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH4_DITHERBUF(mask)) >> TCC_CCBUF_DITH4_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_DITH4_DITHERBUF_Msk;
+	tmp |= TCC_CCBUF_DITH4_DITHERBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index,
+                                                           hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_DITH4_DITHERBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_DITH4_DITHERBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_DITH4_DITHERBUF_Msk) >> TCC_CCBUF_DITH4_DITHERBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_CCBUF_bf(const void *const hw, uint8_t index,
+                                                             hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF(mask)) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	uint32_t tmp;
+	TCC_CRITICAL_SECTION_ENTER();
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= ~TCC_CCBUF_CCBUF_Msk;
+	tmp |= TCC_CCBUF_CCBUF(data);
+	((Tcc *)hw)->CCBUF[index].reg = tmp;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_CCBUF_bf(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= TCC_CCBUF_CCBUF(mask);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_CCBUF_bf(const void *const hw, uint8_t index)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp = (tmp & TCC_CCBUF_CCBUF_Msk) >> TCC_CCBUF_CCBUF_Pos;
+	return tmp;
+}
+
+static inline void hri_tcc_set_CCBUF_reg(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg |= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_get_CCBUF_reg(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Tcc *)hw)->CCBUF[index].reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_write_CCBUF_reg(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t data)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg = data;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_clear_CCBUF_reg(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg &= ~mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_tcc_toggle_CCBUF_reg(const void *const hw, uint8_t index, hri_tcc_ccbuf_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->CCBUF[index].reg ^= mask;
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_ccbuf_reg_t hri_tcc_read_CCBUF_reg(const void *const hw, uint8_t index)
+{
+	return ((Tcc *)hw)->CCBUF[index].reg;
+}
+
+static inline bool hri_tcc_get_STATUS_STOP_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_STOP) >> TCC_STATUS_STOP_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_STOP_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_STOP;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_IDX_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_IDX) >> TCC_STATUS_IDX_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_IDX_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_IDX;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_UFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_UFS) >> TCC_STATUS_UFS_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_UFS_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_UFS;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_DFS_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_DFS) >> TCC_STATUS_DFS_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_DFS_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_DFS;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_SLAVE_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_SLAVE) >> TCC_STATUS_SLAVE_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_SLAVE_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_SLAVE;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_PATTBUFV_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_PATTBUFV) >> TCC_STATUS_PATTBUFV_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_PATTBUFV_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_PATTBUFV;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_PERBUFV_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_PERBUFV) >> TCC_STATUS_PERBUFV_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_PERBUFV_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_PERBUFV;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULTAIN_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULTAIN) >> TCC_STATUS_FAULTAIN_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULTAIN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULTAIN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULTBIN_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULTBIN) >> TCC_STATUS_FAULTBIN_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULTBIN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULTBIN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULT0IN_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULT0IN) >> TCC_STATUS_FAULT0IN_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULT0IN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULT0IN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULT1IN_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULT1IN) >> TCC_STATUS_FAULT1IN_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULT1IN_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULT1IN;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULTA_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULTA) >> TCC_STATUS_FAULTA_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULTA_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULTA;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULTB_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULTB) >> TCC_STATUS_FAULTB_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULTB_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULTB;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULT0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULT0) >> TCC_STATUS_FAULT0_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULT0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULT0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_FAULT1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_FAULT1) >> TCC_STATUS_FAULT1_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_FAULT1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_FAULT1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CCBUFV0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CCBUFV0) >> TCC_STATUS_CCBUFV0_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CCBUFV0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CCBUFV0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CCBUFV1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CCBUFV1) >> TCC_STATUS_CCBUFV1_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CCBUFV1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CCBUFV1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CCBUFV2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CCBUFV2) >> TCC_STATUS_CCBUFV2_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CCBUFV2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CCBUFV2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CCBUFV3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CCBUFV3) >> TCC_STATUS_CCBUFV3_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CCBUFV3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CCBUFV3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CMP0_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CMP0) >> TCC_STATUS_CMP0_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CMP0_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CMP0;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CMP1_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CMP1) >> TCC_STATUS_CMP1_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CMP1_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CMP1;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CMP2_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CMP2) >> TCC_STATUS_CMP2_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CMP2_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CMP2;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_tcc_get_STATUS_CMP3_bit(const void *const hw)
+{
+	return (((Tcc *)hw)->STATUS.reg & TCC_STATUS_CMP3) >> TCC_STATUS_CMP3_Pos;
+}
+
+static inline void hri_tcc_clear_STATUS_CMP3_bit(const void *const hw)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = TCC_STATUS_CMP3;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_status_reg_t hri_tcc_get_STATUS_reg(const void *const hw, hri_tcc_status_reg_t mask)
+{
+	uint32_t tmp;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	tmp = ((Tcc *)hw)->STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_tcc_clear_STATUS_reg(const void *const hw, hri_tcc_status_reg_t mask)
+{
+	TCC_CRITICAL_SECTION_ENTER();
+	((Tcc *)hw)->STATUS.reg = mask;
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	TCC_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_tcc_status_reg_t hri_tcc_read_STATUS_reg(const void *const hw)
+{
+	hri_tcc_wait_for_sync(hw, TCC_SYNCBUSY_MASK);
+	return ((Tcc *)hw)->STATUS.reg;
+}
+
+/* Below section is for legacy hri apis name, not recommended to use below left side apis in application */
+#define hri_tcc_set_COUNT_DITH4_reg(a, b) hri_tcc_set_COUNT_reg(a, b)
+#define hri_tcc_get_COUNT_DITH4_reg(a, b) hri_tcc_get_COUNT_reg(a, b)
+#define hri_tcc_write_COUNT_DITH4_reg(a, b) hri_tcc_write_COUNT_reg(a, b)
+#define hri_tcc_clear_COUNT_DITH4_reg(a, b) hri_tcc_clear_COUNT_reg(a, b)
+#define hri_tcc_toggle_COUNT_DITH4_reg(a, b) hri_tcc_toggle_COUNT_reg(a, b)
+#define hri_tcc_read_COUNT_DITH4_reg(a) hri_tcc_read_COUNT_reg(a)
+#define hri_tcc_set_COUNT_DITH5_reg(a, b) hri_tcc_set_COUNT_reg(a, b)
+#define hri_tcc_get_COUNT_DITH5_reg(a, b) hri_tcc_get_COUNT_reg(a, b)
+#define hri_tcc_write_COUNT_DITH5_reg(a, b) hri_tcc_write_COUNT_reg(a, b)
+#define hri_tcc_clear_COUNT_DITH5_reg(a, b) hri_tcc_clear_COUNT_reg(a, b)
+#define hri_tcc_toggle_COUNT_DITH5_reg(a, b) hri_tcc_toggle_COUNT_reg(a, b)
+#define hri_tcc_read_COUNT_DITH5_reg(a) hri_tcc_read_COUNT_reg(a)
+#define hri_tcc_set_COUNT_DITH6_reg(a, b) hri_tcc_set_COUNT_reg(a, b)
+#define hri_tcc_get_COUNT_DITH6_reg(a, b) hri_tcc_get_COUNT_reg(a, b)
+#define hri_tcc_write_COUNT_DITH6_reg(a, b) hri_tcc_write_COUNT_reg(a, b)
+#define hri_tcc_clear_COUNT_DITH6_reg(a, b) hri_tcc_clear_COUNT_reg(a, b)
+#define hri_tcc_toggle_COUNT_DITH6_reg(a, b) hri_tcc_toggle_COUNT_reg(a, b)
+#define hri_tcc_read_COUNT_DITH6_reg(a) hri_tcc_read_COUNT_reg(a)
+#define hri_tcc_set_PER_DITH4_reg(a, b) hri_tcc_set_PER_reg(a, b)
+#define hri_tcc_get_PER_DITH4_reg(a, b) hri_tcc_get_PER_reg(a, b)
+#define hri_tcc_write_PER_DITH4_reg(a, b) hri_tcc_write_PER_reg(a, b)
+#define hri_tcc_clear_PER_DITH4_reg(a, b) hri_tcc_clear_PER_reg(a, b)
+#define hri_tcc_toggle_PER_DITH4_reg(a, b) hri_tcc_toggle_PER_reg(a, b)
+#define hri_tcc_read_PER_DITH4_reg(a) hri_tcc_read_PER_reg(a)
+#define hri_tcc_set_PER_DITH5_reg(a, b) hri_tcc_set_PER_reg(a, b)
+#define hri_tcc_get_PER_DITH5_reg(a, b) hri_tcc_get_PER_reg(a, b)
+#define hri_tcc_write_PER_DITH5_reg(a, b) hri_tcc_write_PER_reg(a, b)
+#define hri_tcc_clear_PER_DITH5_reg(a, b) hri_tcc_clear_PER_reg(a, b)
+#define hri_tcc_toggle_PER_DITH5_reg(a, b) hri_tcc_toggle_PER_reg(a, b)
+#define hri_tcc_read_PER_DITH5_reg(a) hri_tcc_read_PER_reg(a)
+#define hri_tcc_set_PER_DITH6_reg(a, b) hri_tcc_set_PER_reg(a, b)
+#define hri_tcc_get_PER_DITH6_reg(a, b) hri_tcc_get_PER_reg(a, b)
+#define hri_tcc_write_PER_DITH6_reg(a, b) hri_tcc_write_PER_reg(a, b)
+#define hri_tcc_clear_PER_DITH6_reg(a, b) hri_tcc_clear_PER_reg(a, b)
+#define hri_tcc_toggle_PER_DITH6_reg(a, b) hri_tcc_toggle_PER_reg(a, b)
+#define hri_tcc_read_PER_DITH6_reg(a) hri_tcc_read_PER_reg(a)
+#define hri_tcc_set_CC_DITH4_reg(a, b, c) hri_tcc_set_CC_reg(a, b, c)
+#define hri_tcc_get_CC_DITH4_reg(a, b, c) hri_tcc_get_CC_reg(a, b, c)
+#define hri_tcc_write_CC_DITH4_reg(a, b, c) hri_tcc_write_CC_reg(a, b, c)
+#define hri_tcc_clear_CC_DITH4_reg(a, b, c) hri_tcc_clear_CC_reg(a, b, c)
+#define hri_tcc_toggle_CC_DITH4_reg(a, b, c) hri_tcc_toggle_CC_reg(a, b, c)
+#define hri_tcc_read_CC_DITH4_reg(a, b) hri_tcc_read_CC_reg(a, b)
+#define hri_tcc_set_CC_DITH5_reg(a, b, c) hri_tcc_set_CC_reg(a, b, c)
+#define hri_tcc_get_CC_DITH5_reg(a, b, c) hri_tcc_get_CC_reg(a, b, c)
+#define hri_tcc_write_CC_DITH5_reg(a, b, c) hri_tcc_write_CC_reg(a, b, c)
+#define hri_tcc_clear_CC_DITH5_reg(a, b, c) hri_tcc_clear_CC_reg(a, b, c)
+#define hri_tcc_toggle_CC_DITH5_reg(a, b, c) hri_tcc_toggle_CC_reg(a, b, c)
+#define hri_tcc_read_CC_DITH5_reg(a, b) hri_tcc_read_CC_reg(a, b)
+#define hri_tcc_set_CC_DITH6_reg(a, b, c) hri_tcc_set_CC_reg(a, b, c)
+#define hri_tcc_get_CC_DITH6_reg(a, b, c) hri_tcc_get_CC_reg(a, b, c)
+#define hri_tcc_write_CC_DITH6_reg(a, b, c) hri_tcc_write_CC_reg(a, b, c)
+#define hri_tcc_clear_CC_DITH6_reg(a, b, c) hri_tcc_clear_CC_reg(a, b, c)
+#define hri_tcc_toggle_CC_DITH6_reg(a, b, c) hri_tcc_toggle_CC_reg(a, b, c)
+#define hri_tcc_read_CC_DITH6_reg(a, b) hri_tcc_read_CC_reg(a, b)
+#define hri_tcc_set_PERBUF_DITH4_reg(a, b) hri_tcc_set_PERBUF_reg(a, b)
+#define hri_tcc_get_PERBUF_DITH4_reg(a, b) hri_tcc_get_PERBUF_reg(a, b)
+#define hri_tcc_write_PERBUF_DITH4_reg(a, b) hri_tcc_write_PERBUF_reg(a, b)
+#define hri_tcc_clear_PERBUF_DITH4_reg(a, b) hri_tcc_clear_PERBUF_reg(a, b)
+#define hri_tcc_toggle_PERBUF_DITH4_reg(a, b) hri_tcc_toggle_PERBUF_reg(a, b)
+#define hri_tcc_read_PERBUF_DITH4_reg(a) hri_tcc_read_PERBUF_reg(a)
+#define hri_tcc_set_PERBUF_DITH5_reg(a, b) hri_tcc_set_PERBUF_reg(a, b)
+#define hri_tcc_get_PERBUF_DITH5_reg(a, b) hri_tcc_get_PERBUF_reg(a, b)
+#define hri_tcc_write_PERBUF_DITH5_reg(a, b) hri_tcc_write_PERBUF_reg(a, b)
+#define hri_tcc_clear_PERBUF_DITH5_reg(a, b) hri_tcc_clear_PERBUF_reg(a, b)
+#define hri_tcc_toggle_PERBUF_DITH5_reg(a, b) hri_tcc_toggle_PERBUF_reg(a, b)
+#define hri_tcc_read_PERBUF_DITH5_reg(a) hri_tcc_read_PERBUF_reg(a)
+#define hri_tcc_set_PERBUF_DITH6_reg(a, b) hri_tcc_set_PERBUF_reg(a, b)
+#define hri_tcc_get_PERBUF_DITH6_reg(a, b) hri_tcc_get_PERBUF_reg(a, b)
+#define hri_tcc_write_PERBUF_DITH6_reg(a, b) hri_tcc_write_PERBUF_reg(a, b)
+#define hri_tcc_clear_PERBUF_DITH6_reg(a, b) hri_tcc_clear_PERBUF_reg(a, b)
+#define hri_tcc_toggle_PERBUF_DITH6_reg(a, b) hri_tcc_toggle_PERBUF_reg(a, b)
+#define hri_tcc_read_PERBUF_DITH6_reg(a) hri_tcc_read_PERBUF_reg(a)
+#define hri_tcc_set_CCBUF_DITH4_reg(a, b, c) hri_tcc_set_CCBUF_reg(a, b, c)
+#define hri_tcc_get_CCBUF_DITH4_reg(a, b, c) hri_tcc_get_CCBUF_reg(a, b, c)
+#define hri_tcc_write_CCBUF_DITH4_reg(a, b, c) hri_tcc_write_CCBUF_reg(a, b, c)
+#define hri_tcc_clear_CCBUF_DITH4_reg(a, b, c) hri_tcc_clear_CCBUF_reg(a, b, c)
+#define hri_tcc_toggle_CCBUF_DITH4_reg(a, b, c) hri_tcc_toggle_CCBUF_reg(a, b, c)
+#define hri_tcc_read_CCBUF_DITH4_reg(a, b) hri_tcc_read_CCBUF_reg(a, b)
+#define hri_tcc_set_CCBUF_DITH5_reg(a, b, c) hri_tcc_set_CCBUF_reg(a, b, c)
+#define hri_tcc_get_CCBUF_DITH5_reg(a, b, c) hri_tcc_get_CCBUF_reg(a, b, c)
+#define hri_tcc_write_CCBUF_DITH5_reg(a, b, c) hri_tcc_write_CCBUF_reg(a, b, c)
+#define hri_tcc_clear_CCBUF_DITH5_reg(a, b, c) hri_tcc_clear_CCBUF_reg(a, b, c)
+#define hri_tcc_toggle_CCBUF_DITH5_reg(a, b, c) hri_tcc_toggle_CCBUF_reg(a, b, c)
+#define hri_tcc_read_CCBUF_DITH5_reg(a, b) hri_tcc_read_CCBUF_reg(a, b)
+#define hri_tcc_set_CCBUF_DITH6_reg(a, b, c) hri_tcc_set_CCBUF_reg(a, b, c)
+#define hri_tcc_get_CCBUF_DITH6_reg(a, b, c) hri_tcc_get_CCBUF_reg(a, b, c)
+#define hri_tcc_write_CCBUF_DITH6_reg(a, b, c) hri_tcc_write_CCBUF_reg(a, b, c)
+#define hri_tcc_clear_CCBUF_DITH6_reg(a, b, c) hri_tcc_clear_CCBUF_reg(a, b, c)
+#define hri_tcc_toggle_CCBUF_DITH6_reg(a, b, c) hri_tcc_toggle_CCBUF_reg(a, b, c)
+#define hri_tcc_read_CCBUF_DITH6_reg(a, b) hri_tcc_read_CCBUF_reg(a, b)
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_TCC_L22_H_INCLUDED */
+#endif /* _SAML22_TCC_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_trng_l22.h b/watch-library/hardware/hri/hri_trng_l22.h
new file mode 100644
index 00000000..8aad3aca
--- /dev/null
+++ b/watch-library/hardware/hri/hri_trng_l22.h
@@ -0,0 +1,380 @@
+/**
+ * \file
+ *
+ * \brief SAM TRNG
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_TRNG_COMPONENT_
+#ifndef _HRI_TRNG_L22_H_INCLUDED_
+#define _HRI_TRNG_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_TRNG_CRITICAL_SECTIONS)
+#define TRNG_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define TRNG_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define TRNG_CRITICAL_SECTION_ENTER()
+#define TRNG_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_trng_data_reg_t;
+typedef uint8_t  hri_trng_ctrla_reg_t;
+typedef uint8_t  hri_trng_evctrl_reg_t;
+typedef uint8_t  hri_trng_intenset_reg_t;
+typedef uint8_t  hri_trng_intflag_reg_t;
+
+static inline bool hri_trng_get_INTFLAG_DATARDY_bit(const void *const hw)
+{
+	return (((Trng *)hw)->INTFLAG.reg & TRNG_INTFLAG_DATARDY) >> TRNG_INTFLAG_DATARDY_Pos;
+}
+
+static inline void hri_trng_clear_INTFLAG_DATARDY_bit(const void *const hw)
+{
+	((Trng *)hw)->INTFLAG.reg = TRNG_INTFLAG_DATARDY;
+}
+
+static inline bool hri_trng_get_interrupt_DATARDY_bit(const void *const hw)
+{
+	return (((Trng *)hw)->INTFLAG.reg & TRNG_INTFLAG_DATARDY) >> TRNG_INTFLAG_DATARDY_Pos;
+}
+
+static inline void hri_trng_clear_interrupt_DATARDY_bit(const void *const hw)
+{
+	((Trng *)hw)->INTFLAG.reg = TRNG_INTFLAG_DATARDY;
+}
+
+static inline hri_trng_intflag_reg_t hri_trng_get_INTFLAG_reg(const void *const hw, hri_trng_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_trng_intflag_reg_t hri_trng_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Trng *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_trng_clear_INTFLAG_reg(const void *const hw, hri_trng_intflag_reg_t mask)
+{
+	((Trng *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_trng_set_INTEN_DATARDY_bit(const void *const hw)
+{
+	((Trng *)hw)->INTENSET.reg = TRNG_INTENSET_DATARDY;
+}
+
+static inline bool hri_trng_get_INTEN_DATARDY_bit(const void *const hw)
+{
+	return (((Trng *)hw)->INTENSET.reg & TRNG_INTENSET_DATARDY) >> TRNG_INTENSET_DATARDY_Pos;
+}
+
+static inline void hri_trng_write_INTEN_DATARDY_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Trng *)hw)->INTENCLR.reg = TRNG_INTENSET_DATARDY;
+	} else {
+		((Trng *)hw)->INTENSET.reg = TRNG_INTENSET_DATARDY;
+	}
+}
+
+static inline void hri_trng_clear_INTEN_DATARDY_bit(const void *const hw)
+{
+	((Trng *)hw)->INTENCLR.reg = TRNG_INTENSET_DATARDY;
+}
+
+static inline void hri_trng_set_INTEN_reg(const void *const hw, hri_trng_intenset_reg_t mask)
+{
+	((Trng *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_trng_intenset_reg_t hri_trng_get_INTEN_reg(const void *const hw, hri_trng_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_trng_intenset_reg_t hri_trng_read_INTEN_reg(const void *const hw)
+{
+	return ((Trng *)hw)->INTENSET.reg;
+}
+
+static inline void hri_trng_write_INTEN_reg(const void *const hw, hri_trng_intenset_reg_t data)
+{
+	((Trng *)hw)->INTENSET.reg = data;
+	((Trng *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_trng_clear_INTEN_reg(const void *const hw, hri_trng_intenset_reg_t mask)
+{
+	((Trng *)hw)->INTENCLR.reg = mask;
+}
+
+static inline hri_trng_data_reg_t hri_trng_get_DATA_DATA_bf(const void *const hw, hri_trng_data_reg_t mask)
+{
+	return (((Trng *)hw)->DATA.reg & TRNG_DATA_DATA(mask)) >> TRNG_DATA_DATA_Pos;
+}
+
+static inline hri_trng_data_reg_t hri_trng_read_DATA_DATA_bf(const void *const hw)
+{
+	return (((Trng *)hw)->DATA.reg & TRNG_DATA_DATA_Msk) >> TRNG_DATA_DATA_Pos;
+}
+
+static inline hri_trng_data_reg_t hri_trng_get_DATA_reg(const void *const hw, hri_trng_data_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Trng *)hw)->DATA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_trng_data_reg_t hri_trng_read_DATA_reg(const void *const hw)
+{
+	return ((Trng *)hw)->DATA.reg;
+}
+
+static inline void hri_trng_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg |= TRNG_CTRLA_ENABLE;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_trng_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->CTRLA.reg;
+	tmp = (tmp & TRNG_CTRLA_ENABLE) >> TRNG_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_trng_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TRNG_CRITICAL_SECTION_ENTER();
+	tmp = ((Trng *)hw)->CTRLA.reg;
+	tmp &= ~TRNG_CTRLA_ENABLE;
+	tmp |= value << TRNG_CTRLA_ENABLE_Pos;
+	((Trng *)hw)->CTRLA.reg = tmp;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg &= ~TRNG_CTRLA_ENABLE;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg ^= TRNG_CTRLA_ENABLE;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg |= TRNG_CTRLA_RUNSTDBY;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_trng_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->CTRLA.reg;
+	tmp = (tmp & TRNG_CTRLA_RUNSTDBY) >> TRNG_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_trng_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TRNG_CRITICAL_SECTION_ENTER();
+	tmp = ((Trng *)hw)->CTRLA.reg;
+	tmp &= ~TRNG_CTRLA_RUNSTDBY;
+	tmp |= value << TRNG_CTRLA_RUNSTDBY_Pos;
+	((Trng *)hw)->CTRLA.reg = tmp;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg &= ~TRNG_CTRLA_RUNSTDBY;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg ^= TRNG_CTRLA_RUNSTDBY;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_set_CTRLA_reg(const void *const hw, hri_trng_ctrla_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg |= mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_trng_ctrla_reg_t hri_trng_get_CTRLA_reg(const void *const hw, hri_trng_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_trng_write_CTRLA_reg(const void *const hw, hri_trng_ctrla_reg_t data)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg = data;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_clear_CTRLA_reg(const void *const hw, hri_trng_ctrla_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg &= ~mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_toggle_CTRLA_reg(const void *const hw, hri_trng_ctrla_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->CTRLA.reg ^= mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_trng_ctrla_reg_t hri_trng_read_CTRLA_reg(const void *const hw)
+{
+	return ((Trng *)hw)->CTRLA.reg;
+}
+
+static inline void hri_trng_set_EVCTRL_DATARDYEO_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg |= TRNG_EVCTRL_DATARDYEO;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_trng_get_EVCTRL_DATARDYEO_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->EVCTRL.reg;
+	tmp = (tmp & TRNG_EVCTRL_DATARDYEO) >> TRNG_EVCTRL_DATARDYEO_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_trng_write_EVCTRL_DATARDYEO_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	TRNG_CRITICAL_SECTION_ENTER();
+	tmp = ((Trng *)hw)->EVCTRL.reg;
+	tmp &= ~TRNG_EVCTRL_DATARDYEO;
+	tmp |= value << TRNG_EVCTRL_DATARDYEO_Pos;
+	((Trng *)hw)->EVCTRL.reg = tmp;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_clear_EVCTRL_DATARDYEO_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg &= ~TRNG_EVCTRL_DATARDYEO;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_toggle_EVCTRL_DATARDYEO_bit(const void *const hw)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg ^= TRNG_EVCTRL_DATARDYEO;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_set_EVCTRL_reg(const void *const hw, hri_trng_evctrl_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg |= mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_trng_evctrl_reg_t hri_trng_get_EVCTRL_reg(const void *const hw, hri_trng_evctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Trng *)hw)->EVCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_trng_write_EVCTRL_reg(const void *const hw, hri_trng_evctrl_reg_t data)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg = data;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_clear_EVCTRL_reg(const void *const hw, hri_trng_evctrl_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg &= ~mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_trng_toggle_EVCTRL_reg(const void *const hw, hri_trng_evctrl_reg_t mask)
+{
+	TRNG_CRITICAL_SECTION_ENTER();
+	((Trng *)hw)->EVCTRL.reg ^= mask;
+	TRNG_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_trng_evctrl_reg_t hri_trng_read_EVCTRL_reg(const void *const hw)
+{
+	return ((Trng *)hw)->EVCTRL.reg;
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_TRNG_L22_H_INCLUDED */
+#endif /* _SAML22_TRNG_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_usb_l22.h b/watch-library/hardware/hri/hri_usb_l22.h
new file mode 100644
index 00000000..57a9419d
--- /dev/null
+++ b/watch-library/hardware/hri/hri_usb_l22.h
@@ -0,0 +1,4713 @@
+/**
+ * \file
+ *
+ * \brief SAM USB
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_USB_COMPONENT_
+#ifndef _HRI_USB_L22_H_INCLUDED_
+#define _HRI_USB_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_USB_CRITICAL_SECTIONS)
+#define USB_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define USB_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define USB_CRITICAL_SECTION_ENTER()
+#define USB_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint16_t hri_usb_padcal_reg_t;
+typedef uint16_t hri_usbdesc_bank_extreg_reg_t;
+typedef uint16_t hri_usbdescriptordevice_extreg_reg_t;
+typedef uint16_t hri_usbdevice_ctrlb_reg_t;
+typedef uint16_t hri_usbdevice_epintsmry_reg_t;
+typedef uint16_t hri_usbdevice_fnum_reg_t;
+typedef uint16_t hri_usbdevice_intenset_reg_t;
+typedef uint16_t hri_usbdevice_intflag_reg_t;
+typedef uint32_t hri_usb_descadd_reg_t;
+typedef uint32_t hri_usbdesc_bank_addr_reg_t;
+typedef uint32_t hri_usbdesc_bank_pcksize_reg_t;
+typedef uint32_t hri_usbdescriptordevice_addr_reg_t;
+typedef uint32_t hri_usbdescriptordevice_pcksize_reg_t;
+typedef uint8_t  hri_usb_ctrla_reg_t;
+typedef uint8_t  hri_usb_fsmstatus_reg_t;
+typedef uint8_t  hri_usb_qosctrl_reg_t;
+typedef uint8_t  hri_usb_syncbusy_reg_t;
+typedef uint8_t  hri_usbdesc_bank_status_bk_reg_t;
+typedef uint8_t  hri_usbdescriptordevice_status_bk_reg_t;
+typedef uint8_t  hri_usbdevice_dadd_reg_t;
+typedef uint8_t  hri_usbdevice_epcfg_reg_t;
+typedef uint8_t  hri_usbdevice_epintenset_reg_t;
+typedef uint8_t  hri_usbdevice_epintflag_reg_t;
+typedef uint8_t  hri_usbdevice_epstatus_reg_t;
+typedef uint8_t  hri_usbdevice_status_reg_t;
+typedef uint8_t  hri_usbendpoint_epcfg_reg_t;
+typedef uint8_t  hri_usbendpoint_epintenset_reg_t;
+typedef uint8_t  hri_usbendpoint_epintflag_reg_t;
+typedef uint8_t  hri_usbendpoint_epstatus_reg_t;
+
+static inline void hri_usb_wait_for_sync(const void *const hw, hri_usb_syncbusy_reg_t reg)
+{
+	while (((Usb *)hw)->DEVICE.SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_usb_is_syncing(const void *const hw, hri_usb_syncbusy_reg_t reg)
+{
+	return ((Usb *)hw)->DEVICE.SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT0)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT1)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL0)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL1)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL1;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_RXSTP)
+	       >> USB_DEVICE_EPINTFLAG_RXSTP_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL0)
+	       >> USB_DEVICE_EPINTFLAG_STALL0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTFLAG_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL1)
+	       >> USB_DEVICE_EPINTFLAG_STALL1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL1;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT0)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT1)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL0)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL0;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL1)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL1;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_RXSTP)
+	       >> USB_DEVICE_EPINTFLAG_RXSTP_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL0)
+	       >> USB_DEVICE_EPINTFLAG_STALL0_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL0;
+}
+
+static inline bool hri_usbendpoint_get_interrupt_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL1)
+	       >> USB_DEVICE_EPINTFLAG_STALL1_Pos;
+}
+
+static inline void hri_usbendpoint_clear_interrupt_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL1;
+}
+
+static inline hri_usbendpoint_epintflag_reg_t
+hri_usbendpoint_get_EPINTFLAG_reg(const void *const hw, uint8_t submodule_index, hri_usbendpoint_epintflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbendpoint_epintflag_reg_t hri_usbendpoint_read_EPINTFLAG_reg(const void *const hw,
+                                                                                 uint8_t           submodule_index)
+{
+	return ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg;
+}
+
+static inline void hri_usbendpoint_clear_EPINTFLAG_reg(const void *const hw, uint8_t submodule_index,
+                                                       hri_usbendpoint_epintflag_reg_t mask)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTFLAG.reg = mask;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_DTGLOUT)
+	       >> USB_DEVICE_EPSTATUS_DTGLOUT_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_DTGLIN)
+	       >> USB_DEVICE_EPSTATUS_DTGLIN_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_CURBK;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_CURBK)
+	       >> USB_DEVICE_EPSTATUS_CURBK_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_CURBK;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_CURBK;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_CURBK;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_STALLRQ0)
+	       >> USB_DEVICE_EPSTATUS_STALLRQ0_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index,
+                                                               bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_STALLRQ1)
+	       >> USB_DEVICE_EPSTATUS_STALLRQ1_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index,
+                                                               bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_BK0RDY)
+	       >> USB_DEVICE_EPSTATUS_BK0RDY_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+}
+
+static inline bool hri_usbendpoint_get_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_BK1RDY)
+	       >> USB_DEVICE_EPSTATUS_BK1RDY_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+}
+
+static inline void hri_usbendpoint_set_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                    hri_usbendpoint_epstatus_reg_t mask)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = mask;
+}
+
+static inline hri_usbendpoint_epstatus_reg_t
+hri_usbendpoint_get_EPSTATUS_reg(const void *const hw, uint8_t submodule_index, hri_usbendpoint_epstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbendpoint_epstatus_reg_t hri_usbendpoint_read_EPSTATUS_reg(const void *const hw,
+                                                                               uint8_t           submodule_index)
+{
+	return ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUS.reg;
+}
+
+static inline void hri_usbendpoint_write_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                      hri_usbendpoint_epstatus_reg_t data)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSSET.reg = data;
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = ~data;
+}
+
+static inline void hri_usbendpoint_clear_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                      hri_usbendpoint_epstatus_reg_t mask)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = mask;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRCPT0)
+	       >> USB_DEVICE_EPINTENSET_TRCPT0_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRCPT1)
+	       >> USB_DEVICE_EPINTENSET_TRCPT1_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRFAIL0)
+	       >> USB_DEVICE_EPINTENSET_TRFAIL0_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRFAIL1)
+	       >> USB_DEVICE_EPINTENSET_TRFAIL1_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_RXSTP;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_RXSTP)
+	       >> USB_DEVICE_EPINTENSET_RXSTP_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_RXSTP;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_RXSTP;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_RXSTP;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL0;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_STALL0)
+	       >> USB_DEVICE_EPINTENSET_STALL0_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL0;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL0;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL0;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL1;
+}
+
+static inline bool hri_usbendpoint_get_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_STALL1)
+	       >> USB_DEVICE_EPINTENSET_STALL1_Pos;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL1;
+	} else {
+		((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL1;
+	}
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL1;
+}
+
+static inline void hri_usbendpoint_set_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                   hri_usbendpoint_epintenset_reg_t mask)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = mask;
+}
+
+static inline hri_usbendpoint_epintenset_reg_t
+hri_usbendpoint_get_EPINTEN_reg(const void *const hw, uint8_t submodule_index, hri_usbendpoint_epintenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbendpoint_epintenset_reg_t hri_usbendpoint_read_EPINTEN_reg(const void *const hw,
+                                                                                uint8_t           submodule_index)
+{
+	return ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg;
+}
+
+static inline void hri_usbendpoint_write_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                     hri_usbendpoint_epintenset_reg_t data)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENSET.reg = data;
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = ~data;
+}
+
+static inline void hri_usbendpoint_clear_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                     hri_usbendpoint_epintenset_reg_t mask)
+{
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPINTENCLR.reg = mask;
+}
+
+static inline void hri_usbendpoint_set_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbendpoint_get_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_NYETDIS) >> USB_DEVICE_EPCFG_NYETDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbendpoint_write_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_NYETDIS;
+	tmp |= value << USB_DEVICE_EPCFG_NYETDIS_Pos;
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_clear_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_toggle_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_set_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t
+hri_usbendpoint_get_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index, hri_usbendpoint_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE0(mask)) >> USB_DEVICE_EPCFG_EPTYPE0_Pos;
+	return tmp;
+}
+
+static inline void hri_usbendpoint_write_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbendpoint_epcfg_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_EPTYPE0_Msk;
+	tmp |= USB_DEVICE_EPCFG_EPTYPE0(data);
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_clear_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_toggle_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t hri_usbendpoint_read_EPCFG_EPTYPE0_bf(const void *const hw,
+                                                                                uint8_t           submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE0_Msk) >> USB_DEVICE_EPCFG_EPTYPE0_Pos;
+	return tmp;
+}
+
+static inline void hri_usbendpoint_set_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t
+hri_usbendpoint_get_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index, hri_usbendpoint_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE1(mask)) >> USB_DEVICE_EPCFG_EPTYPE1_Pos;
+	return tmp;
+}
+
+static inline void hri_usbendpoint_write_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbendpoint_epcfg_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_EPTYPE1_Msk;
+	tmp |= USB_DEVICE_EPCFG_EPTYPE1(data);
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_clear_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_toggle_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t hri_usbendpoint_read_EPCFG_EPTYPE1_bf(const void *const hw,
+                                                                                uint8_t           submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE1_Msk) >> USB_DEVICE_EPCFG_EPTYPE1_Pos;
+	return tmp;
+}
+
+static inline void hri_usbendpoint_set_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t hri_usbendpoint_get_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                                        hri_usbendpoint_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbendpoint_write_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                   hri_usbendpoint_epcfg_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_clear_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                   hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbendpoint_toggle_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                    hri_usbendpoint_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbendpoint_epcfg_reg_t hri_usbendpoint_read_EPCFG_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((UsbDevice *)hw)->DeviceEndpoint[submodule_index].EPCFG.reg;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT0)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT0_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT1)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT1_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL0)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL0_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL0;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL1)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL1_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL1;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_RXSTP)
+	       >> USB_DEVICE_EPINTFLAG_RXSTP_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL0)
+	       >> USB_DEVICE_EPINTFLAG_STALL0_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL0;
+}
+
+static inline bool hri_usbdevice_get_EPINTFLAG_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL1)
+	       >> USB_DEVICE_EPINTFLAG_STALL1_Pos;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL1;
+}
+
+static inline bool hri_usbdevice_get_interrupt_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT0)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT0_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
+}
+
+static inline bool hri_usbdevice_get_interrupt_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRCPT1)
+	       >> USB_DEVICE_EPINTFLAG_TRCPT1_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
+}
+
+static inline bool hri_usbdevice_get_interrupt_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL0)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL0_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL0;
+}
+
+static inline bool hri_usbdevice_get_interrupt_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_TRFAIL1)
+	       >> USB_DEVICE_EPINTFLAG_TRFAIL1_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRFAIL1;
+}
+
+static inline bool hri_usbdevice_get_interrupt_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_RXSTP)
+	       >> USB_DEVICE_EPINTFLAG_RXSTP_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
+}
+
+static inline bool hri_usbdevice_get_interrupt_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL0)
+	       >> USB_DEVICE_EPINTFLAG_STALL0_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL0;
+}
+
+static inline bool hri_usbdevice_get_interrupt_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg & USB_DEVICE_EPINTFLAG_STALL1)
+	       >> USB_DEVICE_EPINTFLAG_STALL1_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_STALL1;
+}
+
+static inline hri_usbdevice_epintflag_reg_t
+hri_usbdevice_get_EPINTFLAG_reg(const void *const hw, uint8_t submodule_index, hri_usbdevice_epintflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_epintflag_reg_t hri_usbdevice_read_EPINTFLAG_reg(const void *const hw,
+                                                                             uint8_t           submodule_index)
+{
+	return ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg;
+}
+
+static inline void hri_usbdevice_clear_EPINTFLAG_reg(const void *const hw, uint8_t submodule_index,
+                                                     hri_usbdevice_epintflag_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTFLAG.reg = mask;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_DTGLOUT)
+	       >> USB_DEVICE_EPSTATUS_DTGLOUT_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_DTGLOUT_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLOUT;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_DTGLIN)
+	       >> USB_DEVICE_EPSTATUS_DTGLIN_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_DTGLIN_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_DTGLIN;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_CURBK;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_CURBK)
+	       >> USB_DEVICE_EPSTATUS_CURBK_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_CURBK;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_CURBK;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_CURBK_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_CURBK;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_STALLRQ0)
+	       >> USB_DEVICE_EPSTATUS_STALLRQ0_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_STALLRQ0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ0;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_STALLRQ1)
+	       >> USB_DEVICE_EPSTATUS_STALLRQ1_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_STALLRQ1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_STALLRQ1;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_BK0RDY)
+	       >> USB_DEVICE_EPSTATUS_BK0RDY_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_BK0RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK0RDY;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+}
+
+static inline bool hri_usbdevice_get_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg & USB_DEVICE_EPSTATUS_BK1RDY)
+	       >> USB_DEVICE_EPSTATUS_BK1RDY_Pos;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_BK1RDY_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = USB_DEVICE_EPSTATUS_BK1RDY;
+}
+
+static inline void hri_usbdevice_set_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                  hri_usbdevice_epstatus_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = mask;
+}
+
+static inline hri_usbdevice_epstatus_reg_t hri_usbdevice_get_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                                          hri_usbdevice_epstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_epstatus_reg_t hri_usbdevice_read_EPSTATUS_reg(const void *const hw,
+                                                                           uint8_t           submodule_index)
+{
+	return ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUS.reg;
+}
+
+static inline void hri_usbdevice_write_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                    hri_usbdevice_epstatus_reg_t data)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSSET.reg = data;
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = ~data;
+}
+
+static inline void hri_usbdevice_clear_EPSTATUS_reg(const void *const hw, uint8_t submodule_index,
+                                                    hri_usbdevice_epstatus_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPSTATUSCLR.reg = mask;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRCPT0)
+	       >> USB_DEVICE_EPINTENSET_TRCPT0_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_TRCPT0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT0;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRCPT1)
+	       >> USB_DEVICE_EPINTENSET_TRCPT1_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_TRCPT1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRCPT1;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRFAIL0)
+	       >> USB_DEVICE_EPINTENSET_TRFAIL0_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_TRFAIL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL0;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_TRFAIL1)
+	       >> USB_DEVICE_EPINTENSET_TRFAIL1_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_TRFAIL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_TRFAIL1;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_RXSTP;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_RXSTP)
+	       >> USB_DEVICE_EPINTENSET_RXSTP_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_RXSTP;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_RXSTP;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_RXSTP_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_RXSTP;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL0;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_STALL0)
+	       >> USB_DEVICE_EPINTENSET_STALL0_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL0;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL0;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_STALL0_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL0;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL1;
+}
+
+static inline bool hri_usbdevice_get_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg & USB_DEVICE_EPINTENSET_STALL1)
+	       >> USB_DEVICE_EPINTENSET_STALL1_Pos;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL1;
+	} else {
+		((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = USB_DEVICE_EPINTENSET_STALL1;
+	}
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_STALL1_bit(const void *const hw, uint8_t submodule_index)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = USB_DEVICE_EPINTENSET_STALL1;
+}
+
+static inline void hri_usbdevice_set_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_usbdevice_epintenset_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = mask;
+}
+
+static inline hri_usbdevice_epintenset_reg_t
+hri_usbdevice_get_EPINTEN_reg(const void *const hw, uint8_t submodule_index, hri_usbdevice_epintenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_epintenset_reg_t hri_usbdevice_read_EPINTEN_reg(const void *const hw,
+                                                                            uint8_t           submodule_index)
+{
+	return ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg;
+}
+
+static inline void hri_usbdevice_write_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                   hri_usbdevice_epintenset_reg_t data)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENSET.reg = data;
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = ~data;
+}
+
+static inline void hri_usbdevice_clear_EPINTEN_reg(const void *const hw, uint8_t submodule_index,
+                                                   hri_usbdevice_epintenset_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPINTENCLR.reg = mask;
+}
+
+static inline void hri_usbdevice_set_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_NYETDIS) >> USB_DEVICE_EPCFG_NYETDIS_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_NYETDIS;
+	tmp |= value << USB_DEVICE_EPCFG_NYETDIS_Pos;
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_EPCFG_NYETDIS_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_NYETDIS;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t
+hri_usbdevice_get_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index, hri_usbdevice_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE0(mask)) >> USB_DEVICE_EPCFG_EPTYPE0_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbdevice_epcfg_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_EPTYPE0_Msk;
+	tmp |= USB_DEVICE_EPCFG_EPTYPE0(data);
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_EPCFG_EPTYPE0_bf(const void *const hw, uint8_t submodule_index,
+                                                         hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_EPTYPE0(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t hri_usbdevice_read_EPCFG_EPTYPE0_bf(const void *const hw,
+                                                                            uint8_t           submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE0_Msk) >> USB_DEVICE_EPCFG_EPTYPE0_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_set_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                      hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg |= USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t
+hri_usbdevice_get_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index, hri_usbdevice_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE1(mask)) >> USB_DEVICE_EPCFG_EPTYPE1_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbdevice_epcfg_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= ~USB_DEVICE_EPCFG_EPTYPE1_Msk;
+	tmp |= USB_DEVICE_EPCFG_EPTYPE1(data);
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg &= ~USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_EPCFG_EPTYPE1_bf(const void *const hw, uint8_t submodule_index,
+                                                         hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg ^= USB_DEVICE_EPCFG_EPTYPE1(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t hri_usbdevice_read_EPCFG_EPTYPE1_bf(const void *const hw,
+                                                                            uint8_t           submodule_index)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp = (tmp & USB_DEVICE_EPCFG_EPTYPE1_Msk) >> USB_DEVICE_EPCFG_EPTYPE1_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_set_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                               hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t hri_usbdevice_get_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                                    hri_usbdevice_epcfg_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_usbdevice_epcfg_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                 hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_EPCFG_reg(const void *const hw, uint8_t submodule_index,
+                                                  hri_usbdevice_epcfg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_epcfg_reg_t hri_usbdevice_read_EPCFG_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((Usb *)hw)->DEVICE.DeviceEndpoint[submodule_index].EPCFG.reg;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_SUSPEND_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_SUSPEND) >> USB_DEVICE_INTFLAG_SUSPEND_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_SUSPEND_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SUSPEND;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_MSOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_MSOF) >> USB_DEVICE_INTFLAG_MSOF_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_MSOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_MSOF;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_SOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_SOF) >> USB_DEVICE_INTFLAG_SOF_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_SOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SOF;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_EORST_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_EORST) >> USB_DEVICE_INTFLAG_EORST_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_EORST_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_EORST;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_WAKEUP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_WAKEUP) >> USB_DEVICE_INTFLAG_WAKEUP_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_WAKEUP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_WAKEUP;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_EORSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_EORSM) >> USB_DEVICE_INTFLAG_EORSM_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_EORSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_EORSM;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_UPRSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_UPRSM) >> USB_DEVICE_INTFLAG_UPRSM_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_UPRSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_UPRSM;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_RAMACER_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_RAMACER) >> USB_DEVICE_INTFLAG_RAMACER_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_RAMACER_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_RAMACER;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_LPMNYET_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_LPMNYET) >> USB_DEVICE_INTFLAG_LPMNYET_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_LPMNYET_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_LPMNYET;
+}
+
+static inline bool hri_usbdevice_get_INTFLAG_LPMSUSP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_LPMSUSP) >> USB_DEVICE_INTFLAG_LPMSUSP_Pos;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_LPMSUSP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_LPMSUSP;
+}
+
+static inline bool hri_usbdevice_get_interrupt_SUSPEND_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_SUSPEND) >> USB_DEVICE_INTFLAG_SUSPEND_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_SUSPEND_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SUSPEND;
+}
+
+static inline bool hri_usbdevice_get_interrupt_MSOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_MSOF) >> USB_DEVICE_INTFLAG_MSOF_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_MSOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_MSOF;
+}
+
+static inline bool hri_usbdevice_get_interrupt_SOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_SOF) >> USB_DEVICE_INTFLAG_SOF_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_SOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SOF;
+}
+
+static inline bool hri_usbdevice_get_interrupt_EORST_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_EORST) >> USB_DEVICE_INTFLAG_EORST_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_EORST_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_EORST;
+}
+
+static inline bool hri_usbdevice_get_interrupt_WAKEUP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_WAKEUP) >> USB_DEVICE_INTFLAG_WAKEUP_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_WAKEUP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_WAKEUP;
+}
+
+static inline bool hri_usbdevice_get_interrupt_EORSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_EORSM) >> USB_DEVICE_INTFLAG_EORSM_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_EORSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_EORSM;
+}
+
+static inline bool hri_usbdevice_get_interrupt_UPRSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_UPRSM) >> USB_DEVICE_INTFLAG_UPRSM_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_UPRSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_UPRSM;
+}
+
+static inline bool hri_usbdevice_get_interrupt_RAMACER_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_RAMACER) >> USB_DEVICE_INTFLAG_RAMACER_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_RAMACER_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_RAMACER;
+}
+
+static inline bool hri_usbdevice_get_interrupt_LPMNYET_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_LPMNYET) >> USB_DEVICE_INTFLAG_LPMNYET_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_LPMNYET_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_LPMNYET;
+}
+
+static inline bool hri_usbdevice_get_interrupt_LPMSUSP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTFLAG.reg & USB_DEVICE_INTFLAG_LPMSUSP) >> USB_DEVICE_INTFLAG_LPMSUSP_Pos;
+}
+
+static inline void hri_usbdevice_clear_interrupt_LPMSUSP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_LPMSUSP;
+}
+
+static inline hri_usbdevice_intflag_reg_t hri_usbdevice_get_INTFLAG_reg(const void *const           hw,
+                                                                        hri_usbdevice_intflag_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_intflag_reg_t hri_usbdevice_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.INTFLAG.reg;
+}
+
+static inline void hri_usbdevice_clear_INTFLAG_reg(const void *const hw, hri_usbdevice_intflag_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.INTFLAG.reg = mask;
+}
+
+static inline void hri_usbdevice_set_INTEN_SUSPEND_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SUSPEND;
+}
+
+static inline bool hri_usbdevice_get_INTEN_SUSPEND_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_SUSPEND) >> USB_DEVICE_INTENSET_SUSPEND_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_SUSPEND_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_SUSPEND;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SUSPEND;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_SUSPEND_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_SUSPEND;
+}
+
+static inline void hri_usbdevice_set_INTEN_MSOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_MSOF;
+}
+
+static inline bool hri_usbdevice_get_INTEN_MSOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_MSOF) >> USB_DEVICE_INTENSET_MSOF_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_MSOF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_MSOF;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_MSOF;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_MSOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_MSOF;
+}
+
+static inline void hri_usbdevice_set_INTEN_SOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SOF;
+}
+
+static inline bool hri_usbdevice_get_INTEN_SOF_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_SOF) >> USB_DEVICE_INTENSET_SOF_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_SOF_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_SOF;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SOF;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_SOF_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_SOF;
+}
+
+static inline void hri_usbdevice_set_INTEN_EORST_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_EORST;
+}
+
+static inline bool hri_usbdevice_get_INTEN_EORST_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_EORST) >> USB_DEVICE_INTENSET_EORST_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_EORST_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_EORST;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_EORST;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_EORST_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_EORST;
+}
+
+static inline void hri_usbdevice_set_INTEN_WAKEUP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_WAKEUP;
+}
+
+static inline bool hri_usbdevice_get_INTEN_WAKEUP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_WAKEUP) >> USB_DEVICE_INTENSET_WAKEUP_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_WAKEUP_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_WAKEUP;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_WAKEUP;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_WAKEUP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_WAKEUP;
+}
+
+static inline void hri_usbdevice_set_INTEN_EORSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_EORSM;
+}
+
+static inline bool hri_usbdevice_get_INTEN_EORSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_EORSM) >> USB_DEVICE_INTENSET_EORSM_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_EORSM_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_EORSM;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_EORSM;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_EORSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_EORSM;
+}
+
+static inline void hri_usbdevice_set_INTEN_UPRSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_UPRSM;
+}
+
+static inline bool hri_usbdevice_get_INTEN_UPRSM_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_UPRSM) >> USB_DEVICE_INTENSET_UPRSM_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_UPRSM_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_UPRSM;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_UPRSM;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_UPRSM_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_UPRSM;
+}
+
+static inline void hri_usbdevice_set_INTEN_RAMACER_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_RAMACER;
+}
+
+static inline bool hri_usbdevice_get_INTEN_RAMACER_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_RAMACER) >> USB_DEVICE_INTENSET_RAMACER_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_RAMACER_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_RAMACER;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_RAMACER;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_RAMACER_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_RAMACER;
+}
+
+static inline void hri_usbdevice_set_INTEN_LPMNYET_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_LPMNYET;
+}
+
+static inline bool hri_usbdevice_get_INTEN_LPMNYET_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_LPMNYET) >> USB_DEVICE_INTENSET_LPMNYET_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_LPMNYET_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_LPMNYET;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_LPMNYET;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_LPMNYET_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_LPMNYET;
+}
+
+static inline void hri_usbdevice_set_INTEN_LPMSUSP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_LPMSUSP;
+}
+
+static inline bool hri_usbdevice_get_INTEN_LPMSUSP_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.INTENSET.reg & USB_DEVICE_INTENSET_LPMSUSP) >> USB_DEVICE_INTENSET_LPMSUSP_Pos;
+}
+
+static inline void hri_usbdevice_write_INTEN_LPMSUSP_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_LPMSUSP;
+	} else {
+		((Usb *)hw)->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_LPMSUSP;
+	}
+}
+
+static inline void hri_usbdevice_clear_INTEN_LPMSUSP_bit(const void *const hw)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = USB_DEVICE_INTENSET_LPMSUSP;
+}
+
+static inline void hri_usbdevice_set_INTEN_reg(const void *const hw, hri_usbdevice_intenset_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = mask;
+}
+
+static inline hri_usbdevice_intenset_reg_t hri_usbdevice_get_INTEN_reg(const void *const            hw,
+                                                                       hri_usbdevice_intenset_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_intenset_reg_t hri_usbdevice_read_INTEN_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.INTENSET.reg;
+}
+
+static inline void hri_usbdevice_write_INTEN_reg(const void *const hw, hri_usbdevice_intenset_reg_t data)
+{
+	((Usb *)hw)->DEVICE.INTENSET.reg = data;
+	((Usb *)hw)->DEVICE.INTENCLR.reg = ~data;
+}
+
+static inline void hri_usbdevice_clear_INTEN_reg(const void *const hw, hri_usbdevice_intenset_reg_t mask)
+{
+	((Usb *)hw)->DEVICE.INTENCLR.reg = mask;
+}
+
+static inline bool hri_usb_get_SYNCBUSY_SWRST_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.SYNCBUSY.reg & USB_SYNCBUSY_SWRST) >> USB_SYNCBUSY_SWRST_Pos;
+}
+
+static inline bool hri_usb_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.SYNCBUSY.reg & USB_SYNCBUSY_ENABLE) >> USB_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline hri_usb_syncbusy_reg_t hri_usb_get_SYNCBUSY_reg(const void *const hw, hri_usb_syncbusy_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usb_syncbusy_reg_t hri_usb_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.SYNCBUSY.reg;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_get_STATUS_SPEED_bf(const void *const          hw,
+                                                                           hri_usbdevice_status_reg_t mask)
+{
+	return (((Usb *)hw)->DEVICE.STATUS.reg & USB_DEVICE_STATUS_SPEED(mask)) >> USB_DEVICE_STATUS_SPEED_Pos;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_read_STATUS_SPEED_bf(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.STATUS.reg & USB_DEVICE_STATUS_SPEED_Msk) >> USB_DEVICE_STATUS_SPEED_Pos;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_get_STATUS_LINESTATE_bf(const void *const          hw,
+                                                                               hri_usbdevice_status_reg_t mask)
+{
+	return (((Usb *)hw)->DEVICE.STATUS.reg & USB_DEVICE_STATUS_LINESTATE(mask)) >> USB_DEVICE_STATUS_LINESTATE_Pos;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_read_STATUS_LINESTATE_bf(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.STATUS.reg & USB_DEVICE_STATUS_LINESTATE_Msk) >> USB_DEVICE_STATUS_LINESTATE_Pos;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_get_STATUS_reg(const void *const          hw,
+                                                                      hri_usbdevice_status_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.STATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_status_reg_t hri_usbdevice_read_STATUS_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.STATUS.reg;
+}
+
+static inline hri_usb_fsmstatus_reg_t hri_usb_get_FSMSTATUS_FSMSTATE_bf(const void *const       hw,
+                                                                        hri_usb_fsmstatus_reg_t mask)
+{
+	return (((Usb *)hw)->DEVICE.FSMSTATUS.reg & USB_FSMSTATUS_FSMSTATE(mask)) >> USB_FSMSTATUS_FSMSTATE_Pos;
+}
+
+static inline hri_usb_fsmstatus_reg_t hri_usb_read_FSMSTATUS_FSMSTATE_bf(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.FSMSTATUS.reg & USB_FSMSTATUS_FSMSTATE_Msk) >> USB_FSMSTATUS_FSMSTATE_Pos;
+}
+
+static inline hri_usb_fsmstatus_reg_t hri_usb_get_FSMSTATUS_reg(const void *const hw, hri_usb_fsmstatus_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.FSMSTATUS.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usb_fsmstatus_reg_t hri_usb_read_FSMSTATUS_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.FSMSTATUS.reg;
+}
+
+static inline bool hri_usbdevice_get_FNUM_FNCERR_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.FNUM.reg & USB_DEVICE_FNUM_FNCERR) >> USB_DEVICE_FNUM_FNCERR_Pos;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_get_FNUM_MFNUM_bf(const void *const        hw,
+                                                                       hri_usbdevice_fnum_reg_t mask)
+{
+	return (((Usb *)hw)->DEVICE.FNUM.reg & USB_DEVICE_FNUM_MFNUM(mask)) >> USB_DEVICE_FNUM_MFNUM_Pos;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_read_FNUM_MFNUM_bf(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.FNUM.reg & USB_DEVICE_FNUM_MFNUM_Msk) >> USB_DEVICE_FNUM_MFNUM_Pos;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_get_FNUM_FNUM_bf(const void *const        hw,
+                                                                      hri_usbdevice_fnum_reg_t mask)
+{
+	return (((Usb *)hw)->DEVICE.FNUM.reg & USB_DEVICE_FNUM_FNUM(mask)) >> USB_DEVICE_FNUM_FNUM_Pos;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_read_FNUM_FNUM_bf(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.FNUM.reg & USB_DEVICE_FNUM_FNUM_Msk) >> USB_DEVICE_FNUM_FNUM_Pos;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_get_FNUM_reg(const void *const hw, hri_usbdevice_fnum_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.FNUM.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_fnum_reg_t hri_usbdevice_read_FNUM_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.FNUM.reg;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT0_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT0) >> USB_DEVICE_EPINTSMRY_EPINT0_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT1_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT1) >> USB_DEVICE_EPINTSMRY_EPINT1_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT2_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT2) >> USB_DEVICE_EPINTSMRY_EPINT2_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT3_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT3) >> USB_DEVICE_EPINTSMRY_EPINT3_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT4_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT4) >> USB_DEVICE_EPINTSMRY_EPINT4_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT5_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT5) >> USB_DEVICE_EPINTSMRY_EPINT5_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT6_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT6) >> USB_DEVICE_EPINTSMRY_EPINT6_Pos;
+}
+
+static inline bool hri_usbdevice_get_EPINTSMRY_EPINT7_bit(const void *const hw)
+{
+	return (((Usb *)hw)->DEVICE.EPINTSMRY.reg & USB_DEVICE_EPINTSMRY_EPINT7) >> USB_DEVICE_EPINTSMRY_EPINT7_Pos;
+}
+
+static inline hri_usbdevice_epintsmry_reg_t hri_usbdevice_get_EPINTSMRY_reg(const void *const             hw,
+                                                                            hri_usbdevice_epintsmry_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.EPINTSMRY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_usbdevice_epintsmry_reg_t hri_usbdevice_read_EPINTSMRY_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.EPINTSMRY.reg;
+}
+
+static inline void hri_usb_set_CTRLA_SWRST_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg |= USB_CTRLA_SWRST;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usb_get_CTRLA_SWRST_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST);
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp = (tmp & USB_CTRLA_SWRST) >> USB_CTRLA_SWRST_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usb_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg |= USB_CTRLA_ENABLE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST | USB_SYNCBUSY_ENABLE);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usb_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST | USB_SYNCBUSY_ENABLE);
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp = (tmp & USB_CTRLA_ENABLE) >> USB_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usb_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp &= ~USB_CTRLA_ENABLE;
+	tmp |= value << USB_CTRLA_ENABLE_Pos;
+	((Usb *)hw)->DEVICE.CTRLA.reg = tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST | USB_SYNCBUSY_ENABLE);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg &= ~USB_CTRLA_ENABLE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST | USB_SYNCBUSY_ENABLE);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg ^= USB_CTRLA_ENABLE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_SWRST | USB_SYNCBUSY_ENABLE);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_set_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg |= USB_CTRLA_RUNSTDBY;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usb_get_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp = (tmp & USB_CTRLA_RUNSTDBY) >> USB_CTRLA_RUNSTDBY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usb_write_CTRLA_RUNSTDBY_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp &= ~USB_CTRLA_RUNSTDBY;
+	tmp |= value << USB_CTRLA_RUNSTDBY_Pos;
+	((Usb *)hw)->DEVICE.CTRLA.reg = tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg &= ~USB_CTRLA_RUNSTDBY;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_CTRLA_RUNSTDBY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg ^= USB_CTRLA_RUNSTDBY;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_set_CTRLA_MODE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg |= USB_CTRLA_MODE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usb_get_CTRLA_MODE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp = (tmp & USB_CTRLA_MODE) >> USB_CTRLA_MODE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usb_write_CTRLA_MODE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp &= ~USB_CTRLA_MODE;
+	tmp |= value << USB_CTRLA_MODE_Pos;
+	((Usb *)hw)->DEVICE.CTRLA.reg = tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_CTRLA_MODE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg &= ~USB_CTRLA_MODE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_CTRLA_MODE_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg ^= USB_CTRLA_MODE;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_set_CTRLA_reg(const void *const hw, hri_usb_ctrla_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg |= mask;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_ctrla_reg_t hri_usb_get_CTRLA_reg(const void *const hw, hri_usb_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	tmp = ((Usb *)hw)->DEVICE.CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usb_write_CTRLA_reg(const void *const hw, hri_usb_ctrla_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg = data;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_CTRLA_reg(const void *const hw, hri_usb_ctrla_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg &= ~mask;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_CTRLA_reg(const void *const hw, hri_usb_ctrla_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLA.reg ^= mask;
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_ctrla_reg_t hri_usb_read_CTRLA_reg(const void *const hw)
+{
+	hri_usb_wait_for_sync(hw, USB_SYNCBUSY_MASK);
+	return ((Usb *)hw)->DEVICE.CTRLA.reg;
+}
+
+static inline void hri_usb_set_QOSCTRL_CQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg |= USB_QOSCTRL_CQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_get_QOSCTRL_CQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp = (tmp & USB_QOSCTRL_CQOS(mask)) >> USB_QOSCTRL_CQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_QOSCTRL_CQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp &= ~USB_QOSCTRL_CQOS_Msk;
+	tmp |= USB_QOSCTRL_CQOS(data);
+	((Usb *)hw)->DEVICE.QOSCTRL.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_QOSCTRL_CQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg &= ~USB_QOSCTRL_CQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_QOSCTRL_CQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg ^= USB_QOSCTRL_CQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_read_QOSCTRL_CQOS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp = (tmp & USB_QOSCTRL_CQOS_Msk) >> USB_QOSCTRL_CQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_QOSCTRL_DQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg |= USB_QOSCTRL_DQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_get_QOSCTRL_DQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp = (tmp & USB_QOSCTRL_DQOS(mask)) >> USB_QOSCTRL_DQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_QOSCTRL_DQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp &= ~USB_QOSCTRL_DQOS_Msk;
+	tmp |= USB_QOSCTRL_DQOS(data);
+	((Usb *)hw)->DEVICE.QOSCTRL.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_QOSCTRL_DQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg &= ~USB_QOSCTRL_DQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_QOSCTRL_DQOS_bf(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg ^= USB_QOSCTRL_DQOS(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_read_QOSCTRL_DQOS_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp = (tmp & USB_QOSCTRL_DQOS_Msk) >> USB_QOSCTRL_DQOS_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_QOSCTRL_reg(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_get_QOSCTRL_reg(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usb_write_QOSCTRL_reg(const void *const hw, hri_usb_qosctrl_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_QOSCTRL_reg(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_QOSCTRL_reg(const void *const hw, hri_usb_qosctrl_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.QOSCTRL.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_qosctrl_reg_t hri_usb_read_QOSCTRL_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.QOSCTRL.reg;
+}
+
+static inline void hri_usbdevice_set_CTRLB_DETACH_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_DETACH;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_DETACH_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_DETACH) >> USB_DEVICE_CTRLB_DETACH_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_DETACH_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_DETACH;
+	tmp |= value << USB_DEVICE_CTRLB_DETACH_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_DETACH_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_DETACH;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_DETACH_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_DETACH;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_UPRSM_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_UPRSM;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_UPRSM_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_UPRSM) >> USB_DEVICE_CTRLB_UPRSM_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_UPRSM_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_UPRSM;
+	tmp |= value << USB_DEVICE_CTRLB_UPRSM_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_UPRSM_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_UPRSM;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_UPRSM_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_UPRSM;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_NREPLY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_NREPLY;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_NREPLY_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_NREPLY) >> USB_DEVICE_CTRLB_NREPLY_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_NREPLY_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_NREPLY;
+	tmp |= value << USB_DEVICE_CTRLB_NREPLY_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_NREPLY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_NREPLY;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_NREPLY_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_NREPLY;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_TSTJ_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_TSTJ;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_TSTJ_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_TSTJ) >> USB_DEVICE_CTRLB_TSTJ_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_TSTJ_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_TSTJ;
+	tmp |= value << USB_DEVICE_CTRLB_TSTJ_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_TSTJ_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_TSTJ;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_TSTJ_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_TSTJ;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_TSTK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_TSTK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_TSTK_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_TSTK) >> USB_DEVICE_CTRLB_TSTK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_TSTK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_TSTK;
+	tmp |= value << USB_DEVICE_CTRLB_TSTK_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_TSTK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_TSTK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_TSTK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_TSTK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_TSTPCKT_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_TSTPCKT;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_TSTPCKT_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_TSTPCKT) >> USB_DEVICE_CTRLB_TSTPCKT_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_TSTPCKT_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_TSTPCKT;
+	tmp |= value << USB_DEVICE_CTRLB_TSTPCKT_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_TSTPCKT_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_TSTPCKT;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_TSTPCKT_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_TSTPCKT;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_OPMODE2_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_OPMODE2;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_OPMODE2_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_OPMODE2) >> USB_DEVICE_CTRLB_OPMODE2_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_OPMODE2_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_OPMODE2;
+	tmp |= value << USB_DEVICE_CTRLB_OPMODE2_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_OPMODE2_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_OPMODE2;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_OPMODE2_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_OPMODE2;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_GNAK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_GNAK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_CTRLB_GNAK_bit(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_GNAK) >> USB_DEVICE_CTRLB_GNAK_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_GNAK_bit(const void *const hw, bool value)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_GNAK;
+	tmp |= value << USB_DEVICE_CTRLB_GNAK_Pos;
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_GNAK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_GNAK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_GNAK_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_GNAK;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_CTRLB_SPDCONF_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_SPDCONF(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_get_CTRLB_SPDCONF_bf(const void *const         hw,
+                                                                           hri_usbdevice_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_SPDCONF(mask)) >> USB_DEVICE_CTRLB_SPDCONF_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_SPDCONF_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_SPDCONF_Msk;
+	tmp |= USB_DEVICE_CTRLB_SPDCONF(data);
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_SPDCONF_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_SPDCONF(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_SPDCONF_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_SPDCONF(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_read_CTRLB_SPDCONF_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_SPDCONF_Msk) >> USB_DEVICE_CTRLB_SPDCONF_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_set_CTRLB_LPMHDSK_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= USB_DEVICE_CTRLB_LPMHDSK(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_get_CTRLB_LPMHDSK_bf(const void *const         hw,
+                                                                           hri_usbdevice_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_LPMHDSK(mask)) >> USB_DEVICE_CTRLB_LPMHDSK_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_LPMHDSK_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= ~USB_DEVICE_CTRLB_LPMHDSK_Msk;
+	tmp |= USB_DEVICE_CTRLB_LPMHDSK(data);
+	((Usb *)hw)->DEVICE.CTRLB.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_LPMHDSK_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~USB_DEVICE_CTRLB_LPMHDSK(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_LPMHDSK_bf(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= USB_DEVICE_CTRLB_LPMHDSK(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_read_CTRLB_LPMHDSK_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp = (tmp & USB_DEVICE_CTRLB_LPMHDSK_Msk) >> USB_DEVICE_CTRLB_LPMHDSK_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_set_CTRLB_reg(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_get_CTRLB_reg(const void *const         hw,
+                                                                    hri_usbdevice_ctrlb_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.CTRLB.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_CTRLB_reg(const void *const hw, hri_usbdevice_ctrlb_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_CTRLB_reg(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_CTRLB_reg(const void *const hw, hri_usbdevice_ctrlb_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.CTRLB.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_ctrlb_reg_t hri_usbdevice_read_CTRLB_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.CTRLB.reg;
+}
+
+static inline void hri_usbdevice_set_DADD_ADDEN_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg |= USB_DEVICE_DADD_ADDEN;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevice_get_DADD_ADDEN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp = (tmp & USB_DEVICE_DADD_ADDEN) >> USB_DEVICE_DADD_ADDEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevice_write_DADD_ADDEN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp &= ~USB_DEVICE_DADD_ADDEN;
+	tmp |= value << USB_DEVICE_DADD_ADDEN_Pos;
+	((Usb *)hw)->DEVICE.DADD.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_DADD_ADDEN_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg &= ~USB_DEVICE_DADD_ADDEN;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_DADD_ADDEN_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg ^= USB_DEVICE_DADD_ADDEN;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_set_DADD_DADD_bf(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg |= USB_DEVICE_DADD_DADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_dadd_reg_t hri_usbdevice_get_DADD_DADD_bf(const void *const        hw,
+                                                                      hri_usbdevice_dadd_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp = (tmp & USB_DEVICE_DADD_DADD(mask)) >> USB_DEVICE_DADD_DADD_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_DADD_DADD_bf(const void *const hw, hri_usbdevice_dadd_reg_t data)
+{
+	uint8_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp &= ~USB_DEVICE_DADD_DADD_Msk;
+	tmp |= USB_DEVICE_DADD_DADD(data);
+	((Usb *)hw)->DEVICE.DADD.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_DADD_DADD_bf(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg &= ~USB_DEVICE_DADD_DADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_DADD_DADD_bf(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg ^= USB_DEVICE_DADD_DADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_dadd_reg_t hri_usbdevice_read_DADD_DADD_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp = (tmp & USB_DEVICE_DADD_DADD_Msk) >> USB_DEVICE_DADD_DADD_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevice_set_DADD_reg(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_dadd_reg_t hri_usbdevice_get_DADD_reg(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DADD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevice_write_DADD_reg(const void *const hw, hri_usbdevice_dadd_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_clear_DADD_reg(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevice_toggle_DADD_reg(const void *const hw, hri_usbdevice_dadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DADD.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdevice_dadd_reg_t hri_usbdevice_read_DADD_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.DADD.reg;
+}
+
+static inline void hri_usb_set_DESCADD_DESCADD_bf(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg |= USB_DESCADD_DESCADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_descadd_reg_t hri_usb_get_DESCADD_DESCADD_bf(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DESCADD.reg;
+	tmp = (tmp & USB_DESCADD_DESCADD(mask)) >> USB_DESCADD_DESCADD_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_DESCADD_DESCADD_bf(const void *const hw, hri_usb_descadd_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.DESCADD.reg;
+	tmp &= ~USB_DESCADD_DESCADD_Msk;
+	tmp |= USB_DESCADD_DESCADD(data);
+	((Usb *)hw)->DEVICE.DESCADD.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_DESCADD_DESCADD_bf(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg &= ~USB_DESCADD_DESCADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_DESCADD_DESCADD_bf(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg ^= USB_DESCADD_DESCADD(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_descadd_reg_t hri_usb_read_DESCADD_DESCADD_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DESCADD.reg;
+	tmp = (tmp & USB_DESCADD_DESCADD_Msk) >> USB_DESCADD_DESCADD_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_DESCADD_reg(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_descadd_reg_t hri_usb_get_DESCADD_reg(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.DESCADD.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usb_write_DESCADD_reg(const void *const hw, hri_usb_descadd_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_DESCADD_reg(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_DESCADD_reg(const void *const hw, hri_usb_descadd_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.DESCADD.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_descadd_reg_t hri_usb_read_DESCADD_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.DESCADD.reg;
+}
+
+static inline void hri_usb_set_PADCAL_TRANSP_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg |= USB_PADCAL_TRANSP(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_get_PADCAL_TRANSP_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRANSP(mask)) >> USB_PADCAL_TRANSP_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_PADCAL_TRANSP_bf(const void *const hw, hri_usb_padcal_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp &= ~USB_PADCAL_TRANSP_Msk;
+	tmp |= USB_PADCAL_TRANSP(data);
+	((Usb *)hw)->DEVICE.PADCAL.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_PADCAL_TRANSP_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg &= ~USB_PADCAL_TRANSP(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_PADCAL_TRANSP_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg ^= USB_PADCAL_TRANSP(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_read_PADCAL_TRANSP_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRANSP_Msk) >> USB_PADCAL_TRANSP_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_PADCAL_TRANSN_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg |= USB_PADCAL_TRANSN(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_get_PADCAL_TRANSN_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRANSN(mask)) >> USB_PADCAL_TRANSN_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_PADCAL_TRANSN_bf(const void *const hw, hri_usb_padcal_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp &= ~USB_PADCAL_TRANSN_Msk;
+	tmp |= USB_PADCAL_TRANSN(data);
+	((Usb *)hw)->DEVICE.PADCAL.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_PADCAL_TRANSN_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg &= ~USB_PADCAL_TRANSN(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_PADCAL_TRANSN_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg ^= USB_PADCAL_TRANSN(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_read_PADCAL_TRANSN_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRANSN_Msk) >> USB_PADCAL_TRANSN_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_PADCAL_TRIM_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg |= USB_PADCAL_TRIM(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_get_PADCAL_TRIM_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRIM(mask)) >> USB_PADCAL_TRIM_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_write_PADCAL_TRIM_bf(const void *const hw, hri_usb_padcal_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp &= ~USB_PADCAL_TRIM_Msk;
+	tmp |= USB_PADCAL_TRIM(data);
+	((Usb *)hw)->DEVICE.PADCAL.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_PADCAL_TRIM_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg &= ~USB_PADCAL_TRIM(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_PADCAL_TRIM_bf(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg ^= USB_PADCAL_TRIM(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_read_PADCAL_TRIM_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp = (tmp & USB_PADCAL_TRIM_Msk) >> USB_PADCAL_TRIM_Pos;
+	return tmp;
+}
+
+static inline void hri_usb_set_PADCAL_reg(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_get_PADCAL_reg(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((Usb *)hw)->DEVICE.PADCAL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usb_write_PADCAL_reg(const void *const hw, hri_usb_padcal_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_clear_PADCAL_reg(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usb_toggle_PADCAL_reg(const void *const hw, hri_usb_padcal_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((Usb *)hw)->DEVICE.PADCAL.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usb_padcal_reg_t hri_usb_read_PADCAL_reg(const void *const hw)
+{
+	return ((Usb *)hw)->DEVICE.PADCAL.reg;
+}
+
+static inline void hri_usbdescbank_set_ADDR_ADDR_bf(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg |= USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_addr_reg_t hri_usbdescbank_get_ADDR_ADDR_bf(const void *const           hw,
+                                                                           hri_usbdesc_bank_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->ADDR.reg;
+	tmp = (tmp & USB_DEVICE_ADDR_ADDR(mask)) >> USB_DEVICE_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_ADDR_ADDR_bf(const void *const hw, hri_usbdesc_bank_addr_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->ADDR.reg;
+	tmp &= ~USB_DEVICE_ADDR_ADDR_Msk;
+	tmp |= USB_DEVICE_ADDR_ADDR(data);
+	((UsbDeviceDescBank *)hw)->ADDR.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_ADDR_ADDR_bf(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg &= ~USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_ADDR_ADDR_bf(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg ^= USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_addr_reg_t hri_usbdescbank_read_ADDR_ADDR_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->ADDR.reg;
+	tmp = (tmp & USB_DEVICE_ADDR_ADDR_Msk) >> USB_DEVICE_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_ADDR_reg(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_addr_reg_t hri_usbdescbank_get_ADDR_reg(const void *const           hw,
+                                                                       hri_usbdesc_bank_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_ADDR_reg(const void *const hw, hri_usbdesc_bank_addr_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_ADDR_reg(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_ADDR_reg(const void *const hw, hri_usbdesc_bank_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->ADDR.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_addr_reg_t hri_usbdescbank_read_ADDR_reg(const void *const hw)
+{
+	return ((UsbDeviceDescBank *)hw)->ADDR.reg;
+}
+
+static inline void hri_usbdescbank_set_PCKSIZE_AUTO_ZLP_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg |= USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdescbank_get_PCKSIZE_AUTO_ZLP_bit(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_AUTO_ZLP) >> USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdescbank_write_PCKSIZE_AUTO_ZLP_bit(const void *const hw, bool value)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	tmp |= value << USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos;
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_PCKSIZE_AUTO_ZLP_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_PCKSIZE_AUTO_ZLP_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_set_PCKSIZE_BYTE_COUNT_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg |= USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t
+hri_usbdescbank_get_PCKSIZE_BYTE_COUNT_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_BYTE_COUNT(mask)) >> USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_PCKSIZE_BYTE_COUNT_bf(const void *const              hw,
+                                                               hri_usbdesc_bank_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_BYTE_COUNT(data);
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_PCKSIZE_BYTE_COUNT_bf(const void *const              hw,
+                                                               hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_PCKSIZE_BYTE_COUNT_bf(const void *const              hw,
+                                                                hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_read_PCKSIZE_BYTE_COUNT_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk) >> USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const              hw,
+                                                                    hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg |= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t
+hri_usbdescbank_get_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask)) >> USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const              hw,
+                                                                      hri_usbdesc_bank_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(data);
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const              hw,
+                                                                      hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const              hw,
+                                                                       hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_read_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk) >> USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_PCKSIZE_SIZE_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg |= USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_get_PCKSIZE_SIZE_bf(const void *const              hw,
+                                                                                 hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_SIZE(mask)) >> USB_DEVICE_PCKSIZE_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_PCKSIZE_SIZE_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_SIZE_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_SIZE(data);
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_PCKSIZE_SIZE_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_PCKSIZE_SIZE_bf(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_read_PCKSIZE_SIZE_bf(const void *const hw)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_SIZE_Msk) >> USB_DEVICE_PCKSIZE_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_PCKSIZE_reg(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_get_PCKSIZE_reg(const void *const              hw,
+                                                                             hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_PCKSIZE_reg(const void *const hw, hri_usbdesc_bank_pcksize_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_PCKSIZE_reg(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_PCKSIZE_reg(const void *const hw, hri_usbdesc_bank_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->PCKSIZE.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_pcksize_reg_t hri_usbdescbank_read_PCKSIZE_reg(const void *const hw)
+{
+	return ((UsbDeviceDescBank *)hw)->PCKSIZE.reg;
+}
+
+static inline void hri_usbdescbank_set_EXTREG_SUBPID_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg |= USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_get_EXTREG_SUBPID_bf(const void *const             hw,
+                                                                                 hri_usbdesc_bank_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_SUBPID(mask)) >> USB_DEVICE_EXTREG_SUBPID_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_EXTREG_SUBPID_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp &= ~USB_DEVICE_EXTREG_SUBPID_Msk;
+	tmp |= USB_DEVICE_EXTREG_SUBPID(data);
+	((UsbDeviceDescBank *)hw)->EXTREG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_EXTREG_SUBPID_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg &= ~USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_EXTREG_SUBPID_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg ^= USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_read_EXTREG_SUBPID_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_SUBPID_Msk) >> USB_DEVICE_EXTREG_SUBPID_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_EXTREG_VARIABLE_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg |= USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_get_EXTREG_VARIABLE_bf(const void *const             hw,
+                                                                                   hri_usbdesc_bank_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_VARIABLE(mask)) >> USB_DEVICE_EXTREG_VARIABLE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_EXTREG_VARIABLE_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp &= ~USB_DEVICE_EXTREG_VARIABLE_Msk;
+	tmp |= USB_DEVICE_EXTREG_VARIABLE(data);
+	((UsbDeviceDescBank *)hw)->EXTREG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_EXTREG_VARIABLE_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg &= ~USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_EXTREG_VARIABLE_bf(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg ^= USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_read_EXTREG_VARIABLE_bf(const void *const hw)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_VARIABLE_Msk) >> USB_DEVICE_EXTREG_VARIABLE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_set_EXTREG_reg(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_get_EXTREG_reg(const void *const             hw,
+                                                                           hri_usbdesc_bank_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_write_EXTREG_reg(const void *const hw, hri_usbdesc_bank_extreg_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_clear_EXTREG_reg(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdescbank_toggle_EXTREG_reg(const void *const hw, hri_usbdesc_bank_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->EXTREG.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_extreg_reg_t hri_usbdescbank_read_EXTREG_reg(const void *const hw)
+{
+	return ((UsbDeviceDescBank *)hw)->EXTREG.reg;
+}
+
+static inline bool hri_usbdescbank_get_STATUS_BK_CRCERR_bit(const void *const hw)
+{
+	return (((UsbDeviceDescBank *)hw)->STATUS_BK.reg & USB_DEVICE_STATUS_BK_CRCERR) >> USB_DEVICE_STATUS_BK_CRCERR_Pos;
+}
+
+static inline void hri_usbdescbank_clear_STATUS_BK_CRCERR_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->STATUS_BK.reg = USB_DEVICE_STATUS_BK_CRCERR;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdescbank_get_STATUS_BK_ERRORFLOW_bit(const void *const hw)
+{
+	return (((UsbDeviceDescBank *)hw)->STATUS_BK.reg & USB_DEVICE_STATUS_BK_ERRORFLOW)
+	       >> USB_DEVICE_STATUS_BK_ERRORFLOW_Pos;
+}
+
+static inline void hri_usbdescbank_clear_STATUS_BK_ERRORFLOW_bit(const void *const hw)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->STATUS_BK.reg = USB_DEVICE_STATUS_BK_ERRORFLOW;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_status_bk_reg_t hri_usbdescbank_get_STATUS_BK_reg(const void *const                hw,
+                                                                                 hri_usbdesc_bank_status_bk_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDeviceDescBank *)hw)->STATUS_BK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdescbank_clear_STATUS_BK_reg(const void *const hw, hri_usbdesc_bank_status_bk_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescBank *)hw)->STATUS_BK.reg = mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdesc_bank_status_bk_reg_t hri_usbdescbank_read_STATUS_BK_reg(const void *const hw)
+{
+	return ((UsbDeviceDescBank *)hw)->STATUS_BK.reg;
+}
+
+static inline void hri_usbdevicedescriptor_set_ADDR_ADDR_bf(const void *const hw, uint8_t submodule_index,
+                                                            hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg |= USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_addr_reg_t
+hri_usbdevicedescriptor_get_ADDR_ADDR_bf(const void *const hw, uint8_t submodule_index,
+                                         hri_usbdescriptordevice_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg;
+	tmp = (tmp & USB_DEVICE_ADDR_ADDR(mask)) >> USB_DEVICE_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_ADDR_ADDR_bf(const void *const hw, uint8_t submodule_index,
+                                                              hri_usbdescriptordevice_addr_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg;
+	tmp &= ~USB_DEVICE_ADDR_ADDR_Msk;
+	tmp |= USB_DEVICE_ADDR_ADDR(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_ADDR_ADDR_bf(const void *const hw, uint8_t submodule_index,
+                                                              hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg &= ~USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_ADDR_ADDR_bf(const void *const hw, uint8_t submodule_index,
+                                                               hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg ^= USB_DEVICE_ADDR_ADDR(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_addr_reg_t hri_usbdevicedescriptor_read_ADDR_ADDR_bf(const void *const hw,
+                                                                                           uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg;
+	tmp = (tmp & USB_DEVICE_ADDR_ADDR_Msk) >> USB_DEVICE_ADDR_ADDR_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_ADDR_reg(const void *const hw, uint8_t submodule_index,
+                                                        hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_addr_reg_t
+hri_usbdevicedescriptor_get_ADDR_reg(const void *const hw, uint8_t submodule_index,
+                                     hri_usbdescriptordevice_addr_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_ADDR_reg(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbdescriptordevice_addr_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_ADDR_reg(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_ADDR_reg(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbdescriptordevice_addr_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_addr_reg_t hri_usbdevicedescriptor_read_ADDR_reg(const void *const hw,
+                                                                                       uint8_t submodule_index)
+{
+	return ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].ADDR.reg;
+}
+
+static inline void hri_usbdevicedescriptor_set_PCKSIZE_AUTO_ZLP_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg |= USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevicedescriptor_get_PCKSIZE_AUTO_ZLP_bit(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_AUTO_ZLP) >> USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_PCKSIZE_AUTO_ZLP_bit(const void *const hw, uint8_t submodule_index,
+                                                                      bool value)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	tmp |= value << USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos;
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_PCKSIZE_AUTO_ZLP_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_PCKSIZE_AUTO_ZLP_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_AUTO_ZLP;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_set_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index,
+                                                                     hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg |= USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_get_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index,
+                                                  hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_BYTE_COUNT(mask)) >> USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index,
+                                                                       hri_usbdescriptordevice_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_BYTE_COUNT(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index,
+                                                                       hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index,
+                                                                        hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_BYTE_COUNT(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_read_PCKSIZE_BYTE_COUNT_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk) >> USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw,
+                                                                            uint8_t           submodule_index,
+                                                                            hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg
+	    |= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_get_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                         hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask)) >> USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos;
+	return tmp;
+}
+
+static inline void
+hri_usbdevicedescriptor_write_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbdescriptordevice_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void
+hri_usbdevicedescriptor_clear_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg
+	    &= ~USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void
+hri_usbdevicedescriptor_toggle_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                            hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg
+	    ^= USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_read_PCKSIZE_MULTI_PACKET_SIZE_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk) >> USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                               hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg |= USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_get_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                            hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_SIZE(mask)) >> USB_DEVICE_PCKSIZE_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                                 hri_usbdescriptordevice_pcksize_reg_t data)
+{
+	uint32_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp &= ~USB_DEVICE_PCKSIZE_SIZE_Msk;
+	tmp |= USB_DEVICE_PCKSIZE_SIZE(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                                 hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg &= ~USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg ^= USB_DEVICE_PCKSIZE_SIZE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_read_PCKSIZE_SIZE_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp = (tmp & USB_DEVICE_PCKSIZE_SIZE_Msk) >> USB_DEVICE_PCKSIZE_SIZE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_PCKSIZE_reg(const void *const hw, uint8_t submodule_index,
+                                                           hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t
+hri_usbdevicedescriptor_get_PCKSIZE_reg(const void *const hw, uint8_t submodule_index,
+                                        hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_PCKSIZE_reg(const void *const hw, uint8_t submodule_index,
+                                                             hri_usbdescriptordevice_pcksize_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_PCKSIZE_reg(const void *const hw, uint8_t submodule_index,
+                                                             hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_PCKSIZE_reg(const void *const hw, uint8_t submodule_index,
+                                                              hri_usbdescriptordevice_pcksize_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_pcksize_reg_t hri_usbdevicedescriptor_read_PCKSIZE_reg(const void *const hw,
+                                                                                             uint8_t submodule_index)
+{
+	return ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].PCKSIZE.reg;
+}
+
+static inline void hri_usbdevicedescriptor_set_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index,
+                                                                hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg |= USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t
+hri_usbdevicedescriptor_get_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index,
+                                             hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_SUBPID(mask)) >> USB_DEVICE_EXTREG_SUBPID_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_usbdescriptordevice_extreg_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp &= ~USB_DEVICE_EXTREG_SUBPID_Msk;
+	tmp |= USB_DEVICE_EXTREG_SUBPID(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg &= ~USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index,
+                                                                   hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg ^= USB_DEVICE_EXTREG_SUBPID(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t
+hri_usbdevicedescriptor_read_EXTREG_SUBPID_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_SUBPID_Msk) >> USB_DEVICE_EXTREG_SUBPID_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index,
+                                                                  hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg |= USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t
+hri_usbdevicedescriptor_get_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index,
+                                               hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_VARIABLE(mask)) >> USB_DEVICE_EXTREG_VARIABLE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index,
+                                                                    hri_usbdescriptordevice_extreg_reg_t data)
+{
+	uint16_t tmp;
+	USB_CRITICAL_SECTION_ENTER();
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp &= ~USB_DEVICE_EXTREG_VARIABLE_Msk;
+	tmp |= USB_DEVICE_EXTREG_VARIABLE(data);
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg = tmp;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index,
+                                                                    hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg &= ~USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index,
+                                                                     hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg ^= USB_DEVICE_EXTREG_VARIABLE(mask);
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t
+hri_usbdevicedescriptor_read_EXTREG_VARIABLE_bf(const void *const hw, uint8_t submodule_index)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp = (tmp & USB_DEVICE_EXTREG_VARIABLE_Msk) >> USB_DEVICE_EXTREG_VARIABLE_Pos;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_set_EXTREG_reg(const void *const hw, uint8_t submodule_index,
+                                                          hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg |= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t
+hri_usbdevicedescriptor_get_EXTREG_reg(const void *const hw, uint8_t submodule_index,
+                                       hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	uint16_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_write_EXTREG_reg(const void *const hw, uint8_t submodule_index,
+                                                            hri_usbdescriptordevice_extreg_reg_t data)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg = data;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_clear_EXTREG_reg(const void *const hw, uint8_t submodule_index,
+                                                            hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg &= ~mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_usbdevicedescriptor_toggle_EXTREG_reg(const void *const hw, uint8_t submodule_index,
+                                                             hri_usbdescriptordevice_extreg_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg ^= mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_extreg_reg_t hri_usbdevicedescriptor_read_EXTREG_reg(const void *const hw,
+                                                                                           uint8_t submodule_index)
+{
+	return ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].EXTREG.reg;
+}
+
+static inline bool hri_usbdevicedescriptor_get_STATUS_BK_CRCERR_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg & USB_DEVICE_STATUS_BK_CRCERR)
+	       >> USB_DEVICE_STATUS_BK_CRCERR_Pos;
+}
+
+static inline void hri_usbdevicedescriptor_clear_STATUS_BK_CRCERR_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg = USB_DEVICE_STATUS_BK_CRCERR;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_usbdevicedescriptor_get_STATUS_BK_ERRORFLOW_bit(const void *const hw, uint8_t submodule_index)
+{
+	return (((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg & USB_DEVICE_STATUS_BK_ERRORFLOW)
+	       >> USB_DEVICE_STATUS_BK_ERRORFLOW_Pos;
+}
+
+static inline void hri_usbdevicedescriptor_clear_STATUS_BK_ERRORFLOW_bit(const void *const hw, uint8_t submodule_index)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg = USB_DEVICE_STATUS_BK_ERRORFLOW;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_status_bk_reg_t
+hri_usbdevicedescriptor_get_STATUS_BK_reg(const void *const hw, uint8_t submodule_index,
+                                          hri_usbdescriptordevice_status_bk_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_usbdevicedescriptor_clear_STATUS_BK_reg(const void *const hw, uint8_t submodule_index,
+                                                               hri_usbdescriptordevice_status_bk_reg_t mask)
+{
+	USB_CRITICAL_SECTION_ENTER();
+	((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg = mask;
+	USB_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_usbdescriptordevice_status_bk_reg_t
+hri_usbdevicedescriptor_read_STATUS_BK_reg(const void *const hw, uint8_t submodule_index)
+{
+	return ((UsbDeviceDescriptor *)hw)->DeviceDescBank[submodule_index].STATUS_BK.reg;
+}
+
+/* Below section is for legacy hri apis name, not recommended to use below left side apis in application */
+#define hri_usbdevice_wait_for_sync(a, b) hri_usb_wait_for_sync(a, b)
+#define hri_usbdevice_is_syncing(a, b) hri_usb_is_syncing(a, b)
+#define hri_usbdevice_set_CTRLA_SWRST_bit(a) hri_usb_set_CTRLA_SWRST_bit(a)
+#define hri_usbdevice_get_CTRLA_SWRST_bit(a) hri_usb_get_CTRLA_SWRST_bit(a)
+#define hri_usbdevice_set_CTRLA_ENABLE_bit(a) hri_usb_set_CTRLA_ENABLE_bit(a)
+#define hri_usbdevice_get_CTRLA_ENABLE_bit(a) hri_usb_get_CTRLA_ENABLE_bit(a)
+#define hri_usbdevice_write_CTRLA_ENABLE_bit(a, b) hri_usb_write_CTRLA_ENABLE_bit(a, b)
+#define hri_usbdevice_clear_CTRLA_ENABLE_bit(a) hri_usb_clear_CTRLA_ENABLE_bit(a)
+#define hri_usbdevice_toggle_CTRLA_ENABLE_bit(a) hri_usb_toggle_CTRLA_ENABLE_bit(a)
+#define hri_usbdevice_set_CTRLA_RUNSTDBY_bit(a) hri_usb_set_CTRLA_RUNSTDBY_bit(a)
+#define hri_usbdevice_get_CTRLA_RUNSTDBY_bit(a) hri_usb_get_CTRLA_RUNSTDBY_bit(a)
+#define hri_usbdevice_write_CTRLA_RUNSTDBY_bit(a, b) hri_usb_write_CTRLA_RUNSTDBY_bit(a, b)
+#define hri_usbdevice_clear_CTRLA_RUNSTDBY_bit(a) hri_usb_clear_CTRLA_RUNSTDBY_bit(a)
+#define hri_usbdevice_toggle_CTRLA_RUNSTDBY_bit(a) hri_usb_toggle_CTRLA_RUNSTDBY_bit(a)
+#define hri_usbdevice_set_CTRLA_MODE_bit(a) hri_usb_set_CTRLA_MODE_bit(a)
+#define hri_usbdevice_get_CTRLA_MODE_bit(a) hri_usb_get_CTRLA_MODE_bit(a)
+#define hri_usbdevice_write_CTRLA_MODE_bit(a, b) hri_usb_write_CTRLA_MODE_bit(a, b)
+#define hri_usbdevice_clear_CTRLA_MODE_bit(a) hri_usb_clear_CTRLA_MODE_bit(a)
+#define hri_usbdevice_toggle_CTRLA_MODE_bit(a) hri_usb_toggle_CTRLA_MODE_bit(a)
+#define hri_usbdevice_set_CTRLA_reg(a, b) hri_usb_set_CTRLA_reg(a, b)
+#define hri_usbdevice_get_CTRLA_reg(a, b) hri_usb_get_CTRLA_reg(a, b)
+#define hri_usbdevice_write_CTRLA_reg(a, b) hri_usb_write_CTRLA_reg(a, b)
+#define hri_usbdevice_clear_CTRLA_reg(a, b) hri_usb_clear_CTRLA_reg(a, b)
+#define hri_usbdevice_toggle_CTRLA_reg(a, b) hri_usb_toggle_CTRLA_reg(a, b)
+#define hri_usbdevice_read_CTRLA_reg(a) hri_usb_read_CTRLA_reg(a)
+#define hri_usbdevice_set_QOSCTRL_CQOS_bf(a, b) hri_usb_set_QOSCTRL_CQOS_bf(a, b)
+#define hri_usbdevice_get_QOSCTRL_CQOS_bf(a, b) hri_usb_get_QOSCTRL_CQOS_bf(a, b)
+#define hri_usbdevice_write_QOSCTRL_CQOS_bf(a, b) hri_usb_write_QOSCTRL_CQOS_bf(a, b)
+#define hri_usbdevice_clear_QOSCTRL_CQOS_bf(a, b) hri_usb_clear_QOSCTRL_CQOS_bf(a, b)
+#define hri_usbdevice_toggle_QOSCTRL_CQOS_bf(a, b) hri_usb_toggle_QOSCTRL_CQOS_bf(a, b)
+#define hri_usbdevice_read_QOSCTRL_CQOS_bf(a) hri_usb_read_QOSCTRL_CQOS_bf(a)
+#define hri_usbdevice_set_QOSCTRL_DQOS_bf(a, b) hri_usb_set_QOSCTRL_DQOS_bf(a, b)
+#define hri_usbdevice_get_QOSCTRL_DQOS_bf(a, b) hri_usb_get_QOSCTRL_DQOS_bf(a, b)
+#define hri_usbdevice_write_QOSCTRL_DQOS_bf(a, b) hri_usb_write_QOSCTRL_DQOS_bf(a, b)
+#define hri_usbdevice_clear_QOSCTRL_DQOS_bf(a, b) hri_usb_clear_QOSCTRL_DQOS_bf(a, b)
+#define hri_usbdevice_toggle_QOSCTRL_DQOS_bf(a, b) hri_usb_toggle_QOSCTRL_DQOS_bf(a, b)
+#define hri_usbdevice_read_QOSCTRL_DQOS_bf(a) hri_usb_read_QOSCTRL_DQOS_bf(a)
+#define hri_usbdevice_set_QOSCTRL_reg(a, b) hri_usb_set_QOSCTRL_reg(a, b)
+#define hri_usbdevice_get_QOSCTRL_reg(a, b) hri_usb_get_QOSCTRL_reg(a, b)
+#define hri_usbdevice_write_QOSCTRL_reg(a, b) hri_usb_write_QOSCTRL_reg(a, b)
+#define hri_usbdevice_clear_QOSCTRL_reg(a, b) hri_usb_clear_QOSCTRL_reg(a, b)
+#define hri_usbdevice_toggle_QOSCTRL_reg(a, b) hri_usb_toggle_QOSCTRL_reg(a, b)
+#define hri_usbdevice_read_QOSCTRL_reg(a) hri_usb_read_QOSCTRL_reg(a)
+#define hri_usbdevice_set_DESCADD_DESCADD_bf(a, b) hri_usb_set_DESCADD_DESCADD_bf(a, b)
+#define hri_usbdevice_get_DESCADD_DESCADD_bf(a, b) hri_usb_get_DESCADD_DESCADD_bf(a, b)
+#define hri_usbdevice_write_DESCADD_DESCADD_bf(a, b) hri_usb_write_DESCADD_DESCADD_bf(a, b)
+#define hri_usbdevice_clear_DESCADD_DESCADD_bf(a, b) hri_usb_clear_DESCADD_DESCADD_bf(a, b)
+#define hri_usbdevice_toggle_DESCADD_DESCADD_bf(a, b) hri_usb_toggle_DESCADD_DESCADD_bf(a, b)
+#define hri_usbdevice_read_DESCADD_DESCADD_bf(a) hri_usb_read_DESCADD_DESCADD_bf(a)
+#define hri_usbdevice_set_DESCADD_reg(a, b) hri_usb_set_DESCADD_reg(a, b)
+#define hri_usbdevice_get_DESCADD_reg(a, b) hri_usb_get_DESCADD_reg(a, b)
+#define hri_usbdevice_write_DESCADD_reg(a, b) hri_usb_write_DESCADD_reg(a, b)
+#define hri_usbdevice_clear_DESCADD_reg(a, b) hri_usb_clear_DESCADD_reg(a, b)
+#define hri_usbdevice_toggle_DESCADD_reg(a, b) hri_usb_toggle_DESCADD_reg(a, b)
+#define hri_usbdevice_read_DESCADD_reg(a) hri_usb_read_DESCADD_reg(a)
+#define hri_usbdevice_set_PADCAL_TRANSP_bf(a, b) hri_usb_set_PADCAL_TRANSP_bf(a, b)
+#define hri_usbdevice_get_PADCAL_TRANSP_bf(a, b) hri_usb_get_PADCAL_TRANSP_bf(a, b)
+#define hri_usbdevice_write_PADCAL_TRANSP_bf(a, b) hri_usb_write_PADCAL_TRANSP_bf(a, b)
+#define hri_usbdevice_clear_PADCAL_TRANSP_bf(a, b) hri_usb_clear_PADCAL_TRANSP_bf(a, b)
+#define hri_usbdevice_toggle_PADCAL_TRANSP_bf(a, b) hri_usb_toggle_PADCAL_TRANSP_bf(a, b)
+#define hri_usbdevice_read_PADCAL_TRANSP_bf(a) hri_usb_read_PADCAL_TRANSP_bf(a)
+#define hri_usbdevice_set_PADCAL_TRANSN_bf(a, b) hri_usb_set_PADCAL_TRANSN_bf(a, b)
+#define hri_usbdevice_get_PADCAL_TRANSN_bf(a, b) hri_usb_get_PADCAL_TRANSN_bf(a, b)
+#define hri_usbdevice_write_PADCAL_TRANSN_bf(a, b) hri_usb_write_PADCAL_TRANSN_bf(a, b)
+#define hri_usbdevice_clear_PADCAL_TRANSN_bf(a, b) hri_usb_clear_PADCAL_TRANSN_bf(a, b)
+#define hri_usbdevice_toggle_PADCAL_TRANSN_bf(a, b) hri_usb_toggle_PADCAL_TRANSN_bf(a, b)
+#define hri_usbdevice_read_PADCAL_TRANSN_bf(a) hri_usb_read_PADCAL_TRANSN_bf(a)
+#define hri_usbdevice_set_PADCAL_TRIM_bf(a, b) hri_usb_set_PADCAL_TRIM_bf(a, b)
+#define hri_usbdevice_get_PADCAL_TRIM_bf(a, b) hri_usb_get_PADCAL_TRIM_bf(a, b)
+#define hri_usbdevice_write_PADCAL_TRIM_bf(a, b) hri_usb_write_PADCAL_TRIM_bf(a, b)
+#define hri_usbdevice_clear_PADCAL_TRIM_bf(a, b) hri_usb_clear_PADCAL_TRIM_bf(a, b)
+#define hri_usbdevice_toggle_PADCAL_TRIM_bf(a, b) hri_usb_toggle_PADCAL_TRIM_bf(a, b)
+#define hri_usbdevice_read_PADCAL_TRIM_bf(a) hri_usb_read_PADCAL_TRIM_bf(a)
+#define hri_usbdevice_set_PADCAL_reg(a, b) hri_usb_set_PADCAL_reg(a, b)
+#define hri_usbdevice_get_PADCAL_reg(a, b) hri_usb_get_PADCAL_reg(a, b)
+#define hri_usbdevice_write_PADCAL_reg(a, b) hri_usb_write_PADCAL_reg(a, b)
+#define hri_usbdevice_clear_PADCAL_reg(a, b) hri_usb_clear_PADCAL_reg(a, b)
+#define hri_usbdevice_toggle_PADCAL_reg(a, b) hri_usb_toggle_PADCAL_reg(a, b)
+#define hri_usbdevice_read_PADCAL_reg(a) hri_usb_read_PADCAL_reg(a)
+#define hri_usbdevice_get_SYNCBUSY_SWRST_bit(a) hri_usb_get_SYNCBUSY_SWRST_bit(a)
+#define hri_usbdevice_get_SYNCBUSY_ENABLE_bit(a) hri_usb_get_SYNCBUSY_ENABLE_bit(a)
+#define hri_usbdevice_get_SYNCBUSY_reg(a, b) hri_usb_get_SYNCBUSY_reg(a, b)
+#define hri_usbdevice_read_SYNCBUSY_reg(a) hri_usb_read_SYNCBUSY_reg(a)
+#define hri_usbdevice_get_FSMSTATUS_FSMSTATE_bf(a, b) hri_usb_get_FSMSTATUS_FSMSTATE_bf(a, b)
+#define hri_usbdevice_read_FSMSTATUS_FSMSTATE_bf(a) hri_usb_read_FSMSTATUS_FSMSTATE_bf(a)
+#define hri_usbdevice_get_FSMSTATUS_reg(a, b) hri_usb_get_FSMSTATUS_reg(a, b)
+#define hri_usbdevice_read_FSMSTATUS_reg(a) hri_usb_read_FSMSTATUS_reg(a)
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_USB_L22_H_INCLUDED */
+#endif /* _SAML22_USB_COMPONENT_ */
diff --git a/watch-library/hardware/hri/hri_wdt_l22.h b/watch-library/hardware/hri/hri_wdt_l22.h
new file mode 100644
index 00000000..4794b254
--- /dev/null
+++ b/watch-library/hardware/hri/hri_wdt_l22.h
@@ -0,0 +1,617 @@
+/**
+ * \file
+ *
+ * \brief SAM WDT
+ *
+ * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * Subject to your compliance with these terms, you may use Microchip
+ * software and any derivatives exclusively with Microchip products.
+ * It is your responsibility to comply with third party license terms applicable
+ * to your use of third party software (including open source software) that
+ * may accompany Microchip software.
+ *
+ * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES,
+ * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE,
+ * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY,
+ * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE
+ * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL
+ * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE
+ * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE
+ * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE.  TO THE FULLEST EXTENT
+ * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY
+ * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY,
+ * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifdef _SAML22_WDT_COMPONENT_
+#ifndef _HRI_WDT_L22_H_INCLUDED_
+#define _HRI_WDT_L22_H_INCLUDED_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <hal_atomic.h>
+
+#if defined(ENABLE_WDT_CRITICAL_SECTIONS)
+#define WDT_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER()
+#define WDT_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE()
+#else
+#define WDT_CRITICAL_SECTION_ENTER()
+#define WDT_CRITICAL_SECTION_LEAVE()
+#endif
+
+typedef uint32_t hri_wdt_syncbusy_reg_t;
+typedef uint8_t  hri_wdt_clear_reg_t;
+typedef uint8_t  hri_wdt_config_reg_t;
+typedef uint8_t  hri_wdt_ctrla_reg_t;
+typedef uint8_t  hri_wdt_ewctrl_reg_t;
+typedef uint8_t  hri_wdt_intenset_reg_t;
+typedef uint8_t  hri_wdt_intflag_reg_t;
+
+static inline void hri_wdt_wait_for_sync(const void *const hw, hri_wdt_syncbusy_reg_t reg)
+{
+	while (((Wdt *)hw)->SYNCBUSY.reg & reg) {
+	};
+}
+
+static inline bool hri_wdt_is_syncing(const void *const hw, hri_wdt_syncbusy_reg_t reg)
+{
+	return ((Wdt *)hw)->SYNCBUSY.reg & reg;
+}
+
+static inline bool hri_wdt_get_INTFLAG_EW_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->INTFLAG.reg & WDT_INTFLAG_EW) >> WDT_INTFLAG_EW_Pos;
+}
+
+static inline void hri_wdt_clear_INTFLAG_EW_bit(const void *const hw)
+{
+	((Wdt *)hw)->INTFLAG.reg = WDT_INTFLAG_EW;
+}
+
+static inline bool hri_wdt_get_interrupt_EW_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->INTFLAG.reg & WDT_INTFLAG_EW) >> WDT_INTFLAG_EW_Pos;
+}
+
+static inline void hri_wdt_clear_interrupt_EW_bit(const void *const hw)
+{
+	((Wdt *)hw)->INTFLAG.reg = WDT_INTFLAG_EW;
+}
+
+static inline hri_wdt_intflag_reg_t hri_wdt_get_INTFLAG_reg(const void *const hw, hri_wdt_intflag_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->INTFLAG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_wdt_intflag_reg_t hri_wdt_read_INTFLAG_reg(const void *const hw)
+{
+	return ((Wdt *)hw)->INTFLAG.reg;
+}
+
+static inline void hri_wdt_clear_INTFLAG_reg(const void *const hw, hri_wdt_intflag_reg_t mask)
+{
+	((Wdt *)hw)->INTFLAG.reg = mask;
+}
+
+static inline void hri_wdt_set_INTEN_EW_bit(const void *const hw)
+{
+	((Wdt *)hw)->INTENSET.reg = WDT_INTENSET_EW;
+}
+
+static inline bool hri_wdt_get_INTEN_EW_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->INTENSET.reg & WDT_INTENSET_EW) >> WDT_INTENSET_EW_Pos;
+}
+
+static inline void hri_wdt_write_INTEN_EW_bit(const void *const hw, bool value)
+{
+	if (value == 0x0) {
+		((Wdt *)hw)->INTENCLR.reg = WDT_INTENSET_EW;
+	} else {
+		((Wdt *)hw)->INTENSET.reg = WDT_INTENSET_EW;
+	}
+}
+
+static inline void hri_wdt_clear_INTEN_EW_bit(const void *const hw)
+{
+	((Wdt *)hw)->INTENCLR.reg = WDT_INTENSET_EW;
+}
+
+static inline void hri_wdt_set_INTEN_reg(const void *const hw, hri_wdt_intenset_reg_t mask)
+{
+	((Wdt *)hw)->INTENSET.reg = mask;
+}
+
+static inline hri_wdt_intenset_reg_t hri_wdt_get_INTEN_reg(const void *const hw, hri_wdt_intenset_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->INTENSET.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_wdt_intenset_reg_t hri_wdt_read_INTEN_reg(const void *const hw)
+{
+	return ((Wdt *)hw)->INTENSET.reg;
+}
+
+static inline void hri_wdt_write_INTEN_reg(const void *const hw, hri_wdt_intenset_reg_t data)
+{
+	((Wdt *)hw)->INTENSET.reg = data;
+	((Wdt *)hw)->INTENCLR.reg = ~data;
+}
+
+static inline void hri_wdt_clear_INTEN_reg(const void *const hw, hri_wdt_intenset_reg_t mask)
+{
+	((Wdt *)hw)->INTENCLR.reg = mask;
+}
+
+static inline bool hri_wdt_get_SYNCBUSY_ENABLE_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->SYNCBUSY.reg & WDT_SYNCBUSY_ENABLE) >> WDT_SYNCBUSY_ENABLE_Pos;
+}
+
+static inline bool hri_wdt_get_SYNCBUSY_WEN_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->SYNCBUSY.reg & WDT_SYNCBUSY_WEN) >> WDT_SYNCBUSY_WEN_Pos;
+}
+
+static inline bool hri_wdt_get_SYNCBUSY_ALWAYSON_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->SYNCBUSY.reg & WDT_SYNCBUSY_ALWAYSON) >> WDT_SYNCBUSY_ALWAYSON_Pos;
+}
+
+static inline bool hri_wdt_get_SYNCBUSY_CLEAR_bit(const void *const hw)
+{
+	return (((Wdt *)hw)->SYNCBUSY.reg & WDT_SYNCBUSY_CLEAR) >> WDT_SYNCBUSY_CLEAR_Pos;
+}
+
+static inline hri_wdt_syncbusy_reg_t hri_wdt_get_SYNCBUSY_reg(const void *const hw, hri_wdt_syncbusy_reg_t mask)
+{
+	uint32_t tmp;
+	tmp = ((Wdt *)hw)->SYNCBUSY.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline hri_wdt_syncbusy_reg_t hri_wdt_read_SYNCBUSY_reg(const void *const hw)
+{
+	return ((Wdt *)hw)->SYNCBUSY.reg;
+}
+
+static inline void hri_wdt_set_CTRLA_ENABLE_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg |= WDT_CTRLA_ENABLE;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_wdt_get_CTRLA_ENABLE_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp = (tmp & WDT_CTRLA_ENABLE) >> WDT_CTRLA_ENABLE_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_wdt_write_CTRLA_ENABLE_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp &= ~WDT_CTRLA_ENABLE;
+	tmp |= value << WDT_CTRLA_ENABLE_Pos;
+	((Wdt *)hw)->CTRLA.reg = tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CTRLA_ENABLE_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg &= ~WDT_CTRLA_ENABLE;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CTRLA_ENABLE_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg ^= WDT_CTRLA_ENABLE;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_set_CTRLA_WEN_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg |= WDT_CTRLA_WEN;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_wdt_get_CTRLA_WEN_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp = (tmp & WDT_CTRLA_WEN) >> WDT_CTRLA_WEN_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_wdt_write_CTRLA_WEN_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp &= ~WDT_CTRLA_WEN;
+	tmp |= value << WDT_CTRLA_WEN_Pos;
+	((Wdt *)hw)->CTRLA.reg = tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CTRLA_WEN_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg &= ~WDT_CTRLA_WEN;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CTRLA_WEN_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg ^= WDT_CTRLA_WEN;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_set_CTRLA_ALWAYSON_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg |= WDT_CTRLA_ALWAYSON;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline bool hri_wdt_get_CTRLA_ALWAYSON_bit(const void *const hw)
+{
+	uint8_t tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp = (tmp & WDT_CTRLA_ALWAYSON) >> WDT_CTRLA_ALWAYSON_Pos;
+	return (bool)tmp;
+}
+
+static inline void hri_wdt_write_CTRLA_ALWAYSON_bit(const void *const hw, bool value)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp &= ~WDT_CTRLA_ALWAYSON;
+	tmp |= value << WDT_CTRLA_ALWAYSON_Pos;
+	((Wdt *)hw)->CTRLA.reg = tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CTRLA_ALWAYSON_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg &= ~WDT_CTRLA_ALWAYSON;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CTRLA_ALWAYSON_bit(const void *const hw)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg ^= WDT_CTRLA_ALWAYSON;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_set_CTRLA_reg(const void *const hw, hri_wdt_ctrla_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg |= mask;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ctrla_reg_t hri_wdt_get_CTRLA_reg(const void *const hw, hri_wdt_ctrla_reg_t mask)
+{
+	uint8_t tmp;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	tmp = ((Wdt *)hw)->CTRLA.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_wdt_write_CTRLA_reg(const void *const hw, hri_wdt_ctrla_reg_t data)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg = data;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CTRLA_reg(const void *const hw, hri_wdt_ctrla_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg &= ~mask;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CTRLA_reg(const void *const hw, hri_wdt_ctrla_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CTRLA.reg ^= mask;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ctrla_reg_t hri_wdt_read_CTRLA_reg(const void *const hw)
+{
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_ENABLE | WDT_SYNCBUSY_WEN | WDT_SYNCBUSY_ALWAYSON);
+	return ((Wdt *)hw)->CTRLA.reg;
+}
+
+static inline void hri_wdt_set_CONFIG_PER_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg |= WDT_CONFIG_PER(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_get_CONFIG_PER_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp = (tmp & WDT_CONFIG_PER(mask)) >> WDT_CONFIG_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_write_CONFIG_PER_bf(const void *const hw, hri_wdt_config_reg_t data)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp &= ~WDT_CONFIG_PER_Msk;
+	tmp |= WDT_CONFIG_PER(data);
+	((Wdt *)hw)->CONFIG.reg = tmp;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CONFIG_PER_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg &= ~WDT_CONFIG_PER(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CONFIG_PER_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg ^= WDT_CONFIG_PER(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_read_CONFIG_PER_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp = (tmp & WDT_CONFIG_PER_Msk) >> WDT_CONFIG_PER_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_set_CONFIG_WINDOW_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg |= WDT_CONFIG_WINDOW(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_get_CONFIG_WINDOW_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp = (tmp & WDT_CONFIG_WINDOW(mask)) >> WDT_CONFIG_WINDOW_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_write_CONFIG_WINDOW_bf(const void *const hw, hri_wdt_config_reg_t data)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp &= ~WDT_CONFIG_WINDOW_Msk;
+	tmp |= WDT_CONFIG_WINDOW(data);
+	((Wdt *)hw)->CONFIG.reg = tmp;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CONFIG_WINDOW_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg &= ~WDT_CONFIG_WINDOW(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CONFIG_WINDOW_bf(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg ^= WDT_CONFIG_WINDOW(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_read_CONFIG_WINDOW_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp = (tmp & WDT_CONFIG_WINDOW_Msk) >> WDT_CONFIG_WINDOW_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_set_CONFIG_reg(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg |= mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_get_CONFIG_reg(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->CONFIG.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_wdt_write_CONFIG_reg(const void *const hw, hri_wdt_config_reg_t data)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg = data;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_CONFIG_reg(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg &= ~mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_CONFIG_reg(const void *const hw, hri_wdt_config_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CONFIG.reg ^= mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_config_reg_t hri_wdt_read_CONFIG_reg(const void *const hw)
+{
+	return ((Wdt *)hw)->CONFIG.reg;
+}
+
+static inline void hri_wdt_set_EWCTRL_EWOFFSET_bf(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg |= WDT_EWCTRL_EWOFFSET(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ewctrl_reg_t hri_wdt_get_EWCTRL_EWOFFSET_bf(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->EWCTRL.reg;
+	tmp = (tmp & WDT_EWCTRL_EWOFFSET(mask)) >> WDT_EWCTRL_EWOFFSET_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_write_EWCTRL_EWOFFSET_bf(const void *const hw, hri_wdt_ewctrl_reg_t data)
+{
+	uint8_t tmp;
+	WDT_CRITICAL_SECTION_ENTER();
+	tmp = ((Wdt *)hw)->EWCTRL.reg;
+	tmp &= ~WDT_EWCTRL_EWOFFSET_Msk;
+	tmp |= WDT_EWCTRL_EWOFFSET(data);
+	((Wdt *)hw)->EWCTRL.reg = tmp;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_EWCTRL_EWOFFSET_bf(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg &= ~WDT_EWCTRL_EWOFFSET(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_EWCTRL_EWOFFSET_bf(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg ^= WDT_EWCTRL_EWOFFSET(mask);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ewctrl_reg_t hri_wdt_read_EWCTRL_EWOFFSET_bf(const void *const hw)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->EWCTRL.reg;
+	tmp = (tmp & WDT_EWCTRL_EWOFFSET_Msk) >> WDT_EWCTRL_EWOFFSET_Pos;
+	return tmp;
+}
+
+static inline void hri_wdt_set_EWCTRL_reg(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg |= mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ewctrl_reg_t hri_wdt_get_EWCTRL_reg(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	uint8_t tmp;
+	tmp = ((Wdt *)hw)->EWCTRL.reg;
+	tmp &= mask;
+	return tmp;
+}
+
+static inline void hri_wdt_write_EWCTRL_reg(const void *const hw, hri_wdt_ewctrl_reg_t data)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg = data;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_clear_EWCTRL_reg(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg &= ~mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline void hri_wdt_toggle_EWCTRL_reg(const void *const hw, hri_wdt_ewctrl_reg_t mask)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->EWCTRL.reg ^= mask;
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+static inline hri_wdt_ewctrl_reg_t hri_wdt_read_EWCTRL_reg(const void *const hw)
+{
+	return ((Wdt *)hw)->EWCTRL.reg;
+}
+
+static inline void hri_wdt_write_CLEAR_reg(const void *const hw, hri_wdt_clear_reg_t data)
+{
+	WDT_CRITICAL_SECTION_ENTER();
+	((Wdt *)hw)->CLEAR.reg = data;
+	hri_wdt_wait_for_sync(hw, WDT_SYNCBUSY_CLEAR);
+	WDT_CRITICAL_SECTION_LEAVE();
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _HRI_WDT_L22_H_INCLUDED */
+#endif /* _SAML22_WDT_COMPONENT_ */
diff --git a/watch-library/hardware/hw/driver_init.c b/watch-library/hardware/hw/driver_init.c
new file mode 100644
index 00000000..09723bec
--- /dev/null
+++ b/watch-library/hardware/hw/driver_init.c
@@ -0,0 +1,96 @@
+/*
+ * Code generated from Atmel Start.
+ *
+ * This file will be overwritten when reconfiguring your Atmel Start project.
+ * Please copy examples or other code you want to keep to a separate file
+ * to avoid losing it when reconfiguring.
+ */
+
+#include "driver_init.h"
+#include <peripheral_clk_config.h>
+#include <utils.h>
+#include <hal_init.h>
+
+struct slcd_sync_descriptor SEGMENT_LCD_0;
+
+struct i2c_m_sync_desc I2C_0;
+
+void I2C_0_PORT_init(void) {
+
+	gpio_set_pin_pull_mode(SDA,
+	                       // <y> Pull configuration
+	                       // <id> pad_pull_config
+	                       // <GPIO_PULL_OFF"> Off
+	                       // <GPIO_PULL_UP"> Pull-up
+	                       // <GPIO_PULL_DOWN"> Pull-down
+	                       GPIO_PULL_OFF);
+
+	gpio_set_pin_function(SDA, PINMUX_PB30C_SERCOM1_PAD0);
+
+	gpio_set_pin_pull_mode(SCL,
+	                       // <y> Pull configuration
+	                       // <id> pad_pull_config
+	                       // <GPIO_PULL_OFF"> Off
+	                       // <GPIO_PULL_UP"> Pull-up
+	                       // <GPIO_PULL_DOWN"> Pull-down
+	                       GPIO_PULL_OFF);
+
+	gpio_set_pin_function(SCL, PINMUX_PB31C_SERCOM1_PAD1);
+}
+
+void I2C_0_CLOCK_init(void) {
+	hri_gclk_write_PCHCTRL_reg(GCLK, SERCOM1_GCLK_ID_CORE, CONF_GCLK_SERCOM1_CORE_SRC | (1 << GCLK_PCHCTRL_CHEN_Pos));
+	hri_gclk_write_PCHCTRL_reg(GCLK, SERCOM1_GCLK_ID_SLOW, CONF_GCLK_SERCOM1_SLOW_SRC | (1 << GCLK_PCHCTRL_CHEN_Pos));
+	hri_mclk_set_APBCMASK_SERCOM1_bit(MCLK);
+}
+
+void I2C_0_init(void) {
+	I2C_0_CLOCK_init();
+	i2c_m_sync_init(&I2C_0, SERCOM1);
+	I2C_0_PORT_init();
+}
+
+void delay_driver_init(void) {
+	delay_init(SysTick);
+}
+
+void SEGMENT_LCD_0_PORT_init(void) {
+	gpio_set_pin_function(SLCD0, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD1, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD2, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD3, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD4, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD5, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD6, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD7, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD8, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD9, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD10, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD11, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD12, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD13, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD14, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD15, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD16, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD17, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD18, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD19, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD20, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD21, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD22, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD23, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD24, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD25, GPIO_PIN_FUNCTION_B);
+	gpio_set_pin_function(SLCD26, GPIO_PIN_FUNCTION_B);
+}
+
+/**
+ * \brief SLCD initialization function
+ *
+ * Enables SLCD peripheral, clocks and initializes SLCD driver
+ */
+void SEGMENT_LCD_0_init(void) {
+	hri_mclk_set_APBCMASK_SLCD_bit(SLCD);
+	slcd_sync_init(&SEGMENT_LCD_0, SLCD);
+	SEGMENT_LCD_0_PORT_init();
+}
diff --git a/watch-library/hardware/hw/driver_init.h b/watch-library/hardware/hw/driver_init.h
new file mode 100644
index 00000000..d1c33218
--- /dev/null
+++ b/watch-library/hardware/hw/driver_init.h
@@ -0,0 +1,59 @@
+/*
+ * Code generated from Atmel Start.
+ *
+ * This file will be overwritten when reconfiguring your Atmel Start project.
+ * Please copy examples or other code you want to keep to a separate file
+ * to avoid losing it when reconfiguring.
+ */
+#ifndef DRIVER_INIT_INCLUDED
+#define DRIVER_INIT_INCLUDED
+
+#define GPIO_PIN_FUNCTION_A 0
+#define GPIO_PIN_FUNCTION_B 1
+#define GPIO_PIN_FUNCTION_C 2
+#define GPIO_PIN_FUNCTION_D 3
+#define GPIO_PIN_FUNCTION_E 4
+#define GPIO_PIN_FUNCTION_F 5
+#define GPIO_PIN_FUNCTION_G 6
+#define GPIO_PIN_FUNCTION_H 7
+#define GPIO_PIN_FUNCTION_I 8
+
+#include "pins.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <hal_atomic.h>
+#include <hal_delay.h>
+#include <hal_gpio.h>
+#include <hal_init.h>
+#include <hal_io.h>
+#include <hal_sleep.h>
+#include <hal_ext_irq.h>
+#include <hal_i2c_m_sync.h>
+#include <hal_spi_m_sync.h>
+#include <hal_delay.h>
+#include <hal_slcd_sync.h>
+
+extern struct adc_sync_descriptor ADC_0;
+
+extern struct i2c_m_sync_desc I2C_0;
+
+extern struct slcd_sync_descriptor SEGMENT_LCD_0;
+
+void I2C_0_CLOCK_init(void);
+void I2C_0_init(void);
+void I2C_0_PORT_init(void);
+
+void delay_driver_init(void);
+
+void EXTERNAL_IRQ_0_init(void);
+
+void SEGMENT_LCD_0_PORT_init(void);
+void SEGMENT_LCD_0_init(void);
+
+#ifdef __cplusplus
+}
+#endif
+#endif // DRIVER_INIT_INCLUDED
diff --git a/watch-library/hardware/include/component-version.h b/watch-library/hardware/include/component-version.h
new file mode 100644
index 00000000..a84744e9
--- /dev/null
+++ b/watch-library/hardware/include/component-version.h
@@ -0,0 +1,64 @@
+/**

+ * \file

+ *

+ * \brief Component version header file

+ *

+ * Copyright (c) 2018 Atmel Corporation, a wholly owned subsidiary of Microchip Technology Inc.

+ *

+ * \license_start

+ *

+ * \page License

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License");

+ * you may not use this file except in compliance with the License.

+ * You may obtain a copy of the License at

+ *

+ *   http://www.apache.org/licenses/LICENSE-2.0

+ *

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an "AS IS" BASIS,

+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \license_stop

+ *

+ */

+

+#ifndef _COMPONENT_VERSION_H_INCLUDED

+#define _COMPONENT_VERSION_H_INCLUDED

+

+#define COMPONENT_VERSION_MAJOR 1

+#define COMPONENT_VERSION_MINOR 2

+

+//

+// The COMPONENT_VERSION define is composed of the major and the minor version number.

+//

+// The last four digits of the COMPONENT_VERSION is the minor version with leading zeros.

+// The rest of the COMPONENT_VERSION is the major version.

+//

+#define COMPONENT_VERSION 10002

+

+//

+// The build number does not refer to the component, but to the build number

+// of the device pack that provides the component.

+//

+#define BUILD_NUMBER 77

+

+//

+// The COMPONENT_VERSION_STRING is a string (enclosed in ") that can be used for logging or embedding.

+//

+#define COMPONENT_VERSION_STRING "1.2"

+

+//

+// The COMPONENT_DATE_STRING contains a timestamp of when the pack was generated.

+//

+// The COMPONENT_DATE_STRING is written out using the following strftime pattern.

+//

+//     "%Y-%m-%d %H:%M:%S"

+//

+//

+#define COMPONENT_DATE_STRING "2018-08-31 15:05:02"

+

+#endif/* #ifndef _COMPONENT_VERSION_H_INCLUDED */

+

diff --git a/watch-library/hardware/include/component/ac.h b/watch-library/hardware/include/component/ac.h
new file mode 100644
index 00000000..e1df65fa
--- /dev/null
+++ b/watch-library/hardware/include/component/ac.h
@@ -0,0 +1,586 @@
+/**
+ * \file
+ *
+ * \brief Component description for AC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_AC_COMPONENT_
+#define _SAML22_AC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR AC */
+/* ========================================================================== */
+/** \addtogroup SAML22_AC Analog Comparators */
+/*@{*/
+
+#define AC_U2245
+#define REV_AC                      0x101
+
+/* -------- AC_CTRLA : (AC Offset: 0x00) (R/W  8) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_CTRLA_OFFSET             0x00         /**< \brief (AC_CTRLA offset) Control A */
+#define AC_CTRLA_RESETVALUE         _U_(0x00)    /**< \brief (AC_CTRLA reset_value) Control A */
+
+#define AC_CTRLA_SWRST_Pos          0            /**< \brief (AC_CTRLA) Software Reset */
+#define AC_CTRLA_SWRST              (_U_(0x1) << AC_CTRLA_SWRST_Pos)
+#define AC_CTRLA_ENABLE_Pos         1            /**< \brief (AC_CTRLA) Enable */
+#define AC_CTRLA_ENABLE             (_U_(0x1) << AC_CTRLA_ENABLE_Pos)
+#define AC_CTRLA_MASK               _U_(0x03)    /**< \brief (AC_CTRLA) MASK Register */
+
+/* -------- AC_CTRLB : (AC Offset: 0x01) ( /W  8) Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  START0:1;         /*!< bit:      0  Comparator 0 Start Comparison      */
+    uint8_t  START1:1;         /*!< bit:      1  Comparator 1 Start Comparison      */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  START:2;          /*!< bit:  0.. 1  Comparator x Start Comparison      */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_CTRLB_OFFSET             0x01         /**< \brief (AC_CTRLB offset) Control B */
+#define AC_CTRLB_RESETVALUE         _U_(0x00)    /**< \brief (AC_CTRLB reset_value) Control B */
+
+#define AC_CTRLB_START0_Pos         0            /**< \brief (AC_CTRLB) Comparator 0 Start Comparison */
+#define AC_CTRLB_START0             (_U_(1) << AC_CTRLB_START0_Pos)
+#define AC_CTRLB_START1_Pos         1            /**< \brief (AC_CTRLB) Comparator 1 Start Comparison */
+#define AC_CTRLB_START1             (_U_(1) << AC_CTRLB_START1_Pos)
+#define AC_CTRLB_START_Pos          0            /**< \brief (AC_CTRLB) Comparator x Start Comparison */
+#define AC_CTRLB_START_Msk          (_U_(0x3) << AC_CTRLB_START_Pos)
+#define AC_CTRLB_START(value)       (AC_CTRLB_START_Msk & ((value) << AC_CTRLB_START_Pos))
+#define AC_CTRLB_MASK               _U_(0x03)    /**< \brief (AC_CTRLB) MASK Register */
+
+/* -------- AC_EVCTRL : (AC Offset: 0x02) (R/W 16) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t COMPEO0:1;        /*!< bit:      0  Comparator 0 Event Output Enable   */
+    uint16_t COMPEO1:1;        /*!< bit:      1  Comparator 1 Event Output Enable   */
+    uint16_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint16_t WINEO0:1;         /*!< bit:      4  Window 0 Event Output Enable       */
+    uint16_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint16_t COMPEI0:1;        /*!< bit:      8  Comparator 0 Event Input Enable    */
+    uint16_t COMPEI1:1;        /*!< bit:      9  Comparator 1 Event Input Enable    */
+    uint16_t :2;               /*!< bit: 10..11  Reserved                           */
+    uint16_t INVEI0:1;         /*!< bit:     12  Comparator 0 Input Event Invert Enable */
+    uint16_t INVEI1:1;         /*!< bit:     13  Comparator 1 Input Event Invert Enable */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t COMPEO:2;         /*!< bit:  0.. 1  Comparator x Event Output Enable   */
+    uint16_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint16_t WINEO:1;          /*!< bit:      4  Window x Event Output Enable       */
+    uint16_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint16_t COMPEI:2;         /*!< bit:  8.. 9  Comparator x Event Input Enable    */
+    uint16_t :2;               /*!< bit: 10..11  Reserved                           */
+    uint16_t INVEI:2;          /*!< bit: 12..13  Comparator x Input Event Invert Enable */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} AC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_EVCTRL_OFFSET            0x02         /**< \brief (AC_EVCTRL offset) Event Control */
+#define AC_EVCTRL_RESETVALUE        _U_(0x0000)  /**< \brief (AC_EVCTRL reset_value) Event Control */
+
+#define AC_EVCTRL_COMPEO0_Pos       0            /**< \brief (AC_EVCTRL) Comparator 0 Event Output Enable */
+#define AC_EVCTRL_COMPEO0           (_U_(1) << AC_EVCTRL_COMPEO0_Pos)
+#define AC_EVCTRL_COMPEO1_Pos       1            /**< \brief (AC_EVCTRL) Comparator 1 Event Output Enable */
+#define AC_EVCTRL_COMPEO1           (_U_(1) << AC_EVCTRL_COMPEO1_Pos)
+#define AC_EVCTRL_COMPEO_Pos        0            /**< \brief (AC_EVCTRL) Comparator x Event Output Enable */
+#define AC_EVCTRL_COMPEO_Msk        (_U_(0x3) << AC_EVCTRL_COMPEO_Pos)
+#define AC_EVCTRL_COMPEO(value)     (AC_EVCTRL_COMPEO_Msk & ((value) << AC_EVCTRL_COMPEO_Pos))
+#define AC_EVCTRL_WINEO0_Pos        4            /**< \brief (AC_EVCTRL) Window 0 Event Output Enable */
+#define AC_EVCTRL_WINEO0            (_U_(1) << AC_EVCTRL_WINEO0_Pos)
+#define AC_EVCTRL_WINEO_Pos         4            /**< \brief (AC_EVCTRL) Window x Event Output Enable */
+#define AC_EVCTRL_WINEO_Msk         (_U_(0x1) << AC_EVCTRL_WINEO_Pos)
+#define AC_EVCTRL_WINEO(value)      (AC_EVCTRL_WINEO_Msk & ((value) << AC_EVCTRL_WINEO_Pos))
+#define AC_EVCTRL_COMPEI0_Pos       8            /**< \brief (AC_EVCTRL) Comparator 0 Event Input Enable */
+#define AC_EVCTRL_COMPEI0           (_U_(1) << AC_EVCTRL_COMPEI0_Pos)
+#define AC_EVCTRL_COMPEI1_Pos       9            /**< \brief (AC_EVCTRL) Comparator 1 Event Input Enable */
+#define AC_EVCTRL_COMPEI1           (_U_(1) << AC_EVCTRL_COMPEI1_Pos)
+#define AC_EVCTRL_COMPEI_Pos        8            /**< \brief (AC_EVCTRL) Comparator x Event Input Enable */
+#define AC_EVCTRL_COMPEI_Msk        (_U_(0x3) << AC_EVCTRL_COMPEI_Pos)
+#define AC_EVCTRL_COMPEI(value)     (AC_EVCTRL_COMPEI_Msk & ((value) << AC_EVCTRL_COMPEI_Pos))
+#define AC_EVCTRL_INVEI0_Pos        12           /**< \brief (AC_EVCTRL) Comparator 0 Input Event Invert Enable */
+#define AC_EVCTRL_INVEI0            (_U_(1) << AC_EVCTRL_INVEI0_Pos)
+#define AC_EVCTRL_INVEI1_Pos        13           /**< \brief (AC_EVCTRL) Comparator 1 Input Event Invert Enable */
+#define AC_EVCTRL_INVEI1            (_U_(1) << AC_EVCTRL_INVEI1_Pos)
+#define AC_EVCTRL_INVEI_Pos         12           /**< \brief (AC_EVCTRL) Comparator x Input Event Invert Enable */
+#define AC_EVCTRL_INVEI_Msk         (_U_(0x3) << AC_EVCTRL_INVEI_Pos)
+#define AC_EVCTRL_INVEI(value)      (AC_EVCTRL_INVEI_Msk & ((value) << AC_EVCTRL_INVEI_Pos))
+#define AC_EVCTRL_MASK              _U_(0x3313)  /**< \brief (AC_EVCTRL) MASK Register */
+
+/* -------- AC_INTENCLR : (AC Offset: 0x04) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  COMP0:1;          /*!< bit:      0  Comparator 0 Interrupt Enable      */
+    uint8_t  COMP1:1;          /*!< bit:      1  Comparator 1 Interrupt Enable      */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  WIN0:1;           /*!< bit:      4  Window 0 Interrupt Enable          */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  COMP:2;           /*!< bit:  0.. 1  Comparator x Interrupt Enable      */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  WIN:1;            /*!< bit:      4  Window x Interrupt Enable          */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_INTENCLR_OFFSET          0x04         /**< \brief (AC_INTENCLR offset) Interrupt Enable Clear */
+#define AC_INTENCLR_RESETVALUE      _U_(0x00)    /**< \brief (AC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define AC_INTENCLR_COMP0_Pos       0            /**< \brief (AC_INTENCLR) Comparator 0 Interrupt Enable */
+#define AC_INTENCLR_COMP0           (_U_(1) << AC_INTENCLR_COMP0_Pos)
+#define AC_INTENCLR_COMP1_Pos       1            /**< \brief (AC_INTENCLR) Comparator 1 Interrupt Enable */
+#define AC_INTENCLR_COMP1           (_U_(1) << AC_INTENCLR_COMP1_Pos)
+#define AC_INTENCLR_COMP_Pos        0            /**< \brief (AC_INTENCLR) Comparator x Interrupt Enable */
+#define AC_INTENCLR_COMP_Msk        (_U_(0x3) << AC_INTENCLR_COMP_Pos)
+#define AC_INTENCLR_COMP(value)     (AC_INTENCLR_COMP_Msk & ((value) << AC_INTENCLR_COMP_Pos))
+#define AC_INTENCLR_WIN0_Pos        4            /**< \brief (AC_INTENCLR) Window 0 Interrupt Enable */
+#define AC_INTENCLR_WIN0            (_U_(1) << AC_INTENCLR_WIN0_Pos)
+#define AC_INTENCLR_WIN_Pos         4            /**< \brief (AC_INTENCLR) Window x Interrupt Enable */
+#define AC_INTENCLR_WIN_Msk         (_U_(0x1) << AC_INTENCLR_WIN_Pos)
+#define AC_INTENCLR_WIN(value)      (AC_INTENCLR_WIN_Msk & ((value) << AC_INTENCLR_WIN_Pos))
+#define AC_INTENCLR_MASK            _U_(0x13)    /**< \brief (AC_INTENCLR) MASK Register */
+
+/* -------- AC_INTENSET : (AC Offset: 0x05) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  COMP0:1;          /*!< bit:      0  Comparator 0 Interrupt Enable      */
+    uint8_t  COMP1:1;          /*!< bit:      1  Comparator 1 Interrupt Enable      */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  WIN0:1;           /*!< bit:      4  Window 0 Interrupt Enable          */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  COMP:2;           /*!< bit:  0.. 1  Comparator x Interrupt Enable      */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  WIN:1;            /*!< bit:      4  Window x Interrupt Enable          */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_INTENSET_OFFSET          0x05         /**< \brief (AC_INTENSET offset) Interrupt Enable Set */
+#define AC_INTENSET_RESETVALUE      _U_(0x00)    /**< \brief (AC_INTENSET reset_value) Interrupt Enable Set */
+
+#define AC_INTENSET_COMP0_Pos       0            /**< \brief (AC_INTENSET) Comparator 0 Interrupt Enable */
+#define AC_INTENSET_COMP0           (_U_(1) << AC_INTENSET_COMP0_Pos)
+#define AC_INTENSET_COMP1_Pos       1            /**< \brief (AC_INTENSET) Comparator 1 Interrupt Enable */
+#define AC_INTENSET_COMP1           (_U_(1) << AC_INTENSET_COMP1_Pos)
+#define AC_INTENSET_COMP_Pos        0            /**< \brief (AC_INTENSET) Comparator x Interrupt Enable */
+#define AC_INTENSET_COMP_Msk        (_U_(0x3) << AC_INTENSET_COMP_Pos)
+#define AC_INTENSET_COMP(value)     (AC_INTENSET_COMP_Msk & ((value) << AC_INTENSET_COMP_Pos))
+#define AC_INTENSET_WIN0_Pos        4            /**< \brief (AC_INTENSET) Window 0 Interrupt Enable */
+#define AC_INTENSET_WIN0            (_U_(1) << AC_INTENSET_WIN0_Pos)
+#define AC_INTENSET_WIN_Pos         4            /**< \brief (AC_INTENSET) Window x Interrupt Enable */
+#define AC_INTENSET_WIN_Msk         (_U_(0x1) << AC_INTENSET_WIN_Pos)
+#define AC_INTENSET_WIN(value)      (AC_INTENSET_WIN_Msk & ((value) << AC_INTENSET_WIN_Pos))
+#define AC_INTENSET_MASK            _U_(0x13)    /**< \brief (AC_INTENSET) MASK Register */
+
+/* -------- AC_INTFLAG : (AC Offset: 0x06) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  COMP0:1;          /*!< bit:      0  Comparator 0                       */
+    __I uint8_t  COMP1:1;          /*!< bit:      1  Comparator 1                       */
+    __I uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    __I uint8_t  WIN0:1;           /*!< bit:      4  Window 0                           */
+    __I uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint8_t  COMP:2;           /*!< bit:  0.. 1  Comparator x                       */
+    __I uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    __I uint8_t  WIN:1;            /*!< bit:      4  Window x                           */
+    __I uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_INTFLAG_OFFSET           0x06         /**< \brief (AC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define AC_INTFLAG_RESETVALUE       _U_(0x00)    /**< \brief (AC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define AC_INTFLAG_COMP0_Pos        0            /**< \brief (AC_INTFLAG) Comparator 0 */
+#define AC_INTFLAG_COMP0            (_U_(1) << AC_INTFLAG_COMP0_Pos)
+#define AC_INTFLAG_COMP1_Pos        1            /**< \brief (AC_INTFLAG) Comparator 1 */
+#define AC_INTFLAG_COMP1            (_U_(1) << AC_INTFLAG_COMP1_Pos)
+#define AC_INTFLAG_COMP_Pos         0            /**< \brief (AC_INTFLAG) Comparator x */
+#define AC_INTFLAG_COMP_Msk         (_U_(0x3) << AC_INTFLAG_COMP_Pos)
+#define AC_INTFLAG_COMP(value)      (AC_INTFLAG_COMP_Msk & ((value) << AC_INTFLAG_COMP_Pos))
+#define AC_INTFLAG_WIN0_Pos         4            /**< \brief (AC_INTFLAG) Window 0 */
+#define AC_INTFLAG_WIN0             (_U_(1) << AC_INTFLAG_WIN0_Pos)
+#define AC_INTFLAG_WIN_Pos          4            /**< \brief (AC_INTFLAG) Window x */
+#define AC_INTFLAG_WIN_Msk          (_U_(0x1) << AC_INTFLAG_WIN_Pos)
+#define AC_INTFLAG_WIN(value)       (AC_INTFLAG_WIN_Msk & ((value) << AC_INTFLAG_WIN_Pos))
+#define AC_INTFLAG_MASK             _U_(0x13)    /**< \brief (AC_INTFLAG) MASK Register */
+
+/* -------- AC_STATUSA : (AC Offset: 0x07) (R/   8) Status A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  STATE0:1;         /*!< bit:      0  Comparator 0 Current State         */
+    uint8_t  STATE1:1;         /*!< bit:      1  Comparator 1 Current State         */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  WSTATE0:2;        /*!< bit:  4.. 5  Window 0 Current State             */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  STATE:2;          /*!< bit:  0.. 1  Comparator x Current State         */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_STATUSA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_STATUSA_OFFSET           0x07         /**< \brief (AC_STATUSA offset) Status A */
+#define AC_STATUSA_RESETVALUE       _U_(0x00)    /**< \brief (AC_STATUSA reset_value) Status A */
+
+#define AC_STATUSA_STATE0_Pos       0            /**< \brief (AC_STATUSA) Comparator 0 Current State */
+#define AC_STATUSA_STATE0           (_U_(1) << AC_STATUSA_STATE0_Pos)
+#define AC_STATUSA_STATE1_Pos       1            /**< \brief (AC_STATUSA) Comparator 1 Current State */
+#define AC_STATUSA_STATE1           (_U_(1) << AC_STATUSA_STATE1_Pos)
+#define AC_STATUSA_STATE_Pos        0            /**< \brief (AC_STATUSA) Comparator x Current State */
+#define AC_STATUSA_STATE_Msk        (_U_(0x3) << AC_STATUSA_STATE_Pos)
+#define AC_STATUSA_STATE(value)     (AC_STATUSA_STATE_Msk & ((value) << AC_STATUSA_STATE_Pos))
+#define AC_STATUSA_WSTATE0_Pos      4            /**< \brief (AC_STATUSA) Window 0 Current State */
+#define AC_STATUSA_WSTATE0_Msk      (_U_(0x3) << AC_STATUSA_WSTATE0_Pos)
+#define AC_STATUSA_WSTATE0(value)   (AC_STATUSA_WSTATE0_Msk & ((value) << AC_STATUSA_WSTATE0_Pos))
+#define   AC_STATUSA_WSTATE0_ABOVE_Val    _U_(0x0)   /**< \brief (AC_STATUSA) Signal is above window */
+#define   AC_STATUSA_WSTATE0_INSIDE_Val   _U_(0x1)   /**< \brief (AC_STATUSA) Signal is inside window */
+#define   AC_STATUSA_WSTATE0_BELOW_Val    _U_(0x2)   /**< \brief (AC_STATUSA) Signal is below window */
+#define AC_STATUSA_WSTATE0_ABOVE    (AC_STATUSA_WSTATE0_ABOVE_Val  << AC_STATUSA_WSTATE0_Pos)
+#define AC_STATUSA_WSTATE0_INSIDE   (AC_STATUSA_WSTATE0_INSIDE_Val << AC_STATUSA_WSTATE0_Pos)
+#define AC_STATUSA_WSTATE0_BELOW    (AC_STATUSA_WSTATE0_BELOW_Val  << AC_STATUSA_WSTATE0_Pos)
+#define AC_STATUSA_MASK             _U_(0x33)    /**< \brief (AC_STATUSA) MASK Register */
+
+/* -------- AC_STATUSB : (AC Offset: 0x08) (R/   8) Status B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  READY0:1;         /*!< bit:      0  Comparator 0 Ready                 */
+    uint8_t  READY1:1;         /*!< bit:      1  Comparator 1 Ready                 */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  READY:2;          /*!< bit:  0.. 1  Comparator x Ready                 */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_STATUSB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_STATUSB_OFFSET           0x08         /**< \brief (AC_STATUSB offset) Status B */
+#define AC_STATUSB_RESETVALUE       _U_(0x00)    /**< \brief (AC_STATUSB reset_value) Status B */
+
+#define AC_STATUSB_READY0_Pos       0            /**< \brief (AC_STATUSB) Comparator 0 Ready */
+#define AC_STATUSB_READY0           (_U_(1) << AC_STATUSB_READY0_Pos)
+#define AC_STATUSB_READY1_Pos       1            /**< \brief (AC_STATUSB) Comparator 1 Ready */
+#define AC_STATUSB_READY1           (_U_(1) << AC_STATUSB_READY1_Pos)
+#define AC_STATUSB_READY_Pos        0            /**< \brief (AC_STATUSB) Comparator x Ready */
+#define AC_STATUSB_READY_Msk        (_U_(0x3) << AC_STATUSB_READY_Pos)
+#define AC_STATUSB_READY(value)     (AC_STATUSB_READY_Msk & ((value) << AC_STATUSB_READY_Pos))
+#define AC_STATUSB_MASK             _U_(0x03)    /**< \brief (AC_STATUSB) MASK Register */
+
+/* -------- AC_DBGCTRL : (AC Offset: 0x09) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Debug Run                          */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_DBGCTRL_OFFSET           0x09         /**< \brief (AC_DBGCTRL offset) Debug Control */
+#define AC_DBGCTRL_RESETVALUE       _U_(0x00)    /**< \brief (AC_DBGCTRL reset_value) Debug Control */
+
+#define AC_DBGCTRL_DBGRUN_Pos       0            /**< \brief (AC_DBGCTRL) Debug Run */
+#define AC_DBGCTRL_DBGRUN           (_U_(0x1) << AC_DBGCTRL_DBGRUN_Pos)
+#define AC_DBGCTRL_MASK             _U_(0x01)    /**< \brief (AC_DBGCTRL) MASK Register */
+
+/* -------- AC_WINCTRL : (AC Offset: 0x0A) (R/W  8) Window Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  WEN0:1;           /*!< bit:      0  Window 0 Mode Enable               */
+    uint8_t  WINTSEL0:2;       /*!< bit:  1.. 2  Window 0 Interrupt Selection       */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_WINCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_WINCTRL_OFFSET           0x0A         /**< \brief (AC_WINCTRL offset) Window Control */
+#define AC_WINCTRL_RESETVALUE       _U_(0x00)    /**< \brief (AC_WINCTRL reset_value) Window Control */
+
+#define AC_WINCTRL_WEN0_Pos         0            /**< \brief (AC_WINCTRL) Window 0 Mode Enable */
+#define AC_WINCTRL_WEN0             (_U_(0x1) << AC_WINCTRL_WEN0_Pos)
+#define AC_WINCTRL_WINTSEL0_Pos     1            /**< \brief (AC_WINCTRL) Window 0 Interrupt Selection */
+#define AC_WINCTRL_WINTSEL0_Msk     (_U_(0x3) << AC_WINCTRL_WINTSEL0_Pos)
+#define AC_WINCTRL_WINTSEL0(value)  (AC_WINCTRL_WINTSEL0_Msk & ((value) << AC_WINCTRL_WINTSEL0_Pos))
+#define   AC_WINCTRL_WINTSEL0_ABOVE_Val   _U_(0x0)   /**< \brief (AC_WINCTRL) Interrupt on signal above window */
+#define   AC_WINCTRL_WINTSEL0_INSIDE_Val  _U_(0x1)   /**< \brief (AC_WINCTRL) Interrupt on signal inside window */
+#define   AC_WINCTRL_WINTSEL0_BELOW_Val   _U_(0x2)   /**< \brief (AC_WINCTRL) Interrupt on signal below window */
+#define   AC_WINCTRL_WINTSEL0_OUTSIDE_Val _U_(0x3)   /**< \brief (AC_WINCTRL) Interrupt on signal outside window */
+#define AC_WINCTRL_WINTSEL0_ABOVE   (AC_WINCTRL_WINTSEL0_ABOVE_Val << AC_WINCTRL_WINTSEL0_Pos)
+#define AC_WINCTRL_WINTSEL0_INSIDE  (AC_WINCTRL_WINTSEL0_INSIDE_Val << AC_WINCTRL_WINTSEL0_Pos)
+#define AC_WINCTRL_WINTSEL0_BELOW   (AC_WINCTRL_WINTSEL0_BELOW_Val << AC_WINCTRL_WINTSEL0_Pos)
+#define AC_WINCTRL_WINTSEL0_OUTSIDE (AC_WINCTRL_WINTSEL0_OUTSIDE_Val << AC_WINCTRL_WINTSEL0_Pos)
+#define AC_WINCTRL_MASK             _U_(0x07)    /**< \brief (AC_WINCTRL) MASK Register */
+
+/* -------- AC_SCALER : (AC Offset: 0x0C) (R/W  8) Scaler n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  VALUE:6;          /*!< bit:  0.. 5  Scaler Value                       */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AC_SCALER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_SCALER_OFFSET            0x0C         /**< \brief (AC_SCALER offset) Scaler n */
+#define AC_SCALER_RESETVALUE        _U_(0x00)    /**< \brief (AC_SCALER reset_value) Scaler n */
+
+#define AC_SCALER_VALUE_Pos         0            /**< \brief (AC_SCALER) Scaler Value */
+#define AC_SCALER_VALUE_Msk         (_U_(0x3F) << AC_SCALER_VALUE_Pos)
+#define AC_SCALER_VALUE(value)      (AC_SCALER_VALUE_Msk & ((value) << AC_SCALER_VALUE_Pos))
+#define AC_SCALER_MASK              _U_(0x3F)    /**< \brief (AC_SCALER) MASK Register */
+
+/* -------- AC_COMPCTRL : (AC Offset: 0x10) (R/W 32) Comparator Control n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t SINGLE:1;         /*!< bit:      2  Single-Shot Mode                   */
+    uint32_t INTSEL:2;         /*!< bit:  3.. 4  Interrupt Selection                */
+    uint32_t :1;               /*!< bit:      5  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t MUXNEG:3;         /*!< bit:  8..10  Negative Input Mux Selection       */
+    uint32_t :1;               /*!< bit:     11  Reserved                           */
+    uint32_t MUXPOS:3;         /*!< bit: 12..14  Positive Input Mux Selection       */
+    uint32_t SWAP:1;           /*!< bit:     15  Swap Inputs and Invert             */
+    uint32_t SPEED:2;          /*!< bit: 16..17  Speed Selection                    */
+    uint32_t :1;               /*!< bit:     18  Reserved                           */
+    uint32_t HYSTEN:1;         /*!< bit:     19  Hysteresis Enable                  */
+    uint32_t HYST:2;           /*!< bit: 20..21  Hysteresis Level                   */
+    uint32_t :2;               /*!< bit: 22..23  Reserved                           */
+    uint32_t FLEN:3;           /*!< bit: 24..26  Filter Length                      */
+    uint32_t :1;               /*!< bit:     27  Reserved                           */
+    uint32_t OUT:2;            /*!< bit: 28..29  Output                             */
+    uint32_t :2;               /*!< bit: 30..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} AC_COMPCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_COMPCTRL_OFFSET          0x10         /**< \brief (AC_COMPCTRL offset) Comparator Control n */
+#define AC_COMPCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (AC_COMPCTRL reset_value) Comparator Control n */
+
+#define AC_COMPCTRL_ENABLE_Pos      1            /**< \brief (AC_COMPCTRL) Enable */
+#define AC_COMPCTRL_ENABLE          (_U_(0x1) << AC_COMPCTRL_ENABLE_Pos)
+#define AC_COMPCTRL_SINGLE_Pos      2            /**< \brief (AC_COMPCTRL) Single-Shot Mode */
+#define AC_COMPCTRL_SINGLE          (_U_(0x1) << AC_COMPCTRL_SINGLE_Pos)
+#define AC_COMPCTRL_INTSEL_Pos      3            /**< \brief (AC_COMPCTRL) Interrupt Selection */
+#define AC_COMPCTRL_INTSEL_Msk      (_U_(0x3) << AC_COMPCTRL_INTSEL_Pos)
+#define AC_COMPCTRL_INTSEL(value)   (AC_COMPCTRL_INTSEL_Msk & ((value) << AC_COMPCTRL_INTSEL_Pos))
+#define   AC_COMPCTRL_INTSEL_TOGGLE_Val   _U_(0x0)   /**< \brief (AC_COMPCTRL) Interrupt on comparator output toggle */
+#define   AC_COMPCTRL_INTSEL_RISING_Val   _U_(0x1)   /**< \brief (AC_COMPCTRL) Interrupt on comparator output rising */
+#define   AC_COMPCTRL_INTSEL_FALLING_Val  _U_(0x2)   /**< \brief (AC_COMPCTRL) Interrupt on comparator output falling */
+#define   AC_COMPCTRL_INTSEL_EOC_Val      _U_(0x3)   /**< \brief (AC_COMPCTRL) Interrupt on end of comparison (single-shot mode only) */
+#define AC_COMPCTRL_INTSEL_TOGGLE   (AC_COMPCTRL_INTSEL_TOGGLE_Val << AC_COMPCTRL_INTSEL_Pos)
+#define AC_COMPCTRL_INTSEL_RISING   (AC_COMPCTRL_INTSEL_RISING_Val << AC_COMPCTRL_INTSEL_Pos)
+#define AC_COMPCTRL_INTSEL_FALLING  (AC_COMPCTRL_INTSEL_FALLING_Val << AC_COMPCTRL_INTSEL_Pos)
+#define AC_COMPCTRL_INTSEL_EOC      (AC_COMPCTRL_INTSEL_EOC_Val    << AC_COMPCTRL_INTSEL_Pos)
+#define AC_COMPCTRL_RUNSTDBY_Pos    6            /**< \brief (AC_COMPCTRL) Run in Standby */
+#define AC_COMPCTRL_RUNSTDBY        (_U_(0x1) << AC_COMPCTRL_RUNSTDBY_Pos)
+#define AC_COMPCTRL_MUXNEG_Pos      8            /**< \brief (AC_COMPCTRL) Negative Input Mux Selection */
+#define AC_COMPCTRL_MUXNEG_Msk      (_U_(0x7) << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG(value)   (AC_COMPCTRL_MUXNEG_Msk & ((value) << AC_COMPCTRL_MUXNEG_Pos))
+#define   AC_COMPCTRL_MUXNEG_PIN0_Val     _U_(0x0)   /**< \brief (AC_COMPCTRL) I/O pin 0 */
+#define   AC_COMPCTRL_MUXNEG_PIN1_Val     _U_(0x1)   /**< \brief (AC_COMPCTRL) I/O pin 1 */
+#define   AC_COMPCTRL_MUXNEG_PIN2_Val     _U_(0x2)   /**< \brief (AC_COMPCTRL) I/O pin 2 */
+#define   AC_COMPCTRL_MUXNEG_PIN3_Val     _U_(0x3)   /**< \brief (AC_COMPCTRL) I/O pin 3 */
+#define   AC_COMPCTRL_MUXNEG_GND_Val      _U_(0x4)   /**< \brief (AC_COMPCTRL) Ground */
+#define   AC_COMPCTRL_MUXNEG_VSCALE_Val   _U_(0x5)   /**< \brief (AC_COMPCTRL) VDD scaler */
+#define   AC_COMPCTRL_MUXNEG_BANDGAP_Val  _U_(0x6)   /**< \brief (AC_COMPCTRL) Internal bandgap voltage */
+#define   AC_COMPCTRL_MUXNEG_DAC_Val      _U_(0x7)   /**< \brief (AC_COMPCTRL) DAC output */
+#define AC_COMPCTRL_MUXNEG_PIN0     (AC_COMPCTRL_MUXNEG_PIN0_Val   << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_PIN1     (AC_COMPCTRL_MUXNEG_PIN1_Val   << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_PIN2     (AC_COMPCTRL_MUXNEG_PIN2_Val   << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_PIN3     (AC_COMPCTRL_MUXNEG_PIN3_Val   << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_GND      (AC_COMPCTRL_MUXNEG_GND_Val    << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_VSCALE   (AC_COMPCTRL_MUXNEG_VSCALE_Val << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_BANDGAP  (AC_COMPCTRL_MUXNEG_BANDGAP_Val << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXNEG_DAC      (AC_COMPCTRL_MUXNEG_DAC_Val    << AC_COMPCTRL_MUXNEG_Pos)
+#define AC_COMPCTRL_MUXPOS_Pos      12           /**< \brief (AC_COMPCTRL) Positive Input Mux Selection */
+#define AC_COMPCTRL_MUXPOS_Msk      (_U_(0x7) << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_MUXPOS(value)   (AC_COMPCTRL_MUXPOS_Msk & ((value) << AC_COMPCTRL_MUXPOS_Pos))
+#define   AC_COMPCTRL_MUXPOS_PIN0_Val     _U_(0x0)   /**< \brief (AC_COMPCTRL) I/O pin 0 */
+#define   AC_COMPCTRL_MUXPOS_PIN1_Val     _U_(0x1)   /**< \brief (AC_COMPCTRL) I/O pin 1 */
+#define   AC_COMPCTRL_MUXPOS_PIN2_Val     _U_(0x2)   /**< \brief (AC_COMPCTRL) I/O pin 2 */
+#define   AC_COMPCTRL_MUXPOS_PIN3_Val     _U_(0x3)   /**< \brief (AC_COMPCTRL) I/O pin 3 */
+#define   AC_COMPCTRL_MUXPOS_VSCALE_Val   _U_(0x4)   /**< \brief (AC_COMPCTRL) VDD Scaler */
+#define AC_COMPCTRL_MUXPOS_PIN0     (AC_COMPCTRL_MUXPOS_PIN0_Val   << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_MUXPOS_PIN1     (AC_COMPCTRL_MUXPOS_PIN1_Val   << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_MUXPOS_PIN2     (AC_COMPCTRL_MUXPOS_PIN2_Val   << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_MUXPOS_PIN3     (AC_COMPCTRL_MUXPOS_PIN3_Val   << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_MUXPOS_VSCALE   (AC_COMPCTRL_MUXPOS_VSCALE_Val << AC_COMPCTRL_MUXPOS_Pos)
+#define AC_COMPCTRL_SWAP_Pos        15           /**< \brief (AC_COMPCTRL) Swap Inputs and Invert */
+#define AC_COMPCTRL_SWAP            (_U_(0x1) << AC_COMPCTRL_SWAP_Pos)
+#define AC_COMPCTRL_SPEED_Pos       16           /**< \brief (AC_COMPCTRL) Speed Selection */
+#define AC_COMPCTRL_SPEED_Msk       (_U_(0x3) << AC_COMPCTRL_SPEED_Pos)
+#define AC_COMPCTRL_SPEED(value)    (AC_COMPCTRL_SPEED_Msk & ((value) << AC_COMPCTRL_SPEED_Pos))
+#define   AC_COMPCTRL_SPEED_LOW_Val       _U_(0x0)   /**< \brief (AC_COMPCTRL) Low speed */
+#define   AC_COMPCTRL_SPEED_MEDLOW_Val    _U_(0x1)   /**< \brief (AC_COMPCTRL) Medium low speed */
+#define   AC_COMPCTRL_SPEED_MEDHIGH_Val   _U_(0x2)   /**< \brief (AC_COMPCTRL) Medium high speed */
+#define   AC_COMPCTRL_SPEED_HIGH_Val      _U_(0x3)   /**< \brief (AC_COMPCTRL) High speed */
+#define AC_COMPCTRL_SPEED_LOW       (AC_COMPCTRL_SPEED_LOW_Val     << AC_COMPCTRL_SPEED_Pos)
+#define AC_COMPCTRL_SPEED_MEDLOW    (AC_COMPCTRL_SPEED_MEDLOW_Val  << AC_COMPCTRL_SPEED_Pos)
+#define AC_COMPCTRL_SPEED_MEDHIGH   (AC_COMPCTRL_SPEED_MEDHIGH_Val << AC_COMPCTRL_SPEED_Pos)
+#define AC_COMPCTRL_SPEED_HIGH      (AC_COMPCTRL_SPEED_HIGH_Val    << AC_COMPCTRL_SPEED_Pos)
+#define AC_COMPCTRL_HYSTEN_Pos      19           /**< \brief (AC_COMPCTRL) Hysteresis Enable */
+#define AC_COMPCTRL_HYSTEN          (_U_(0x1) << AC_COMPCTRL_HYSTEN_Pos)
+#define AC_COMPCTRL_HYST_Pos        20           /**< \brief (AC_COMPCTRL) Hysteresis Level */
+#define AC_COMPCTRL_HYST_Msk        (_U_(0x3) << AC_COMPCTRL_HYST_Pos)
+#define AC_COMPCTRL_HYST(value)     (AC_COMPCTRL_HYST_Msk & ((value) << AC_COMPCTRL_HYST_Pos))
+#define   AC_COMPCTRL_HYST_HYST50_Val     _U_(0x0)   /**< \brief (AC_COMPCTRL) 50mV */
+#define   AC_COMPCTRL_HYST_HYST70_Val     _U_(0x1)   /**< \brief (AC_COMPCTRL) 70mV */
+#define   AC_COMPCTRL_HYST_HYST90_Val     _U_(0x2)   /**< \brief (AC_COMPCTRL) 90mV */
+#define   AC_COMPCTRL_HYST_HYST110_Val    _U_(0x3)   /**< \brief (AC_COMPCTRL) 110mV */
+#define AC_COMPCTRL_HYST_HYST50     (AC_COMPCTRL_HYST_HYST50_Val   << AC_COMPCTRL_HYST_Pos)
+#define AC_COMPCTRL_HYST_HYST70     (AC_COMPCTRL_HYST_HYST70_Val   << AC_COMPCTRL_HYST_Pos)
+#define AC_COMPCTRL_HYST_HYST90     (AC_COMPCTRL_HYST_HYST90_Val   << AC_COMPCTRL_HYST_Pos)
+#define AC_COMPCTRL_HYST_HYST110    (AC_COMPCTRL_HYST_HYST110_Val  << AC_COMPCTRL_HYST_Pos)
+#define AC_COMPCTRL_FLEN_Pos        24           /**< \brief (AC_COMPCTRL) Filter Length */
+#define AC_COMPCTRL_FLEN_Msk        (_U_(0x7) << AC_COMPCTRL_FLEN_Pos)
+#define AC_COMPCTRL_FLEN(value)     (AC_COMPCTRL_FLEN_Msk & ((value) << AC_COMPCTRL_FLEN_Pos))
+#define   AC_COMPCTRL_FLEN_OFF_Val        _U_(0x0)   /**< \brief (AC_COMPCTRL) No filtering */
+#define   AC_COMPCTRL_FLEN_MAJ3_Val       _U_(0x1)   /**< \brief (AC_COMPCTRL) 3-bit majority function (2 of 3) */
+#define   AC_COMPCTRL_FLEN_MAJ5_Val       _U_(0x2)   /**< \brief (AC_COMPCTRL) 5-bit majority function (3 of 5) */
+#define AC_COMPCTRL_FLEN_OFF        (AC_COMPCTRL_FLEN_OFF_Val      << AC_COMPCTRL_FLEN_Pos)
+#define AC_COMPCTRL_FLEN_MAJ3       (AC_COMPCTRL_FLEN_MAJ3_Val     << AC_COMPCTRL_FLEN_Pos)
+#define AC_COMPCTRL_FLEN_MAJ5       (AC_COMPCTRL_FLEN_MAJ5_Val     << AC_COMPCTRL_FLEN_Pos)
+#define AC_COMPCTRL_OUT_Pos         28           /**< \brief (AC_COMPCTRL) Output */
+#define AC_COMPCTRL_OUT_Msk         (_U_(0x3) << AC_COMPCTRL_OUT_Pos)
+#define AC_COMPCTRL_OUT(value)      (AC_COMPCTRL_OUT_Msk & ((value) << AC_COMPCTRL_OUT_Pos))
+#define   AC_COMPCTRL_OUT_OFF_Val         _U_(0x0)   /**< \brief (AC_COMPCTRL) The output of COMPn is not routed to the COMPn I/O port */
+#define   AC_COMPCTRL_OUT_ASYNC_Val       _U_(0x1)   /**< \brief (AC_COMPCTRL) The asynchronous output of COMPn is routed to the COMPn I/O port */
+#define   AC_COMPCTRL_OUT_SYNC_Val        _U_(0x2)   /**< \brief (AC_COMPCTRL) The synchronous output (including filtering) of COMPn is routed to the COMPn I/O port */
+#define AC_COMPCTRL_OUT_OFF         (AC_COMPCTRL_OUT_OFF_Val       << AC_COMPCTRL_OUT_Pos)
+#define AC_COMPCTRL_OUT_ASYNC       (AC_COMPCTRL_OUT_ASYNC_Val     << AC_COMPCTRL_OUT_Pos)
+#define AC_COMPCTRL_OUT_SYNC        (AC_COMPCTRL_OUT_SYNC_Val      << AC_COMPCTRL_OUT_Pos)
+#define AC_COMPCTRL_MASK            _U_(0x373BF75E) /**< \brief (AC_COMPCTRL) MASK Register */
+
+/* -------- AC_SYNCBUSY : (AC Offset: 0x20) (R/  32) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Synchronization Busy        */
+    uint32_t WINCTRL:1;        /*!< bit:      2  WINCTRL Synchronization Busy       */
+    uint32_t COMPCTRL0:1;      /*!< bit:      3  COMPCTRL 0 Synchronization Busy    */
+    uint32_t COMPCTRL1:1;      /*!< bit:      4  COMPCTRL 1 Synchronization Busy    */
+    uint32_t :27;              /*!< bit:  5..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :3;               /*!< bit:  0.. 2  Reserved                           */
+    uint32_t COMPCTRL:2;       /*!< bit:  3.. 4  COMPCTRL x Synchronization Busy    */
+    uint32_t :27;              /*!< bit:  5..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} AC_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AC_SYNCBUSY_OFFSET          0x20         /**< \brief (AC_SYNCBUSY offset) Synchronization Busy */
+#define AC_SYNCBUSY_RESETVALUE      _U_(0x00000000) /**< \brief (AC_SYNCBUSY reset_value) Synchronization Busy */
+
+#define AC_SYNCBUSY_SWRST_Pos       0            /**< \brief (AC_SYNCBUSY) Software Reset Synchronization Busy */
+#define AC_SYNCBUSY_SWRST           (_U_(0x1) << AC_SYNCBUSY_SWRST_Pos)
+#define AC_SYNCBUSY_ENABLE_Pos      1            /**< \brief (AC_SYNCBUSY) Enable Synchronization Busy */
+#define AC_SYNCBUSY_ENABLE          (_U_(0x1) << AC_SYNCBUSY_ENABLE_Pos)
+#define AC_SYNCBUSY_WINCTRL_Pos     2            /**< \brief (AC_SYNCBUSY) WINCTRL Synchronization Busy */
+#define AC_SYNCBUSY_WINCTRL         (_U_(0x1) << AC_SYNCBUSY_WINCTRL_Pos)
+#define AC_SYNCBUSY_COMPCTRL0_Pos   3            /**< \brief (AC_SYNCBUSY) COMPCTRL 0 Synchronization Busy */
+#define AC_SYNCBUSY_COMPCTRL0       (_U_(1) << AC_SYNCBUSY_COMPCTRL0_Pos)
+#define AC_SYNCBUSY_COMPCTRL1_Pos   4            /**< \brief (AC_SYNCBUSY) COMPCTRL 1 Synchronization Busy */
+#define AC_SYNCBUSY_COMPCTRL1       (_U_(1) << AC_SYNCBUSY_COMPCTRL1_Pos)
+#define AC_SYNCBUSY_COMPCTRL_Pos    3            /**< \brief (AC_SYNCBUSY) COMPCTRL x Synchronization Busy */
+#define AC_SYNCBUSY_COMPCTRL_Msk    (_U_(0x3) << AC_SYNCBUSY_COMPCTRL_Pos)
+#define AC_SYNCBUSY_COMPCTRL(value) (AC_SYNCBUSY_COMPCTRL_Msk & ((value) << AC_SYNCBUSY_COMPCTRL_Pos))
+#define AC_SYNCBUSY_MASK            _U_(0x0000001F) /**< \brief (AC_SYNCBUSY) MASK Register */
+
+/** \brief AC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO AC_CTRLA_Type             CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control A */
+  __O  AC_CTRLB_Type             CTRLB;       /**< \brief Offset: 0x01 ( /W  8) Control B */
+  __IO AC_EVCTRL_Type            EVCTRL;      /**< \brief Offset: 0x02 (R/W 16) Event Control */
+  __IO AC_INTENCLR_Type          INTENCLR;    /**< \brief Offset: 0x04 (R/W  8) Interrupt Enable Clear */
+  __IO AC_INTENSET_Type          INTENSET;    /**< \brief Offset: 0x05 (R/W  8) Interrupt Enable Set */
+  __IO AC_INTFLAG_Type           INTFLAG;     /**< \brief Offset: 0x06 (R/W  8) Interrupt Flag Status and Clear */
+  __I  AC_STATUSA_Type           STATUSA;     /**< \brief Offset: 0x07 (R/   8) Status A */
+  __I  AC_STATUSB_Type           STATUSB;     /**< \brief Offset: 0x08 (R/   8) Status B */
+  __IO AC_DBGCTRL_Type           DBGCTRL;     /**< \brief Offset: 0x09 (R/W  8) Debug Control */
+  __IO AC_WINCTRL_Type           WINCTRL;     /**< \brief Offset: 0x0A (R/W  8) Window Control */
+       RoReg8                    Reserved1[0x1];
+  __IO AC_SCALER_Type            SCALER[2];   /**< \brief Offset: 0x0C (R/W  8) Scaler n */
+       RoReg8                    Reserved2[0x2];
+  __IO AC_COMPCTRL_Type          COMPCTRL[2]; /**< \brief Offset: 0x10 (R/W 32) Comparator Control n */
+       RoReg8                    Reserved3[0x8];
+  __I  AC_SYNCBUSY_Type          SYNCBUSY;    /**< \brief Offset: 0x20 (R/  32) Synchronization Busy */
+} Ac;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_AC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/adc.h b/watch-library/hardware/include/component/adc.h
new file mode 100644
index 00000000..f51dc639
--- /dev/null
+++ b/watch-library/hardware/include/component/adc.h
@@ -0,0 +1,748 @@
+/**
+ * \file
+ *
+ * \brief Component description for ADC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_ADC_COMPONENT_
+#define _SAML22_ADC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR ADC */
+/* ========================================================================== */
+/** \addtogroup SAML22_ADC Analog Digital Converter */
+/*@{*/
+
+#define ADC_U2247
+#define REV_ADC                     0x210
+
+/* -------- ADC_CTRLA : (ADC Offset: 0x00) (R/W  8) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :4;               /*!< bit:  2.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Run During Standby                 */
+    uint8_t  ONDEMAND:1;       /*!< bit:      7  On Demand Control                  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_CTRLA_OFFSET            0x00         /**< \brief (ADC_CTRLA offset) Control A */
+#define ADC_CTRLA_RESETVALUE        _U_(0x00)    /**< \brief (ADC_CTRLA reset_value) Control A */
+
+#define ADC_CTRLA_SWRST_Pos         0            /**< \brief (ADC_CTRLA) Software Reset */
+#define ADC_CTRLA_SWRST             (_U_(0x1) << ADC_CTRLA_SWRST_Pos)
+#define ADC_CTRLA_ENABLE_Pos        1            /**< \brief (ADC_CTRLA) Enable */
+#define ADC_CTRLA_ENABLE            (_U_(0x1) << ADC_CTRLA_ENABLE_Pos)
+#define ADC_CTRLA_RUNSTDBY_Pos      6            /**< \brief (ADC_CTRLA) Run During Standby */
+#define ADC_CTRLA_RUNSTDBY          (_U_(0x1) << ADC_CTRLA_RUNSTDBY_Pos)
+#define ADC_CTRLA_ONDEMAND_Pos      7            /**< \brief (ADC_CTRLA) On Demand Control */
+#define ADC_CTRLA_ONDEMAND          (_U_(0x1) << ADC_CTRLA_ONDEMAND_Pos)
+#define ADC_CTRLA_MASK              _U_(0xC3)    /**< \brief (ADC_CTRLA) MASK Register */
+
+/* -------- ADC_CTRLB : (ADC Offset: 0x01) (R/W  8) Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PRESCALER:3;      /*!< bit:  0.. 2  Prescaler Configuration            */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_CTRLB_OFFSET            0x01         /**< \brief (ADC_CTRLB offset) Control B */
+#define ADC_CTRLB_RESETVALUE        _U_(0x00)    /**< \brief (ADC_CTRLB reset_value) Control B */
+
+#define ADC_CTRLB_PRESCALER_Pos     0            /**< \brief (ADC_CTRLB) Prescaler Configuration */
+#define ADC_CTRLB_PRESCALER_Msk     (_U_(0x7) << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER(value)  (ADC_CTRLB_PRESCALER_Msk & ((value) << ADC_CTRLB_PRESCALER_Pos))
+#define   ADC_CTRLB_PRESCALER_DIV2_Val    _U_(0x0)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 2 */
+#define   ADC_CTRLB_PRESCALER_DIV4_Val    _U_(0x1)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 4 */
+#define   ADC_CTRLB_PRESCALER_DIV8_Val    _U_(0x2)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 8 */
+#define   ADC_CTRLB_PRESCALER_DIV16_Val   _U_(0x3)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 16 */
+#define   ADC_CTRLB_PRESCALER_DIV32_Val   _U_(0x4)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 32 */
+#define   ADC_CTRLB_PRESCALER_DIV64_Val   _U_(0x5)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 64 */
+#define   ADC_CTRLB_PRESCALER_DIV128_Val  _U_(0x6)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 128 */
+#define   ADC_CTRLB_PRESCALER_DIV256_Val  _U_(0x7)   /**< \brief (ADC_CTRLB) Peripheral clock divided by 256 */
+#define ADC_CTRLB_PRESCALER_DIV2    (ADC_CTRLB_PRESCALER_DIV2_Val  << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV4    (ADC_CTRLB_PRESCALER_DIV4_Val  << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV8    (ADC_CTRLB_PRESCALER_DIV8_Val  << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV16   (ADC_CTRLB_PRESCALER_DIV16_Val << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV32   (ADC_CTRLB_PRESCALER_DIV32_Val << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV64   (ADC_CTRLB_PRESCALER_DIV64_Val << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV128  (ADC_CTRLB_PRESCALER_DIV128_Val << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_PRESCALER_DIV256  (ADC_CTRLB_PRESCALER_DIV256_Val << ADC_CTRLB_PRESCALER_Pos)
+#define ADC_CTRLB_MASK              _U_(0x07)    /**< \brief (ADC_CTRLB) MASK Register */
+
+/* -------- ADC_REFCTRL : (ADC Offset: 0x02) (R/W  8) Reference Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  REFSEL:4;         /*!< bit:  0.. 3  Reference Selection                */
+    uint8_t  :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint8_t  REFCOMP:1;        /*!< bit:      7  Reference Buffer Offset Compensation Enable */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_REFCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_REFCTRL_OFFSET          0x02         /**< \brief (ADC_REFCTRL offset) Reference Control */
+#define ADC_REFCTRL_RESETVALUE      _U_(0x00)    /**< \brief (ADC_REFCTRL reset_value) Reference Control */
+
+#define ADC_REFCTRL_REFSEL_Pos      0            /**< \brief (ADC_REFCTRL) Reference Selection */
+#define ADC_REFCTRL_REFSEL_Msk      (_U_(0xF) << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL(value)   (ADC_REFCTRL_REFSEL_Msk & ((value) << ADC_REFCTRL_REFSEL_Pos))
+#define   ADC_REFCTRL_REFSEL_INTREF_Val   _U_(0x0)   /**< \brief (ADC_REFCTRL) Internal Bandgap Reference */
+#define   ADC_REFCTRL_REFSEL_INTVCC0_Val  _U_(0x1)   /**< \brief (ADC_REFCTRL) 1/1.6 VDDANA */
+#define   ADC_REFCTRL_REFSEL_INTVCC1_Val  _U_(0x2)   /**< \brief (ADC_REFCTRL) 1/2 VDDANA */
+#define   ADC_REFCTRL_REFSEL_AREFA_Val    _U_(0x3)   /**< \brief (ADC_REFCTRL) External Reference */
+#define   ADC_REFCTRL_REFSEL_AREFB_Val    _U_(0x4)   /**< \brief (ADC_REFCTRL) External Reference */
+#define   ADC_REFCTRL_REFSEL_INTVCC2_Val  _U_(0x5)   /**< \brief (ADC_REFCTRL) VCCANA */
+#define ADC_REFCTRL_REFSEL_INTREF   (ADC_REFCTRL_REFSEL_INTREF_Val << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL_INTVCC0  (ADC_REFCTRL_REFSEL_INTVCC0_Val << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL_INTVCC1  (ADC_REFCTRL_REFSEL_INTVCC1_Val << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL_AREFA    (ADC_REFCTRL_REFSEL_AREFA_Val  << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL_AREFB    (ADC_REFCTRL_REFSEL_AREFB_Val  << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFSEL_INTVCC2  (ADC_REFCTRL_REFSEL_INTVCC2_Val << ADC_REFCTRL_REFSEL_Pos)
+#define ADC_REFCTRL_REFCOMP_Pos     7            /**< \brief (ADC_REFCTRL) Reference Buffer Offset Compensation Enable */
+#define ADC_REFCTRL_REFCOMP         (_U_(0x1) << ADC_REFCTRL_REFCOMP_Pos)
+#define ADC_REFCTRL_MASK            _U_(0x8F)    /**< \brief (ADC_REFCTRL) MASK Register */
+
+/* -------- ADC_EVCTRL : (ADC Offset: 0x03) (R/W  8) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FLUSHEI:1;        /*!< bit:      0  Flush Event Input Enable           */
+    uint8_t  STARTEI:1;        /*!< bit:      1  Start Conversion Event Input Enable */
+    uint8_t  FLUSHINV:1;       /*!< bit:      2  Flush Event Invert Enable          */
+    uint8_t  STARTINV:1;       /*!< bit:      3  Satrt Event Invert Enable          */
+    uint8_t  RESRDYEO:1;       /*!< bit:      4  Result Ready Event Out             */
+    uint8_t  WINMONEO:1;       /*!< bit:      5  Window Monitor Event Out           */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_EVCTRL_OFFSET           0x03         /**< \brief (ADC_EVCTRL offset) Event Control */
+#define ADC_EVCTRL_RESETVALUE       _U_(0x00)    /**< \brief (ADC_EVCTRL reset_value) Event Control */
+
+#define ADC_EVCTRL_FLUSHEI_Pos      0            /**< \brief (ADC_EVCTRL) Flush Event Input Enable */
+#define ADC_EVCTRL_FLUSHEI          (_U_(0x1) << ADC_EVCTRL_FLUSHEI_Pos)
+#define ADC_EVCTRL_STARTEI_Pos      1            /**< \brief (ADC_EVCTRL) Start Conversion Event Input Enable */
+#define ADC_EVCTRL_STARTEI          (_U_(0x1) << ADC_EVCTRL_STARTEI_Pos)
+#define ADC_EVCTRL_FLUSHINV_Pos     2            /**< \brief (ADC_EVCTRL) Flush Event Invert Enable */
+#define ADC_EVCTRL_FLUSHINV         (_U_(0x1) << ADC_EVCTRL_FLUSHINV_Pos)
+#define ADC_EVCTRL_STARTINV_Pos     3            /**< \brief (ADC_EVCTRL) Satrt Event Invert Enable */
+#define ADC_EVCTRL_STARTINV         (_U_(0x1) << ADC_EVCTRL_STARTINV_Pos)
+#define ADC_EVCTRL_RESRDYEO_Pos     4            /**< \brief (ADC_EVCTRL) Result Ready Event Out */
+#define ADC_EVCTRL_RESRDYEO         (_U_(0x1) << ADC_EVCTRL_RESRDYEO_Pos)
+#define ADC_EVCTRL_WINMONEO_Pos     5            /**< \brief (ADC_EVCTRL) Window Monitor Event Out */
+#define ADC_EVCTRL_WINMONEO         (_U_(0x1) << ADC_EVCTRL_WINMONEO_Pos)
+#define ADC_EVCTRL_MASK             _U_(0x3F)    /**< \brief (ADC_EVCTRL) MASK Register */
+
+/* -------- ADC_INTENCLR : (ADC Offset: 0x04) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  RESRDY:1;         /*!< bit:      0  Result Ready Interrupt Disable     */
+    uint8_t  OVERRUN:1;        /*!< bit:      1  Overrun Interrupt Disable          */
+    uint8_t  WINMON:1;         /*!< bit:      2  Window Monitor Interrupt Disable   */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_INTENCLR_OFFSET         0x04         /**< \brief (ADC_INTENCLR offset) Interrupt Enable Clear */
+#define ADC_INTENCLR_RESETVALUE     _U_(0x00)    /**< \brief (ADC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define ADC_INTENCLR_RESRDY_Pos     0            /**< \brief (ADC_INTENCLR) Result Ready Interrupt Disable */
+#define ADC_INTENCLR_RESRDY         (_U_(0x1) << ADC_INTENCLR_RESRDY_Pos)
+#define ADC_INTENCLR_OVERRUN_Pos    1            /**< \brief (ADC_INTENCLR) Overrun Interrupt Disable */
+#define ADC_INTENCLR_OVERRUN        (_U_(0x1) << ADC_INTENCLR_OVERRUN_Pos)
+#define ADC_INTENCLR_WINMON_Pos     2            /**< \brief (ADC_INTENCLR) Window Monitor Interrupt Disable */
+#define ADC_INTENCLR_WINMON         (_U_(0x1) << ADC_INTENCLR_WINMON_Pos)
+#define ADC_INTENCLR_MASK           _U_(0x07)    /**< \brief (ADC_INTENCLR) MASK Register */
+
+/* -------- ADC_INTENSET : (ADC Offset: 0x05) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  RESRDY:1;         /*!< bit:      0  Result Ready Interrupt Enable      */
+    uint8_t  OVERRUN:1;        /*!< bit:      1  Overrun Interrupt Enable           */
+    uint8_t  WINMON:1;         /*!< bit:      2  Window Monitor Interrupt Enable    */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_INTENSET_OFFSET         0x05         /**< \brief (ADC_INTENSET offset) Interrupt Enable Set */
+#define ADC_INTENSET_RESETVALUE     _U_(0x00)    /**< \brief (ADC_INTENSET reset_value) Interrupt Enable Set */
+
+#define ADC_INTENSET_RESRDY_Pos     0            /**< \brief (ADC_INTENSET) Result Ready Interrupt Enable */
+#define ADC_INTENSET_RESRDY         (_U_(0x1) << ADC_INTENSET_RESRDY_Pos)
+#define ADC_INTENSET_OVERRUN_Pos    1            /**< \brief (ADC_INTENSET) Overrun Interrupt Enable */
+#define ADC_INTENSET_OVERRUN        (_U_(0x1) << ADC_INTENSET_OVERRUN_Pos)
+#define ADC_INTENSET_WINMON_Pos     2            /**< \brief (ADC_INTENSET) Window Monitor Interrupt Enable */
+#define ADC_INTENSET_WINMON         (_U_(0x1) << ADC_INTENSET_WINMON_Pos)
+#define ADC_INTENSET_MASK           _U_(0x07)    /**< \brief (ADC_INTENSET) MASK Register */
+
+/* -------- ADC_INTFLAG : (ADC Offset: 0x06) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  RESRDY:1;         /*!< bit:      0  Result Ready Interrupt Flag        */
+    __I uint8_t  OVERRUN:1;        /*!< bit:      1  Overrun Interrupt Flag             */
+    __I uint8_t  WINMON:1;         /*!< bit:      2  Window Monitor Interrupt Flag      */
+    __I uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_INTFLAG_OFFSET          0x06         /**< \brief (ADC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define ADC_INTFLAG_RESETVALUE      _U_(0x00)    /**< \brief (ADC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define ADC_INTFLAG_RESRDY_Pos      0            /**< \brief (ADC_INTFLAG) Result Ready Interrupt Flag */
+#define ADC_INTFLAG_RESRDY          (_U_(0x1) << ADC_INTFLAG_RESRDY_Pos)
+#define ADC_INTFLAG_OVERRUN_Pos     1            /**< \brief (ADC_INTFLAG) Overrun Interrupt Flag */
+#define ADC_INTFLAG_OVERRUN         (_U_(0x1) << ADC_INTFLAG_OVERRUN_Pos)
+#define ADC_INTFLAG_WINMON_Pos      2            /**< \brief (ADC_INTFLAG) Window Monitor Interrupt Flag */
+#define ADC_INTFLAG_WINMON          (_U_(0x1) << ADC_INTFLAG_WINMON_Pos)
+#define ADC_INTFLAG_MASK            _U_(0x07)    /**< \brief (ADC_INTFLAG) MASK Register */
+
+/* -------- ADC_SEQSTATUS : (ADC Offset: 0x07) (R/   8) Sequence Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SEQSTATE:5;       /*!< bit:  0.. 4  Sequence State                     */
+    uint8_t  :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint8_t  SEQBUSY:1;        /*!< bit:      7  Sequence Busy                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_SEQSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_SEQSTATUS_OFFSET        0x07         /**< \brief (ADC_SEQSTATUS offset) Sequence Status */
+#define ADC_SEQSTATUS_RESETVALUE    _U_(0x00)    /**< \brief (ADC_SEQSTATUS reset_value) Sequence Status */
+
+#define ADC_SEQSTATUS_SEQSTATE_Pos  0            /**< \brief (ADC_SEQSTATUS) Sequence State */
+#define ADC_SEQSTATUS_SEQSTATE_Msk  (_U_(0x1F) << ADC_SEQSTATUS_SEQSTATE_Pos)
+#define ADC_SEQSTATUS_SEQSTATE(value) (ADC_SEQSTATUS_SEQSTATE_Msk & ((value) << ADC_SEQSTATUS_SEQSTATE_Pos))
+#define ADC_SEQSTATUS_SEQBUSY_Pos   7            /**< \brief (ADC_SEQSTATUS) Sequence Busy */
+#define ADC_SEQSTATUS_SEQBUSY       (_U_(0x1) << ADC_SEQSTATUS_SEQBUSY_Pos)
+#define ADC_SEQSTATUS_MASK          _U_(0x9F)    /**< \brief (ADC_SEQSTATUS) MASK Register */
+
+/* -------- ADC_INPUTCTRL : (ADC Offset: 0x08) (R/W 16) Input Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t MUXPOS:5;         /*!< bit:  0.. 4  Positive Mux Input Selection       */
+    uint16_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint16_t MUXNEG:5;         /*!< bit:  8..12  Negative Mux Input Selection       */
+    uint16_t :3;               /*!< bit: 13..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_INPUTCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_INPUTCTRL_OFFSET        0x08         /**< \brief (ADC_INPUTCTRL offset) Input Control */
+#define ADC_INPUTCTRL_RESETVALUE    _U_(0x0000)  /**< \brief (ADC_INPUTCTRL reset_value) Input Control */
+
+#define ADC_INPUTCTRL_MUXPOS_Pos    0            /**< \brief (ADC_INPUTCTRL) Positive Mux Input Selection */
+#define ADC_INPUTCTRL_MUXPOS_Msk    (_U_(0x1F) << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS(value) (ADC_INPUTCTRL_MUXPOS_Msk & ((value) << ADC_INPUTCTRL_MUXPOS_Pos))
+#define   ADC_INPUTCTRL_MUXPOS_AIN0_Val   _U_(0x0)   /**< \brief (ADC_INPUTCTRL) ADC AIN0 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN1_Val   _U_(0x1)   /**< \brief (ADC_INPUTCTRL) ADC AIN1 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN2_Val   _U_(0x2)   /**< \brief (ADC_INPUTCTRL) ADC AIN2 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN3_Val   _U_(0x3)   /**< \brief (ADC_INPUTCTRL) ADC AIN3 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN4_Val   _U_(0x4)   /**< \brief (ADC_INPUTCTRL) ADC AIN4 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN5_Val   _U_(0x5)   /**< \brief (ADC_INPUTCTRL) ADC AIN5 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN6_Val   _U_(0x6)   /**< \brief (ADC_INPUTCTRL) ADC AIN6 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN7_Val   _U_(0x7)   /**< \brief (ADC_INPUTCTRL) ADC AIN7 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN8_Val   _U_(0x8)   /**< \brief (ADC_INPUTCTRL) ADC AIN8 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN9_Val   _U_(0x9)   /**< \brief (ADC_INPUTCTRL) ADC AIN9 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN10_Val  _U_(0xA)   /**< \brief (ADC_INPUTCTRL) ADC AIN10 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN11_Val  _U_(0xB)   /**< \brief (ADC_INPUTCTRL) ADC AIN11 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN12_Val  _U_(0xC)   /**< \brief (ADC_INPUTCTRL) ADC AIN12 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN13_Val  _U_(0xD)   /**< \brief (ADC_INPUTCTRL) ADC AIN13 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN14_Val  _U_(0xE)   /**< \brief (ADC_INPUTCTRL) ADC AIN14 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN15_Val  _U_(0xF)   /**< \brief (ADC_INPUTCTRL) ADC AIN15 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN16_Val  _U_(0x10)   /**< \brief (ADC_INPUTCTRL) ADC AIN16 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN17_Val  _U_(0x11)   /**< \brief (ADC_INPUTCTRL) ADC AIN17 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN18_Val  _U_(0x12)   /**< \brief (ADC_INPUTCTRL) ADC AIN18 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_AIN19_Val  _U_(0x13)   /**< \brief (ADC_INPUTCTRL) ADC AIN19 Pin */
+#define   ADC_INPUTCTRL_MUXPOS_TEMP_Val   _U_(0x18)   /**< \brief (ADC_INPUTCTRL) Temperature Sensor */
+#define   ADC_INPUTCTRL_MUXPOS_BANDGAP_Val _U_(0x19)   /**< \brief (ADC_INPUTCTRL) Bandgap Voltage */
+#define   ADC_INPUTCTRL_MUXPOS_SCALEDCOREVCC_Val _U_(0x1A)   /**< \brief (ADC_INPUTCTRL) 1/4 Scaled Core Supply */
+#define   ADC_INPUTCTRL_MUXPOS_SCALEDIOVCC_Val _U_(0x1B)   /**< \brief (ADC_INPUTCTRL) 1/4 Scaled I/O Supply */
+#define   ADC_INPUTCTRL_MUXPOS_SCALEDVBAT_Val _U_(0x1D)   /**< \brief (ADC_INPUTCTRL) 1/4 Scaled VBAT Supply */
+#define   ADC_INPUTCTRL_MUXPOS_CTAT_Val   _U_(0x1E)   /**< \brief (ADC_INPUTCTRL) CTAT output */
+#define ADC_INPUTCTRL_MUXPOS_AIN0   (ADC_INPUTCTRL_MUXPOS_AIN0_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN1   (ADC_INPUTCTRL_MUXPOS_AIN1_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN2   (ADC_INPUTCTRL_MUXPOS_AIN2_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN3   (ADC_INPUTCTRL_MUXPOS_AIN3_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN4   (ADC_INPUTCTRL_MUXPOS_AIN4_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN5   (ADC_INPUTCTRL_MUXPOS_AIN5_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN6   (ADC_INPUTCTRL_MUXPOS_AIN6_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN7   (ADC_INPUTCTRL_MUXPOS_AIN7_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN8   (ADC_INPUTCTRL_MUXPOS_AIN8_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN9   (ADC_INPUTCTRL_MUXPOS_AIN9_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN10  (ADC_INPUTCTRL_MUXPOS_AIN10_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN11  (ADC_INPUTCTRL_MUXPOS_AIN11_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN12  (ADC_INPUTCTRL_MUXPOS_AIN12_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN13  (ADC_INPUTCTRL_MUXPOS_AIN13_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN14  (ADC_INPUTCTRL_MUXPOS_AIN14_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN15  (ADC_INPUTCTRL_MUXPOS_AIN15_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN16  (ADC_INPUTCTRL_MUXPOS_AIN16_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN17  (ADC_INPUTCTRL_MUXPOS_AIN17_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN18  (ADC_INPUTCTRL_MUXPOS_AIN18_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_AIN19  (ADC_INPUTCTRL_MUXPOS_AIN19_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_TEMP   (ADC_INPUTCTRL_MUXPOS_TEMP_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_BANDGAP (ADC_INPUTCTRL_MUXPOS_BANDGAP_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_SCALEDCOREVCC (ADC_INPUTCTRL_MUXPOS_SCALEDCOREVCC_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_SCALEDIOVCC (ADC_INPUTCTRL_MUXPOS_SCALEDIOVCC_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_SCALEDVBAT (ADC_INPUTCTRL_MUXPOS_SCALEDVBAT_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXPOS_CTAT   (ADC_INPUTCTRL_MUXPOS_CTAT_Val << ADC_INPUTCTRL_MUXPOS_Pos)
+#define ADC_INPUTCTRL_MUXNEG_Pos    8            /**< \brief (ADC_INPUTCTRL) Negative Mux Input Selection */
+#define ADC_INPUTCTRL_MUXNEG_Msk    (_U_(0x1F) << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG(value) (ADC_INPUTCTRL_MUXNEG_Msk & ((value) << ADC_INPUTCTRL_MUXNEG_Pos))
+#define   ADC_INPUTCTRL_MUXNEG_AIN0_Val   _U_(0x0)   /**< \brief (ADC_INPUTCTRL) ADC AIN0 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN1_Val   _U_(0x1)   /**< \brief (ADC_INPUTCTRL) ADC AIN1 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN2_Val   _U_(0x2)   /**< \brief (ADC_INPUTCTRL) ADC AIN2 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN3_Val   _U_(0x3)   /**< \brief (ADC_INPUTCTRL) ADC AIN3 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN4_Val   _U_(0x4)   /**< \brief (ADC_INPUTCTRL) ADC AIN4 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN5_Val   _U_(0x5)   /**< \brief (ADC_INPUTCTRL) ADC AIN5 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN6_Val   _U_(0x6)   /**< \brief (ADC_INPUTCTRL) ADC AIN6 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_AIN7_Val   _U_(0x7)   /**< \brief (ADC_INPUTCTRL) ADC AIN7 Pin */
+#define   ADC_INPUTCTRL_MUXNEG_GND_Val    _U_(0x18)  /**< \brief (ADC_INPUTCTRL) Internal GND */
+#define ADC_INPUTCTRL_MUXNEG_AIN0   (ADC_INPUTCTRL_MUXNEG_AIN0_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN1   (ADC_INPUTCTRL_MUXNEG_AIN1_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN2   (ADC_INPUTCTRL_MUXNEG_AIN2_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN3   (ADC_INPUTCTRL_MUXNEG_AIN3_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN4   (ADC_INPUTCTRL_MUXNEG_AIN4_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN5   (ADC_INPUTCTRL_MUXNEG_AIN5_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN6   (ADC_INPUTCTRL_MUXNEG_AIN6_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_AIN7   (ADC_INPUTCTRL_MUXNEG_AIN7_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MUXNEG_GND    (ADC_INPUTCTRL_MUXNEG_GND_Val << ADC_INPUTCTRL_MUXNEG_Pos)
+#define ADC_INPUTCTRL_MASK          _U_(0x1F1F)  /**< \brief (ADC_INPUTCTRL) MASK Register */
+
+/* -------- ADC_CTRLC : (ADC Offset: 0x0A) (R/W 16) Control C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t DIFFMODE:1;       /*!< bit:      0  Differential Mode                  */
+    uint16_t LEFTADJ:1;        /*!< bit:      1  Left-Adjusted Result               */
+    uint16_t FREERUN:1;        /*!< bit:      2  Free Running Mode                  */
+    uint16_t CORREN:1;         /*!< bit:      3  Digital Correction Logic Enable    */
+    uint16_t RESSEL:2;         /*!< bit:  4.. 5  Conversion Result Resolution       */
+    uint16_t :1;               /*!< bit:      6  Reserved                           */
+    uint16_t R2R:1;            /*!< bit:      7  Rail-to-Rail mode enable           */
+    uint16_t WINMODE:3;        /*!< bit:  8..10  Window Monitor Mode                */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t DUALSEL:2;        /*!< bit: 12..13  Dual Mode Trigger Selection        */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_CTRLC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_CTRLC_OFFSET            0x0A         /**< \brief (ADC_CTRLC offset) Control C */
+#define ADC_CTRLC_RESETVALUE        _U_(0x0000)  /**< \brief (ADC_CTRLC reset_value) Control C */
+
+#define ADC_CTRLC_DIFFMODE_Pos      0            /**< \brief (ADC_CTRLC) Differential Mode */
+#define ADC_CTRLC_DIFFMODE          (_U_(0x1) << ADC_CTRLC_DIFFMODE_Pos)
+#define ADC_CTRLC_LEFTADJ_Pos       1            /**< \brief (ADC_CTRLC) Left-Adjusted Result */
+#define ADC_CTRLC_LEFTADJ           (_U_(0x1) << ADC_CTRLC_LEFTADJ_Pos)
+#define ADC_CTRLC_FREERUN_Pos       2            /**< \brief (ADC_CTRLC) Free Running Mode */
+#define ADC_CTRLC_FREERUN           (_U_(0x1) << ADC_CTRLC_FREERUN_Pos)
+#define ADC_CTRLC_CORREN_Pos        3            /**< \brief (ADC_CTRLC) Digital Correction Logic Enable */
+#define ADC_CTRLC_CORREN            (_U_(0x1) << ADC_CTRLC_CORREN_Pos)
+#define ADC_CTRLC_RESSEL_Pos        4            /**< \brief (ADC_CTRLC) Conversion Result Resolution */
+#define ADC_CTRLC_RESSEL_Msk        (_U_(0x3) << ADC_CTRLC_RESSEL_Pos)
+#define ADC_CTRLC_RESSEL(value)     (ADC_CTRLC_RESSEL_Msk & ((value) << ADC_CTRLC_RESSEL_Pos))
+#define   ADC_CTRLC_RESSEL_12BIT_Val      _U_(0x0)   /**< \brief (ADC_CTRLC) 12-bit result */
+#define   ADC_CTRLC_RESSEL_16BIT_Val      _U_(0x1)   /**< \brief (ADC_CTRLC) For averaging mode output */
+#define   ADC_CTRLC_RESSEL_10BIT_Val      _U_(0x2)   /**< \brief (ADC_CTRLC) 10-bit result */
+#define   ADC_CTRLC_RESSEL_8BIT_Val       _U_(0x3)   /**< \brief (ADC_CTRLC) 8-bit result */
+#define ADC_CTRLC_RESSEL_12BIT      (ADC_CTRLC_RESSEL_12BIT_Val    << ADC_CTRLC_RESSEL_Pos)
+#define ADC_CTRLC_RESSEL_16BIT      (ADC_CTRLC_RESSEL_16BIT_Val    << ADC_CTRLC_RESSEL_Pos)
+#define ADC_CTRLC_RESSEL_10BIT      (ADC_CTRLC_RESSEL_10BIT_Val    << ADC_CTRLC_RESSEL_Pos)
+#define ADC_CTRLC_RESSEL_8BIT       (ADC_CTRLC_RESSEL_8BIT_Val     << ADC_CTRLC_RESSEL_Pos)
+#define ADC_CTRLC_R2R_Pos           7            /**< \brief (ADC_CTRLC) Rail-to-Rail mode enable */
+#define ADC_CTRLC_R2R               (_U_(0x1) << ADC_CTRLC_R2R_Pos)
+#define ADC_CTRLC_WINMODE_Pos       8            /**< \brief (ADC_CTRLC) Window Monitor Mode */
+#define ADC_CTRLC_WINMODE_Msk       (_U_(0x7) << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_WINMODE(value)    (ADC_CTRLC_WINMODE_Msk & ((value) << ADC_CTRLC_WINMODE_Pos))
+#define   ADC_CTRLC_WINMODE_DISABLE_Val   _U_(0x0)   /**< \brief (ADC_CTRLC) No window mode (default) */
+#define   ADC_CTRLC_WINMODE_MODE1_Val     _U_(0x1)   /**< \brief (ADC_CTRLC) RESULT > WINLT */
+#define   ADC_CTRLC_WINMODE_MODE2_Val     _U_(0x2)   /**< \brief (ADC_CTRLC) RESULT < WINUT */
+#define   ADC_CTRLC_WINMODE_MODE3_Val     _U_(0x3)   /**< \brief (ADC_CTRLC) WINLT < RESULT < WINUT */
+#define   ADC_CTRLC_WINMODE_MODE4_Val     _U_(0x4)   /**< \brief (ADC_CTRLC) !(WINLT < RESULT < WINUT) */
+#define ADC_CTRLC_WINMODE_DISABLE   (ADC_CTRLC_WINMODE_DISABLE_Val << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_WINMODE_MODE1     (ADC_CTRLC_WINMODE_MODE1_Val   << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_WINMODE_MODE2     (ADC_CTRLC_WINMODE_MODE2_Val   << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_WINMODE_MODE3     (ADC_CTRLC_WINMODE_MODE3_Val   << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_WINMODE_MODE4     (ADC_CTRLC_WINMODE_MODE4_Val   << ADC_CTRLC_WINMODE_Pos)
+#define ADC_CTRLC_DUALSEL_Pos       12           /**< \brief (ADC_CTRLC) Dual Mode Trigger Selection */
+#define ADC_CTRLC_DUALSEL_Msk       (_U_(0x3) << ADC_CTRLC_DUALSEL_Pos)
+#define ADC_CTRLC_DUALSEL(value)    (ADC_CTRLC_DUALSEL_Msk & ((value) << ADC_CTRLC_DUALSEL_Pos))
+#define   ADC_CTRLC_DUALSEL_BOTH_Val      _U_(0x0)   /**< \brief (ADC_CTRLC) Start event or software trigger will start a conversion on both ADCs */
+#define   ADC_CTRLC_DUALSEL_INTERLEAVE_Val _U_(0x1)   /**< \brief (ADC_CTRLC) START event or software trigger will alternatingly start a conversion on ADC0 and ADC1 */
+#define ADC_CTRLC_DUALSEL_BOTH      (ADC_CTRLC_DUALSEL_BOTH_Val    << ADC_CTRLC_DUALSEL_Pos)
+#define ADC_CTRLC_DUALSEL_INTERLEAVE (ADC_CTRLC_DUALSEL_INTERLEAVE_Val << ADC_CTRLC_DUALSEL_Pos)
+#define ADC_CTRLC_MASK              _U_(0x37BF)  /**< \brief (ADC_CTRLC) MASK Register */
+
+/* -------- ADC_AVGCTRL : (ADC Offset: 0x0C) (R/W  8) Average Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SAMPLENUM:4;      /*!< bit:  0.. 3  Number of Samples to be Collected  */
+    uint8_t  ADJRES:3;         /*!< bit:  4.. 6  Adjusting Result / Division Coefficient */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_AVGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_AVGCTRL_OFFSET          0x0C         /**< \brief (ADC_AVGCTRL offset) Average Control */
+#define ADC_AVGCTRL_RESETVALUE      _U_(0x00)    /**< \brief (ADC_AVGCTRL reset_value) Average Control */
+
+#define ADC_AVGCTRL_SAMPLENUM_Pos   0            /**< \brief (ADC_AVGCTRL) Number of Samples to be Collected */
+#define ADC_AVGCTRL_SAMPLENUM_Msk   (_U_(0xF) << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM(value) (ADC_AVGCTRL_SAMPLENUM_Msk & ((value) << ADC_AVGCTRL_SAMPLENUM_Pos))
+#define   ADC_AVGCTRL_SAMPLENUM_1_Val     _U_(0x0)   /**< \brief (ADC_AVGCTRL) 1 sample */
+#define   ADC_AVGCTRL_SAMPLENUM_2_Val     _U_(0x1)   /**< \brief (ADC_AVGCTRL) 2 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_4_Val     _U_(0x2)   /**< \brief (ADC_AVGCTRL) 4 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_8_Val     _U_(0x3)   /**< \brief (ADC_AVGCTRL) 8 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_16_Val    _U_(0x4)   /**< \brief (ADC_AVGCTRL) 16 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_32_Val    _U_(0x5)   /**< \brief (ADC_AVGCTRL) 32 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_64_Val    _U_(0x6)   /**< \brief (ADC_AVGCTRL) 64 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_128_Val   _U_(0x7)   /**< \brief (ADC_AVGCTRL) 128 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_256_Val   _U_(0x8)   /**< \brief (ADC_AVGCTRL) 256 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_512_Val   _U_(0x9)   /**< \brief (ADC_AVGCTRL) 512 samples */
+#define   ADC_AVGCTRL_SAMPLENUM_1024_Val  _U_(0xA)   /**< \brief (ADC_AVGCTRL) 1024 samples */
+#define ADC_AVGCTRL_SAMPLENUM_1     (ADC_AVGCTRL_SAMPLENUM_1_Val   << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_2     (ADC_AVGCTRL_SAMPLENUM_2_Val   << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_4     (ADC_AVGCTRL_SAMPLENUM_4_Val   << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_8     (ADC_AVGCTRL_SAMPLENUM_8_Val   << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_16    (ADC_AVGCTRL_SAMPLENUM_16_Val  << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_32    (ADC_AVGCTRL_SAMPLENUM_32_Val  << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_64    (ADC_AVGCTRL_SAMPLENUM_64_Val  << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_128   (ADC_AVGCTRL_SAMPLENUM_128_Val << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_256   (ADC_AVGCTRL_SAMPLENUM_256_Val << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_512   (ADC_AVGCTRL_SAMPLENUM_512_Val << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_SAMPLENUM_1024  (ADC_AVGCTRL_SAMPLENUM_1024_Val << ADC_AVGCTRL_SAMPLENUM_Pos)
+#define ADC_AVGCTRL_ADJRES_Pos      4            /**< \brief (ADC_AVGCTRL) Adjusting Result / Division Coefficient */
+#define ADC_AVGCTRL_ADJRES_Msk      (_U_(0x7) << ADC_AVGCTRL_ADJRES_Pos)
+#define ADC_AVGCTRL_ADJRES(value)   (ADC_AVGCTRL_ADJRES_Msk & ((value) << ADC_AVGCTRL_ADJRES_Pos))
+#define ADC_AVGCTRL_MASK            _U_(0x7F)    /**< \brief (ADC_AVGCTRL) MASK Register */
+
+/* -------- ADC_SAMPCTRL : (ADC Offset: 0x0D) (R/W  8) Sample Time Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SAMPLEN:6;        /*!< bit:  0.. 5  Sampling Time Length               */
+    uint8_t  :1;               /*!< bit:      6  Reserved                           */
+    uint8_t  OFFCOMP:1;        /*!< bit:      7  Comparator Offset Compensation Enable */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_SAMPCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_SAMPCTRL_OFFSET         0x0D         /**< \brief (ADC_SAMPCTRL offset) Sample Time Control */
+#define ADC_SAMPCTRL_RESETVALUE     _U_(0x00)    /**< \brief (ADC_SAMPCTRL reset_value) Sample Time Control */
+
+#define ADC_SAMPCTRL_SAMPLEN_Pos    0            /**< \brief (ADC_SAMPCTRL) Sampling Time Length */
+#define ADC_SAMPCTRL_SAMPLEN_Msk    (_U_(0x3F) << ADC_SAMPCTRL_SAMPLEN_Pos)
+#define ADC_SAMPCTRL_SAMPLEN(value) (ADC_SAMPCTRL_SAMPLEN_Msk & ((value) << ADC_SAMPCTRL_SAMPLEN_Pos))
+#define ADC_SAMPCTRL_OFFCOMP_Pos    7            /**< \brief (ADC_SAMPCTRL) Comparator Offset Compensation Enable */
+#define ADC_SAMPCTRL_OFFCOMP        (_U_(0x1) << ADC_SAMPCTRL_OFFCOMP_Pos)
+#define ADC_SAMPCTRL_MASK           _U_(0xBF)    /**< \brief (ADC_SAMPCTRL) MASK Register */
+
+/* -------- ADC_WINLT : (ADC Offset: 0x0E) (R/W 16) Window Monitor Lower Threshold -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t WINLT:16;         /*!< bit:  0..15  Window Lower Threshold             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_WINLT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_WINLT_OFFSET            0x0E         /**< \brief (ADC_WINLT offset) Window Monitor Lower Threshold */
+#define ADC_WINLT_RESETVALUE        _U_(0x0000)  /**< \brief (ADC_WINLT reset_value) Window Monitor Lower Threshold */
+
+#define ADC_WINLT_WINLT_Pos         0            /**< \brief (ADC_WINLT) Window Lower Threshold */
+#define ADC_WINLT_WINLT_Msk         (_U_(0xFFFF) << ADC_WINLT_WINLT_Pos)
+#define ADC_WINLT_WINLT(value)      (ADC_WINLT_WINLT_Msk & ((value) << ADC_WINLT_WINLT_Pos))
+#define ADC_WINLT_MASK              _U_(0xFFFF)  /**< \brief (ADC_WINLT) MASK Register */
+
+/* -------- ADC_WINUT : (ADC Offset: 0x10) (R/W 16) Window Monitor Upper Threshold -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t WINUT:16;         /*!< bit:  0..15  Window Upper Threshold             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_WINUT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_WINUT_OFFSET            0x10         /**< \brief (ADC_WINUT offset) Window Monitor Upper Threshold */
+#define ADC_WINUT_RESETVALUE        _U_(0x0000)  /**< \brief (ADC_WINUT reset_value) Window Monitor Upper Threshold */
+
+#define ADC_WINUT_WINUT_Pos         0            /**< \brief (ADC_WINUT) Window Upper Threshold */
+#define ADC_WINUT_WINUT_Msk         (_U_(0xFFFF) << ADC_WINUT_WINUT_Pos)
+#define ADC_WINUT_WINUT(value)      (ADC_WINUT_WINUT_Msk & ((value) << ADC_WINUT_WINUT_Pos))
+#define ADC_WINUT_MASK              _U_(0xFFFF)  /**< \brief (ADC_WINUT) MASK Register */
+
+/* -------- ADC_GAINCORR : (ADC Offset: 0x12) (R/W 16) Gain Correction -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t GAINCORR:12;      /*!< bit:  0..11  Gain Correction Value              */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_GAINCORR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_GAINCORR_OFFSET         0x12         /**< \brief (ADC_GAINCORR offset) Gain Correction */
+#define ADC_GAINCORR_RESETVALUE     _U_(0x0000)  /**< \brief (ADC_GAINCORR reset_value) Gain Correction */
+
+#define ADC_GAINCORR_GAINCORR_Pos   0            /**< \brief (ADC_GAINCORR) Gain Correction Value */
+#define ADC_GAINCORR_GAINCORR_Msk   (_U_(0xFFF) << ADC_GAINCORR_GAINCORR_Pos)
+#define ADC_GAINCORR_GAINCORR(value) (ADC_GAINCORR_GAINCORR_Msk & ((value) << ADC_GAINCORR_GAINCORR_Pos))
+#define ADC_GAINCORR_MASK           _U_(0x0FFF)  /**< \brief (ADC_GAINCORR) MASK Register */
+
+/* -------- ADC_OFFSETCORR : (ADC Offset: 0x14) (R/W 16) Offset Correction -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t OFFSETCORR:12;    /*!< bit:  0..11  Offset Correction Value            */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_OFFSETCORR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_OFFSETCORR_OFFSET       0x14         /**< \brief (ADC_OFFSETCORR offset) Offset Correction */
+#define ADC_OFFSETCORR_RESETVALUE   _U_(0x0000)  /**< \brief (ADC_OFFSETCORR reset_value) Offset Correction */
+
+#define ADC_OFFSETCORR_OFFSETCORR_Pos 0            /**< \brief (ADC_OFFSETCORR) Offset Correction Value */
+#define ADC_OFFSETCORR_OFFSETCORR_Msk (_U_(0xFFF) << ADC_OFFSETCORR_OFFSETCORR_Pos)
+#define ADC_OFFSETCORR_OFFSETCORR(value) (ADC_OFFSETCORR_OFFSETCORR_Msk & ((value) << ADC_OFFSETCORR_OFFSETCORR_Pos))
+#define ADC_OFFSETCORR_MASK         _U_(0x0FFF)  /**< \brief (ADC_OFFSETCORR) MASK Register */
+
+/* -------- ADC_SWTRIG : (ADC Offset: 0x18) (R/W  8) Software Trigger -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FLUSH:1;          /*!< bit:      0  ADC Flush                          */
+    uint8_t  START:1;          /*!< bit:      1  Start ADC Conversion               */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_SWTRIG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_SWTRIG_OFFSET           0x18         /**< \brief (ADC_SWTRIG offset) Software Trigger */
+#define ADC_SWTRIG_RESETVALUE       _U_(0x00)    /**< \brief (ADC_SWTRIG reset_value) Software Trigger */
+
+#define ADC_SWTRIG_FLUSH_Pos        0            /**< \brief (ADC_SWTRIG) ADC Flush */
+#define ADC_SWTRIG_FLUSH            (_U_(0x1) << ADC_SWTRIG_FLUSH_Pos)
+#define ADC_SWTRIG_START_Pos        1            /**< \brief (ADC_SWTRIG) Start ADC Conversion */
+#define ADC_SWTRIG_START            (_U_(0x1) << ADC_SWTRIG_START_Pos)
+#define ADC_SWTRIG_MASK             _U_(0x03)    /**< \brief (ADC_SWTRIG) MASK Register */
+
+/* -------- ADC_DBGCTRL : (ADC Offset: 0x1C) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Debug Run                          */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} ADC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_DBGCTRL_OFFSET          0x1C         /**< \brief (ADC_DBGCTRL offset) Debug Control */
+#define ADC_DBGCTRL_RESETVALUE      _U_(0x00)    /**< \brief (ADC_DBGCTRL reset_value) Debug Control */
+
+#define ADC_DBGCTRL_DBGRUN_Pos      0            /**< \brief (ADC_DBGCTRL) Debug Run */
+#define ADC_DBGCTRL_DBGRUN          (_U_(0x1) << ADC_DBGCTRL_DBGRUN_Pos)
+#define ADC_DBGCTRL_MASK            _U_(0x01)    /**< \brief (ADC_DBGCTRL) MASK Register */
+
+/* -------- ADC_SYNCBUSY : (ADC Offset: 0x20) (R/  16) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SWRST:1;          /*!< bit:      0  SWRST Synchronization Busy         */
+    uint16_t ENABLE:1;         /*!< bit:      1  ENABLE Synchronization Busy        */
+    uint16_t INPUTCTRL:1;      /*!< bit:      2  INPUTCTRL Synchronization Busy     */
+    uint16_t CTRLC:1;          /*!< bit:      3  CTRLC Synchronization Busy         */
+    uint16_t AVGCTRL:1;        /*!< bit:      4  AVGCTRL Synchronization Busy       */
+    uint16_t SAMPCTRL:1;       /*!< bit:      5  SAMPCTRL Synchronization Busy      */
+    uint16_t WINLT:1;          /*!< bit:      6  WINLT Synchronization Busy         */
+    uint16_t WINUT:1;          /*!< bit:      7  WINUT Synchronization Busy         */
+    uint16_t GAINCORR:1;       /*!< bit:      8  GAINCORR Synchronization Busy      */
+    uint16_t OFFSETCORR:1;     /*!< bit:      9  OFFSETCTRL Synchronization Busy    */
+    uint16_t SWTRIG:1;         /*!< bit:     10  SWTRG Synchronization Busy         */
+    uint16_t :5;               /*!< bit: 11..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_SYNCBUSY_OFFSET         0x20         /**< \brief (ADC_SYNCBUSY offset) Synchronization Busy */
+#define ADC_SYNCBUSY_RESETVALUE     _U_(0x0000)  /**< \brief (ADC_SYNCBUSY reset_value) Synchronization Busy */
+
+#define ADC_SYNCBUSY_SWRST_Pos      0            /**< \brief (ADC_SYNCBUSY) SWRST Synchronization Busy */
+#define ADC_SYNCBUSY_SWRST          (_U_(0x1) << ADC_SYNCBUSY_SWRST_Pos)
+#define ADC_SYNCBUSY_ENABLE_Pos     1            /**< \brief (ADC_SYNCBUSY) ENABLE Synchronization Busy */
+#define ADC_SYNCBUSY_ENABLE         (_U_(0x1) << ADC_SYNCBUSY_ENABLE_Pos)
+#define ADC_SYNCBUSY_INPUTCTRL_Pos  2            /**< \brief (ADC_SYNCBUSY) INPUTCTRL Synchronization Busy */
+#define ADC_SYNCBUSY_INPUTCTRL      (_U_(0x1) << ADC_SYNCBUSY_INPUTCTRL_Pos)
+#define ADC_SYNCBUSY_CTRLC_Pos      3            /**< \brief (ADC_SYNCBUSY) CTRLC Synchronization Busy */
+#define ADC_SYNCBUSY_CTRLC          (_U_(0x1) << ADC_SYNCBUSY_CTRLC_Pos)
+#define ADC_SYNCBUSY_AVGCTRL_Pos    4            /**< \brief (ADC_SYNCBUSY) AVGCTRL Synchronization Busy */
+#define ADC_SYNCBUSY_AVGCTRL        (_U_(0x1) << ADC_SYNCBUSY_AVGCTRL_Pos)
+#define ADC_SYNCBUSY_SAMPCTRL_Pos   5            /**< \brief (ADC_SYNCBUSY) SAMPCTRL Synchronization Busy */
+#define ADC_SYNCBUSY_SAMPCTRL       (_U_(0x1) << ADC_SYNCBUSY_SAMPCTRL_Pos)
+#define ADC_SYNCBUSY_WINLT_Pos      6            /**< \brief (ADC_SYNCBUSY) WINLT Synchronization Busy */
+#define ADC_SYNCBUSY_WINLT          (_U_(0x1) << ADC_SYNCBUSY_WINLT_Pos)
+#define ADC_SYNCBUSY_WINUT_Pos      7            /**< \brief (ADC_SYNCBUSY) WINUT Synchronization Busy */
+#define ADC_SYNCBUSY_WINUT          (_U_(0x1) << ADC_SYNCBUSY_WINUT_Pos)
+#define ADC_SYNCBUSY_GAINCORR_Pos   8            /**< \brief (ADC_SYNCBUSY) GAINCORR Synchronization Busy */
+#define ADC_SYNCBUSY_GAINCORR       (_U_(0x1) << ADC_SYNCBUSY_GAINCORR_Pos)
+#define ADC_SYNCBUSY_OFFSETCORR_Pos 9            /**< \brief (ADC_SYNCBUSY) OFFSETCTRL Synchronization Busy */
+#define ADC_SYNCBUSY_OFFSETCORR     (_U_(0x1) << ADC_SYNCBUSY_OFFSETCORR_Pos)
+#define ADC_SYNCBUSY_SWTRIG_Pos     10           /**< \brief (ADC_SYNCBUSY) SWTRG Synchronization Busy */
+#define ADC_SYNCBUSY_SWTRIG         (_U_(0x1) << ADC_SYNCBUSY_SWTRIG_Pos)
+#define ADC_SYNCBUSY_MASK           _U_(0x07FF)  /**< \brief (ADC_SYNCBUSY) MASK Register */
+
+/* -------- ADC_RESULT : (ADC Offset: 0x24) (R/  16) Result -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t RESULT:16;        /*!< bit:  0..15  Result Value                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_RESULT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_RESULT_OFFSET           0x24         /**< \brief (ADC_RESULT offset) Result */
+#define ADC_RESULT_RESETVALUE       _U_(0x0000)  /**< \brief (ADC_RESULT reset_value) Result */
+
+#define ADC_RESULT_RESULT_Pos       0            /**< \brief (ADC_RESULT) Result Value */
+#define ADC_RESULT_RESULT_Msk       (_U_(0xFFFF) << ADC_RESULT_RESULT_Pos)
+#define ADC_RESULT_RESULT(value)    (ADC_RESULT_RESULT_Msk & ((value) << ADC_RESULT_RESULT_Pos))
+#define ADC_RESULT_MASK             _U_(0xFFFF)  /**< \brief (ADC_RESULT) MASK Register */
+
+/* -------- ADC_SEQCTRL : (ADC Offset: 0x28) (R/W 32) Sequence Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SEQEN:32;         /*!< bit:  0..31  Enable Positive Input in the Sequence */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} ADC_SEQCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_SEQCTRL_OFFSET          0x28         /**< \brief (ADC_SEQCTRL offset) Sequence Control */
+#define ADC_SEQCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (ADC_SEQCTRL reset_value) Sequence Control */
+
+#define ADC_SEQCTRL_SEQEN_Pos       0            /**< \brief (ADC_SEQCTRL) Enable Positive Input in the Sequence */
+#define ADC_SEQCTRL_SEQEN_Msk       (_U_(0xFFFFFFFF) << ADC_SEQCTRL_SEQEN_Pos)
+#define ADC_SEQCTRL_SEQEN(value)    (ADC_SEQCTRL_SEQEN_Msk & ((value) << ADC_SEQCTRL_SEQEN_Pos))
+#define ADC_SEQCTRL_MASK            _U_(0xFFFFFFFF) /**< \brief (ADC_SEQCTRL) MASK Register */
+
+/* -------- ADC_CALIB : (ADC Offset: 0x2C) (R/W 16) Calibration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BIASCOMP:3;       /*!< bit:  0.. 2  Bias Comparator Scaling            */
+    uint16_t :5;               /*!< bit:  3.. 7  Reserved                           */
+    uint16_t BIASREFBUF:3;     /*!< bit:  8..10  Bias  Reference Buffer Scaling     */
+    uint16_t :5;               /*!< bit: 11..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} ADC_CALIB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define ADC_CALIB_OFFSET            0x2C         /**< \brief (ADC_CALIB offset) Calibration */
+#define ADC_CALIB_RESETVALUE        _U_(0x0000)  /**< \brief (ADC_CALIB reset_value) Calibration */
+
+#define ADC_CALIB_BIASCOMP_Pos      0            /**< \brief (ADC_CALIB) Bias Comparator Scaling */
+#define ADC_CALIB_BIASCOMP_Msk      (_U_(0x7) << ADC_CALIB_BIASCOMP_Pos)
+#define ADC_CALIB_BIASCOMP(value)   (ADC_CALIB_BIASCOMP_Msk & ((value) << ADC_CALIB_BIASCOMP_Pos))
+#define ADC_CALIB_BIASREFBUF_Pos    8            /**< \brief (ADC_CALIB) Bias  Reference Buffer Scaling */
+#define ADC_CALIB_BIASREFBUF_Msk    (_U_(0x7) << ADC_CALIB_BIASREFBUF_Pos)
+#define ADC_CALIB_BIASREFBUF(value) (ADC_CALIB_BIASREFBUF_Msk & ((value) << ADC_CALIB_BIASREFBUF_Pos))
+#define ADC_CALIB_MASK              _U_(0x0707)  /**< \brief (ADC_CALIB) MASK Register */
+
+/** \brief ADC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO ADC_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control A */
+  __IO ADC_CTRLB_Type            CTRLB;       /**< \brief Offset: 0x01 (R/W  8) Control B */
+  __IO ADC_REFCTRL_Type          REFCTRL;     /**< \brief Offset: 0x02 (R/W  8) Reference Control */
+  __IO ADC_EVCTRL_Type           EVCTRL;      /**< \brief Offset: 0x03 (R/W  8) Event Control */
+  __IO ADC_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x04 (R/W  8) Interrupt Enable Clear */
+  __IO ADC_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x05 (R/W  8) Interrupt Enable Set */
+  __IO ADC_INTFLAG_Type          INTFLAG;     /**< \brief Offset: 0x06 (R/W  8) Interrupt Flag Status and Clear */
+  __I  ADC_SEQSTATUS_Type        SEQSTATUS;   /**< \brief Offset: 0x07 (R/   8) Sequence Status */
+  __IO ADC_INPUTCTRL_Type        INPUTCTRL;   /**< \brief Offset: 0x08 (R/W 16) Input Control */
+  __IO ADC_CTRLC_Type            CTRLC;       /**< \brief Offset: 0x0A (R/W 16) Control C */
+  __IO ADC_AVGCTRL_Type          AVGCTRL;     /**< \brief Offset: 0x0C (R/W  8) Average Control */
+  __IO ADC_SAMPCTRL_Type         SAMPCTRL;    /**< \brief Offset: 0x0D (R/W  8) Sample Time Control */
+  __IO ADC_WINLT_Type            WINLT;       /**< \brief Offset: 0x0E (R/W 16) Window Monitor Lower Threshold */
+  __IO ADC_WINUT_Type            WINUT;       /**< \brief Offset: 0x10 (R/W 16) Window Monitor Upper Threshold */
+  __IO ADC_GAINCORR_Type         GAINCORR;    /**< \brief Offset: 0x12 (R/W 16) Gain Correction */
+  __IO ADC_OFFSETCORR_Type       OFFSETCORR;  /**< \brief Offset: 0x14 (R/W 16) Offset Correction */
+       RoReg8                    Reserved1[0x2];
+  __IO ADC_SWTRIG_Type           SWTRIG;      /**< \brief Offset: 0x18 (R/W  8) Software Trigger */
+       RoReg8                    Reserved2[0x3];
+  __IO ADC_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x1C (R/W  8) Debug Control */
+       RoReg8                    Reserved3[0x3];
+  __I  ADC_SYNCBUSY_Type         SYNCBUSY;    /**< \brief Offset: 0x20 (R/  16) Synchronization Busy */
+       RoReg8                    Reserved4[0x2];
+  __I  ADC_RESULT_Type           RESULT;      /**< \brief Offset: 0x24 (R/  16) Result */
+       RoReg8                    Reserved5[0x2];
+  __IO ADC_SEQCTRL_Type          SEQCTRL;     /**< \brief Offset: 0x28 (R/W 32) Sequence Control */
+  __IO ADC_CALIB_Type            CALIB;       /**< \brief Offset: 0x2C (R/W 16) Calibration */
+} Adc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_ADC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/aes.h b/watch-library/hardware/include/component/aes.h
new file mode 100644
index 00000000..439ce987
--- /dev/null
+++ b/watch-library/hardware/include/component/aes.h
@@ -0,0 +1,325 @@
+/**
+ * \file
+ *
+ * \brief Component description for AES
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_AES_COMPONENT_
+#define _SAML22_AES_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR AES */
+/* ========================================================================== */
+/** \addtogroup SAML22_AES Advanced Encryption Standard */
+/*@{*/
+
+#define AES_U2238
+#define REV_AES                     0x210
+
+/* -------- AES_CTRLA : (AES Offset: 0x00) (R/W 32) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t AESMODE:3;        /*!< bit:  2.. 4  AES Modes of operation             */
+    uint32_t CFBS:3;           /*!< bit:  5.. 7  CFB Types                          */
+    uint32_t KEYSIZE:2;        /*!< bit:  8.. 9  Keysize                            */
+    uint32_t CIPHER:1;         /*!< bit:     10  Cipher mode                        */
+    uint32_t STARTMODE:1;      /*!< bit:     11  Start mode                         */
+    uint32_t LOD:1;            /*!< bit:     12  LOD Enable                         */
+    uint32_t KEYGEN:1;         /*!< bit:     13  Last key generation                */
+    uint32_t XORKEY:1;         /*!< bit:     14  Xor Key operation                  */
+    uint32_t :1;               /*!< bit:     15  Reserved                           */
+    uint32_t CTYPE:4;          /*!< bit: 16..19  Counter measure types              */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_CTRLA_OFFSET            0x00         /**< \brief (AES_CTRLA offset) Control A */
+#define AES_CTRLA_RESETVALUE        _U_(0x00000000) /**< \brief (AES_CTRLA reset_value) Control A */
+
+#define AES_CTRLA_SWRST_Pos         0            /**< \brief (AES_CTRLA) Software Reset */
+#define AES_CTRLA_SWRST             (_U_(0x1) << AES_CTRLA_SWRST_Pos)
+#define AES_CTRLA_ENABLE_Pos        1            /**< \brief (AES_CTRLA) Enable */
+#define AES_CTRLA_ENABLE            (_U_(0x1) << AES_CTRLA_ENABLE_Pos)
+#define AES_CTRLA_AESMODE_Pos       2            /**< \brief (AES_CTRLA) AES Modes of operation */
+#define AES_CTRLA_AESMODE_Msk       (_U_(0x7) << AES_CTRLA_AESMODE_Pos)
+#define AES_CTRLA_AESMODE(value)    (AES_CTRLA_AESMODE_Msk & ((value) << AES_CTRLA_AESMODE_Pos))
+#define AES_CTRLA_CFBS_Pos          5            /**< \brief (AES_CTRLA) CFB Types */
+#define AES_CTRLA_CFBS_Msk          (_U_(0x7) << AES_CTRLA_CFBS_Pos)
+#define AES_CTRLA_CFBS(value)       (AES_CTRLA_CFBS_Msk & ((value) << AES_CTRLA_CFBS_Pos))
+#define AES_CTRLA_KEYSIZE_Pos       8            /**< \brief (AES_CTRLA) Keysize */
+#define AES_CTRLA_KEYSIZE_Msk       (_U_(0x3) << AES_CTRLA_KEYSIZE_Pos)
+#define AES_CTRLA_KEYSIZE(value)    (AES_CTRLA_KEYSIZE_Msk & ((value) << AES_CTRLA_KEYSIZE_Pos))
+#define AES_CTRLA_CIPHER_Pos        10           /**< \brief (AES_CTRLA) Cipher mode */
+#define AES_CTRLA_CIPHER            (_U_(0x1) << AES_CTRLA_CIPHER_Pos)
+#define AES_CTRLA_STARTMODE_Pos     11           /**< \brief (AES_CTRLA) Start mode */
+#define AES_CTRLA_STARTMODE         (_U_(0x1) << AES_CTRLA_STARTMODE_Pos)
+#define AES_CTRLA_LOD_Pos           12           /**< \brief (AES_CTRLA) LOD Enable */
+#define AES_CTRLA_LOD               (_U_(0x1) << AES_CTRLA_LOD_Pos)
+#define AES_CTRLA_KEYGEN_Pos        13           /**< \brief (AES_CTRLA) Last key generation */
+#define AES_CTRLA_KEYGEN            (_U_(0x1) << AES_CTRLA_KEYGEN_Pos)
+#define AES_CTRLA_XORKEY_Pos        14           /**< \brief (AES_CTRLA) Xor Key operation */
+#define AES_CTRLA_XORKEY            (_U_(0x1) << AES_CTRLA_XORKEY_Pos)
+#define AES_CTRLA_CTYPE_Pos         16           /**< \brief (AES_CTRLA) Counter measure types */
+#define AES_CTRLA_CTYPE_Msk         (_U_(0xF) << AES_CTRLA_CTYPE_Pos)
+#define AES_CTRLA_CTYPE(value)      (AES_CTRLA_CTYPE_Msk & ((value) << AES_CTRLA_CTYPE_Pos))
+#define AES_CTRLA_MASK              _U_(0x000F7FFF) /**< \brief (AES_CTRLA) MASK Register */
+
+/* -------- AES_CTRLB : (AES Offset: 0x04) (R/W  8) Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  START:1;          /*!< bit:      0  Manual Start                       */
+    uint8_t  NEWMSG:1;         /*!< bit:      1  New message                        */
+    uint8_t  EOM:1;            /*!< bit:      2  End of message                     */
+    uint8_t  GFMUL:1;          /*!< bit:      3  GF Multiplication                  */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_CTRLB_OFFSET            0x04         /**< \brief (AES_CTRLB offset) Control B */
+#define AES_CTRLB_RESETVALUE        _U_(0x00)    /**< \brief (AES_CTRLB reset_value) Control B */
+
+#define AES_CTRLB_START_Pos         0            /**< \brief (AES_CTRLB) Manual Start */
+#define AES_CTRLB_START             (_U_(0x1) << AES_CTRLB_START_Pos)
+#define AES_CTRLB_NEWMSG_Pos        1            /**< \brief (AES_CTRLB) New message */
+#define AES_CTRLB_NEWMSG            (_U_(0x1) << AES_CTRLB_NEWMSG_Pos)
+#define AES_CTRLB_EOM_Pos           2            /**< \brief (AES_CTRLB) End of message */
+#define AES_CTRLB_EOM               (_U_(0x1) << AES_CTRLB_EOM_Pos)
+#define AES_CTRLB_GFMUL_Pos         3            /**< \brief (AES_CTRLB) GF Multiplication */
+#define AES_CTRLB_GFMUL             (_U_(0x1) << AES_CTRLB_GFMUL_Pos)
+#define AES_CTRLB_MASK              _U_(0x0F)    /**< \brief (AES_CTRLB) MASK Register */
+
+/* -------- AES_INTENCLR : (AES Offset: 0x05) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ENCCMP:1;         /*!< bit:      0  Encryption Complete                */
+    uint8_t  GFMCMP:1;         /*!< bit:      1  GF Multiplication Complete         */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_INTENCLR_OFFSET         0x05         /**< \brief (AES_INTENCLR offset) Interrupt Enable Clear */
+#define AES_INTENCLR_RESETVALUE     _U_(0x00)    /**< \brief (AES_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define AES_INTENCLR_ENCCMP_Pos     0            /**< \brief (AES_INTENCLR) Encryption Complete */
+#define AES_INTENCLR_ENCCMP         (_U_(0x1) << AES_INTENCLR_ENCCMP_Pos)
+#define AES_INTENCLR_GFMCMP_Pos     1            /**< \brief (AES_INTENCLR) GF Multiplication Complete */
+#define AES_INTENCLR_GFMCMP         (_U_(0x1) << AES_INTENCLR_GFMCMP_Pos)
+#define AES_INTENCLR_MASK           _U_(0x03)    /**< \brief (AES_INTENCLR) MASK Register */
+
+/* -------- AES_INTENSET : (AES Offset: 0x06) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ENCCMP:1;         /*!< bit:      0  Encryption Complete                */
+    uint8_t  GFMCMP:1;         /*!< bit:      1  GF Multiplication Complete         */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_INTENSET_OFFSET         0x06         /**< \brief (AES_INTENSET offset) Interrupt Enable Set */
+#define AES_INTENSET_RESETVALUE     _U_(0x00)    /**< \brief (AES_INTENSET reset_value) Interrupt Enable Set */
+
+#define AES_INTENSET_ENCCMP_Pos     0            /**< \brief (AES_INTENSET) Encryption Complete */
+#define AES_INTENSET_ENCCMP         (_U_(0x1) << AES_INTENSET_ENCCMP_Pos)
+#define AES_INTENSET_GFMCMP_Pos     1            /**< \brief (AES_INTENSET) GF Multiplication Complete */
+#define AES_INTENSET_GFMCMP         (_U_(0x1) << AES_INTENSET_GFMCMP_Pos)
+#define AES_INTENSET_MASK           _U_(0x03)    /**< \brief (AES_INTENSET) MASK Register */
+
+/* -------- AES_INTFLAG : (AES Offset: 0x07) (R/W  8) Interrupt Flag Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  ENCCMP:1;         /*!< bit:      0  Encryption Complete                */
+    __I uint8_t  GFMCMP:1;         /*!< bit:      1  GF Multiplication Complete         */
+    __I uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_INTFLAG_OFFSET          0x07         /**< \brief (AES_INTFLAG offset) Interrupt Flag Status */
+#define AES_INTFLAG_RESETVALUE      _U_(0x00)    /**< \brief (AES_INTFLAG reset_value) Interrupt Flag Status */
+
+#define AES_INTFLAG_ENCCMP_Pos      0            /**< \brief (AES_INTFLAG) Encryption Complete */
+#define AES_INTFLAG_ENCCMP          (_U_(0x1) << AES_INTFLAG_ENCCMP_Pos)
+#define AES_INTFLAG_GFMCMP_Pos      1            /**< \brief (AES_INTFLAG) GF Multiplication Complete */
+#define AES_INTFLAG_GFMCMP          (_U_(0x1) << AES_INTFLAG_GFMCMP_Pos)
+#define AES_INTFLAG_MASK            _U_(0x03)    /**< \brief (AES_INTFLAG) MASK Register */
+
+/* -------- AES_DATABUFPTR : (AES Offset: 0x08) (R/W  8) Data buffer pointer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  INDATAPTR:2;      /*!< bit:  0.. 1  Input Data Pointer                 */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_DATABUFPTR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_DATABUFPTR_OFFSET       0x08         /**< \brief (AES_DATABUFPTR offset) Data buffer pointer */
+#define AES_DATABUFPTR_RESETVALUE   _U_(0x00)    /**< \brief (AES_DATABUFPTR reset_value) Data buffer pointer */
+
+#define AES_DATABUFPTR_INDATAPTR_Pos 0            /**< \brief (AES_DATABUFPTR) Input Data Pointer */
+#define AES_DATABUFPTR_INDATAPTR_Msk (_U_(0x3) << AES_DATABUFPTR_INDATAPTR_Pos)
+#define AES_DATABUFPTR_INDATAPTR(value) (AES_DATABUFPTR_INDATAPTR_Msk & ((value) << AES_DATABUFPTR_INDATAPTR_Pos))
+#define AES_DATABUFPTR_MASK         _U_(0x03)    /**< \brief (AES_DATABUFPTR) MASK Register */
+
+/* -------- AES_DBGCTRL : (AES Offset: 0x09) ( /W  8) Debug control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Debug Run                          */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} AES_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_DBGCTRL_OFFSET          0x09         /**< \brief (AES_DBGCTRL offset) Debug control */
+#define AES_DBGCTRL_RESETVALUE      _U_(0x00)    /**< \brief (AES_DBGCTRL reset_value) Debug control */
+
+#define AES_DBGCTRL_DBGRUN_Pos      0            /**< \brief (AES_DBGCTRL) Debug Run */
+#define AES_DBGCTRL_DBGRUN          (_U_(0x1) << AES_DBGCTRL_DBGRUN_Pos)
+#define AES_DBGCTRL_MASK            _U_(0x01)    /**< \brief (AES_DBGCTRL) MASK Register */
+
+/* -------- AES_KEYWORD : (AES Offset: 0x0C) ( /W 32) Keyword n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_KEYWORD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_KEYWORD_OFFSET          0x0C         /**< \brief (AES_KEYWORD offset) Keyword n */
+#define AES_KEYWORD_RESETVALUE      _U_(0x00000000) /**< \brief (AES_KEYWORD reset_value) Keyword n */
+#define AES_KEYWORD_MASK            _U_(0xFFFFFFFF) /**< \brief (AES_KEYWORD) MASK Register */
+
+/* -------- AES_INDATA : (AES Offset: 0x38) (R/W 32) Indata -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_INDATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_INDATA_OFFSET           0x38         /**< \brief (AES_INDATA offset) Indata */
+#define AES_INDATA_RESETVALUE       _U_(0x00000000) /**< \brief (AES_INDATA reset_value) Indata */
+#define AES_INDATA_MASK             _U_(0xFFFFFFFF) /**< \brief (AES_INDATA) MASK Register */
+
+/* -------- AES_INTVECTV : (AES Offset: 0x3C) ( /W 32) Initialisation Vector n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_INTVECTV_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_INTVECTV_OFFSET         0x3C         /**< \brief (AES_INTVECTV offset) Initialisation Vector n */
+#define AES_INTVECTV_RESETVALUE     _U_(0x00000000) /**< \brief (AES_INTVECTV reset_value) Initialisation Vector n */
+#define AES_INTVECTV_MASK           _U_(0xFFFFFFFF) /**< \brief (AES_INTVECTV) MASK Register */
+
+/* -------- AES_HASHKEY : (AES Offset: 0x5C) (R/W 32) Hash key n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_HASHKEY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_HASHKEY_OFFSET          0x5C         /**< \brief (AES_HASHKEY offset) Hash key n */
+#define AES_HASHKEY_RESETVALUE      _U_(0x00000000) /**< \brief (AES_HASHKEY reset_value) Hash key n */
+#define AES_HASHKEY_MASK            _U_(0xFFFFFFFF) /**< \brief (AES_HASHKEY) MASK Register */
+
+/* -------- AES_GHASH : (AES Offset: 0x6C) (R/W 32) Galois Hash n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_GHASH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_GHASH_OFFSET            0x6C         /**< \brief (AES_GHASH offset) Galois Hash n */
+#define AES_GHASH_RESETVALUE        _U_(0x00000000) /**< \brief (AES_GHASH reset_value) Galois Hash n */
+#define AES_GHASH_MASK              _U_(0xFFFFFFFF) /**< \brief (AES_GHASH) MASK Register */
+
+/* -------- AES_CIPLEN : (AES Offset: 0x80) (R/W 32) Cipher Length -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_CIPLEN_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_CIPLEN_OFFSET           0x80         /**< \brief (AES_CIPLEN offset) Cipher Length */
+#define AES_CIPLEN_RESETVALUE       _U_(0x00000000) /**< \brief (AES_CIPLEN reset_value) Cipher Length */
+#define AES_CIPLEN_MASK             _U_(0xFFFFFFFF) /**< \brief (AES_CIPLEN) MASK Register */
+
+/* -------- AES_RANDSEED : (AES Offset: 0x84) (R/W 32) Random Seed -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} AES_RANDSEED_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define AES_RANDSEED_OFFSET         0x84         /**< \brief (AES_RANDSEED offset) Random Seed */
+#define AES_RANDSEED_RESETVALUE     _U_(0x00000000) /**< \brief (AES_RANDSEED reset_value) Random Seed */
+#define AES_RANDSEED_MASK           _U_(0xFFFFFFFF) /**< \brief (AES_RANDSEED) MASK Register */
+
+/** \brief AES hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO AES_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO AES_CTRLB_Type            CTRLB;       /**< \brief Offset: 0x04 (R/W  8) Control B */
+  __IO AES_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x05 (R/W  8) Interrupt Enable Clear */
+  __IO AES_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x06 (R/W  8) Interrupt Enable Set */
+  __IO AES_INTFLAG_Type          INTFLAG;     /**< \brief Offset: 0x07 (R/W  8) Interrupt Flag Status */
+  __IO AES_DATABUFPTR_Type       DATABUFPTR;  /**< \brief Offset: 0x08 (R/W  8) Data buffer pointer */
+  __O  AES_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x09 ( /W  8) Debug control */
+       RoReg8                    Reserved1[0x2];
+  __O  AES_KEYWORD_Type          KEYWORD[8];  /**< \brief Offset: 0x0C ( /W 32) Keyword n */
+       RoReg8                    Reserved2[0xC];
+  __IO AES_INDATA_Type           INDATA;      /**< \brief Offset: 0x38 (R/W 32) Indata */
+  __O  AES_INTVECTV_Type         INTVECTV[4]; /**< \brief Offset: 0x3C ( /W 32) Initialisation Vector n */
+       RoReg8                    Reserved3[0x10];
+  __IO AES_HASHKEY_Type          HASHKEY[4];  /**< \brief Offset: 0x5C (R/W 32) Hash key n */
+  __IO AES_GHASH_Type            GHASH[4];    /**< \brief Offset: 0x6C (R/W 32) Galois Hash n */
+       RoReg8                    Reserved4[0x4];
+  __IO AES_CIPLEN_Type           CIPLEN;      /**< \brief Offset: 0x80 (R/W 32) Cipher Length */
+  __IO AES_RANDSEED_Type         RANDSEED;    /**< \brief Offset: 0x84 (R/W 32) Random Seed */
+} Aes;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_AES_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/ccl.h b/watch-library/hardware/include/component/ccl.h
new file mode 100644
index 00000000..ce10ebc6
--- /dev/null
+++ b/watch-library/hardware/include/component/ccl.h
@@ -0,0 +1,188 @@
+/**
+ * \file
+ *
+ * \brief Component description for CCL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_CCL_COMPONENT_
+#define _SAML22_CCL_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR CCL */
+/* ========================================================================== */
+/** \addtogroup SAML22_CCL Configurable Custom Logic */
+/*@{*/
+
+#define CCL_U2225
+#define REV_CCL                     0x101
+
+/* -------- CCL_CTRL : (CCL Offset: 0x0) (R/W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :4;               /*!< bit:  2.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} CCL_CTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define CCL_CTRL_OFFSET             0x0          /**< \brief (CCL_CTRL offset) Control */
+#define CCL_CTRL_RESETVALUE         _U_(0x00)    /**< \brief (CCL_CTRL reset_value) Control */
+
+#define CCL_CTRL_SWRST_Pos          0            /**< \brief (CCL_CTRL) Software Reset */
+#define CCL_CTRL_SWRST              (_U_(0x1) << CCL_CTRL_SWRST_Pos)
+#define CCL_CTRL_ENABLE_Pos         1            /**< \brief (CCL_CTRL) Enable */
+#define CCL_CTRL_ENABLE             (_U_(0x1) << CCL_CTRL_ENABLE_Pos)
+#define CCL_CTRL_RUNSTDBY_Pos       6            /**< \brief (CCL_CTRL) Run during Standby */
+#define CCL_CTRL_RUNSTDBY           (_U_(0x1) << CCL_CTRL_RUNSTDBY_Pos)
+#define CCL_CTRL_MASK               _U_(0x43)    /**< \brief (CCL_CTRL) MASK Register */
+
+/* -------- CCL_SEQCTRL : (CCL Offset: 0x4) (R/W  8) SEQ Control x -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SEQSEL:4;         /*!< bit:  0.. 3  Sequential Selection               */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} CCL_SEQCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define CCL_SEQCTRL_OFFSET          0x4          /**< \brief (CCL_SEQCTRL offset) SEQ Control x */
+#define CCL_SEQCTRL_RESETVALUE      _U_(0x00)    /**< \brief (CCL_SEQCTRL reset_value) SEQ Control x */
+
+#define CCL_SEQCTRL_SEQSEL_Pos      0            /**< \brief (CCL_SEQCTRL) Sequential Selection */
+#define CCL_SEQCTRL_SEQSEL_Msk      (_U_(0xF) << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_SEQSEL(value)   (CCL_SEQCTRL_SEQSEL_Msk & ((value) << CCL_SEQCTRL_SEQSEL_Pos))
+#define   CCL_SEQCTRL_SEQSEL_DISABLE_Val  _U_(0x0)   /**< \brief (CCL_SEQCTRL) Sequential logic is disabled */
+#define   CCL_SEQCTRL_SEQSEL_DFF_Val      _U_(0x1)   /**< \brief (CCL_SEQCTRL) D flip flop */
+#define   CCL_SEQCTRL_SEQSEL_JK_Val       _U_(0x2)   /**< \brief (CCL_SEQCTRL) JK flip flop */
+#define   CCL_SEQCTRL_SEQSEL_LATCH_Val    _U_(0x3)   /**< \brief (CCL_SEQCTRL) D latch */
+#define   CCL_SEQCTRL_SEQSEL_RS_Val       _U_(0x4)   /**< \brief (CCL_SEQCTRL) RS latch */
+#define CCL_SEQCTRL_SEQSEL_DISABLE  (CCL_SEQCTRL_SEQSEL_DISABLE_Val << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_SEQSEL_DFF      (CCL_SEQCTRL_SEQSEL_DFF_Val    << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_SEQSEL_JK       (CCL_SEQCTRL_SEQSEL_JK_Val     << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_SEQSEL_LATCH    (CCL_SEQCTRL_SEQSEL_LATCH_Val  << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_SEQSEL_RS       (CCL_SEQCTRL_SEQSEL_RS_Val     << CCL_SEQCTRL_SEQSEL_Pos)
+#define CCL_SEQCTRL_MASK            _U_(0x0F)    /**< \brief (CCL_SEQCTRL) MASK Register */
+
+/* -------- CCL_LUTCTRL : (CCL Offset: 0x8) (R/W 32) LUT Control x -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  LUT Enable                         */
+    uint32_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint32_t FILTSEL:2;        /*!< bit:  4.. 5  Filter Selection                   */
+    uint32_t :1;               /*!< bit:      6  Reserved                           */
+    uint32_t EDGESEL:1;        /*!< bit:      7  Edge Selection                     */
+    uint32_t INSEL0:4;         /*!< bit:  8..11  Input Selection 0                  */
+    uint32_t INSEL1:4;         /*!< bit: 12..15  Input Selection 1                  */
+    uint32_t INSEL2:4;         /*!< bit: 16..19  Input Selection 2                  */
+    uint32_t INVEI:1;          /*!< bit:     20  Input Event Invert                 */
+    uint32_t LUTEI:1;          /*!< bit:     21  Event Input Enable                 */
+    uint32_t LUTEO:1;          /*!< bit:     22  Event Output Enable                */
+    uint32_t :1;               /*!< bit:     23  Reserved                           */
+    uint32_t TRUTH:8;          /*!< bit: 24..31  Truth Value                        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} CCL_LUTCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define CCL_LUTCTRL_OFFSET          0x8          /**< \brief (CCL_LUTCTRL offset) LUT Control x */
+#define CCL_LUTCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (CCL_LUTCTRL reset_value) LUT Control x */
+
+#define CCL_LUTCTRL_ENABLE_Pos      1            /**< \brief (CCL_LUTCTRL) LUT Enable */
+#define CCL_LUTCTRL_ENABLE          (_U_(0x1) << CCL_LUTCTRL_ENABLE_Pos)
+#define CCL_LUTCTRL_FILTSEL_Pos     4            /**< \brief (CCL_LUTCTRL) Filter Selection */
+#define CCL_LUTCTRL_FILTSEL_Msk     (_U_(0x3) << CCL_LUTCTRL_FILTSEL_Pos)
+#define CCL_LUTCTRL_FILTSEL(value)  (CCL_LUTCTRL_FILTSEL_Msk & ((value) << CCL_LUTCTRL_FILTSEL_Pos))
+#define   CCL_LUTCTRL_FILTSEL_DISABLE_Val _U_(0x0)   /**< \brief (CCL_LUTCTRL) Filter disabled */
+#define   CCL_LUTCTRL_FILTSEL_SYNCH_Val   _U_(0x1)   /**< \brief (CCL_LUTCTRL) Synchronizer enabled */
+#define   CCL_LUTCTRL_FILTSEL_FILTER_Val  _U_(0x2)   /**< \brief (CCL_LUTCTRL) Filter enabled */
+#define CCL_LUTCTRL_FILTSEL_DISABLE (CCL_LUTCTRL_FILTSEL_DISABLE_Val << CCL_LUTCTRL_FILTSEL_Pos)
+#define CCL_LUTCTRL_FILTSEL_SYNCH   (CCL_LUTCTRL_FILTSEL_SYNCH_Val << CCL_LUTCTRL_FILTSEL_Pos)
+#define CCL_LUTCTRL_FILTSEL_FILTER  (CCL_LUTCTRL_FILTSEL_FILTER_Val << CCL_LUTCTRL_FILTSEL_Pos)
+#define CCL_LUTCTRL_EDGESEL_Pos     7            /**< \brief (CCL_LUTCTRL) Edge Selection */
+#define CCL_LUTCTRL_EDGESEL         (_U_(0x1) << CCL_LUTCTRL_EDGESEL_Pos)
+#define CCL_LUTCTRL_INSEL0_Pos      8            /**< \brief (CCL_LUTCTRL) Input Selection 0 */
+#define CCL_LUTCTRL_INSEL0_Msk      (_U_(0xF) << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0(value)   (CCL_LUTCTRL_INSEL0_Msk & ((value) << CCL_LUTCTRL_INSEL0_Pos))
+#define   CCL_LUTCTRL_INSEL0_MASK_Val     _U_(0x0)   /**< \brief (CCL_LUTCTRL) Masked input */
+#define   CCL_LUTCTRL_INSEL0_FEEDBACK_Val _U_(0x1)   /**< \brief (CCL_LUTCTRL) Feedback input source */
+#define   CCL_LUTCTRL_INSEL0_LINK_Val     _U_(0x2)   /**< \brief (CCL_LUTCTRL) Linked LUT input source */
+#define   CCL_LUTCTRL_INSEL0_EVENT_Val    _U_(0x3)   /**< \brief (CCL_LUTCTRL) Event in put source */
+#define   CCL_LUTCTRL_INSEL0_IO_Val       _U_(0x4)   /**< \brief (CCL_LUTCTRL) I/O pin input source */
+#define   CCL_LUTCTRL_INSEL0_AC_Val       _U_(0x5)   /**< \brief (CCL_LUTCTRL) AC input source */
+#define   CCL_LUTCTRL_INSEL0_TC_Val       _U_(0x6)   /**< \brief (CCL_LUTCTRL) TC input source */
+#define   CCL_LUTCTRL_INSEL0_ALTTC_Val    _U_(0x7)   /**< \brief (CCL_LUTCTRL) Alternate TC input source */
+#define   CCL_LUTCTRL_INSEL0_TCC_Val      _U_(0x8)   /**< \brief (CCL_LUTCTRL) TCC input source */
+#define   CCL_LUTCTRL_INSEL0_SERCOM_Val   _U_(0x9)   /**< \brief (CCL_LUTCTRL) SERCOM inout source */
+#define CCL_LUTCTRL_INSEL0_MASK     (CCL_LUTCTRL_INSEL0_MASK_Val   << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_FEEDBACK (CCL_LUTCTRL_INSEL0_FEEDBACK_Val << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_LINK     (CCL_LUTCTRL_INSEL0_LINK_Val   << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_EVENT    (CCL_LUTCTRL_INSEL0_EVENT_Val  << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_IO       (CCL_LUTCTRL_INSEL0_IO_Val     << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_AC       (CCL_LUTCTRL_INSEL0_AC_Val     << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_TC       (CCL_LUTCTRL_INSEL0_TC_Val     << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_ALTTC    (CCL_LUTCTRL_INSEL0_ALTTC_Val  << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_TCC      (CCL_LUTCTRL_INSEL0_TCC_Val    << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL0_SERCOM   (CCL_LUTCTRL_INSEL0_SERCOM_Val << CCL_LUTCTRL_INSEL0_Pos)
+#define CCL_LUTCTRL_INSEL1_Pos      12           /**< \brief (CCL_LUTCTRL) Input Selection 1 */
+#define CCL_LUTCTRL_INSEL1_Msk      (_U_(0xF) << CCL_LUTCTRL_INSEL1_Pos)
+#define CCL_LUTCTRL_INSEL1(value)   (CCL_LUTCTRL_INSEL1_Msk & ((value) << CCL_LUTCTRL_INSEL1_Pos))
+#define CCL_LUTCTRL_INSEL2_Pos      16           /**< \brief (CCL_LUTCTRL) Input Selection 2 */
+#define CCL_LUTCTRL_INSEL2_Msk      (_U_(0xF) << CCL_LUTCTRL_INSEL2_Pos)
+#define CCL_LUTCTRL_INSEL2(value)   (CCL_LUTCTRL_INSEL2_Msk & ((value) << CCL_LUTCTRL_INSEL2_Pos))
+#define CCL_LUTCTRL_INVEI_Pos       20           /**< \brief (CCL_LUTCTRL) Input Event Invert */
+#define CCL_LUTCTRL_INVEI           (_U_(0x1) << CCL_LUTCTRL_INVEI_Pos)
+#define CCL_LUTCTRL_LUTEI_Pos       21           /**< \brief (CCL_LUTCTRL) Event Input Enable */
+#define CCL_LUTCTRL_LUTEI           (_U_(0x1) << CCL_LUTCTRL_LUTEI_Pos)
+#define CCL_LUTCTRL_LUTEO_Pos       22           /**< \brief (CCL_LUTCTRL) Event Output Enable */
+#define CCL_LUTCTRL_LUTEO           (_U_(0x1) << CCL_LUTCTRL_LUTEO_Pos)
+#define CCL_LUTCTRL_TRUTH_Pos       24           /**< \brief (CCL_LUTCTRL) Truth Value */
+#define CCL_LUTCTRL_TRUTH_Msk       (_U_(0xFF) << CCL_LUTCTRL_TRUTH_Pos)
+#define CCL_LUTCTRL_TRUTH(value)    (CCL_LUTCTRL_TRUTH_Msk & ((value) << CCL_LUTCTRL_TRUTH_Pos))
+#define CCL_LUTCTRL_MASK            _U_(0xFF7FFFB2) /**< \brief (CCL_LUTCTRL) MASK Register */
+
+/** \brief CCL hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO CCL_CTRL_Type             CTRL;        /**< \brief Offset: 0x0 (R/W  8) Control */
+       RoReg8                    Reserved1[0x3];
+  __IO CCL_SEQCTRL_Type          SEQCTRL[2];  /**< \brief Offset: 0x4 (R/W  8) SEQ Control x */
+       RoReg8                    Reserved2[0x2];
+  __IO CCL_LUTCTRL_Type          LUTCTRL[4];  /**< \brief Offset: 0x8 (R/W 32) LUT Control x */
+} Ccl;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_CCL_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/dmac.h b/watch-library/hardware/include/component/dmac.h
new file mode 100644
index 00000000..85b2ce02
--- /dev/null
+++ b/watch-library/hardware/include/component/dmac.h
@@ -0,0 +1,1117 @@
+/**
+ * \file
+ *
+ * \brief Component description for DMAC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_DMAC_COMPONENT_
+#define _SAML22_DMAC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR DMAC */
+/* ========================================================================== */
+/** \addtogroup SAML22_DMAC Direct Memory Access Controller */
+/*@{*/
+
+#define DMAC_U2223
+#define REV_DMAC                    0x222
+
+/* -------- DMAC_CTRL : (DMAC Offset: 0x00) (R/W 16) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint16_t DMAENABLE:1;      /*!< bit:      1  DMA Enable                         */
+    uint16_t CRCENABLE:1;      /*!< bit:      2  CRC Enable                         */
+    uint16_t :5;               /*!< bit:  3.. 7  Reserved                           */
+    uint16_t LVLEN0:1;         /*!< bit:      8  Priority Level 0 Enable            */
+    uint16_t LVLEN1:1;         /*!< bit:      9  Priority Level 1 Enable            */
+    uint16_t LVLEN2:1;         /*!< bit:     10  Priority Level 2 Enable            */
+    uint16_t LVLEN3:1;         /*!< bit:     11  Priority Level 3 Enable            */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint16_t LVLEN:4;          /*!< bit:  8..11  Priority Level x Enable            */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} DMAC_CTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CTRL_OFFSET            0x00         /**< \brief (DMAC_CTRL offset) Control */
+#define DMAC_CTRL_RESETVALUE        _U_(0x0000)  /**< \brief (DMAC_CTRL reset_value) Control */
+
+#define DMAC_CTRL_SWRST_Pos         0            /**< \brief (DMAC_CTRL) Software Reset */
+#define DMAC_CTRL_SWRST             (_U_(0x1) << DMAC_CTRL_SWRST_Pos)
+#define DMAC_CTRL_DMAENABLE_Pos     1            /**< \brief (DMAC_CTRL) DMA Enable */
+#define DMAC_CTRL_DMAENABLE         (_U_(0x1) << DMAC_CTRL_DMAENABLE_Pos)
+#define DMAC_CTRL_CRCENABLE_Pos     2            /**< \brief (DMAC_CTRL) CRC Enable */
+#define DMAC_CTRL_CRCENABLE         (_U_(0x1) << DMAC_CTRL_CRCENABLE_Pos)
+#define DMAC_CTRL_LVLEN0_Pos        8            /**< \brief (DMAC_CTRL) Priority Level 0 Enable */
+#define DMAC_CTRL_LVLEN0            (_U_(1) << DMAC_CTRL_LVLEN0_Pos)
+#define DMAC_CTRL_LVLEN1_Pos        9            /**< \brief (DMAC_CTRL) Priority Level 1 Enable */
+#define DMAC_CTRL_LVLEN1            (_U_(1) << DMAC_CTRL_LVLEN1_Pos)
+#define DMAC_CTRL_LVLEN2_Pos        10           /**< \brief (DMAC_CTRL) Priority Level 2 Enable */
+#define DMAC_CTRL_LVLEN2            (_U_(1) << DMAC_CTRL_LVLEN2_Pos)
+#define DMAC_CTRL_LVLEN3_Pos        11           /**< \brief (DMAC_CTRL) Priority Level 3 Enable */
+#define DMAC_CTRL_LVLEN3            (_U_(1) << DMAC_CTRL_LVLEN3_Pos)
+#define DMAC_CTRL_LVLEN_Pos         8            /**< \brief (DMAC_CTRL) Priority Level x Enable */
+#define DMAC_CTRL_LVLEN_Msk         (_U_(0xF) << DMAC_CTRL_LVLEN_Pos)
+#define DMAC_CTRL_LVLEN(value)      (DMAC_CTRL_LVLEN_Msk & ((value) << DMAC_CTRL_LVLEN_Pos))
+#define DMAC_CTRL_MASK              _U_(0x0F07)  /**< \brief (DMAC_CTRL) MASK Register */
+
+/* -------- DMAC_CRCCTRL : (DMAC Offset: 0x02) (R/W 16) CRC Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t CRCBEATSIZE:2;    /*!< bit:  0.. 1  CRC Beat Size                      */
+    uint16_t CRCPOLY:2;        /*!< bit:  2.. 3  CRC Polynomial Type                */
+    uint16_t :4;               /*!< bit:  4.. 7  Reserved                           */
+    uint16_t CRCSRC:6;         /*!< bit:  8..13  CRC Input Source                   */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} DMAC_CRCCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CRCCTRL_OFFSET         0x02         /**< \brief (DMAC_CRCCTRL offset) CRC Control */
+#define DMAC_CRCCTRL_RESETVALUE     _U_(0x0000)  /**< \brief (DMAC_CRCCTRL reset_value) CRC Control */
+
+#define DMAC_CRCCTRL_CRCBEATSIZE_Pos 0            /**< \brief (DMAC_CRCCTRL) CRC Beat Size */
+#define DMAC_CRCCTRL_CRCBEATSIZE_Msk (_U_(0x3) << DMAC_CRCCTRL_CRCBEATSIZE_Pos)
+#define DMAC_CRCCTRL_CRCBEATSIZE(value) (DMAC_CRCCTRL_CRCBEATSIZE_Msk & ((value) << DMAC_CRCCTRL_CRCBEATSIZE_Pos))
+#define   DMAC_CRCCTRL_CRCBEATSIZE_BYTE_Val _U_(0x0)   /**< \brief (DMAC_CRCCTRL) 8-bit bus transfer */
+#define   DMAC_CRCCTRL_CRCBEATSIZE_HWORD_Val _U_(0x1)   /**< \brief (DMAC_CRCCTRL) 16-bit bus transfer */
+#define   DMAC_CRCCTRL_CRCBEATSIZE_WORD_Val _U_(0x2)   /**< \brief (DMAC_CRCCTRL) 32-bit bus transfer */
+#define DMAC_CRCCTRL_CRCBEATSIZE_BYTE (DMAC_CRCCTRL_CRCBEATSIZE_BYTE_Val << DMAC_CRCCTRL_CRCBEATSIZE_Pos)
+#define DMAC_CRCCTRL_CRCBEATSIZE_HWORD (DMAC_CRCCTRL_CRCBEATSIZE_HWORD_Val << DMAC_CRCCTRL_CRCBEATSIZE_Pos)
+#define DMAC_CRCCTRL_CRCBEATSIZE_WORD (DMAC_CRCCTRL_CRCBEATSIZE_WORD_Val << DMAC_CRCCTRL_CRCBEATSIZE_Pos)
+#define DMAC_CRCCTRL_CRCPOLY_Pos    2            /**< \brief (DMAC_CRCCTRL) CRC Polynomial Type */
+#define DMAC_CRCCTRL_CRCPOLY_Msk    (_U_(0x3) << DMAC_CRCCTRL_CRCPOLY_Pos)
+#define DMAC_CRCCTRL_CRCPOLY(value) (DMAC_CRCCTRL_CRCPOLY_Msk & ((value) << DMAC_CRCCTRL_CRCPOLY_Pos))
+#define   DMAC_CRCCTRL_CRCPOLY_CRC16_Val  _U_(0x0)   /**< \brief (DMAC_CRCCTRL) CRC-16 (CRC-CCITT) */
+#define   DMAC_CRCCTRL_CRCPOLY_CRC32_Val  _U_(0x1)   /**< \brief (DMAC_CRCCTRL) CRC32 (IEEE 802.3) */
+#define DMAC_CRCCTRL_CRCPOLY_CRC16  (DMAC_CRCCTRL_CRCPOLY_CRC16_Val << DMAC_CRCCTRL_CRCPOLY_Pos)
+#define DMAC_CRCCTRL_CRCPOLY_CRC32  (DMAC_CRCCTRL_CRCPOLY_CRC32_Val << DMAC_CRCCTRL_CRCPOLY_Pos)
+#define DMAC_CRCCTRL_CRCSRC_Pos     8            /**< \brief (DMAC_CRCCTRL) CRC Input Source */
+#define DMAC_CRCCTRL_CRCSRC_Msk     (_U_(0x3F) << DMAC_CRCCTRL_CRCSRC_Pos)
+#define DMAC_CRCCTRL_CRCSRC(value)  (DMAC_CRCCTRL_CRCSRC_Msk & ((value) << DMAC_CRCCTRL_CRCSRC_Pos))
+#define   DMAC_CRCCTRL_CRCSRC_NOACT_Val   _U_(0x0)   /**< \brief (DMAC_CRCCTRL) No action */
+#define   DMAC_CRCCTRL_CRCSRC_IO_Val      _U_(0x1)   /**< \brief (DMAC_CRCCTRL) I/O interface */
+#define DMAC_CRCCTRL_CRCSRC_NOACT   (DMAC_CRCCTRL_CRCSRC_NOACT_Val << DMAC_CRCCTRL_CRCSRC_Pos)
+#define DMAC_CRCCTRL_CRCSRC_IO      (DMAC_CRCCTRL_CRCSRC_IO_Val    << DMAC_CRCCTRL_CRCSRC_Pos)
+#define DMAC_CRCCTRL_MASK           _U_(0x3F0F)  /**< \brief (DMAC_CRCCTRL) MASK Register */
+
+/* -------- DMAC_CRCDATAIN : (DMAC Offset: 0x04) (R/W 32) CRC Data Input -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CRCDATAIN:32;     /*!< bit:  0..31  CRC Data Input                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_CRCDATAIN_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CRCDATAIN_OFFSET       0x04         /**< \brief (DMAC_CRCDATAIN offset) CRC Data Input */
+#define DMAC_CRCDATAIN_RESETVALUE   _U_(0x00000000) /**< \brief (DMAC_CRCDATAIN reset_value) CRC Data Input */
+
+#define DMAC_CRCDATAIN_CRCDATAIN_Pos 0            /**< \brief (DMAC_CRCDATAIN) CRC Data Input */
+#define DMAC_CRCDATAIN_CRCDATAIN_Msk (_U_(0xFFFFFFFF) << DMAC_CRCDATAIN_CRCDATAIN_Pos)
+#define DMAC_CRCDATAIN_CRCDATAIN(value) (DMAC_CRCDATAIN_CRCDATAIN_Msk & ((value) << DMAC_CRCDATAIN_CRCDATAIN_Pos))
+#define DMAC_CRCDATAIN_MASK         _U_(0xFFFFFFFF) /**< \brief (DMAC_CRCDATAIN) MASK Register */
+
+/* -------- DMAC_CRCCHKSUM : (DMAC Offset: 0x08) (R/W 32) CRC Checksum -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CRCCHKSUM:32;     /*!< bit:  0..31  CRC Checksum                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_CRCCHKSUM_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CRCCHKSUM_OFFSET       0x08         /**< \brief (DMAC_CRCCHKSUM offset) CRC Checksum */
+#define DMAC_CRCCHKSUM_RESETVALUE   _U_(0x00000000) /**< \brief (DMAC_CRCCHKSUM reset_value) CRC Checksum */
+
+#define DMAC_CRCCHKSUM_CRCCHKSUM_Pos 0            /**< \brief (DMAC_CRCCHKSUM) CRC Checksum */
+#define DMAC_CRCCHKSUM_CRCCHKSUM_Msk (_U_(0xFFFFFFFF) << DMAC_CRCCHKSUM_CRCCHKSUM_Pos)
+#define DMAC_CRCCHKSUM_CRCCHKSUM(value) (DMAC_CRCCHKSUM_CRCCHKSUM_Msk & ((value) << DMAC_CRCCHKSUM_CRCCHKSUM_Pos))
+#define DMAC_CRCCHKSUM_MASK         _U_(0xFFFFFFFF) /**< \brief (DMAC_CRCCHKSUM) MASK Register */
+
+/* -------- DMAC_CRCSTATUS : (DMAC Offset: 0x0C) (R/W  8) CRC Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CRCBUSY:1;        /*!< bit:      0  CRC Module Busy                    */
+    uint8_t  CRCZERO:1;        /*!< bit:      1  CRC Zero                           */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CRCSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CRCSTATUS_OFFSET       0x0C         /**< \brief (DMAC_CRCSTATUS offset) CRC Status */
+#define DMAC_CRCSTATUS_RESETVALUE   _U_(0x00)    /**< \brief (DMAC_CRCSTATUS reset_value) CRC Status */
+
+#define DMAC_CRCSTATUS_CRCBUSY_Pos  0            /**< \brief (DMAC_CRCSTATUS) CRC Module Busy */
+#define DMAC_CRCSTATUS_CRCBUSY      (_U_(0x1) << DMAC_CRCSTATUS_CRCBUSY_Pos)
+#define DMAC_CRCSTATUS_CRCZERO_Pos  1            /**< \brief (DMAC_CRCSTATUS) CRC Zero */
+#define DMAC_CRCSTATUS_CRCZERO      (_U_(0x1) << DMAC_CRCSTATUS_CRCZERO_Pos)
+#define DMAC_CRCSTATUS_MASK         _U_(0x03)    /**< \brief (DMAC_CRCSTATUS) MASK Register */
+
+/* -------- DMAC_DBGCTRL : (DMAC Offset: 0x0D) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Debug Run                          */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_DBGCTRL_OFFSET         0x0D         /**< \brief (DMAC_DBGCTRL offset) Debug Control */
+#define DMAC_DBGCTRL_RESETVALUE     _U_(0x00)    /**< \brief (DMAC_DBGCTRL reset_value) Debug Control */
+
+#define DMAC_DBGCTRL_DBGRUN_Pos     0            /**< \brief (DMAC_DBGCTRL) Debug Run */
+#define DMAC_DBGCTRL_DBGRUN         (_U_(0x1) << DMAC_DBGCTRL_DBGRUN_Pos)
+#define DMAC_DBGCTRL_MASK           _U_(0x01)    /**< \brief (DMAC_DBGCTRL) MASK Register */
+
+/* -------- DMAC_QOSCTRL : (DMAC Offset: 0x0E) (R/W  8) QOS Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  WRBQOS:2;         /*!< bit:  0.. 1  Write-Back Quality of Service      */
+    uint8_t  FQOS:2;           /*!< bit:  2.. 3  Fetch Quality of Service           */
+    uint8_t  DQOS:2;           /*!< bit:  4.. 5  Data Transfer Quality of Service   */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_QOSCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_QOSCTRL_OFFSET         0x0E         /**< \brief (DMAC_QOSCTRL offset) QOS Control */
+#define DMAC_QOSCTRL_RESETVALUE     _U_(0x2A)    /**< \brief (DMAC_QOSCTRL reset_value) QOS Control */
+
+#define DMAC_QOSCTRL_WRBQOS_Pos     0            /**< \brief (DMAC_QOSCTRL) Write-Back Quality of Service */
+#define DMAC_QOSCTRL_WRBQOS_Msk     (_U_(0x3) << DMAC_QOSCTRL_WRBQOS_Pos)
+#define DMAC_QOSCTRL_WRBQOS(value)  (DMAC_QOSCTRL_WRBQOS_Msk & ((value) << DMAC_QOSCTRL_WRBQOS_Pos))
+#define   DMAC_QOSCTRL_WRBQOS_DISABLE_Val _U_(0x0)   /**< \brief (DMAC_QOSCTRL) Background (no sensitive operation) */
+#define   DMAC_QOSCTRL_WRBQOS_LOW_Val     _U_(0x1)   /**< \brief (DMAC_QOSCTRL) Sensitive Bandwidth */
+#define   DMAC_QOSCTRL_WRBQOS_MEDIUM_Val  _U_(0x2)   /**< \brief (DMAC_QOSCTRL) Sensitive Latency */
+#define   DMAC_QOSCTRL_WRBQOS_HIGH_Val    _U_(0x3)   /**< \brief (DMAC_QOSCTRL) Critical Latency */
+#define DMAC_QOSCTRL_WRBQOS_DISABLE (DMAC_QOSCTRL_WRBQOS_DISABLE_Val << DMAC_QOSCTRL_WRBQOS_Pos)
+#define DMAC_QOSCTRL_WRBQOS_LOW     (DMAC_QOSCTRL_WRBQOS_LOW_Val   << DMAC_QOSCTRL_WRBQOS_Pos)
+#define DMAC_QOSCTRL_WRBQOS_MEDIUM  (DMAC_QOSCTRL_WRBQOS_MEDIUM_Val << DMAC_QOSCTRL_WRBQOS_Pos)
+#define DMAC_QOSCTRL_WRBQOS_HIGH    (DMAC_QOSCTRL_WRBQOS_HIGH_Val  << DMAC_QOSCTRL_WRBQOS_Pos)
+#define DMAC_QOSCTRL_FQOS_Pos       2            /**< \brief (DMAC_QOSCTRL) Fetch Quality of Service */
+#define DMAC_QOSCTRL_FQOS_Msk       (_U_(0x3) << DMAC_QOSCTRL_FQOS_Pos)
+#define DMAC_QOSCTRL_FQOS(value)    (DMAC_QOSCTRL_FQOS_Msk & ((value) << DMAC_QOSCTRL_FQOS_Pos))
+#define   DMAC_QOSCTRL_FQOS_DISABLE_Val   _U_(0x0)   /**< \brief (DMAC_QOSCTRL) Background (no sensitive operation) */
+#define   DMAC_QOSCTRL_FQOS_LOW_Val       _U_(0x1)   /**< \brief (DMAC_QOSCTRL) Sensitive Bandwidth */
+#define   DMAC_QOSCTRL_FQOS_MEDIUM_Val    _U_(0x2)   /**< \brief (DMAC_QOSCTRL) Sensitive Latency */
+#define   DMAC_QOSCTRL_FQOS_HIGH_Val      _U_(0x3)   /**< \brief (DMAC_QOSCTRL) Critical Latency */
+#define DMAC_QOSCTRL_FQOS_DISABLE   (DMAC_QOSCTRL_FQOS_DISABLE_Val << DMAC_QOSCTRL_FQOS_Pos)
+#define DMAC_QOSCTRL_FQOS_LOW       (DMAC_QOSCTRL_FQOS_LOW_Val     << DMAC_QOSCTRL_FQOS_Pos)
+#define DMAC_QOSCTRL_FQOS_MEDIUM    (DMAC_QOSCTRL_FQOS_MEDIUM_Val  << DMAC_QOSCTRL_FQOS_Pos)
+#define DMAC_QOSCTRL_FQOS_HIGH      (DMAC_QOSCTRL_FQOS_HIGH_Val    << DMAC_QOSCTRL_FQOS_Pos)
+#define DMAC_QOSCTRL_DQOS_Pos       4            /**< \brief (DMAC_QOSCTRL) Data Transfer Quality of Service */
+#define DMAC_QOSCTRL_DQOS_Msk       (_U_(0x3) << DMAC_QOSCTRL_DQOS_Pos)
+#define DMAC_QOSCTRL_DQOS(value)    (DMAC_QOSCTRL_DQOS_Msk & ((value) << DMAC_QOSCTRL_DQOS_Pos))
+#define   DMAC_QOSCTRL_DQOS_DISABLE_Val   _U_(0x0)   /**< \brief (DMAC_QOSCTRL) Background (no sensitive operation) */
+#define   DMAC_QOSCTRL_DQOS_LOW_Val       _U_(0x1)   /**< \brief (DMAC_QOSCTRL) Sensitive Bandwidth */
+#define   DMAC_QOSCTRL_DQOS_MEDIUM_Val    _U_(0x2)   /**< \brief (DMAC_QOSCTRL) Sensitive Latency */
+#define   DMAC_QOSCTRL_DQOS_HIGH_Val      _U_(0x3)   /**< \brief (DMAC_QOSCTRL) Critical Latency */
+#define DMAC_QOSCTRL_DQOS_DISABLE   (DMAC_QOSCTRL_DQOS_DISABLE_Val << DMAC_QOSCTRL_DQOS_Pos)
+#define DMAC_QOSCTRL_DQOS_LOW       (DMAC_QOSCTRL_DQOS_LOW_Val     << DMAC_QOSCTRL_DQOS_Pos)
+#define DMAC_QOSCTRL_DQOS_MEDIUM    (DMAC_QOSCTRL_DQOS_MEDIUM_Val  << DMAC_QOSCTRL_DQOS_Pos)
+#define DMAC_QOSCTRL_DQOS_HIGH      (DMAC_QOSCTRL_DQOS_HIGH_Val    << DMAC_QOSCTRL_DQOS_Pos)
+#define DMAC_QOSCTRL_MASK           _U_(0x3F)    /**< \brief (DMAC_QOSCTRL) MASK Register */
+
+/* -------- DMAC_SWTRIGCTRL : (DMAC Offset: 0x10) (R/W 32) Software Trigger Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWTRIG0:1;        /*!< bit:      0  Channel 0 Software Trigger         */
+    uint32_t SWTRIG1:1;        /*!< bit:      1  Channel 1 Software Trigger         */
+    uint32_t SWTRIG2:1;        /*!< bit:      2  Channel 2 Software Trigger         */
+    uint32_t SWTRIG3:1;        /*!< bit:      3  Channel 3 Software Trigger         */
+    uint32_t SWTRIG4:1;        /*!< bit:      4  Channel 4 Software Trigger         */
+    uint32_t SWTRIG5:1;        /*!< bit:      5  Channel 5 Software Trigger         */
+    uint32_t SWTRIG6:1;        /*!< bit:      6  Channel 6 Software Trigger         */
+    uint32_t SWTRIG7:1;        /*!< bit:      7  Channel 7 Software Trigger         */
+    uint32_t SWTRIG8:1;        /*!< bit:      8  Channel 8 Software Trigger         */
+    uint32_t SWTRIG9:1;        /*!< bit:      9  Channel 9 Software Trigger         */
+    uint32_t SWTRIG10:1;       /*!< bit:     10  Channel 10 Software Trigger        */
+    uint32_t SWTRIG11:1;       /*!< bit:     11  Channel 11 Software Trigger        */
+    uint32_t SWTRIG12:1;       /*!< bit:     12  Channel 12 Software Trigger        */
+    uint32_t SWTRIG13:1;       /*!< bit:     13  Channel 13 Software Trigger        */
+    uint32_t SWTRIG14:1;       /*!< bit:     14  Channel 14 Software Trigger        */
+    uint32_t SWTRIG15:1;       /*!< bit:     15  Channel 15 Software Trigger        */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t SWTRIG:16;        /*!< bit:  0..15  Channel x Software Trigger         */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_SWTRIGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_SWTRIGCTRL_OFFSET      0x10         /**< \brief (DMAC_SWTRIGCTRL offset) Software Trigger Control */
+#define DMAC_SWTRIGCTRL_RESETVALUE  _U_(0x00000000) /**< \brief (DMAC_SWTRIGCTRL reset_value) Software Trigger Control */
+
+#define DMAC_SWTRIGCTRL_SWTRIG0_Pos 0            /**< \brief (DMAC_SWTRIGCTRL) Channel 0 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG0     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG0_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG1_Pos 1            /**< \brief (DMAC_SWTRIGCTRL) Channel 1 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG1     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG1_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG2_Pos 2            /**< \brief (DMAC_SWTRIGCTRL) Channel 2 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG2     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG2_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG3_Pos 3            /**< \brief (DMAC_SWTRIGCTRL) Channel 3 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG3     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG3_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG4_Pos 4            /**< \brief (DMAC_SWTRIGCTRL) Channel 4 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG4     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG4_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG5_Pos 5            /**< \brief (DMAC_SWTRIGCTRL) Channel 5 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG5     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG5_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG6_Pos 6            /**< \brief (DMAC_SWTRIGCTRL) Channel 6 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG6     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG6_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG7_Pos 7            /**< \brief (DMAC_SWTRIGCTRL) Channel 7 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG7     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG7_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG8_Pos 8            /**< \brief (DMAC_SWTRIGCTRL) Channel 8 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG8     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG8_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG9_Pos 9            /**< \brief (DMAC_SWTRIGCTRL) Channel 9 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG9     (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG9_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG10_Pos 10           /**< \brief (DMAC_SWTRIGCTRL) Channel 10 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG10    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG10_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG11_Pos 11           /**< \brief (DMAC_SWTRIGCTRL) Channel 11 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG11    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG11_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG12_Pos 12           /**< \brief (DMAC_SWTRIGCTRL) Channel 12 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG12    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG12_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG13_Pos 13           /**< \brief (DMAC_SWTRIGCTRL) Channel 13 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG13    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG13_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG14_Pos 14           /**< \brief (DMAC_SWTRIGCTRL) Channel 14 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG14    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG14_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG15_Pos 15           /**< \brief (DMAC_SWTRIGCTRL) Channel 15 Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG15    (_U_(1) << DMAC_SWTRIGCTRL_SWTRIG15_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG_Pos  0            /**< \brief (DMAC_SWTRIGCTRL) Channel x Software Trigger */
+#define DMAC_SWTRIGCTRL_SWTRIG_Msk  (_U_(0xFFFF) << DMAC_SWTRIGCTRL_SWTRIG_Pos)
+#define DMAC_SWTRIGCTRL_SWTRIG(value) (DMAC_SWTRIGCTRL_SWTRIG_Msk & ((value) << DMAC_SWTRIGCTRL_SWTRIG_Pos))
+#define DMAC_SWTRIGCTRL_MASK        _U_(0x0000FFFF) /**< \brief (DMAC_SWTRIGCTRL) MASK Register */
+
+/* -------- DMAC_PRICTRL0 : (DMAC Offset: 0x14) (R/W 32) Priority Control 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t LVLPRI0:4;        /*!< bit:  0.. 3  Level 0 Channel Priority Number    */
+    uint32_t :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint32_t RRLVLEN0:1;       /*!< bit:      7  Level 0 Round-Robin Scheduling Enable */
+    uint32_t LVLPRI1:4;        /*!< bit:  8..11  Level 1 Channel Priority Number    */
+    uint32_t :3;               /*!< bit: 12..14  Reserved                           */
+    uint32_t RRLVLEN1:1;       /*!< bit:     15  Level 1 Round-Robin Scheduling Enable */
+    uint32_t LVLPRI2:4;        /*!< bit: 16..19  Level 2 Channel Priority Number    */
+    uint32_t :3;               /*!< bit: 20..22  Reserved                           */
+    uint32_t RRLVLEN2:1;       /*!< bit:     23  Level 2 Round-Robin Scheduling Enable */
+    uint32_t LVLPRI3:4;        /*!< bit: 24..27  Level 3 Channel Priority Number    */
+    uint32_t :3;               /*!< bit: 28..30  Reserved                           */
+    uint32_t RRLVLEN3:1;       /*!< bit:     31  Level 3 Round-Robin Scheduling Enable */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_PRICTRL0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_PRICTRL0_OFFSET        0x14         /**< \brief (DMAC_PRICTRL0 offset) Priority Control 0 */
+#define DMAC_PRICTRL0_RESETVALUE    _U_(0x00000000) /**< \brief (DMAC_PRICTRL0 reset_value) Priority Control 0 */
+
+#define DMAC_PRICTRL0_LVLPRI0_Pos   0            /**< \brief (DMAC_PRICTRL0) Level 0 Channel Priority Number */
+#define DMAC_PRICTRL0_LVLPRI0_Msk   (_U_(0xF) << DMAC_PRICTRL0_LVLPRI0_Pos)
+#define DMAC_PRICTRL0_LVLPRI0(value) (DMAC_PRICTRL0_LVLPRI0_Msk & ((value) << DMAC_PRICTRL0_LVLPRI0_Pos))
+#define DMAC_PRICTRL0_RRLVLEN0_Pos  7            /**< \brief (DMAC_PRICTRL0) Level 0 Round-Robin Scheduling Enable */
+#define DMAC_PRICTRL0_RRLVLEN0      (_U_(0x1) << DMAC_PRICTRL0_RRLVLEN0_Pos)
+#define DMAC_PRICTRL0_LVLPRI1_Pos   8            /**< \brief (DMAC_PRICTRL0) Level 1 Channel Priority Number */
+#define DMAC_PRICTRL0_LVLPRI1_Msk   (_U_(0xF) << DMAC_PRICTRL0_LVLPRI1_Pos)
+#define DMAC_PRICTRL0_LVLPRI1(value) (DMAC_PRICTRL0_LVLPRI1_Msk & ((value) << DMAC_PRICTRL0_LVLPRI1_Pos))
+#define DMAC_PRICTRL0_RRLVLEN1_Pos  15           /**< \brief (DMAC_PRICTRL0) Level 1 Round-Robin Scheduling Enable */
+#define DMAC_PRICTRL0_RRLVLEN1      (_U_(0x1) << DMAC_PRICTRL0_RRLVLEN1_Pos)
+#define DMAC_PRICTRL0_LVLPRI2_Pos   16           /**< \brief (DMAC_PRICTRL0) Level 2 Channel Priority Number */
+#define DMAC_PRICTRL0_LVLPRI2_Msk   (_U_(0xF) << DMAC_PRICTRL0_LVLPRI2_Pos)
+#define DMAC_PRICTRL0_LVLPRI2(value) (DMAC_PRICTRL0_LVLPRI2_Msk & ((value) << DMAC_PRICTRL0_LVLPRI2_Pos))
+#define DMAC_PRICTRL0_RRLVLEN2_Pos  23           /**< \brief (DMAC_PRICTRL0) Level 2 Round-Robin Scheduling Enable */
+#define DMAC_PRICTRL0_RRLVLEN2      (_U_(0x1) << DMAC_PRICTRL0_RRLVLEN2_Pos)
+#define DMAC_PRICTRL0_LVLPRI3_Pos   24           /**< \brief (DMAC_PRICTRL0) Level 3 Channel Priority Number */
+#define DMAC_PRICTRL0_LVLPRI3_Msk   (_U_(0xF) << DMAC_PRICTRL0_LVLPRI3_Pos)
+#define DMAC_PRICTRL0_LVLPRI3(value) (DMAC_PRICTRL0_LVLPRI3_Msk & ((value) << DMAC_PRICTRL0_LVLPRI3_Pos))
+#define DMAC_PRICTRL0_RRLVLEN3_Pos  31           /**< \brief (DMAC_PRICTRL0) Level 3 Round-Robin Scheduling Enable */
+#define DMAC_PRICTRL0_RRLVLEN3      (_U_(0x1) << DMAC_PRICTRL0_RRLVLEN3_Pos)
+#define DMAC_PRICTRL0_MASK          _U_(0x8F8F8F8F) /**< \brief (DMAC_PRICTRL0) MASK Register */
+
+/* -------- DMAC_INTPEND : (DMAC Offset: 0x20) (R/W 16) Interrupt Pending -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t ID:4;             /*!< bit:  0.. 3  Channel ID                         */
+    uint16_t :4;               /*!< bit:  4.. 7  Reserved                           */
+    uint16_t TERR:1;           /*!< bit:      8  Transfer Error                     */
+    uint16_t TCMPL:1;          /*!< bit:      9  Transfer Complete                  */
+    uint16_t SUSP:1;           /*!< bit:     10  Channel Suspend                    */
+    uint16_t :2;               /*!< bit: 11..12  Reserved                           */
+    uint16_t FERR:1;           /*!< bit:     13  Fetch Error                        */
+    uint16_t BUSY:1;           /*!< bit:     14  Busy                               */
+    uint16_t PEND:1;           /*!< bit:     15  Pending                            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} DMAC_INTPEND_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_INTPEND_OFFSET         0x20         /**< \brief (DMAC_INTPEND offset) Interrupt Pending */
+#define DMAC_INTPEND_RESETVALUE     _U_(0x0000)  /**< \brief (DMAC_INTPEND reset_value) Interrupt Pending */
+
+#define DMAC_INTPEND_ID_Pos         0            /**< \brief (DMAC_INTPEND) Channel ID */
+#define DMAC_INTPEND_ID_Msk         (_U_(0xF) << DMAC_INTPEND_ID_Pos)
+#define DMAC_INTPEND_ID(value)      (DMAC_INTPEND_ID_Msk & ((value) << DMAC_INTPEND_ID_Pos))
+#define DMAC_INTPEND_TERR_Pos       8            /**< \brief (DMAC_INTPEND) Transfer Error */
+#define DMAC_INTPEND_TERR           (_U_(0x1) << DMAC_INTPEND_TERR_Pos)
+#define DMAC_INTPEND_TCMPL_Pos      9            /**< \brief (DMAC_INTPEND) Transfer Complete */
+#define DMAC_INTPEND_TCMPL          (_U_(0x1) << DMAC_INTPEND_TCMPL_Pos)
+#define DMAC_INTPEND_SUSP_Pos       10           /**< \brief (DMAC_INTPEND) Channel Suspend */
+#define DMAC_INTPEND_SUSP           (_U_(0x1) << DMAC_INTPEND_SUSP_Pos)
+#define DMAC_INTPEND_FERR_Pos       13           /**< \brief (DMAC_INTPEND) Fetch Error */
+#define DMAC_INTPEND_FERR           (_U_(0x1) << DMAC_INTPEND_FERR_Pos)
+#define DMAC_INTPEND_BUSY_Pos       14           /**< \brief (DMAC_INTPEND) Busy */
+#define DMAC_INTPEND_BUSY           (_U_(0x1) << DMAC_INTPEND_BUSY_Pos)
+#define DMAC_INTPEND_PEND_Pos       15           /**< \brief (DMAC_INTPEND) Pending */
+#define DMAC_INTPEND_PEND           (_U_(0x1) << DMAC_INTPEND_PEND_Pos)
+#define DMAC_INTPEND_MASK           _U_(0xE70F)  /**< \brief (DMAC_INTPEND) MASK Register */
+
+/* -------- DMAC_INTSTATUS : (DMAC Offset: 0x24) (R/  32) Interrupt Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CHINT0:1;         /*!< bit:      0  Channel 0 Pending Interrupt        */
+    uint32_t CHINT1:1;         /*!< bit:      1  Channel 1 Pending Interrupt        */
+    uint32_t CHINT2:1;         /*!< bit:      2  Channel 2 Pending Interrupt        */
+    uint32_t CHINT3:1;         /*!< bit:      3  Channel 3 Pending Interrupt        */
+    uint32_t CHINT4:1;         /*!< bit:      4  Channel 4 Pending Interrupt        */
+    uint32_t CHINT5:1;         /*!< bit:      5  Channel 5 Pending Interrupt        */
+    uint32_t CHINT6:1;         /*!< bit:      6  Channel 6 Pending Interrupt        */
+    uint32_t CHINT7:1;         /*!< bit:      7  Channel 7 Pending Interrupt        */
+    uint32_t CHINT8:1;         /*!< bit:      8  Channel 8 Pending Interrupt        */
+    uint32_t CHINT9:1;         /*!< bit:      9  Channel 9 Pending Interrupt        */
+    uint32_t CHINT10:1;        /*!< bit:     10  Channel 10 Pending Interrupt       */
+    uint32_t CHINT11:1;        /*!< bit:     11  Channel 11 Pending Interrupt       */
+    uint32_t CHINT12:1;        /*!< bit:     12  Channel 12 Pending Interrupt       */
+    uint32_t CHINT13:1;        /*!< bit:     13  Channel 13 Pending Interrupt       */
+    uint32_t CHINT14:1;        /*!< bit:     14  Channel 14 Pending Interrupt       */
+    uint32_t CHINT15:1;        /*!< bit:     15  Channel 15 Pending Interrupt       */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t CHINT:16;         /*!< bit:  0..15  Channel x Pending Interrupt        */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_INTSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_INTSTATUS_OFFSET       0x24         /**< \brief (DMAC_INTSTATUS offset) Interrupt Status */
+#define DMAC_INTSTATUS_RESETVALUE   _U_(0x00000000) /**< \brief (DMAC_INTSTATUS reset_value) Interrupt Status */
+
+#define DMAC_INTSTATUS_CHINT0_Pos   0            /**< \brief (DMAC_INTSTATUS) Channel 0 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT0       (_U_(1) << DMAC_INTSTATUS_CHINT0_Pos)
+#define DMAC_INTSTATUS_CHINT1_Pos   1            /**< \brief (DMAC_INTSTATUS) Channel 1 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT1       (_U_(1) << DMAC_INTSTATUS_CHINT1_Pos)
+#define DMAC_INTSTATUS_CHINT2_Pos   2            /**< \brief (DMAC_INTSTATUS) Channel 2 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT2       (_U_(1) << DMAC_INTSTATUS_CHINT2_Pos)
+#define DMAC_INTSTATUS_CHINT3_Pos   3            /**< \brief (DMAC_INTSTATUS) Channel 3 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT3       (_U_(1) << DMAC_INTSTATUS_CHINT3_Pos)
+#define DMAC_INTSTATUS_CHINT4_Pos   4            /**< \brief (DMAC_INTSTATUS) Channel 4 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT4       (_U_(1) << DMAC_INTSTATUS_CHINT4_Pos)
+#define DMAC_INTSTATUS_CHINT5_Pos   5            /**< \brief (DMAC_INTSTATUS) Channel 5 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT5       (_U_(1) << DMAC_INTSTATUS_CHINT5_Pos)
+#define DMAC_INTSTATUS_CHINT6_Pos   6            /**< \brief (DMAC_INTSTATUS) Channel 6 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT6       (_U_(1) << DMAC_INTSTATUS_CHINT6_Pos)
+#define DMAC_INTSTATUS_CHINT7_Pos   7            /**< \brief (DMAC_INTSTATUS) Channel 7 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT7       (_U_(1) << DMAC_INTSTATUS_CHINT7_Pos)
+#define DMAC_INTSTATUS_CHINT8_Pos   8            /**< \brief (DMAC_INTSTATUS) Channel 8 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT8       (_U_(1) << DMAC_INTSTATUS_CHINT8_Pos)
+#define DMAC_INTSTATUS_CHINT9_Pos   9            /**< \brief (DMAC_INTSTATUS) Channel 9 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT9       (_U_(1) << DMAC_INTSTATUS_CHINT9_Pos)
+#define DMAC_INTSTATUS_CHINT10_Pos  10           /**< \brief (DMAC_INTSTATUS) Channel 10 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT10      (_U_(1) << DMAC_INTSTATUS_CHINT10_Pos)
+#define DMAC_INTSTATUS_CHINT11_Pos  11           /**< \brief (DMAC_INTSTATUS) Channel 11 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT11      (_U_(1) << DMAC_INTSTATUS_CHINT11_Pos)
+#define DMAC_INTSTATUS_CHINT12_Pos  12           /**< \brief (DMAC_INTSTATUS) Channel 12 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT12      (_U_(1) << DMAC_INTSTATUS_CHINT12_Pos)
+#define DMAC_INTSTATUS_CHINT13_Pos  13           /**< \brief (DMAC_INTSTATUS) Channel 13 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT13      (_U_(1) << DMAC_INTSTATUS_CHINT13_Pos)
+#define DMAC_INTSTATUS_CHINT14_Pos  14           /**< \brief (DMAC_INTSTATUS) Channel 14 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT14      (_U_(1) << DMAC_INTSTATUS_CHINT14_Pos)
+#define DMAC_INTSTATUS_CHINT15_Pos  15           /**< \brief (DMAC_INTSTATUS) Channel 15 Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT15      (_U_(1) << DMAC_INTSTATUS_CHINT15_Pos)
+#define DMAC_INTSTATUS_CHINT_Pos    0            /**< \brief (DMAC_INTSTATUS) Channel x Pending Interrupt */
+#define DMAC_INTSTATUS_CHINT_Msk    (_U_(0xFFFF) << DMAC_INTSTATUS_CHINT_Pos)
+#define DMAC_INTSTATUS_CHINT(value) (DMAC_INTSTATUS_CHINT_Msk & ((value) << DMAC_INTSTATUS_CHINT_Pos))
+#define DMAC_INTSTATUS_MASK         _U_(0x0000FFFF) /**< \brief (DMAC_INTSTATUS) MASK Register */
+
+/* -------- DMAC_BUSYCH : (DMAC Offset: 0x28) (R/  32) Busy Channels -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BUSYCH0:1;        /*!< bit:      0  Busy Channel 0                     */
+    uint32_t BUSYCH1:1;        /*!< bit:      1  Busy Channel 1                     */
+    uint32_t BUSYCH2:1;        /*!< bit:      2  Busy Channel 2                     */
+    uint32_t BUSYCH3:1;        /*!< bit:      3  Busy Channel 3                     */
+    uint32_t BUSYCH4:1;        /*!< bit:      4  Busy Channel 4                     */
+    uint32_t BUSYCH5:1;        /*!< bit:      5  Busy Channel 5                     */
+    uint32_t BUSYCH6:1;        /*!< bit:      6  Busy Channel 6                     */
+    uint32_t BUSYCH7:1;        /*!< bit:      7  Busy Channel 7                     */
+    uint32_t BUSYCH8:1;        /*!< bit:      8  Busy Channel 8                     */
+    uint32_t BUSYCH9:1;        /*!< bit:      9  Busy Channel 9                     */
+    uint32_t BUSYCH10:1;       /*!< bit:     10  Busy Channel 10                    */
+    uint32_t BUSYCH11:1;       /*!< bit:     11  Busy Channel 11                    */
+    uint32_t BUSYCH12:1;       /*!< bit:     12  Busy Channel 12                    */
+    uint32_t BUSYCH13:1;       /*!< bit:     13  Busy Channel 13                    */
+    uint32_t BUSYCH14:1;       /*!< bit:     14  Busy Channel 14                    */
+    uint32_t BUSYCH15:1;       /*!< bit:     15  Busy Channel 15                    */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t BUSYCH:16;        /*!< bit:  0..15  Busy Channel x                     */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_BUSYCH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_BUSYCH_OFFSET          0x28         /**< \brief (DMAC_BUSYCH offset) Busy Channels */
+#define DMAC_BUSYCH_RESETVALUE      _U_(0x00000000) /**< \brief (DMAC_BUSYCH reset_value) Busy Channels */
+
+#define DMAC_BUSYCH_BUSYCH0_Pos     0            /**< \brief (DMAC_BUSYCH) Busy Channel 0 */
+#define DMAC_BUSYCH_BUSYCH0         (_U_(1) << DMAC_BUSYCH_BUSYCH0_Pos)
+#define DMAC_BUSYCH_BUSYCH1_Pos     1            /**< \brief (DMAC_BUSYCH) Busy Channel 1 */
+#define DMAC_BUSYCH_BUSYCH1         (_U_(1) << DMAC_BUSYCH_BUSYCH1_Pos)
+#define DMAC_BUSYCH_BUSYCH2_Pos     2            /**< \brief (DMAC_BUSYCH) Busy Channel 2 */
+#define DMAC_BUSYCH_BUSYCH2         (_U_(1) << DMAC_BUSYCH_BUSYCH2_Pos)
+#define DMAC_BUSYCH_BUSYCH3_Pos     3            /**< \brief (DMAC_BUSYCH) Busy Channel 3 */
+#define DMAC_BUSYCH_BUSYCH3         (_U_(1) << DMAC_BUSYCH_BUSYCH3_Pos)
+#define DMAC_BUSYCH_BUSYCH4_Pos     4            /**< \brief (DMAC_BUSYCH) Busy Channel 4 */
+#define DMAC_BUSYCH_BUSYCH4         (_U_(1) << DMAC_BUSYCH_BUSYCH4_Pos)
+#define DMAC_BUSYCH_BUSYCH5_Pos     5            /**< \brief (DMAC_BUSYCH) Busy Channel 5 */
+#define DMAC_BUSYCH_BUSYCH5         (_U_(1) << DMAC_BUSYCH_BUSYCH5_Pos)
+#define DMAC_BUSYCH_BUSYCH6_Pos     6            /**< \brief (DMAC_BUSYCH) Busy Channel 6 */
+#define DMAC_BUSYCH_BUSYCH6         (_U_(1) << DMAC_BUSYCH_BUSYCH6_Pos)
+#define DMAC_BUSYCH_BUSYCH7_Pos     7            /**< \brief (DMAC_BUSYCH) Busy Channel 7 */
+#define DMAC_BUSYCH_BUSYCH7         (_U_(1) << DMAC_BUSYCH_BUSYCH7_Pos)
+#define DMAC_BUSYCH_BUSYCH8_Pos     8            /**< \brief (DMAC_BUSYCH) Busy Channel 8 */
+#define DMAC_BUSYCH_BUSYCH8         (_U_(1) << DMAC_BUSYCH_BUSYCH8_Pos)
+#define DMAC_BUSYCH_BUSYCH9_Pos     9            /**< \brief (DMAC_BUSYCH) Busy Channel 9 */
+#define DMAC_BUSYCH_BUSYCH9         (_U_(1) << DMAC_BUSYCH_BUSYCH9_Pos)
+#define DMAC_BUSYCH_BUSYCH10_Pos    10           /**< \brief (DMAC_BUSYCH) Busy Channel 10 */
+#define DMAC_BUSYCH_BUSYCH10        (_U_(1) << DMAC_BUSYCH_BUSYCH10_Pos)
+#define DMAC_BUSYCH_BUSYCH11_Pos    11           /**< \brief (DMAC_BUSYCH) Busy Channel 11 */
+#define DMAC_BUSYCH_BUSYCH11        (_U_(1) << DMAC_BUSYCH_BUSYCH11_Pos)
+#define DMAC_BUSYCH_BUSYCH12_Pos    12           /**< \brief (DMAC_BUSYCH) Busy Channel 12 */
+#define DMAC_BUSYCH_BUSYCH12        (_U_(1) << DMAC_BUSYCH_BUSYCH12_Pos)
+#define DMAC_BUSYCH_BUSYCH13_Pos    13           /**< \brief (DMAC_BUSYCH) Busy Channel 13 */
+#define DMAC_BUSYCH_BUSYCH13        (_U_(1) << DMAC_BUSYCH_BUSYCH13_Pos)
+#define DMAC_BUSYCH_BUSYCH14_Pos    14           /**< \brief (DMAC_BUSYCH) Busy Channel 14 */
+#define DMAC_BUSYCH_BUSYCH14        (_U_(1) << DMAC_BUSYCH_BUSYCH14_Pos)
+#define DMAC_BUSYCH_BUSYCH15_Pos    15           /**< \brief (DMAC_BUSYCH) Busy Channel 15 */
+#define DMAC_BUSYCH_BUSYCH15        (_U_(1) << DMAC_BUSYCH_BUSYCH15_Pos)
+#define DMAC_BUSYCH_BUSYCH_Pos      0            /**< \brief (DMAC_BUSYCH) Busy Channel x */
+#define DMAC_BUSYCH_BUSYCH_Msk      (_U_(0xFFFF) << DMAC_BUSYCH_BUSYCH_Pos)
+#define DMAC_BUSYCH_BUSYCH(value)   (DMAC_BUSYCH_BUSYCH_Msk & ((value) << DMAC_BUSYCH_BUSYCH_Pos))
+#define DMAC_BUSYCH_MASK            _U_(0x0000FFFF) /**< \brief (DMAC_BUSYCH) MASK Register */
+
+/* -------- DMAC_PENDCH : (DMAC Offset: 0x2C) (R/  32) Pending Channels -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PENDCH0:1;        /*!< bit:      0  Pending Channel 0                  */
+    uint32_t PENDCH1:1;        /*!< bit:      1  Pending Channel 1                  */
+    uint32_t PENDCH2:1;        /*!< bit:      2  Pending Channel 2                  */
+    uint32_t PENDCH3:1;        /*!< bit:      3  Pending Channel 3                  */
+    uint32_t PENDCH4:1;        /*!< bit:      4  Pending Channel 4                  */
+    uint32_t PENDCH5:1;        /*!< bit:      5  Pending Channel 5                  */
+    uint32_t PENDCH6:1;        /*!< bit:      6  Pending Channel 6                  */
+    uint32_t PENDCH7:1;        /*!< bit:      7  Pending Channel 7                  */
+    uint32_t PENDCH8:1;        /*!< bit:      8  Pending Channel 8                  */
+    uint32_t PENDCH9:1;        /*!< bit:      9  Pending Channel 9                  */
+    uint32_t PENDCH10:1;       /*!< bit:     10  Pending Channel 10                 */
+    uint32_t PENDCH11:1;       /*!< bit:     11  Pending Channel 11                 */
+    uint32_t PENDCH12:1;       /*!< bit:     12  Pending Channel 12                 */
+    uint32_t PENDCH13:1;       /*!< bit:     13  Pending Channel 13                 */
+    uint32_t PENDCH14:1;       /*!< bit:     14  Pending Channel 14                 */
+    uint32_t PENDCH15:1;       /*!< bit:     15  Pending Channel 15                 */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t PENDCH:16;        /*!< bit:  0..15  Pending Channel x                  */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_PENDCH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_PENDCH_OFFSET          0x2C         /**< \brief (DMAC_PENDCH offset) Pending Channels */
+#define DMAC_PENDCH_RESETVALUE      _U_(0x00000000) /**< \brief (DMAC_PENDCH reset_value) Pending Channels */
+
+#define DMAC_PENDCH_PENDCH0_Pos     0            /**< \brief (DMAC_PENDCH) Pending Channel 0 */
+#define DMAC_PENDCH_PENDCH0         (_U_(1) << DMAC_PENDCH_PENDCH0_Pos)
+#define DMAC_PENDCH_PENDCH1_Pos     1            /**< \brief (DMAC_PENDCH) Pending Channel 1 */
+#define DMAC_PENDCH_PENDCH1         (_U_(1) << DMAC_PENDCH_PENDCH1_Pos)
+#define DMAC_PENDCH_PENDCH2_Pos     2            /**< \brief (DMAC_PENDCH) Pending Channel 2 */
+#define DMAC_PENDCH_PENDCH2         (_U_(1) << DMAC_PENDCH_PENDCH2_Pos)
+#define DMAC_PENDCH_PENDCH3_Pos     3            /**< \brief (DMAC_PENDCH) Pending Channel 3 */
+#define DMAC_PENDCH_PENDCH3         (_U_(1) << DMAC_PENDCH_PENDCH3_Pos)
+#define DMAC_PENDCH_PENDCH4_Pos     4            /**< \brief (DMAC_PENDCH) Pending Channel 4 */
+#define DMAC_PENDCH_PENDCH4         (_U_(1) << DMAC_PENDCH_PENDCH4_Pos)
+#define DMAC_PENDCH_PENDCH5_Pos     5            /**< \brief (DMAC_PENDCH) Pending Channel 5 */
+#define DMAC_PENDCH_PENDCH5         (_U_(1) << DMAC_PENDCH_PENDCH5_Pos)
+#define DMAC_PENDCH_PENDCH6_Pos     6            /**< \brief (DMAC_PENDCH) Pending Channel 6 */
+#define DMAC_PENDCH_PENDCH6         (_U_(1) << DMAC_PENDCH_PENDCH6_Pos)
+#define DMAC_PENDCH_PENDCH7_Pos     7            /**< \brief (DMAC_PENDCH) Pending Channel 7 */
+#define DMAC_PENDCH_PENDCH7         (_U_(1) << DMAC_PENDCH_PENDCH7_Pos)
+#define DMAC_PENDCH_PENDCH8_Pos     8            /**< \brief (DMAC_PENDCH) Pending Channel 8 */
+#define DMAC_PENDCH_PENDCH8         (_U_(1) << DMAC_PENDCH_PENDCH8_Pos)
+#define DMAC_PENDCH_PENDCH9_Pos     9            /**< \brief (DMAC_PENDCH) Pending Channel 9 */
+#define DMAC_PENDCH_PENDCH9         (_U_(1) << DMAC_PENDCH_PENDCH9_Pos)
+#define DMAC_PENDCH_PENDCH10_Pos    10           /**< \brief (DMAC_PENDCH) Pending Channel 10 */
+#define DMAC_PENDCH_PENDCH10        (_U_(1) << DMAC_PENDCH_PENDCH10_Pos)
+#define DMAC_PENDCH_PENDCH11_Pos    11           /**< \brief (DMAC_PENDCH) Pending Channel 11 */
+#define DMAC_PENDCH_PENDCH11        (_U_(1) << DMAC_PENDCH_PENDCH11_Pos)
+#define DMAC_PENDCH_PENDCH12_Pos    12           /**< \brief (DMAC_PENDCH) Pending Channel 12 */
+#define DMAC_PENDCH_PENDCH12        (_U_(1) << DMAC_PENDCH_PENDCH12_Pos)
+#define DMAC_PENDCH_PENDCH13_Pos    13           /**< \brief (DMAC_PENDCH) Pending Channel 13 */
+#define DMAC_PENDCH_PENDCH13        (_U_(1) << DMAC_PENDCH_PENDCH13_Pos)
+#define DMAC_PENDCH_PENDCH14_Pos    14           /**< \brief (DMAC_PENDCH) Pending Channel 14 */
+#define DMAC_PENDCH_PENDCH14        (_U_(1) << DMAC_PENDCH_PENDCH14_Pos)
+#define DMAC_PENDCH_PENDCH15_Pos    15           /**< \brief (DMAC_PENDCH) Pending Channel 15 */
+#define DMAC_PENDCH_PENDCH15        (_U_(1) << DMAC_PENDCH_PENDCH15_Pos)
+#define DMAC_PENDCH_PENDCH_Pos      0            /**< \brief (DMAC_PENDCH) Pending Channel x */
+#define DMAC_PENDCH_PENDCH_Msk      (_U_(0xFFFF) << DMAC_PENDCH_PENDCH_Pos)
+#define DMAC_PENDCH_PENDCH(value)   (DMAC_PENDCH_PENDCH_Msk & ((value) << DMAC_PENDCH_PENDCH_Pos))
+#define DMAC_PENDCH_MASK            _U_(0x0000FFFF) /**< \brief (DMAC_PENDCH) MASK Register */
+
+/* -------- DMAC_ACTIVE : (DMAC Offset: 0x30) (R/  32) Active Channel and Levels -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t LVLEX0:1;         /*!< bit:      0  Level 0 Channel Trigger Request Executing */
+    uint32_t LVLEX1:1;         /*!< bit:      1  Level 1 Channel Trigger Request Executing */
+    uint32_t LVLEX2:1;         /*!< bit:      2  Level 2 Channel Trigger Request Executing */
+    uint32_t LVLEX3:1;         /*!< bit:      3  Level 3 Channel Trigger Request Executing */
+    uint32_t :4;               /*!< bit:  4.. 7  Reserved                           */
+    uint32_t ID:5;             /*!< bit:  8..12  Active Channel ID                  */
+    uint32_t :2;               /*!< bit: 13..14  Reserved                           */
+    uint32_t ABUSY:1;          /*!< bit:     15  Active Channel Busy                */
+    uint32_t BTCNT:16;         /*!< bit: 16..31  Active Channel Block Transfer Count */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t LVLEX:4;          /*!< bit:  0.. 3  Level x Channel Trigger Request Executing */
+    uint32_t :28;              /*!< bit:  4..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_ACTIVE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_ACTIVE_OFFSET          0x30         /**< \brief (DMAC_ACTIVE offset) Active Channel and Levels */
+#define DMAC_ACTIVE_RESETVALUE      _U_(0x00000000) /**< \brief (DMAC_ACTIVE reset_value) Active Channel and Levels */
+
+#define DMAC_ACTIVE_LVLEX0_Pos      0            /**< \brief (DMAC_ACTIVE) Level 0 Channel Trigger Request Executing */
+#define DMAC_ACTIVE_LVLEX0          (_U_(1) << DMAC_ACTIVE_LVLEX0_Pos)
+#define DMAC_ACTIVE_LVLEX1_Pos      1            /**< \brief (DMAC_ACTIVE) Level 1 Channel Trigger Request Executing */
+#define DMAC_ACTIVE_LVLEX1          (_U_(1) << DMAC_ACTIVE_LVLEX1_Pos)
+#define DMAC_ACTIVE_LVLEX2_Pos      2            /**< \brief (DMAC_ACTIVE) Level 2 Channel Trigger Request Executing */
+#define DMAC_ACTIVE_LVLEX2          (_U_(1) << DMAC_ACTIVE_LVLEX2_Pos)
+#define DMAC_ACTIVE_LVLEX3_Pos      3            /**< \brief (DMAC_ACTIVE) Level 3 Channel Trigger Request Executing */
+#define DMAC_ACTIVE_LVLEX3          (_U_(1) << DMAC_ACTIVE_LVLEX3_Pos)
+#define DMAC_ACTIVE_LVLEX_Pos       0            /**< \brief (DMAC_ACTIVE) Level x Channel Trigger Request Executing */
+#define DMAC_ACTIVE_LVLEX_Msk       (_U_(0xF) << DMAC_ACTIVE_LVLEX_Pos)
+#define DMAC_ACTIVE_LVLEX(value)    (DMAC_ACTIVE_LVLEX_Msk & ((value) << DMAC_ACTIVE_LVLEX_Pos))
+#define DMAC_ACTIVE_ID_Pos          8            /**< \brief (DMAC_ACTIVE) Active Channel ID */
+#define DMAC_ACTIVE_ID_Msk          (_U_(0x1F) << DMAC_ACTIVE_ID_Pos)
+#define DMAC_ACTIVE_ID(value)       (DMAC_ACTIVE_ID_Msk & ((value) << DMAC_ACTIVE_ID_Pos))
+#define DMAC_ACTIVE_ABUSY_Pos       15           /**< \brief (DMAC_ACTIVE) Active Channel Busy */
+#define DMAC_ACTIVE_ABUSY           (_U_(0x1) << DMAC_ACTIVE_ABUSY_Pos)
+#define DMAC_ACTIVE_BTCNT_Pos       16           /**< \brief (DMAC_ACTIVE) Active Channel Block Transfer Count */
+#define DMAC_ACTIVE_BTCNT_Msk       (_U_(0xFFFF) << DMAC_ACTIVE_BTCNT_Pos)
+#define DMAC_ACTIVE_BTCNT(value)    (DMAC_ACTIVE_BTCNT_Msk & ((value) << DMAC_ACTIVE_BTCNT_Pos))
+#define DMAC_ACTIVE_MASK            _U_(0xFFFF9F0F) /**< \brief (DMAC_ACTIVE) MASK Register */
+
+/* -------- DMAC_BASEADDR : (DMAC Offset: 0x34) (R/W 32) Descriptor Memory Section Base Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BASEADDR:32;      /*!< bit:  0..31  Descriptor Memory Base Address     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_BASEADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_BASEADDR_OFFSET        0x34         /**< \brief (DMAC_BASEADDR offset) Descriptor Memory Section Base Address */
+#define DMAC_BASEADDR_RESETVALUE    _U_(0x00000000) /**< \brief (DMAC_BASEADDR reset_value) Descriptor Memory Section Base Address */
+
+#define DMAC_BASEADDR_BASEADDR_Pos  0            /**< \brief (DMAC_BASEADDR) Descriptor Memory Base Address */
+#define DMAC_BASEADDR_BASEADDR_Msk  (_U_(0xFFFFFFFF) << DMAC_BASEADDR_BASEADDR_Pos)
+#define DMAC_BASEADDR_BASEADDR(value) (DMAC_BASEADDR_BASEADDR_Msk & ((value) << DMAC_BASEADDR_BASEADDR_Pos))
+#define DMAC_BASEADDR_MASK          _U_(0xFFFFFFFF) /**< \brief (DMAC_BASEADDR) MASK Register */
+
+/* -------- DMAC_WRBADDR : (DMAC Offset: 0x38) (R/W 32) Write-Back Memory Section Base Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t WRBADDR:32;       /*!< bit:  0..31  Write-Back Memory Base Address     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_WRBADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_WRBADDR_OFFSET         0x38         /**< \brief (DMAC_WRBADDR offset) Write-Back Memory Section Base Address */
+#define DMAC_WRBADDR_RESETVALUE     _U_(0x00000000) /**< \brief (DMAC_WRBADDR reset_value) Write-Back Memory Section Base Address */
+
+#define DMAC_WRBADDR_WRBADDR_Pos    0            /**< \brief (DMAC_WRBADDR) Write-Back Memory Base Address */
+#define DMAC_WRBADDR_WRBADDR_Msk    (_U_(0xFFFFFFFF) << DMAC_WRBADDR_WRBADDR_Pos)
+#define DMAC_WRBADDR_WRBADDR(value) (DMAC_WRBADDR_WRBADDR_Msk & ((value) << DMAC_WRBADDR_WRBADDR_Pos))
+#define DMAC_WRBADDR_MASK           _U_(0xFFFFFFFF) /**< \brief (DMAC_WRBADDR) MASK Register */
+
+/* -------- DMAC_CHID : (DMAC Offset: 0x3F) (R/W  8) Channel ID -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ID:4;             /*!< bit:  0.. 3  Channel ID                         */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHID_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHID_OFFSET            0x3F         /**< \brief (DMAC_CHID offset) Channel ID */
+#define DMAC_CHID_RESETVALUE        _U_(0x00)    /**< \brief (DMAC_CHID reset_value) Channel ID */
+
+#define DMAC_CHID_ID_Pos            0            /**< \brief (DMAC_CHID) Channel ID */
+#define DMAC_CHID_ID_Msk            (_U_(0xF) << DMAC_CHID_ID_Pos)
+#define DMAC_CHID_ID(value)         (DMAC_CHID_ID_Msk & ((value) << DMAC_CHID_ID_Pos))
+#define DMAC_CHID_MASK              _U_(0x0F)    /**< \brief (DMAC_CHID) MASK Register */
+
+/* -------- DMAC_CHCTRLA : (DMAC Offset: 0x40) (R/W  8) Channel Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Channel Software Reset             */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Channel Enable                     */
+    uint8_t  :4;               /*!< bit:  2.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Channel run in standby             */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHCTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHCTRLA_OFFSET         0x40         /**< \brief (DMAC_CHCTRLA offset) Channel Control A */
+#define DMAC_CHCTRLA_RESETVALUE     _U_(0x00)    /**< \brief (DMAC_CHCTRLA reset_value) Channel Control A */
+
+#define DMAC_CHCTRLA_SWRST_Pos      0            /**< \brief (DMAC_CHCTRLA) Channel Software Reset */
+#define DMAC_CHCTRLA_SWRST          (_U_(0x1) << DMAC_CHCTRLA_SWRST_Pos)
+#define DMAC_CHCTRLA_ENABLE_Pos     1            /**< \brief (DMAC_CHCTRLA) Channel Enable */
+#define DMAC_CHCTRLA_ENABLE         (_U_(0x1) << DMAC_CHCTRLA_ENABLE_Pos)
+#define DMAC_CHCTRLA_RUNSTDBY_Pos   6            /**< \brief (DMAC_CHCTRLA) Channel run in standby */
+#define DMAC_CHCTRLA_RUNSTDBY       (_U_(0x1) << DMAC_CHCTRLA_RUNSTDBY_Pos)
+#define DMAC_CHCTRLA_MASK           _U_(0x43)    /**< \brief (DMAC_CHCTRLA) MASK Register */
+
+/* -------- DMAC_CHCTRLB : (DMAC Offset: 0x44) (R/W 32) Channel Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EVACT:3;          /*!< bit:  0.. 2  Event Input Action                 */
+    uint32_t EVIE:1;           /*!< bit:      3  Channel Event Input Enable         */
+    uint32_t EVOE:1;           /*!< bit:      4  Channel Event Output Enable        */
+    uint32_t LVL:2;            /*!< bit:  5.. 6  Channel Arbitration Level          */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t TRIGSRC:6;        /*!< bit:  8..13  Trigger Source                     */
+    uint32_t :8;               /*!< bit: 14..21  Reserved                           */
+    uint32_t TRIGACT:2;        /*!< bit: 22..23  Trigger Action                     */
+    uint32_t CMD:2;            /*!< bit: 24..25  Software Command                   */
+    uint32_t :6;               /*!< bit: 26..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_CHCTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHCTRLB_OFFSET         0x44         /**< \brief (DMAC_CHCTRLB offset) Channel Control B */
+#define DMAC_CHCTRLB_RESETVALUE     _U_(0x00000000) /**< \brief (DMAC_CHCTRLB reset_value) Channel Control B */
+
+#define DMAC_CHCTRLB_EVACT_Pos      0            /**< \brief (DMAC_CHCTRLB) Event Input Action */
+#define DMAC_CHCTRLB_EVACT_Msk      (_U_(0x7) << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT(value)   (DMAC_CHCTRLB_EVACT_Msk & ((value) << DMAC_CHCTRLB_EVACT_Pos))
+#define   DMAC_CHCTRLB_EVACT_NOACT_Val    _U_(0x0)   /**< \brief (DMAC_CHCTRLB) No action */
+#define   DMAC_CHCTRLB_EVACT_TRIG_Val     _U_(0x1)   /**< \brief (DMAC_CHCTRLB) Transfer and periodic transfer trigger */
+#define   DMAC_CHCTRLB_EVACT_CTRIG_Val    _U_(0x2)   /**< \brief (DMAC_CHCTRLB) Conditional transfer trigger */
+#define   DMAC_CHCTRLB_EVACT_CBLOCK_Val   _U_(0x3)   /**< \brief (DMAC_CHCTRLB) Conditional block transfer */
+#define   DMAC_CHCTRLB_EVACT_SUSPEND_Val  _U_(0x4)   /**< \brief (DMAC_CHCTRLB) Channel suspend operation */
+#define   DMAC_CHCTRLB_EVACT_RESUME_Val   _U_(0x5)   /**< \brief (DMAC_CHCTRLB) Channel resume operation */
+#define   DMAC_CHCTRLB_EVACT_SSKIP_Val    _U_(0x6)   /**< \brief (DMAC_CHCTRLB) Skip next block suspend action */
+#define DMAC_CHCTRLB_EVACT_NOACT    (DMAC_CHCTRLB_EVACT_NOACT_Val  << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_TRIG     (DMAC_CHCTRLB_EVACT_TRIG_Val   << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_CTRIG    (DMAC_CHCTRLB_EVACT_CTRIG_Val  << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_CBLOCK   (DMAC_CHCTRLB_EVACT_CBLOCK_Val << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_SUSPEND  (DMAC_CHCTRLB_EVACT_SUSPEND_Val << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_RESUME   (DMAC_CHCTRLB_EVACT_RESUME_Val << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVACT_SSKIP    (DMAC_CHCTRLB_EVACT_SSKIP_Val  << DMAC_CHCTRLB_EVACT_Pos)
+#define DMAC_CHCTRLB_EVIE_Pos       3            /**< \brief (DMAC_CHCTRLB) Channel Event Input Enable */
+#define DMAC_CHCTRLB_EVIE           (_U_(0x1) << DMAC_CHCTRLB_EVIE_Pos)
+#define DMAC_CHCTRLB_EVOE_Pos       4            /**< \brief (DMAC_CHCTRLB) Channel Event Output Enable */
+#define DMAC_CHCTRLB_EVOE           (_U_(0x1) << DMAC_CHCTRLB_EVOE_Pos)
+#define DMAC_CHCTRLB_LVL_Pos        5            /**< \brief (DMAC_CHCTRLB) Channel Arbitration Level */
+#define DMAC_CHCTRLB_LVL_Msk        (_U_(0x3) << DMAC_CHCTRLB_LVL_Pos)
+#define DMAC_CHCTRLB_LVL(value)     (DMAC_CHCTRLB_LVL_Msk & ((value) << DMAC_CHCTRLB_LVL_Pos))
+#define DMAC_CHCTRLB_TRIGSRC_Pos    8            /**< \brief (DMAC_CHCTRLB) Trigger Source */
+#define DMAC_CHCTRLB_TRIGSRC_Msk    (_U_(0x3F) << DMAC_CHCTRLB_TRIGSRC_Pos)
+#define DMAC_CHCTRLB_TRIGSRC(value) (DMAC_CHCTRLB_TRIGSRC_Msk & ((value) << DMAC_CHCTRLB_TRIGSRC_Pos))
+#define   DMAC_CHCTRLB_TRIGSRC_DISABLE_Val _U_(0x0)   /**< \brief (DMAC_CHCTRLB) Only software/event triggers */
+#define DMAC_CHCTRLB_TRIGSRC_DISABLE (DMAC_CHCTRLB_TRIGSRC_DISABLE_Val << DMAC_CHCTRLB_TRIGSRC_Pos)
+#define DMAC_CHCTRLB_TRIGACT_Pos    22           /**< \brief (DMAC_CHCTRLB) Trigger Action */
+#define DMAC_CHCTRLB_TRIGACT_Msk    (_U_(0x3) << DMAC_CHCTRLB_TRIGACT_Pos)
+#define DMAC_CHCTRLB_TRIGACT(value) (DMAC_CHCTRLB_TRIGACT_Msk & ((value) << DMAC_CHCTRLB_TRIGACT_Pos))
+#define   DMAC_CHCTRLB_TRIGACT_BLOCK_Val  _U_(0x0)   /**< \brief (DMAC_CHCTRLB) One trigger required for each block transfer */
+#define   DMAC_CHCTRLB_TRIGACT_BEAT_Val   _U_(0x2)   /**< \brief (DMAC_CHCTRLB) One trigger required for each beat transfer */
+#define   DMAC_CHCTRLB_TRIGACT_TRANSACTION_Val _U_(0x3)   /**< \brief (DMAC_CHCTRLB) One trigger required for each transaction */
+#define DMAC_CHCTRLB_TRIGACT_BLOCK  (DMAC_CHCTRLB_TRIGACT_BLOCK_Val << DMAC_CHCTRLB_TRIGACT_Pos)
+#define DMAC_CHCTRLB_TRIGACT_BEAT   (DMAC_CHCTRLB_TRIGACT_BEAT_Val << DMAC_CHCTRLB_TRIGACT_Pos)
+#define DMAC_CHCTRLB_TRIGACT_TRANSACTION (DMAC_CHCTRLB_TRIGACT_TRANSACTION_Val << DMAC_CHCTRLB_TRIGACT_Pos)
+#define DMAC_CHCTRLB_CMD_Pos        24           /**< \brief (DMAC_CHCTRLB) Software Command */
+#define DMAC_CHCTRLB_CMD_Msk        (_U_(0x3) << DMAC_CHCTRLB_CMD_Pos)
+#define DMAC_CHCTRLB_CMD(value)     (DMAC_CHCTRLB_CMD_Msk & ((value) << DMAC_CHCTRLB_CMD_Pos))
+#define   DMAC_CHCTRLB_CMD_NOACT_Val      _U_(0x0)   /**< \brief (DMAC_CHCTRLB) No action */
+#define   DMAC_CHCTRLB_CMD_SUSPEND_Val    _U_(0x1)   /**< \brief (DMAC_CHCTRLB) Channel suspend operation */
+#define   DMAC_CHCTRLB_CMD_RESUME_Val     _U_(0x2)   /**< \brief (DMAC_CHCTRLB) Channel resume operation */
+#define DMAC_CHCTRLB_CMD_NOACT      (DMAC_CHCTRLB_CMD_NOACT_Val    << DMAC_CHCTRLB_CMD_Pos)
+#define DMAC_CHCTRLB_CMD_SUSPEND    (DMAC_CHCTRLB_CMD_SUSPEND_Val  << DMAC_CHCTRLB_CMD_Pos)
+#define DMAC_CHCTRLB_CMD_RESUME     (DMAC_CHCTRLB_CMD_RESUME_Val   << DMAC_CHCTRLB_CMD_Pos)
+#define DMAC_CHCTRLB_MASK           _U_(0x03C03F7F) /**< \brief (DMAC_CHCTRLB) MASK Register */
+
+/* -------- DMAC_CHINTENCLR : (DMAC Offset: 0x4C) (R/W  8) Channel Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  TERR:1;           /*!< bit:      0  Channel Transfer Error Interrupt Enable */
+    uint8_t  TCMPL:1;          /*!< bit:      1  Channel Transfer Complete Interrupt Enable */
+    uint8_t  SUSP:1;           /*!< bit:      2  Channel Suspend Interrupt Enable   */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHINTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHINTENCLR_OFFSET      0x4C         /**< \brief (DMAC_CHINTENCLR offset) Channel Interrupt Enable Clear */
+#define DMAC_CHINTENCLR_RESETVALUE  _U_(0x00)    /**< \brief (DMAC_CHINTENCLR reset_value) Channel Interrupt Enable Clear */
+
+#define DMAC_CHINTENCLR_TERR_Pos    0            /**< \brief (DMAC_CHINTENCLR) Channel Transfer Error Interrupt Enable */
+#define DMAC_CHINTENCLR_TERR        (_U_(0x1) << DMAC_CHINTENCLR_TERR_Pos)
+#define DMAC_CHINTENCLR_TCMPL_Pos   1            /**< \brief (DMAC_CHINTENCLR) Channel Transfer Complete Interrupt Enable */
+#define DMAC_CHINTENCLR_TCMPL       (_U_(0x1) << DMAC_CHINTENCLR_TCMPL_Pos)
+#define DMAC_CHINTENCLR_SUSP_Pos    2            /**< \brief (DMAC_CHINTENCLR) Channel Suspend Interrupt Enable */
+#define DMAC_CHINTENCLR_SUSP        (_U_(0x1) << DMAC_CHINTENCLR_SUSP_Pos)
+#define DMAC_CHINTENCLR_MASK        _U_(0x07)    /**< \brief (DMAC_CHINTENCLR) MASK Register */
+
+/* -------- DMAC_CHINTENSET : (DMAC Offset: 0x4D) (R/W  8) Channel Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  TERR:1;           /*!< bit:      0  Channel Transfer Error Interrupt Enable */
+    uint8_t  TCMPL:1;          /*!< bit:      1  Channel Transfer Complete Interrupt Enable */
+    uint8_t  SUSP:1;           /*!< bit:      2  Channel Suspend Interrupt Enable   */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHINTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHINTENSET_OFFSET      0x4D         /**< \brief (DMAC_CHINTENSET offset) Channel Interrupt Enable Set */
+#define DMAC_CHINTENSET_RESETVALUE  _U_(0x00)    /**< \brief (DMAC_CHINTENSET reset_value) Channel Interrupt Enable Set */
+
+#define DMAC_CHINTENSET_TERR_Pos    0            /**< \brief (DMAC_CHINTENSET) Channel Transfer Error Interrupt Enable */
+#define DMAC_CHINTENSET_TERR        (_U_(0x1) << DMAC_CHINTENSET_TERR_Pos)
+#define DMAC_CHINTENSET_TCMPL_Pos   1            /**< \brief (DMAC_CHINTENSET) Channel Transfer Complete Interrupt Enable */
+#define DMAC_CHINTENSET_TCMPL       (_U_(0x1) << DMAC_CHINTENSET_TCMPL_Pos)
+#define DMAC_CHINTENSET_SUSP_Pos    2            /**< \brief (DMAC_CHINTENSET) Channel Suspend Interrupt Enable */
+#define DMAC_CHINTENSET_SUSP        (_U_(0x1) << DMAC_CHINTENSET_SUSP_Pos)
+#define DMAC_CHINTENSET_MASK        _U_(0x07)    /**< \brief (DMAC_CHINTENSET) MASK Register */
+
+/* -------- DMAC_CHINTFLAG : (DMAC Offset: 0x4E) (R/W  8) Channel Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  TERR:1;           /*!< bit:      0  Channel Transfer Error             */
+    __I uint8_t  TCMPL:1;          /*!< bit:      1  Channel Transfer Complete          */
+    __I uint8_t  SUSP:1;           /*!< bit:      2  Channel Suspend                    */
+    __I uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHINTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHINTFLAG_OFFSET       0x4E         /**< \brief (DMAC_CHINTFLAG offset) Channel Interrupt Flag Status and Clear */
+#define DMAC_CHINTFLAG_RESETVALUE   _U_(0x00)    /**< \brief (DMAC_CHINTFLAG reset_value) Channel Interrupt Flag Status and Clear */
+
+#define DMAC_CHINTFLAG_TERR_Pos     0            /**< \brief (DMAC_CHINTFLAG) Channel Transfer Error */
+#define DMAC_CHINTFLAG_TERR         (_U_(0x1) << DMAC_CHINTFLAG_TERR_Pos)
+#define DMAC_CHINTFLAG_TCMPL_Pos    1            /**< \brief (DMAC_CHINTFLAG) Channel Transfer Complete */
+#define DMAC_CHINTFLAG_TCMPL        (_U_(0x1) << DMAC_CHINTFLAG_TCMPL_Pos)
+#define DMAC_CHINTFLAG_SUSP_Pos     2            /**< \brief (DMAC_CHINTFLAG) Channel Suspend */
+#define DMAC_CHINTFLAG_SUSP         (_U_(0x1) << DMAC_CHINTFLAG_SUSP_Pos)
+#define DMAC_CHINTFLAG_MASK         _U_(0x07)    /**< \brief (DMAC_CHINTFLAG) MASK Register */
+
+/* -------- DMAC_CHSTATUS : (DMAC Offset: 0x4F) (R/   8) Channel Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PEND:1;           /*!< bit:      0  Channel Pending                    */
+    uint8_t  BUSY:1;           /*!< bit:      1  Channel Busy                       */
+    uint8_t  FERR:1;           /*!< bit:      2  Channel Fetch Error                */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DMAC_CHSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_CHSTATUS_OFFSET        0x4F         /**< \brief (DMAC_CHSTATUS offset) Channel Status */
+#define DMAC_CHSTATUS_RESETVALUE    _U_(0x00)    /**< \brief (DMAC_CHSTATUS reset_value) Channel Status */
+
+#define DMAC_CHSTATUS_PEND_Pos      0            /**< \brief (DMAC_CHSTATUS) Channel Pending */
+#define DMAC_CHSTATUS_PEND          (_U_(0x1) << DMAC_CHSTATUS_PEND_Pos)
+#define DMAC_CHSTATUS_BUSY_Pos      1            /**< \brief (DMAC_CHSTATUS) Channel Busy */
+#define DMAC_CHSTATUS_BUSY          (_U_(0x1) << DMAC_CHSTATUS_BUSY_Pos)
+#define DMAC_CHSTATUS_FERR_Pos      2            /**< \brief (DMAC_CHSTATUS) Channel Fetch Error */
+#define DMAC_CHSTATUS_FERR          (_U_(0x1) << DMAC_CHSTATUS_FERR_Pos)
+#define DMAC_CHSTATUS_MASK          _U_(0x07)    /**< \brief (DMAC_CHSTATUS) MASK Register */
+
+/* -------- DMAC_BTCTRL : (DMAC Offset: 0x00) (R/W 16) Block Transfer Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t VALID:1;          /*!< bit:      0  Descriptor Valid                   */
+    uint16_t EVOSEL:2;         /*!< bit:  1.. 2  Event Output Selection             */
+    uint16_t BLOCKACT:2;       /*!< bit:  3.. 4  Block Action                       */
+    uint16_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint16_t BEATSIZE:2;       /*!< bit:  8.. 9  Beat Size                          */
+    uint16_t SRCINC:1;         /*!< bit:     10  Source Address Increment Enable    */
+    uint16_t DSTINC:1;         /*!< bit:     11  Destination Address Increment Enable */
+    uint16_t STEPSEL:1;        /*!< bit:     12  Step Selection                     */
+    uint16_t STEPSIZE:3;       /*!< bit: 13..15  Address Increment Step Size        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} DMAC_BTCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_BTCTRL_OFFSET          0x00         /**< \brief (DMAC_BTCTRL offset) Block Transfer Control */
+#define DMAC_BTCTRL_RESETVALUE      _U_(0x0000)  /**< \brief (DMAC_BTCTRL reset_value) Block Transfer Control */
+
+#define DMAC_BTCTRL_VALID_Pos       0            /**< \brief (DMAC_BTCTRL) Descriptor Valid */
+#define DMAC_BTCTRL_VALID           (_U_(0x1) << DMAC_BTCTRL_VALID_Pos)
+#define DMAC_BTCTRL_EVOSEL_Pos      1            /**< \brief (DMAC_BTCTRL) Event Output Selection */
+#define DMAC_BTCTRL_EVOSEL_Msk      (_U_(0x3) << DMAC_BTCTRL_EVOSEL_Pos)
+#define DMAC_BTCTRL_EVOSEL(value)   (DMAC_BTCTRL_EVOSEL_Msk & ((value) << DMAC_BTCTRL_EVOSEL_Pos))
+#define   DMAC_BTCTRL_EVOSEL_DISABLE_Val  _U_(0x0)   /**< \brief (DMAC_BTCTRL) Event generation disabled */
+#define   DMAC_BTCTRL_EVOSEL_BLOCK_Val    _U_(0x1)   /**< \brief (DMAC_BTCTRL) Event strobe when block transfer complete */
+#define   DMAC_BTCTRL_EVOSEL_BEAT_Val     _U_(0x3)   /**< \brief (DMAC_BTCTRL) Event strobe when beat transfer complete */
+#define DMAC_BTCTRL_EVOSEL_DISABLE  (DMAC_BTCTRL_EVOSEL_DISABLE_Val << DMAC_BTCTRL_EVOSEL_Pos)
+#define DMAC_BTCTRL_EVOSEL_BLOCK    (DMAC_BTCTRL_EVOSEL_BLOCK_Val  << DMAC_BTCTRL_EVOSEL_Pos)
+#define DMAC_BTCTRL_EVOSEL_BEAT     (DMAC_BTCTRL_EVOSEL_BEAT_Val   << DMAC_BTCTRL_EVOSEL_Pos)
+#define DMAC_BTCTRL_BLOCKACT_Pos    3            /**< \brief (DMAC_BTCTRL) Block Action */
+#define DMAC_BTCTRL_BLOCKACT_Msk    (_U_(0x3) << DMAC_BTCTRL_BLOCKACT_Pos)
+#define DMAC_BTCTRL_BLOCKACT(value) (DMAC_BTCTRL_BLOCKACT_Msk & ((value) << DMAC_BTCTRL_BLOCKACT_Pos))
+#define   DMAC_BTCTRL_BLOCKACT_NOACT_Val  _U_(0x0)   /**< \brief (DMAC_BTCTRL) Channel will be disabled if it is the last block transfer in the transaction */
+#define   DMAC_BTCTRL_BLOCKACT_INT_Val    _U_(0x1)   /**< \brief (DMAC_BTCTRL) Channel will be disabled if it is the last block transfer in the transaction and block interrupt */
+#define   DMAC_BTCTRL_BLOCKACT_SUSPEND_Val _U_(0x2)   /**< \brief (DMAC_BTCTRL) Channel suspend operation is completed */
+#define   DMAC_BTCTRL_BLOCKACT_BOTH_Val   _U_(0x3)   /**< \brief (DMAC_BTCTRL) Both channel suspend operation and block interrupt */
+#define DMAC_BTCTRL_BLOCKACT_NOACT  (DMAC_BTCTRL_BLOCKACT_NOACT_Val << DMAC_BTCTRL_BLOCKACT_Pos)
+#define DMAC_BTCTRL_BLOCKACT_INT    (DMAC_BTCTRL_BLOCKACT_INT_Val  << DMAC_BTCTRL_BLOCKACT_Pos)
+#define DMAC_BTCTRL_BLOCKACT_SUSPEND (DMAC_BTCTRL_BLOCKACT_SUSPEND_Val << DMAC_BTCTRL_BLOCKACT_Pos)
+#define DMAC_BTCTRL_BLOCKACT_BOTH   (DMAC_BTCTRL_BLOCKACT_BOTH_Val << DMAC_BTCTRL_BLOCKACT_Pos)
+#define DMAC_BTCTRL_BEATSIZE_Pos    8            /**< \brief (DMAC_BTCTRL) Beat Size */
+#define DMAC_BTCTRL_BEATSIZE_Msk    (_U_(0x3) << DMAC_BTCTRL_BEATSIZE_Pos)
+#define DMAC_BTCTRL_BEATSIZE(value) (DMAC_BTCTRL_BEATSIZE_Msk & ((value) << DMAC_BTCTRL_BEATSIZE_Pos))
+#define   DMAC_BTCTRL_BEATSIZE_BYTE_Val   _U_(0x0)   /**< \brief (DMAC_BTCTRL) 8-bit bus transfer */
+#define   DMAC_BTCTRL_BEATSIZE_HWORD_Val  _U_(0x1)   /**< \brief (DMAC_BTCTRL) 16-bit bus transfer */
+#define   DMAC_BTCTRL_BEATSIZE_WORD_Val   _U_(0x2)   /**< \brief (DMAC_BTCTRL) 32-bit bus transfer */
+#define DMAC_BTCTRL_BEATSIZE_BYTE   (DMAC_BTCTRL_BEATSIZE_BYTE_Val << DMAC_BTCTRL_BEATSIZE_Pos)
+#define DMAC_BTCTRL_BEATSIZE_HWORD  (DMAC_BTCTRL_BEATSIZE_HWORD_Val << DMAC_BTCTRL_BEATSIZE_Pos)
+#define DMAC_BTCTRL_BEATSIZE_WORD   (DMAC_BTCTRL_BEATSIZE_WORD_Val << DMAC_BTCTRL_BEATSIZE_Pos)
+#define DMAC_BTCTRL_SRCINC_Pos      10           /**< \brief (DMAC_BTCTRL) Source Address Increment Enable */
+#define DMAC_BTCTRL_SRCINC          (_U_(0x1) << DMAC_BTCTRL_SRCINC_Pos)
+#define DMAC_BTCTRL_DSTINC_Pos      11           /**< \brief (DMAC_BTCTRL) Destination Address Increment Enable */
+#define DMAC_BTCTRL_DSTINC          (_U_(0x1) << DMAC_BTCTRL_DSTINC_Pos)
+#define DMAC_BTCTRL_STEPSEL_Pos     12           /**< \brief (DMAC_BTCTRL) Step Selection */
+#define DMAC_BTCTRL_STEPSEL         (_U_(0x1) << DMAC_BTCTRL_STEPSEL_Pos)
+#define   DMAC_BTCTRL_STEPSEL_DST_Val     _U_(0x0)   /**< \brief (DMAC_BTCTRL) Step size settings apply to the destination address */
+#define   DMAC_BTCTRL_STEPSEL_SRC_Val     _U_(0x1)   /**< \brief (DMAC_BTCTRL) Step size settings apply to the source address */
+#define DMAC_BTCTRL_STEPSEL_DST     (DMAC_BTCTRL_STEPSEL_DST_Val   << DMAC_BTCTRL_STEPSEL_Pos)
+#define DMAC_BTCTRL_STEPSEL_SRC     (DMAC_BTCTRL_STEPSEL_SRC_Val   << DMAC_BTCTRL_STEPSEL_Pos)
+#define DMAC_BTCTRL_STEPSIZE_Pos    13           /**< \brief (DMAC_BTCTRL) Address Increment Step Size */
+#define DMAC_BTCTRL_STEPSIZE_Msk    (_U_(0x7) << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE(value) (DMAC_BTCTRL_STEPSIZE_Msk & ((value) << DMAC_BTCTRL_STEPSIZE_Pos))
+#define   DMAC_BTCTRL_STEPSIZE_X1_Val     _U_(0x0)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 1 */
+#define   DMAC_BTCTRL_STEPSIZE_X2_Val     _U_(0x1)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 2 */
+#define   DMAC_BTCTRL_STEPSIZE_X4_Val     _U_(0x2)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 4 */
+#define   DMAC_BTCTRL_STEPSIZE_X8_Val     _U_(0x3)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 8 */
+#define   DMAC_BTCTRL_STEPSIZE_X16_Val    _U_(0x4)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 16 */
+#define   DMAC_BTCTRL_STEPSIZE_X32_Val    _U_(0x5)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 32 */
+#define   DMAC_BTCTRL_STEPSIZE_X64_Val    _U_(0x6)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 64 */
+#define   DMAC_BTCTRL_STEPSIZE_X128_Val   _U_(0x7)   /**< \brief (DMAC_BTCTRL) Next ADDR = ADDR + (1<<BEATSIZE) * 128 */
+#define DMAC_BTCTRL_STEPSIZE_X1     (DMAC_BTCTRL_STEPSIZE_X1_Val   << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X2     (DMAC_BTCTRL_STEPSIZE_X2_Val   << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X4     (DMAC_BTCTRL_STEPSIZE_X4_Val   << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X8     (DMAC_BTCTRL_STEPSIZE_X8_Val   << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X16    (DMAC_BTCTRL_STEPSIZE_X16_Val  << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X32    (DMAC_BTCTRL_STEPSIZE_X32_Val  << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X64    (DMAC_BTCTRL_STEPSIZE_X64_Val  << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_STEPSIZE_X128   (DMAC_BTCTRL_STEPSIZE_X128_Val << DMAC_BTCTRL_STEPSIZE_Pos)
+#define DMAC_BTCTRL_MASK            _U_(0xFF1F)  /**< \brief (DMAC_BTCTRL) MASK Register */
+
+/* -------- DMAC_BTCNT : (DMAC Offset: 0x02) (R/W 16) Block Transfer Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BTCNT:16;         /*!< bit:  0..15  Block Transfer Count               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} DMAC_BTCNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_BTCNT_OFFSET           0x02         /**< \brief (DMAC_BTCNT offset) Block Transfer Count */
+
+#define DMAC_BTCNT_BTCNT_Pos        0            /**< \brief (DMAC_BTCNT) Block Transfer Count */
+#define DMAC_BTCNT_BTCNT_Msk        (_U_(0xFFFF) << DMAC_BTCNT_BTCNT_Pos)
+#define DMAC_BTCNT_BTCNT(value)     (DMAC_BTCNT_BTCNT_Msk & ((value) << DMAC_BTCNT_BTCNT_Pos))
+#define DMAC_BTCNT_MASK             _U_(0xFFFF)  /**< \brief (DMAC_BTCNT) MASK Register */
+
+/* -------- DMAC_SRCADDR : (DMAC Offset: 0x04) (R/W 32) Block Transfer Source Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SRCADDR:32;       /*!< bit:  0..31  Transfer Source Address            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_SRCADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_SRCADDR_OFFSET         0x04         /**< \brief (DMAC_SRCADDR offset) Block Transfer Source Address */
+
+#define DMAC_SRCADDR_SRCADDR_Pos    0            /**< \brief (DMAC_SRCADDR) Transfer Source Address */
+#define DMAC_SRCADDR_SRCADDR_Msk    (_U_(0xFFFFFFFF) << DMAC_SRCADDR_SRCADDR_Pos)
+#define DMAC_SRCADDR_SRCADDR(value) (DMAC_SRCADDR_SRCADDR_Msk & ((value) << DMAC_SRCADDR_SRCADDR_Pos))
+#define DMAC_SRCADDR_MASK           _U_(0xFFFFFFFF) /**< \brief (DMAC_SRCADDR) MASK Register */
+
+/* -------- DMAC_DSTADDR : (DMAC Offset: 0x08) (R/W 32) Block Transfer Destination Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DSTADDR:32;       /*!< bit:  0..31  Transfer Destination Address       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_DSTADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_DSTADDR_OFFSET         0x08         /**< \brief (DMAC_DSTADDR offset) Block Transfer Destination Address */
+
+#define DMAC_DSTADDR_DSTADDR_Pos    0            /**< \brief (DMAC_DSTADDR) Transfer Destination Address */
+#define DMAC_DSTADDR_DSTADDR_Msk    (_U_(0xFFFFFFFF) << DMAC_DSTADDR_DSTADDR_Pos)
+#define DMAC_DSTADDR_DSTADDR(value) (DMAC_DSTADDR_DSTADDR_Msk & ((value) << DMAC_DSTADDR_DSTADDR_Pos))
+#define DMAC_DSTADDR_MASK           _U_(0xFFFFFFFF) /**< \brief (DMAC_DSTADDR) MASK Register */
+
+/* -------- DMAC_DESCADDR : (DMAC Offset: 0x0C) (R/W 32) Next Descriptor Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DESCADDR:32;      /*!< bit:  0..31  Next Descriptor Address            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DMAC_DESCADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DMAC_DESCADDR_OFFSET        0x0C         /**< \brief (DMAC_DESCADDR offset) Next Descriptor Address */
+
+#define DMAC_DESCADDR_DESCADDR_Pos  0            /**< \brief (DMAC_DESCADDR) Next Descriptor Address */
+#define DMAC_DESCADDR_DESCADDR_Msk  (_U_(0xFFFFFFFF) << DMAC_DESCADDR_DESCADDR_Pos)
+#define DMAC_DESCADDR_DESCADDR(value) (DMAC_DESCADDR_DESCADDR_Msk & ((value) << DMAC_DESCADDR_DESCADDR_Pos))
+#define DMAC_DESCADDR_MASK          _U_(0xFFFFFFFF) /**< \brief (DMAC_DESCADDR) MASK Register */
+
+/** \brief DMAC APB hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO DMAC_CTRL_Type            CTRL;        /**< \brief Offset: 0x00 (R/W 16) Control */
+  __IO DMAC_CRCCTRL_Type         CRCCTRL;     /**< \brief Offset: 0x02 (R/W 16) CRC Control */
+  __IO DMAC_CRCDATAIN_Type       CRCDATAIN;   /**< \brief Offset: 0x04 (R/W 32) CRC Data Input */
+  __IO DMAC_CRCCHKSUM_Type       CRCCHKSUM;   /**< \brief Offset: 0x08 (R/W 32) CRC Checksum */
+  __IO DMAC_CRCSTATUS_Type       CRCSTATUS;   /**< \brief Offset: 0x0C (R/W  8) CRC Status */
+  __IO DMAC_DBGCTRL_Type         DBGCTRL;     /**< \brief Offset: 0x0D (R/W  8) Debug Control */
+  __IO DMAC_QOSCTRL_Type         QOSCTRL;     /**< \brief Offset: 0x0E (R/W  8) QOS Control */
+       RoReg8                    Reserved1[0x1];
+  __IO DMAC_SWTRIGCTRL_Type      SWTRIGCTRL;  /**< \brief Offset: 0x10 (R/W 32) Software Trigger Control */
+  __IO DMAC_PRICTRL0_Type        PRICTRL0;    /**< \brief Offset: 0x14 (R/W 32) Priority Control 0 */
+       RoReg8                    Reserved2[0x8];
+  __IO DMAC_INTPEND_Type         INTPEND;     /**< \brief Offset: 0x20 (R/W 16) Interrupt Pending */
+       RoReg8                    Reserved3[0x2];
+  __I  DMAC_INTSTATUS_Type       INTSTATUS;   /**< \brief Offset: 0x24 (R/  32) Interrupt Status */
+  __I  DMAC_BUSYCH_Type          BUSYCH;      /**< \brief Offset: 0x28 (R/  32) Busy Channels */
+  __I  DMAC_PENDCH_Type          PENDCH;      /**< \brief Offset: 0x2C (R/  32) Pending Channels */
+  __I  DMAC_ACTIVE_Type          ACTIVE;      /**< \brief Offset: 0x30 (R/  32) Active Channel and Levels */
+  __IO DMAC_BASEADDR_Type        BASEADDR;    /**< \brief Offset: 0x34 (R/W 32) Descriptor Memory Section Base Address */
+  __IO DMAC_WRBADDR_Type         WRBADDR;     /**< \brief Offset: 0x38 (R/W 32) Write-Back Memory Section Base Address */
+       RoReg8                    Reserved4[0x3];
+  __IO DMAC_CHID_Type            CHID;        /**< \brief Offset: 0x3F (R/W  8) Channel ID */
+  __IO DMAC_CHCTRLA_Type         CHCTRLA;     /**< \brief Offset: 0x40 (R/W  8) Channel Control A */
+       RoReg8                    Reserved5[0x3];
+  __IO DMAC_CHCTRLB_Type         CHCTRLB;     /**< \brief Offset: 0x44 (R/W 32) Channel Control B */
+       RoReg8                    Reserved6[0x4];
+  __IO DMAC_CHINTENCLR_Type      CHINTENCLR;  /**< \brief Offset: 0x4C (R/W  8) Channel Interrupt Enable Clear */
+  __IO DMAC_CHINTENSET_Type      CHINTENSET;  /**< \brief Offset: 0x4D (R/W  8) Channel Interrupt Enable Set */
+  __IO DMAC_CHINTFLAG_Type       CHINTFLAG;   /**< \brief Offset: 0x4E (R/W  8) Channel Interrupt Flag Status and Clear */
+  __I  DMAC_CHSTATUS_Type        CHSTATUS;    /**< \brief Offset: 0x4F (R/   8) Channel Status */
+} Dmac;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief DMAC Descriptor SRAM registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO DMAC_BTCTRL_Type          BTCTRL;      /**< \brief Offset: 0x00 (R/W 16) Block Transfer Control */
+  __IO DMAC_BTCNT_Type           BTCNT;       /**< \brief Offset: 0x02 (R/W 16) Block Transfer Count */
+  __IO DMAC_SRCADDR_Type         SRCADDR;     /**< \brief Offset: 0x04 (R/W 32) Block Transfer Source Address */
+  __IO DMAC_DSTADDR_Type         DSTADDR;     /**< \brief Offset: 0x08 (R/W 32) Block Transfer Destination Address */
+  __IO DMAC_DESCADDR_Type        DESCADDR;    /**< \brief Offset: 0x0C (R/W 32) Next Descriptor Address */
+} DmacDescriptor
+#ifdef __GNUC__
+  __attribute__ ((aligned (8)))
+#endif
+;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SECTION_DMAC_DESCRIPTOR
+
+/*@}*/
+
+#endif /* _SAML22_DMAC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/dsu.h b/watch-library/hardware/include/component/dsu.h
new file mode 100644
index 00000000..e4b1b75e
--- /dev/null
+++ b/watch-library/hardware/include/component/dsu.h
@@ -0,0 +1,629 @@
+/**
+ * \file
+ *
+ * \brief Component description for DSU
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_DSU_COMPONENT_
+#define _SAML22_DSU_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR DSU */
+/* ========================================================================== */
+/** \addtogroup SAML22_DSU Device Service Unit */
+/*@{*/
+
+#define DSU_U2209
+#define REV_DSU                     0x250
+
+/* -------- DSU_CTRL : (DSU Offset: 0x0000) ( /W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  :1;               /*!< bit:      1  Reserved                           */
+    uint8_t  CRC:1;            /*!< bit:      2  32-bit Cyclic Redundancy Code      */
+    uint8_t  MBIST:1;          /*!< bit:      3  Memory built-in self-test          */
+    uint8_t  CE:1;             /*!< bit:      4  Chip-Erase                         */
+    uint8_t  :1;               /*!< bit:      5  Reserved                           */
+    uint8_t  ARR:1;            /*!< bit:      6  Auxiliary Row Read                 */
+    uint8_t  SMSA:1;           /*!< bit:      7  Start Memory Stream Access         */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DSU_CTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_CTRL_OFFSET             0x0000       /**< \brief (DSU_CTRL offset) Control */
+#define DSU_CTRL_RESETVALUE         _U_(0x00)    /**< \brief (DSU_CTRL reset_value) Control */
+
+#define DSU_CTRL_SWRST_Pos          0            /**< \brief (DSU_CTRL) Software Reset */
+#define DSU_CTRL_SWRST              (_U_(0x1) << DSU_CTRL_SWRST_Pos)
+#define DSU_CTRL_CRC_Pos            2            /**< \brief (DSU_CTRL) 32-bit Cyclic Redundancy Code */
+#define DSU_CTRL_CRC                (_U_(0x1) << DSU_CTRL_CRC_Pos)
+#define DSU_CTRL_MBIST_Pos          3            /**< \brief (DSU_CTRL) Memory built-in self-test */
+#define DSU_CTRL_MBIST              (_U_(0x1) << DSU_CTRL_MBIST_Pos)
+#define DSU_CTRL_CE_Pos             4            /**< \brief (DSU_CTRL) Chip-Erase */
+#define DSU_CTRL_CE                 (_U_(0x1) << DSU_CTRL_CE_Pos)
+#define DSU_CTRL_ARR_Pos            6            /**< \brief (DSU_CTRL) Auxiliary Row Read */
+#define DSU_CTRL_ARR                (_U_(0x1) << DSU_CTRL_ARR_Pos)
+#define DSU_CTRL_SMSA_Pos           7            /**< \brief (DSU_CTRL) Start Memory Stream Access */
+#define DSU_CTRL_SMSA               (_U_(0x1) << DSU_CTRL_SMSA_Pos)
+#define DSU_CTRL_MASK               _U_(0xDD)    /**< \brief (DSU_CTRL) MASK Register */
+
+/* -------- DSU_STATUSA : (DSU Offset: 0x0001) (R/W  8) Status A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DONE:1;           /*!< bit:      0  Done                               */
+    uint8_t  CRSTEXT:1;        /*!< bit:      1  CPU Reset Phase Extension          */
+    uint8_t  BERR:1;           /*!< bit:      2  Bus Error                          */
+    uint8_t  FAIL:1;           /*!< bit:      3  Failure                            */
+    uint8_t  PERR:1;           /*!< bit:      4  Protection Error                   */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DSU_STATUSA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_STATUSA_OFFSET          0x0001       /**< \brief (DSU_STATUSA offset) Status A */
+#define DSU_STATUSA_RESETVALUE      _U_(0x00)    /**< \brief (DSU_STATUSA reset_value) Status A */
+
+#define DSU_STATUSA_DONE_Pos        0            /**< \brief (DSU_STATUSA) Done */
+#define DSU_STATUSA_DONE            (_U_(0x1) << DSU_STATUSA_DONE_Pos)
+#define DSU_STATUSA_CRSTEXT_Pos     1            /**< \brief (DSU_STATUSA) CPU Reset Phase Extension */
+#define DSU_STATUSA_CRSTEXT         (_U_(0x1) << DSU_STATUSA_CRSTEXT_Pos)
+#define DSU_STATUSA_BERR_Pos        2            /**< \brief (DSU_STATUSA) Bus Error */
+#define DSU_STATUSA_BERR            (_U_(0x1) << DSU_STATUSA_BERR_Pos)
+#define DSU_STATUSA_FAIL_Pos        3            /**< \brief (DSU_STATUSA) Failure */
+#define DSU_STATUSA_FAIL            (_U_(0x1) << DSU_STATUSA_FAIL_Pos)
+#define DSU_STATUSA_PERR_Pos        4            /**< \brief (DSU_STATUSA) Protection Error */
+#define DSU_STATUSA_PERR            (_U_(0x1) << DSU_STATUSA_PERR_Pos)
+#define DSU_STATUSA_MASK            _U_(0x1F)    /**< \brief (DSU_STATUSA) MASK Register */
+
+/* -------- DSU_STATUSB : (DSU Offset: 0x0002) (R/   8) Status B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PROT:1;           /*!< bit:      0  Protected                          */
+    uint8_t  DBGPRES:1;        /*!< bit:      1  Debugger Present                   */
+    uint8_t  DCCD0:1;          /*!< bit:      2  Debug Communication Channel 0 Dirty */
+    uint8_t  DCCD1:1;          /*!< bit:      3  Debug Communication Channel 1 Dirty */
+    uint8_t  HPE:1;            /*!< bit:      4  Hot-Plugging Enable                */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint8_t  DCCD:2;           /*!< bit:  2.. 3  Debug Communication Channel x Dirty */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} DSU_STATUSB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_STATUSB_OFFSET          0x0002       /**< \brief (DSU_STATUSB offset) Status B */
+#define DSU_STATUSB_RESETVALUE      _U_(0x00)    /**< \brief (DSU_STATUSB reset_value) Status B */
+
+#define DSU_STATUSB_PROT_Pos        0            /**< \brief (DSU_STATUSB) Protected */
+#define DSU_STATUSB_PROT            (_U_(0x1) << DSU_STATUSB_PROT_Pos)
+#define DSU_STATUSB_DBGPRES_Pos     1            /**< \brief (DSU_STATUSB) Debugger Present */
+#define DSU_STATUSB_DBGPRES         (_U_(0x1) << DSU_STATUSB_DBGPRES_Pos)
+#define DSU_STATUSB_DCCD0_Pos       2            /**< \brief (DSU_STATUSB) Debug Communication Channel 0 Dirty */
+#define DSU_STATUSB_DCCD0           (_U_(1) << DSU_STATUSB_DCCD0_Pos)
+#define DSU_STATUSB_DCCD1_Pos       3            /**< \brief (DSU_STATUSB) Debug Communication Channel 1 Dirty */
+#define DSU_STATUSB_DCCD1           (_U_(1) << DSU_STATUSB_DCCD1_Pos)
+#define DSU_STATUSB_DCCD_Pos        2            /**< \brief (DSU_STATUSB) Debug Communication Channel x Dirty */
+#define DSU_STATUSB_DCCD_Msk        (_U_(0x3) << DSU_STATUSB_DCCD_Pos)
+#define DSU_STATUSB_DCCD(value)     (DSU_STATUSB_DCCD_Msk & ((value) << DSU_STATUSB_DCCD_Pos))
+#define DSU_STATUSB_HPE_Pos         4            /**< \brief (DSU_STATUSB) Hot-Plugging Enable */
+#define DSU_STATUSB_HPE             (_U_(0x1) << DSU_STATUSB_HPE_Pos)
+#define DSU_STATUSB_MASK            _U_(0x1F)    /**< \brief (DSU_STATUSB) MASK Register */
+
+/* -------- DSU_ADDR : (DSU Offset: 0x0004) (R/W 32) Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t AMOD:2;           /*!< bit:  0.. 1  Access Mode                        */
+    uint32_t ADDR:30;          /*!< bit:  2..31  Address                            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_ADDR_OFFSET             0x0004       /**< \brief (DSU_ADDR offset) Address */
+#define DSU_ADDR_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_ADDR reset_value) Address */
+
+#define DSU_ADDR_AMOD_Pos           0            /**< \brief (DSU_ADDR) Access Mode */
+#define DSU_ADDR_AMOD_Msk           (_U_(0x3) << DSU_ADDR_AMOD_Pos)
+#define DSU_ADDR_AMOD(value)        (DSU_ADDR_AMOD_Msk & ((value) << DSU_ADDR_AMOD_Pos))
+#define DSU_ADDR_ADDR_Pos           2            /**< \brief (DSU_ADDR) Address */
+#define DSU_ADDR_ADDR_Msk           (_U_(0x3FFFFFFF) << DSU_ADDR_ADDR_Pos)
+#define DSU_ADDR_ADDR(value)        (DSU_ADDR_ADDR_Msk & ((value) << DSU_ADDR_ADDR_Pos))
+#define DSU_ADDR_MASK               _U_(0xFFFFFFFF) /**< \brief (DSU_ADDR) MASK Register */
+
+/* -------- DSU_LENGTH : (DSU Offset: 0x0008) (R/W 32) Length -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint32_t LENGTH:30;        /*!< bit:  2..31  Length                             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_LENGTH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_LENGTH_OFFSET           0x0008       /**< \brief (DSU_LENGTH offset) Length */
+#define DSU_LENGTH_RESETVALUE       _U_(0x00000000) /**< \brief (DSU_LENGTH reset_value) Length */
+
+#define DSU_LENGTH_LENGTH_Pos       2            /**< \brief (DSU_LENGTH) Length */
+#define DSU_LENGTH_LENGTH_Msk       (_U_(0x3FFFFFFF) << DSU_LENGTH_LENGTH_Pos)
+#define DSU_LENGTH_LENGTH(value)    (DSU_LENGTH_LENGTH_Msk & ((value) << DSU_LENGTH_LENGTH_Pos))
+#define DSU_LENGTH_MASK             _U_(0xFFFFFFFC) /**< \brief (DSU_LENGTH) MASK Register */
+
+/* -------- DSU_DATA : (DSU Offset: 0x000C) (R/W 32) Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DATA:32;          /*!< bit:  0..31  Data                               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_DATA_OFFSET             0x000C       /**< \brief (DSU_DATA offset) Data */
+#define DSU_DATA_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_DATA reset_value) Data */
+
+#define DSU_DATA_DATA_Pos           0            /**< \brief (DSU_DATA) Data */
+#define DSU_DATA_DATA_Msk           (_U_(0xFFFFFFFF) << DSU_DATA_DATA_Pos)
+#define DSU_DATA_DATA(value)        (DSU_DATA_DATA_Msk & ((value) << DSU_DATA_DATA_Pos))
+#define DSU_DATA_MASK               _U_(0xFFFFFFFF) /**< \brief (DSU_DATA) MASK Register */
+
+/* -------- DSU_DCC : (DSU Offset: 0x0010) (R/W 32) Debug Communication Channel n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DATA:32;          /*!< bit:  0..31  Data                               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_DCC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_DCC_OFFSET              0x0010       /**< \brief (DSU_DCC offset) Debug Communication Channel n */
+#define DSU_DCC_RESETVALUE          _U_(0x00000000) /**< \brief (DSU_DCC reset_value) Debug Communication Channel n */
+
+#define DSU_DCC_DATA_Pos            0            /**< \brief (DSU_DCC) Data */
+#define DSU_DCC_DATA_Msk            (_U_(0xFFFFFFFF) << DSU_DCC_DATA_Pos)
+#define DSU_DCC_DATA(value)         (DSU_DCC_DATA_Msk & ((value) << DSU_DCC_DATA_Pos))
+#define DSU_DCC_MASK                _U_(0xFFFFFFFF) /**< \brief (DSU_DCC) MASK Register */
+
+/* -------- DSU_DID : (DSU Offset: 0x0018) (R/  32) Device Identification -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DEVSEL:8;         /*!< bit:  0.. 7  Device Select                      */
+    uint32_t REVISION:4;       /*!< bit:  8..11  Revision Number                    */
+    uint32_t DIE:4;            /*!< bit: 12..15  Die Number                         */
+    uint32_t SERIES:6;         /*!< bit: 16..21  Series                             */
+    uint32_t :1;               /*!< bit:     22  Reserved                           */
+    uint32_t FAMILY:5;         /*!< bit: 23..27  Family                             */
+    uint32_t PROCESSOR:4;      /*!< bit: 28..31  Processor                          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_DID_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_DID_OFFSET              0x0018       /**< \brief (DSU_DID offset) Device Identification */
+
+#define DSU_DID_DEVSEL_Pos          0            /**< \brief (DSU_DID) Device Select */
+#define DSU_DID_DEVSEL_Msk          (_U_(0xFF) << DSU_DID_DEVSEL_Pos)
+#define DSU_DID_DEVSEL(value)       (DSU_DID_DEVSEL_Msk & ((value) << DSU_DID_DEVSEL_Pos))
+#define DSU_DID_REVISION_Pos        8            /**< \brief (DSU_DID) Revision Number */
+#define DSU_DID_REVISION_Msk        (_U_(0xF) << DSU_DID_REVISION_Pos)
+#define DSU_DID_REVISION(value)     (DSU_DID_REVISION_Msk & ((value) << DSU_DID_REVISION_Pos))
+#define DSU_DID_DIE_Pos             12           /**< \brief (DSU_DID) Die Number */
+#define DSU_DID_DIE_Msk             (_U_(0xF) << DSU_DID_DIE_Pos)
+#define DSU_DID_DIE(value)          (DSU_DID_DIE_Msk & ((value) << DSU_DID_DIE_Pos))
+#define DSU_DID_SERIES_Pos          16           /**< \brief (DSU_DID) Series */
+#define DSU_DID_SERIES_Msk          (_U_(0x3F) << DSU_DID_SERIES_Pos)
+#define DSU_DID_SERIES(value)       (DSU_DID_SERIES_Msk & ((value) << DSU_DID_SERIES_Pos))
+#define   DSU_DID_SERIES_0_Val            _U_(0x0)   /**< \brief (DSU_DID) Cortex-M0+ processor, basic feature set */
+#define   DSU_DID_SERIES_1_Val            _U_(0x1)   /**< \brief (DSU_DID) Cortex-M0+ processor, USB */
+#define DSU_DID_SERIES_0            (DSU_DID_SERIES_0_Val          << DSU_DID_SERIES_Pos)
+#define DSU_DID_SERIES_1            (DSU_DID_SERIES_1_Val          << DSU_DID_SERIES_Pos)
+#define DSU_DID_FAMILY_Pos          23           /**< \brief (DSU_DID) Family */
+#define DSU_DID_FAMILY_Msk          (_U_(0x1F) << DSU_DID_FAMILY_Pos)
+#define DSU_DID_FAMILY(value)       (DSU_DID_FAMILY_Msk & ((value) << DSU_DID_FAMILY_Pos))
+#define   DSU_DID_FAMILY_0_Val            _U_(0x0)   /**< \brief (DSU_DID) General purpose microcontroller */
+#define   DSU_DID_FAMILY_1_Val            _U_(0x1)   /**< \brief (DSU_DID) PicoPower */
+#define DSU_DID_FAMILY_0            (DSU_DID_FAMILY_0_Val          << DSU_DID_FAMILY_Pos)
+#define DSU_DID_FAMILY_1            (DSU_DID_FAMILY_1_Val          << DSU_DID_FAMILY_Pos)
+#define DSU_DID_PROCESSOR_Pos       28           /**< \brief (DSU_DID) Processor */
+#define DSU_DID_PROCESSOR_Msk       (_U_(0xF) << DSU_DID_PROCESSOR_Pos)
+#define DSU_DID_PROCESSOR(value)    (DSU_DID_PROCESSOR_Msk & ((value) << DSU_DID_PROCESSOR_Pos))
+#define   DSU_DID_PROCESSOR_0_Val         _U_(0x0)   /**< \brief (DSU_DID) Cortex-M0 */
+#define   DSU_DID_PROCESSOR_1_Val         _U_(0x1)   /**< \brief (DSU_DID) Cortex-M0+ */
+#define   DSU_DID_PROCESSOR_2_Val         _U_(0x2)   /**< \brief (DSU_DID) Cortex-M3 */
+#define   DSU_DID_PROCESSOR_3_Val         _U_(0x3)   /**< \brief (DSU_DID) Cortex-M4 */
+#define DSU_DID_PROCESSOR_0         (DSU_DID_PROCESSOR_0_Val       << DSU_DID_PROCESSOR_Pos)
+#define DSU_DID_PROCESSOR_1         (DSU_DID_PROCESSOR_1_Val       << DSU_DID_PROCESSOR_Pos)
+#define DSU_DID_PROCESSOR_2         (DSU_DID_PROCESSOR_2_Val       << DSU_DID_PROCESSOR_Pos)
+#define DSU_DID_PROCESSOR_3         (DSU_DID_PROCESSOR_3_Val       << DSU_DID_PROCESSOR_Pos)
+#define DSU_DID_MASK                _U_(0xFFBFFFFF) /**< \brief (DSU_DID) MASK Register */
+
+/* -------- DSU_DCFG : (DSU Offset: 0x00F0) (R/W 32) Device Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DCFG:32;          /*!< bit:  0..31  Device Configuration               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_DCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_DCFG_OFFSET             0x00F0       /**< \brief (DSU_DCFG offset) Device Configuration */
+#define DSU_DCFG_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_DCFG reset_value) Device Configuration */
+
+#define DSU_DCFG_DCFG_Pos           0            /**< \brief (DSU_DCFG) Device Configuration */
+#define DSU_DCFG_DCFG_Msk           (_U_(0xFFFFFFFF) << DSU_DCFG_DCFG_Pos)
+#define DSU_DCFG_DCFG(value)        (DSU_DCFG_DCFG_Msk & ((value) << DSU_DCFG_DCFG_Pos))
+#define DSU_DCFG_MASK               _U_(0xFFFFFFFF) /**< \brief (DSU_DCFG) MASK Register */
+
+/* -------- DSU_ENTRY0 : (DSU Offset: 0x1000) (R/  32) CoreSight ROM Table Entry 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EPRES:1;          /*!< bit:      0  Entry Present                      */
+    uint32_t FMT:1;            /*!< bit:      1  Format                             */
+    uint32_t :10;              /*!< bit:  2..11  Reserved                           */
+    uint32_t ADDOFF:20;        /*!< bit: 12..31  Address Offset                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_ENTRY0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_ENTRY0_OFFSET           0x1000       /**< \brief (DSU_ENTRY0 offset) CoreSight ROM Table Entry 0 */
+#define DSU_ENTRY0_RESETVALUE       _U_(0x9F0FC002) /**< \brief (DSU_ENTRY0 reset_value) CoreSight ROM Table Entry 0 */
+
+#define DSU_ENTRY0_EPRES_Pos        0            /**< \brief (DSU_ENTRY0) Entry Present */
+#define DSU_ENTRY0_EPRES            (_U_(0x1) << DSU_ENTRY0_EPRES_Pos)
+#define DSU_ENTRY0_FMT_Pos          1            /**< \brief (DSU_ENTRY0) Format */
+#define DSU_ENTRY0_FMT              (_U_(0x1) << DSU_ENTRY0_FMT_Pos)
+#define DSU_ENTRY0_ADDOFF_Pos       12           /**< \brief (DSU_ENTRY0) Address Offset */
+#define DSU_ENTRY0_ADDOFF_Msk       (_U_(0xFFFFF) << DSU_ENTRY0_ADDOFF_Pos)
+#define DSU_ENTRY0_ADDOFF(value)    (DSU_ENTRY0_ADDOFF_Msk & ((value) << DSU_ENTRY0_ADDOFF_Pos))
+#define DSU_ENTRY0_MASK             _U_(0xFFFFF003) /**< \brief (DSU_ENTRY0) MASK Register */
+
+/* -------- DSU_ENTRY1 : (DSU Offset: 0x1004) (R/  32) CoreSight ROM Table Entry 1 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_ENTRY1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_ENTRY1_OFFSET           0x1004       /**< \brief (DSU_ENTRY1 offset) CoreSight ROM Table Entry 1 */
+#define DSU_ENTRY1_RESETVALUE       _U_(0x00007002) /**< \brief (DSU_ENTRY1 reset_value) CoreSight ROM Table Entry 1 */
+#define DSU_ENTRY1_MASK             _U_(0xFFFFFFFF) /**< \brief (DSU_ENTRY1) MASK Register */
+
+/* -------- DSU_END : (DSU Offset: 0x1008) (R/  32) CoreSight ROM Table End -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t END:32;           /*!< bit:  0..31  End Marker                         */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_END_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_END_OFFSET              0x1008       /**< \brief (DSU_END offset) CoreSight ROM Table End */
+#define DSU_END_RESETVALUE          _U_(0x00000000) /**< \brief (DSU_END reset_value) CoreSight ROM Table End */
+
+#define DSU_END_END_Pos             0            /**< \brief (DSU_END) End Marker */
+#define DSU_END_END_Msk             (_U_(0xFFFFFFFF) << DSU_END_END_Pos)
+#define DSU_END_END(value)          (DSU_END_END_Msk & ((value) << DSU_END_END_Pos))
+#define DSU_END_MASK                _U_(0xFFFFFFFF) /**< \brief (DSU_END) MASK Register */
+
+/* -------- DSU_MEMTYPE : (DSU Offset: 0x1FCC) (R/  32) CoreSight ROM Table Memory Type -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SMEMP:1;          /*!< bit:      0  System Memory Present              */
+    uint32_t :31;              /*!< bit:  1..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_MEMTYPE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_MEMTYPE_OFFSET          0x1FCC       /**< \brief (DSU_MEMTYPE offset) CoreSight ROM Table Memory Type */
+#define DSU_MEMTYPE_RESETVALUE      _U_(0x00000000) /**< \brief (DSU_MEMTYPE reset_value) CoreSight ROM Table Memory Type */
+
+#define DSU_MEMTYPE_SMEMP_Pos       0            /**< \brief (DSU_MEMTYPE) System Memory Present */
+#define DSU_MEMTYPE_SMEMP           (_U_(0x1) << DSU_MEMTYPE_SMEMP_Pos)
+#define DSU_MEMTYPE_MASK            _U_(0x00000001) /**< \brief (DSU_MEMTYPE) MASK Register */
+
+/* -------- DSU_PID4 : (DSU Offset: 0x1FD0) (R/  32) Peripheral Identification 4 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t JEPCC:4;          /*!< bit:  0.. 3  JEP-106 Continuation Code          */
+    uint32_t FKBC:4;           /*!< bit:  4.. 7  4KB count                          */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID4_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID4_OFFSET             0x1FD0       /**< \brief (DSU_PID4 offset) Peripheral Identification 4 */
+#define DSU_PID4_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_PID4 reset_value) Peripheral Identification 4 */
+
+#define DSU_PID4_JEPCC_Pos          0            /**< \brief (DSU_PID4) JEP-106 Continuation Code */
+#define DSU_PID4_JEPCC_Msk          (_U_(0xF) << DSU_PID4_JEPCC_Pos)
+#define DSU_PID4_JEPCC(value)       (DSU_PID4_JEPCC_Msk & ((value) << DSU_PID4_JEPCC_Pos))
+#define DSU_PID4_FKBC_Pos           4            /**< \brief (DSU_PID4) 4KB count */
+#define DSU_PID4_FKBC_Msk           (_U_(0xF) << DSU_PID4_FKBC_Pos)
+#define DSU_PID4_FKBC(value)        (DSU_PID4_FKBC_Msk & ((value) << DSU_PID4_FKBC_Pos))
+#define DSU_PID4_MASK               _U_(0x000000FF) /**< \brief (DSU_PID4) MASK Register */
+
+/* -------- DSU_PID5 : (DSU Offset: 0x1FD4) (R/  32) Peripheral Identification 5 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID5_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID5_OFFSET             0x1FD4       /**< \brief (DSU_PID5 offset) Peripheral Identification 5 */
+#define DSU_PID5_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_PID5 reset_value) Peripheral Identification 5 */
+#define DSU_PID5_MASK               _U_(0x00000000) /**< \brief (DSU_PID5) MASK Register */
+
+/* -------- DSU_PID6 : (DSU Offset: 0x1FD8) (R/  32) Peripheral Identification 6 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID6_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID6_OFFSET             0x1FD8       /**< \brief (DSU_PID6 offset) Peripheral Identification 6 */
+#define DSU_PID6_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_PID6 reset_value) Peripheral Identification 6 */
+#define DSU_PID6_MASK               _U_(0x00000000) /**< \brief (DSU_PID6) MASK Register */
+
+/* -------- DSU_PID7 : (DSU Offset: 0x1FDC) (R/  32) Peripheral Identification 7 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID7_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID7_OFFSET             0x1FDC       /**< \brief (DSU_PID7 offset) Peripheral Identification 7 */
+#define DSU_PID7_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_PID7 reset_value) Peripheral Identification 7 */
+#define DSU_PID7_MASK               _U_(0x00000000) /**< \brief (DSU_PID7) MASK Register */
+
+/* -------- DSU_PID0 : (DSU Offset: 0x1FE0) (R/  32) Peripheral Identification 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PARTNBL:8;        /*!< bit:  0.. 7  Part Number Low                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID0_OFFSET             0x1FE0       /**< \brief (DSU_PID0 offset) Peripheral Identification 0 */
+#define DSU_PID0_RESETVALUE         _U_(0x000000D0) /**< \brief (DSU_PID0 reset_value) Peripheral Identification 0 */
+
+#define DSU_PID0_PARTNBL_Pos        0            /**< \brief (DSU_PID0) Part Number Low */
+#define DSU_PID0_PARTNBL_Msk        (_U_(0xFF) << DSU_PID0_PARTNBL_Pos)
+#define DSU_PID0_PARTNBL(value)     (DSU_PID0_PARTNBL_Msk & ((value) << DSU_PID0_PARTNBL_Pos))
+#define DSU_PID0_MASK               _U_(0x000000FF) /**< \brief (DSU_PID0) MASK Register */
+
+/* -------- DSU_PID1 : (DSU Offset: 0x1FE4) (R/  32) Peripheral Identification 1 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PARTNBH:4;        /*!< bit:  0.. 3  Part Number High                   */
+    uint32_t JEPIDCL:4;        /*!< bit:  4.. 7  Low part of the JEP-106 Identity Code */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID1_OFFSET             0x1FE4       /**< \brief (DSU_PID1 offset) Peripheral Identification 1 */
+#define DSU_PID1_RESETVALUE         _U_(0x000000FC) /**< \brief (DSU_PID1 reset_value) Peripheral Identification 1 */
+
+#define DSU_PID1_PARTNBH_Pos        0            /**< \brief (DSU_PID1) Part Number High */
+#define DSU_PID1_PARTNBH_Msk        (_U_(0xF) << DSU_PID1_PARTNBH_Pos)
+#define DSU_PID1_PARTNBH(value)     (DSU_PID1_PARTNBH_Msk & ((value) << DSU_PID1_PARTNBH_Pos))
+#define DSU_PID1_JEPIDCL_Pos        4            /**< \brief (DSU_PID1) Low part of the JEP-106 Identity Code */
+#define DSU_PID1_JEPIDCL_Msk        (_U_(0xF) << DSU_PID1_JEPIDCL_Pos)
+#define DSU_PID1_JEPIDCL(value)     (DSU_PID1_JEPIDCL_Msk & ((value) << DSU_PID1_JEPIDCL_Pos))
+#define DSU_PID1_MASK               _U_(0x000000FF) /**< \brief (DSU_PID1) MASK Register */
+
+/* -------- DSU_PID2 : (DSU Offset: 0x1FE8) (R/  32) Peripheral Identification 2 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t JEPIDCH:3;        /*!< bit:  0.. 2  JEP-106 Identity Code High         */
+    uint32_t JEPU:1;           /*!< bit:      3  JEP-106 Identity Code is used      */
+    uint32_t REVISION:4;       /*!< bit:  4.. 7  Revision Number                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID2_OFFSET             0x1FE8       /**< \brief (DSU_PID2 offset) Peripheral Identification 2 */
+#define DSU_PID2_RESETVALUE         _U_(0x00000009) /**< \brief (DSU_PID2 reset_value) Peripheral Identification 2 */
+
+#define DSU_PID2_JEPIDCH_Pos        0            /**< \brief (DSU_PID2) JEP-106 Identity Code High */
+#define DSU_PID2_JEPIDCH_Msk        (_U_(0x7) << DSU_PID2_JEPIDCH_Pos)
+#define DSU_PID2_JEPIDCH(value)     (DSU_PID2_JEPIDCH_Msk & ((value) << DSU_PID2_JEPIDCH_Pos))
+#define DSU_PID2_JEPU_Pos           3            /**< \brief (DSU_PID2) JEP-106 Identity Code is used */
+#define DSU_PID2_JEPU               (_U_(0x1) << DSU_PID2_JEPU_Pos)
+#define DSU_PID2_REVISION_Pos       4            /**< \brief (DSU_PID2) Revision Number */
+#define DSU_PID2_REVISION_Msk       (_U_(0xF) << DSU_PID2_REVISION_Pos)
+#define DSU_PID2_REVISION(value)    (DSU_PID2_REVISION_Msk & ((value) << DSU_PID2_REVISION_Pos))
+#define DSU_PID2_MASK               _U_(0x000000FF) /**< \brief (DSU_PID2) MASK Register */
+
+/* -------- DSU_PID3 : (DSU Offset: 0x1FEC) (R/  32) Peripheral Identification 3 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CUSMOD:4;         /*!< bit:  0.. 3  ARM CUSMOD                         */
+    uint32_t REVAND:4;         /*!< bit:  4.. 7  Revision Number                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_PID3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_PID3_OFFSET             0x1FEC       /**< \brief (DSU_PID3 offset) Peripheral Identification 3 */
+#define DSU_PID3_RESETVALUE         _U_(0x00000000) /**< \brief (DSU_PID3 reset_value) Peripheral Identification 3 */
+
+#define DSU_PID3_CUSMOD_Pos         0            /**< \brief (DSU_PID3) ARM CUSMOD */
+#define DSU_PID3_CUSMOD_Msk         (_U_(0xF) << DSU_PID3_CUSMOD_Pos)
+#define DSU_PID3_CUSMOD(value)      (DSU_PID3_CUSMOD_Msk & ((value) << DSU_PID3_CUSMOD_Pos))
+#define DSU_PID3_REVAND_Pos         4            /**< \brief (DSU_PID3) Revision Number */
+#define DSU_PID3_REVAND_Msk         (_U_(0xF) << DSU_PID3_REVAND_Pos)
+#define DSU_PID3_REVAND(value)      (DSU_PID3_REVAND_Msk & ((value) << DSU_PID3_REVAND_Pos))
+#define DSU_PID3_MASK               _U_(0x000000FF) /**< \brief (DSU_PID3) MASK Register */
+
+/* -------- DSU_CID0 : (DSU Offset: 0x1FF0) (R/  32) Component Identification 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PREAMBLEB0:8;     /*!< bit:  0.. 7  Preamble Byte 0                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_CID0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_CID0_OFFSET             0x1FF0       /**< \brief (DSU_CID0 offset) Component Identification 0 */
+#define DSU_CID0_RESETVALUE         _U_(0x0000000D) /**< \brief (DSU_CID0 reset_value) Component Identification 0 */
+
+#define DSU_CID0_PREAMBLEB0_Pos     0            /**< \brief (DSU_CID0) Preamble Byte 0 */
+#define DSU_CID0_PREAMBLEB0_Msk     (_U_(0xFF) << DSU_CID0_PREAMBLEB0_Pos)
+#define DSU_CID0_PREAMBLEB0(value)  (DSU_CID0_PREAMBLEB0_Msk & ((value) << DSU_CID0_PREAMBLEB0_Pos))
+#define DSU_CID0_MASK               _U_(0x000000FF) /**< \brief (DSU_CID0) MASK Register */
+
+/* -------- DSU_CID1 : (DSU Offset: 0x1FF4) (R/  32) Component Identification 1 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PREAMBLE:4;       /*!< bit:  0.. 3  Preamble                           */
+    uint32_t CCLASS:4;         /*!< bit:  4.. 7  Component Class                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_CID1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_CID1_OFFSET             0x1FF4       /**< \brief (DSU_CID1 offset) Component Identification 1 */
+#define DSU_CID1_RESETVALUE         _U_(0x00000010) /**< \brief (DSU_CID1 reset_value) Component Identification 1 */
+
+#define DSU_CID1_PREAMBLE_Pos       0            /**< \brief (DSU_CID1) Preamble */
+#define DSU_CID1_PREAMBLE_Msk       (_U_(0xF) << DSU_CID1_PREAMBLE_Pos)
+#define DSU_CID1_PREAMBLE(value)    (DSU_CID1_PREAMBLE_Msk & ((value) << DSU_CID1_PREAMBLE_Pos))
+#define DSU_CID1_CCLASS_Pos         4            /**< \brief (DSU_CID1) Component Class */
+#define DSU_CID1_CCLASS_Msk         (_U_(0xF) << DSU_CID1_CCLASS_Pos)
+#define DSU_CID1_CCLASS(value)      (DSU_CID1_CCLASS_Msk & ((value) << DSU_CID1_CCLASS_Pos))
+#define DSU_CID1_MASK               _U_(0x000000FF) /**< \brief (DSU_CID1) MASK Register */
+
+/* -------- DSU_CID2 : (DSU Offset: 0x1FF8) (R/  32) Component Identification 2 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PREAMBLEB2:8;     /*!< bit:  0.. 7  Preamble Byte 2                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_CID2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_CID2_OFFSET             0x1FF8       /**< \brief (DSU_CID2 offset) Component Identification 2 */
+#define DSU_CID2_RESETVALUE         _U_(0x00000005) /**< \brief (DSU_CID2 reset_value) Component Identification 2 */
+
+#define DSU_CID2_PREAMBLEB2_Pos     0            /**< \brief (DSU_CID2) Preamble Byte 2 */
+#define DSU_CID2_PREAMBLEB2_Msk     (_U_(0xFF) << DSU_CID2_PREAMBLEB2_Pos)
+#define DSU_CID2_PREAMBLEB2(value)  (DSU_CID2_PREAMBLEB2_Msk & ((value) << DSU_CID2_PREAMBLEB2_Pos))
+#define DSU_CID2_MASK               _U_(0x000000FF) /**< \brief (DSU_CID2) MASK Register */
+
+/* -------- DSU_CID3 : (DSU Offset: 0x1FFC) (R/  32) Component Identification 3 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PREAMBLEB3:8;     /*!< bit:  0.. 7  Preamble Byte 3                    */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} DSU_CID3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define DSU_CID3_OFFSET             0x1FFC       /**< \brief (DSU_CID3 offset) Component Identification 3 */
+#define DSU_CID3_RESETVALUE         _U_(0x000000B1) /**< \brief (DSU_CID3 reset_value) Component Identification 3 */
+
+#define DSU_CID3_PREAMBLEB3_Pos     0            /**< \brief (DSU_CID3) Preamble Byte 3 */
+#define DSU_CID3_PREAMBLEB3_Msk     (_U_(0xFF) << DSU_CID3_PREAMBLEB3_Pos)
+#define DSU_CID3_PREAMBLEB3(value)  (DSU_CID3_PREAMBLEB3_Msk & ((value) << DSU_CID3_PREAMBLEB3_Pos))
+#define DSU_CID3_MASK               _U_(0x000000FF) /**< \brief (DSU_CID3) MASK Register */
+
+/** \brief DSU hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __O  DSU_CTRL_Type             CTRL;        /**< \brief Offset: 0x0000 ( /W  8) Control */
+  __IO DSU_STATUSA_Type          STATUSA;     /**< \brief Offset: 0x0001 (R/W  8) Status A */
+  __I  DSU_STATUSB_Type          STATUSB;     /**< \brief Offset: 0x0002 (R/   8) Status B */
+       RoReg8                    Reserved1[0x1];
+  __IO DSU_ADDR_Type             ADDR;        /**< \brief Offset: 0x0004 (R/W 32) Address */
+  __IO DSU_LENGTH_Type           LENGTH;      /**< \brief Offset: 0x0008 (R/W 32) Length */
+  __IO DSU_DATA_Type             DATA;        /**< \brief Offset: 0x000C (R/W 32) Data */
+  __IO DSU_DCC_Type              DCC[2];      /**< \brief Offset: 0x0010 (R/W 32) Debug Communication Channel n */
+  __I  DSU_DID_Type              DID;         /**< \brief Offset: 0x0018 (R/  32) Device Identification */
+       RoReg8                    Reserved2[0xD4];
+  __IO DSU_DCFG_Type             DCFG[2];     /**< \brief Offset: 0x00F0 (R/W 32) Device Configuration */
+       RoReg8                    Reserved3[0xF08];
+  __I  DSU_ENTRY0_Type           ENTRY0;      /**< \brief Offset: 0x1000 (R/  32) CoreSight ROM Table Entry 0 */
+  __I  DSU_ENTRY1_Type           ENTRY1;      /**< \brief Offset: 0x1004 (R/  32) CoreSight ROM Table Entry 1 */
+  __I  DSU_END_Type              END;         /**< \brief Offset: 0x1008 (R/  32) CoreSight ROM Table End */
+       RoReg8                    Reserved4[0xFC0];
+  __I  DSU_MEMTYPE_Type          MEMTYPE;     /**< \brief Offset: 0x1FCC (R/  32) CoreSight ROM Table Memory Type */
+  __I  DSU_PID4_Type             PID4;        /**< \brief Offset: 0x1FD0 (R/  32) Peripheral Identification 4 */
+  __I  DSU_PID5_Type             PID5;        /**< \brief Offset: 0x1FD4 (R/  32) Peripheral Identification 5 */
+  __I  DSU_PID6_Type             PID6;        /**< \brief Offset: 0x1FD8 (R/  32) Peripheral Identification 6 */
+  __I  DSU_PID7_Type             PID7;        /**< \brief Offset: 0x1FDC (R/  32) Peripheral Identification 7 */
+  __I  DSU_PID0_Type             PID0;        /**< \brief Offset: 0x1FE0 (R/  32) Peripheral Identification 0 */
+  __I  DSU_PID1_Type             PID1;        /**< \brief Offset: 0x1FE4 (R/  32) Peripheral Identification 1 */
+  __I  DSU_PID2_Type             PID2;        /**< \brief Offset: 0x1FE8 (R/  32) Peripheral Identification 2 */
+  __I  DSU_PID3_Type             PID3;        /**< \brief Offset: 0x1FEC (R/  32) Peripheral Identification 3 */
+  __I  DSU_CID0_Type             CID0;        /**< \brief Offset: 0x1FF0 (R/  32) Component Identification 0 */
+  __I  DSU_CID1_Type             CID1;        /**< \brief Offset: 0x1FF4 (R/  32) Component Identification 1 */
+  __I  DSU_CID2_Type             CID2;        /**< \brief Offset: 0x1FF8 (R/  32) Component Identification 2 */
+  __I  DSU_CID3_Type             CID3;        /**< \brief Offset: 0x1FFC (R/  32) Component Identification 3 */
+} Dsu;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_DSU_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/eic.h b/watch-library/hardware/include/component/eic.h
new file mode 100644
index 00000000..f432495d
--- /dev/null
+++ b/watch-library/hardware/include/component/eic.h
@@ -0,0 +1,422 @@
+/**
+ * \file
+ *
+ * \brief Component description for EIC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_EIC_COMPONENT_
+#define _SAML22_EIC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR EIC */
+/* ========================================================================== */
+/** \addtogroup SAML22_EIC External Interrupt Controller */
+/*@{*/
+
+#define EIC_U2254
+#define REV_EIC                     0x202
+
+/* -------- EIC_CTRLA : (EIC Offset: 0x00) (R/W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  CKSEL:1;          /*!< bit:      4  Clock Selection                    */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} EIC_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_CTRLA_OFFSET            0x00         /**< \brief (EIC_CTRLA offset) Control */
+#define EIC_CTRLA_RESETVALUE        _U_(0x00)    /**< \brief (EIC_CTRLA reset_value) Control */
+
+#define EIC_CTRLA_SWRST_Pos         0            /**< \brief (EIC_CTRLA) Software Reset */
+#define EIC_CTRLA_SWRST             (_U_(0x1) << EIC_CTRLA_SWRST_Pos)
+#define EIC_CTRLA_ENABLE_Pos        1            /**< \brief (EIC_CTRLA) Enable */
+#define EIC_CTRLA_ENABLE            (_U_(0x1) << EIC_CTRLA_ENABLE_Pos)
+#define EIC_CTRLA_CKSEL_Pos         4            /**< \brief (EIC_CTRLA) Clock Selection */
+#define EIC_CTRLA_CKSEL             (_U_(0x1) << EIC_CTRLA_CKSEL_Pos)
+#define EIC_CTRLA_MASK              _U_(0x13)    /**< \brief (EIC_CTRLA) MASK Register */
+
+/* -------- EIC_NMICTRL : (EIC Offset: 0x01) (R/W  8) NMI Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  NMISENSE:3;       /*!< bit:  0.. 2  NMI Input Sense Configuration      */
+    uint8_t  NMIFILTEN:1;      /*!< bit:      3  NMI Filter Enable                  */
+    uint8_t  NMIASYNCH:1;      /*!< bit:      4  NMI Asynchronous edge Detection Enable */
+    uint8_t  :3;               /*!< bit:  5.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} EIC_NMICTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_NMICTRL_OFFSET          0x01         /**< \brief (EIC_NMICTRL offset) NMI Control */
+#define EIC_NMICTRL_RESETVALUE      _U_(0x00)    /**< \brief (EIC_NMICTRL reset_value) NMI Control */
+
+#define EIC_NMICTRL_NMISENSE_Pos    0            /**< \brief (EIC_NMICTRL) NMI Input Sense Configuration */
+#define EIC_NMICTRL_NMISENSE_Msk    (_U_(0x7) << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE(value) (EIC_NMICTRL_NMISENSE_Msk & ((value) << EIC_NMICTRL_NMISENSE_Pos))
+#define   EIC_NMICTRL_NMISENSE_NONE_Val   _U_(0x0)   /**< \brief (EIC_NMICTRL) No detection */
+#define   EIC_NMICTRL_NMISENSE_RISE_Val   _U_(0x1)   /**< \brief (EIC_NMICTRL) Rising edge detection */
+#define   EIC_NMICTRL_NMISENSE_FALL_Val   _U_(0x2)   /**< \brief (EIC_NMICTRL) Falling edge detection */
+#define   EIC_NMICTRL_NMISENSE_BOTH_Val   _U_(0x3)   /**< \brief (EIC_NMICTRL) Both edges detection */
+#define   EIC_NMICTRL_NMISENSE_HIGH_Val   _U_(0x4)   /**< \brief (EIC_NMICTRL) High level detection */
+#define   EIC_NMICTRL_NMISENSE_LOW_Val    _U_(0x5)   /**< \brief (EIC_NMICTRL) Low level detection */
+#define EIC_NMICTRL_NMISENSE_NONE   (EIC_NMICTRL_NMISENSE_NONE_Val << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE_RISE   (EIC_NMICTRL_NMISENSE_RISE_Val << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE_FALL   (EIC_NMICTRL_NMISENSE_FALL_Val << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE_BOTH   (EIC_NMICTRL_NMISENSE_BOTH_Val << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE_HIGH   (EIC_NMICTRL_NMISENSE_HIGH_Val << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMISENSE_LOW    (EIC_NMICTRL_NMISENSE_LOW_Val  << EIC_NMICTRL_NMISENSE_Pos)
+#define EIC_NMICTRL_NMIFILTEN_Pos   3            /**< \brief (EIC_NMICTRL) NMI Filter Enable */
+#define EIC_NMICTRL_NMIFILTEN       (_U_(0x1) << EIC_NMICTRL_NMIFILTEN_Pos)
+#define EIC_NMICTRL_NMIASYNCH_Pos   4            /**< \brief (EIC_NMICTRL) NMI Asynchronous edge Detection Enable */
+#define EIC_NMICTRL_NMIASYNCH       (_U_(0x1) << EIC_NMICTRL_NMIASYNCH_Pos)
+#define EIC_NMICTRL_MASK            _U_(0x1F)    /**< \brief (EIC_NMICTRL) MASK Register */
+
+/* -------- EIC_NMIFLAG : (EIC Offset: 0x02) (R/W 16) NMI Interrupt Flag -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t NMI:1;            /*!< bit:      0  NMI Interrupt Flag                 */
+    uint16_t :15;              /*!< bit:  1..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} EIC_NMIFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_NMIFLAG_OFFSET          0x02         /**< \brief (EIC_NMIFLAG offset) NMI Interrupt Flag */
+#define EIC_NMIFLAG_RESETVALUE      _U_(0x0000)  /**< \brief (EIC_NMIFLAG reset_value) NMI Interrupt Flag */
+
+#define EIC_NMIFLAG_NMI_Pos         0            /**< \brief (EIC_NMIFLAG) NMI Interrupt Flag */
+#define EIC_NMIFLAG_NMI             (_U_(0x1) << EIC_NMIFLAG_NMI_Pos)
+#define EIC_NMIFLAG_MASK            _U_(0x0001)  /**< \brief (EIC_NMIFLAG) MASK Register */
+
+/* -------- EIC_SYNCBUSY : (EIC Offset: 0x04) (R/  32) Syncbusy register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software reset synchronisation     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable synchronisation             */
+    uint32_t :30;              /*!< bit:  2..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_SYNCBUSY_OFFSET         0x04         /**< \brief (EIC_SYNCBUSY offset) Syncbusy register */
+#define EIC_SYNCBUSY_RESETVALUE     _U_(0x00000000) /**< \brief (EIC_SYNCBUSY reset_value) Syncbusy register */
+
+#define EIC_SYNCBUSY_SWRST_Pos      0            /**< \brief (EIC_SYNCBUSY) Software reset synchronisation */
+#define EIC_SYNCBUSY_SWRST          (_U_(0x1) << EIC_SYNCBUSY_SWRST_Pos)
+#define EIC_SYNCBUSY_ENABLE_Pos     1            /**< \brief (EIC_SYNCBUSY) Enable synchronisation */
+#define EIC_SYNCBUSY_ENABLE         (_U_(0x1) << EIC_SYNCBUSY_ENABLE_Pos)
+#define EIC_SYNCBUSY_MASK           _U_(0x00000003) /**< \brief (EIC_SYNCBUSY) MASK Register */
+
+/* -------- EIC_EVCTRL : (EIC Offset: 0x08) (R/W 32) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EXTINTEO:16;      /*!< bit:  0..15  External Interrupt Event Output Enable */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_EVCTRL_OFFSET           0x08         /**< \brief (EIC_EVCTRL offset) Event Control */
+#define EIC_EVCTRL_RESETVALUE       _U_(0x00000000) /**< \brief (EIC_EVCTRL reset_value) Event Control */
+
+#define EIC_EVCTRL_EXTINTEO_Pos     0            /**< \brief (EIC_EVCTRL) External Interrupt Event Output Enable */
+#define EIC_EVCTRL_EXTINTEO_Msk     (_U_(0xFFFF) << EIC_EVCTRL_EXTINTEO_Pos)
+#define EIC_EVCTRL_EXTINTEO(value)  (EIC_EVCTRL_EXTINTEO_Msk & ((value) << EIC_EVCTRL_EXTINTEO_Pos))
+#define EIC_EVCTRL_MASK             _U_(0x0000FFFF) /**< \brief (EIC_EVCTRL) MASK Register */
+
+/* -------- EIC_INTENCLR : (EIC Offset: 0x0C) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EXTINT:16;        /*!< bit:  0..15  External Interrupt Disable         */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_INTENCLR_OFFSET         0x0C         /**< \brief (EIC_INTENCLR offset) Interrupt Enable Clear */
+#define EIC_INTENCLR_RESETVALUE     _U_(0x00000000) /**< \brief (EIC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define EIC_INTENCLR_EXTINT_Pos     0            /**< \brief (EIC_INTENCLR) External Interrupt Disable */
+#define EIC_INTENCLR_EXTINT_Msk     (_U_(0xFFFF) << EIC_INTENCLR_EXTINT_Pos)
+#define EIC_INTENCLR_EXTINT(value)  (EIC_INTENCLR_EXTINT_Msk & ((value) << EIC_INTENCLR_EXTINT_Pos))
+#define EIC_INTENCLR_MASK           _U_(0x0000FFFF) /**< \brief (EIC_INTENCLR) MASK Register */
+
+/* -------- EIC_INTENSET : (EIC Offset: 0x10) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EXTINT:16;        /*!< bit:  0..15  External Interrupt Disable         */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_INTENSET_OFFSET         0x10         /**< \brief (EIC_INTENSET offset) Interrupt Enable Set */
+#define EIC_INTENSET_RESETVALUE     _U_(0x00000000) /**< \brief (EIC_INTENSET reset_value) Interrupt Enable Set */
+
+#define EIC_INTENSET_EXTINT_Pos     0            /**< \brief (EIC_INTENSET) External Interrupt Disable */
+#define EIC_INTENSET_EXTINT_Msk     (_U_(0xFFFF) << EIC_INTENSET_EXTINT_Pos)
+#define EIC_INTENSET_EXTINT(value)  (EIC_INTENSET_EXTINT_Msk & ((value) << EIC_INTENSET_EXTINT_Pos))
+#define EIC_INTENSET_MASK           _U_(0x0000FFFF) /**< \brief (EIC_INTENSET) MASK Register */
+
+/* -------- EIC_INTFLAG : (EIC Offset: 0x14) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t EXTINT:16;        /*!< bit:  0..15  External Interrupt Flag            */
+    __I uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_INTFLAG_OFFSET          0x14         /**< \brief (EIC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define EIC_INTFLAG_RESETVALUE      _U_(0x00000000) /**< \brief (EIC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define EIC_INTFLAG_EXTINT_Pos      0            /**< \brief (EIC_INTFLAG) External Interrupt Flag */
+#define EIC_INTFLAG_EXTINT_Msk      (_U_(0xFFFF) << EIC_INTFLAG_EXTINT_Pos)
+#define EIC_INTFLAG_EXTINT(value)   (EIC_INTFLAG_EXTINT_Msk & ((value) << EIC_INTFLAG_EXTINT_Pos))
+#define EIC_INTFLAG_MASK            _U_(0x0000FFFF) /**< \brief (EIC_INTFLAG) MASK Register */
+
+/* -------- EIC_ASYNCH : (EIC Offset: 0x18) (R/W 32) EIC Asynchronous edge Detection Enable -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t ASYNCH:16;        /*!< bit:  0..15  EIC Asynchronous edge Detection Enable */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_ASYNCH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_ASYNCH_OFFSET           0x18         /**< \brief (EIC_ASYNCH offset) EIC Asynchronous edge Detection Enable */
+#define EIC_ASYNCH_RESETVALUE       _U_(0x00000000) /**< \brief (EIC_ASYNCH reset_value) EIC Asynchronous edge Detection Enable */
+
+#define EIC_ASYNCH_ASYNCH_Pos       0            /**< \brief (EIC_ASYNCH) EIC Asynchronous edge Detection Enable */
+#define EIC_ASYNCH_ASYNCH_Msk       (_U_(0xFFFF) << EIC_ASYNCH_ASYNCH_Pos)
+#define EIC_ASYNCH_ASYNCH(value)    (EIC_ASYNCH_ASYNCH_Msk & ((value) << EIC_ASYNCH_ASYNCH_Pos))
+#define EIC_ASYNCH_MASK             _U_(0x0000FFFF) /**< \brief (EIC_ASYNCH) MASK Register */
+
+/* -------- EIC_CONFIG : (EIC Offset: 0x1C) (R/W 32) Configuration n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SENSE0:3;         /*!< bit:  0.. 2  Input Sense Configuration 0        */
+    uint32_t FILTEN0:1;        /*!< bit:      3  Filter Enable 0                    */
+    uint32_t SENSE1:3;         /*!< bit:  4.. 6  Input Sense Configuration 1        */
+    uint32_t FILTEN1:1;        /*!< bit:      7  Filter Enable 1                    */
+    uint32_t SENSE2:3;         /*!< bit:  8..10  Input Sense Configuration 2        */
+    uint32_t FILTEN2:1;        /*!< bit:     11  Filter Enable 2                    */
+    uint32_t SENSE3:3;         /*!< bit: 12..14  Input Sense Configuration 3        */
+    uint32_t FILTEN3:1;        /*!< bit:     15  Filter Enable 3                    */
+    uint32_t SENSE4:3;         /*!< bit: 16..18  Input Sense Configuration 4        */
+    uint32_t FILTEN4:1;        /*!< bit:     19  Filter Enable 4                    */
+    uint32_t SENSE5:3;         /*!< bit: 20..22  Input Sense Configuration 5        */
+    uint32_t FILTEN5:1;        /*!< bit:     23  Filter Enable 5                    */
+    uint32_t SENSE6:3;         /*!< bit: 24..26  Input Sense Configuration 6        */
+    uint32_t FILTEN6:1;        /*!< bit:     27  Filter Enable 6                    */
+    uint32_t SENSE7:3;         /*!< bit: 28..30  Input Sense Configuration 7        */
+    uint32_t FILTEN7:1;        /*!< bit:     31  Filter Enable 7                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EIC_CONFIG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EIC_CONFIG_OFFSET           0x1C         /**< \brief (EIC_CONFIG offset) Configuration n */
+#define EIC_CONFIG_RESETVALUE       _U_(0x00000000) /**< \brief (EIC_CONFIG reset_value) Configuration n */
+
+#define EIC_CONFIG_SENSE0_Pos       0            /**< \brief (EIC_CONFIG) Input Sense Configuration 0 */
+#define EIC_CONFIG_SENSE0_Msk       (_U_(0x7) << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0(value)    (EIC_CONFIG_SENSE0_Msk & ((value) << EIC_CONFIG_SENSE0_Pos))
+#define   EIC_CONFIG_SENSE0_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE0_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE0_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE0_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE0_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE0_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE0_NONE      (EIC_CONFIG_SENSE0_NONE_Val    << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0_RISE      (EIC_CONFIG_SENSE0_RISE_Val    << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0_FALL      (EIC_CONFIG_SENSE0_FALL_Val    << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0_BOTH      (EIC_CONFIG_SENSE0_BOTH_Val    << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0_HIGH      (EIC_CONFIG_SENSE0_HIGH_Val    << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_SENSE0_LOW       (EIC_CONFIG_SENSE0_LOW_Val     << EIC_CONFIG_SENSE0_Pos)
+#define EIC_CONFIG_FILTEN0_Pos      3            /**< \brief (EIC_CONFIG) Filter Enable 0 */
+#define EIC_CONFIG_FILTEN0          (_U_(0x1) << EIC_CONFIG_FILTEN0_Pos)
+#define EIC_CONFIG_SENSE1_Pos       4            /**< \brief (EIC_CONFIG) Input Sense Configuration 1 */
+#define EIC_CONFIG_SENSE1_Msk       (_U_(0x7) << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1(value)    (EIC_CONFIG_SENSE1_Msk & ((value) << EIC_CONFIG_SENSE1_Pos))
+#define   EIC_CONFIG_SENSE1_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE1_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE1_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE1_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE1_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE1_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE1_NONE      (EIC_CONFIG_SENSE1_NONE_Val    << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1_RISE      (EIC_CONFIG_SENSE1_RISE_Val    << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1_FALL      (EIC_CONFIG_SENSE1_FALL_Val    << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1_BOTH      (EIC_CONFIG_SENSE1_BOTH_Val    << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1_HIGH      (EIC_CONFIG_SENSE1_HIGH_Val    << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_SENSE1_LOW       (EIC_CONFIG_SENSE1_LOW_Val     << EIC_CONFIG_SENSE1_Pos)
+#define EIC_CONFIG_FILTEN1_Pos      7            /**< \brief (EIC_CONFIG) Filter Enable 1 */
+#define EIC_CONFIG_FILTEN1          (_U_(0x1) << EIC_CONFIG_FILTEN1_Pos)
+#define EIC_CONFIG_SENSE2_Pos       8            /**< \brief (EIC_CONFIG) Input Sense Configuration 2 */
+#define EIC_CONFIG_SENSE2_Msk       (_U_(0x7) << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2(value)    (EIC_CONFIG_SENSE2_Msk & ((value) << EIC_CONFIG_SENSE2_Pos))
+#define   EIC_CONFIG_SENSE2_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE2_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE2_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE2_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE2_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE2_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE2_NONE      (EIC_CONFIG_SENSE2_NONE_Val    << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2_RISE      (EIC_CONFIG_SENSE2_RISE_Val    << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2_FALL      (EIC_CONFIG_SENSE2_FALL_Val    << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2_BOTH      (EIC_CONFIG_SENSE2_BOTH_Val    << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2_HIGH      (EIC_CONFIG_SENSE2_HIGH_Val    << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_SENSE2_LOW       (EIC_CONFIG_SENSE2_LOW_Val     << EIC_CONFIG_SENSE2_Pos)
+#define EIC_CONFIG_FILTEN2_Pos      11           /**< \brief (EIC_CONFIG) Filter Enable 2 */
+#define EIC_CONFIG_FILTEN2          (_U_(0x1) << EIC_CONFIG_FILTEN2_Pos)
+#define EIC_CONFIG_SENSE3_Pos       12           /**< \brief (EIC_CONFIG) Input Sense Configuration 3 */
+#define EIC_CONFIG_SENSE3_Msk       (_U_(0x7) << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3(value)    (EIC_CONFIG_SENSE3_Msk & ((value) << EIC_CONFIG_SENSE3_Pos))
+#define   EIC_CONFIG_SENSE3_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE3_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE3_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE3_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE3_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE3_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE3_NONE      (EIC_CONFIG_SENSE3_NONE_Val    << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3_RISE      (EIC_CONFIG_SENSE3_RISE_Val    << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3_FALL      (EIC_CONFIG_SENSE3_FALL_Val    << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3_BOTH      (EIC_CONFIG_SENSE3_BOTH_Val    << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3_HIGH      (EIC_CONFIG_SENSE3_HIGH_Val    << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_SENSE3_LOW       (EIC_CONFIG_SENSE3_LOW_Val     << EIC_CONFIG_SENSE3_Pos)
+#define EIC_CONFIG_FILTEN3_Pos      15           /**< \brief (EIC_CONFIG) Filter Enable 3 */
+#define EIC_CONFIG_FILTEN3          (_U_(0x1) << EIC_CONFIG_FILTEN3_Pos)
+#define EIC_CONFIG_SENSE4_Pos       16           /**< \brief (EIC_CONFIG) Input Sense Configuration 4 */
+#define EIC_CONFIG_SENSE4_Msk       (_U_(0x7) << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4(value)    (EIC_CONFIG_SENSE4_Msk & ((value) << EIC_CONFIG_SENSE4_Pos))
+#define   EIC_CONFIG_SENSE4_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE4_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE4_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE4_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE4_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE4_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE4_NONE      (EIC_CONFIG_SENSE4_NONE_Val    << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4_RISE      (EIC_CONFIG_SENSE4_RISE_Val    << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4_FALL      (EIC_CONFIG_SENSE4_FALL_Val    << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4_BOTH      (EIC_CONFIG_SENSE4_BOTH_Val    << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4_HIGH      (EIC_CONFIG_SENSE4_HIGH_Val    << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_SENSE4_LOW       (EIC_CONFIG_SENSE4_LOW_Val     << EIC_CONFIG_SENSE4_Pos)
+#define EIC_CONFIG_FILTEN4_Pos      19           /**< \brief (EIC_CONFIG) Filter Enable 4 */
+#define EIC_CONFIG_FILTEN4          (_U_(0x1) << EIC_CONFIG_FILTEN4_Pos)
+#define EIC_CONFIG_SENSE5_Pos       20           /**< \brief (EIC_CONFIG) Input Sense Configuration 5 */
+#define EIC_CONFIG_SENSE5_Msk       (_U_(0x7) << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5(value)    (EIC_CONFIG_SENSE5_Msk & ((value) << EIC_CONFIG_SENSE5_Pos))
+#define   EIC_CONFIG_SENSE5_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE5_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE5_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE5_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE5_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE5_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE5_NONE      (EIC_CONFIG_SENSE5_NONE_Val    << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5_RISE      (EIC_CONFIG_SENSE5_RISE_Val    << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5_FALL      (EIC_CONFIG_SENSE5_FALL_Val    << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5_BOTH      (EIC_CONFIG_SENSE5_BOTH_Val    << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5_HIGH      (EIC_CONFIG_SENSE5_HIGH_Val    << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_SENSE5_LOW       (EIC_CONFIG_SENSE5_LOW_Val     << EIC_CONFIG_SENSE5_Pos)
+#define EIC_CONFIG_FILTEN5_Pos      23           /**< \brief (EIC_CONFIG) Filter Enable 5 */
+#define EIC_CONFIG_FILTEN5          (_U_(0x1) << EIC_CONFIG_FILTEN5_Pos)
+#define EIC_CONFIG_SENSE6_Pos       24           /**< \brief (EIC_CONFIG) Input Sense Configuration 6 */
+#define EIC_CONFIG_SENSE6_Msk       (_U_(0x7) << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6(value)    (EIC_CONFIG_SENSE6_Msk & ((value) << EIC_CONFIG_SENSE6_Pos))
+#define   EIC_CONFIG_SENSE6_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE6_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE6_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE6_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE6_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE6_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE6_NONE      (EIC_CONFIG_SENSE6_NONE_Val    << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6_RISE      (EIC_CONFIG_SENSE6_RISE_Val    << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6_FALL      (EIC_CONFIG_SENSE6_FALL_Val    << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6_BOTH      (EIC_CONFIG_SENSE6_BOTH_Val    << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6_HIGH      (EIC_CONFIG_SENSE6_HIGH_Val    << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_SENSE6_LOW       (EIC_CONFIG_SENSE6_LOW_Val     << EIC_CONFIG_SENSE6_Pos)
+#define EIC_CONFIG_FILTEN6_Pos      27           /**< \brief (EIC_CONFIG) Filter Enable 6 */
+#define EIC_CONFIG_FILTEN6          (_U_(0x1) << EIC_CONFIG_FILTEN6_Pos)
+#define EIC_CONFIG_SENSE7_Pos       28           /**< \brief (EIC_CONFIG) Input Sense Configuration 7 */
+#define EIC_CONFIG_SENSE7_Msk       (_U_(0x7) << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7(value)    (EIC_CONFIG_SENSE7_Msk & ((value) << EIC_CONFIG_SENSE7_Pos))
+#define   EIC_CONFIG_SENSE7_NONE_Val      _U_(0x0)   /**< \brief (EIC_CONFIG) No detection */
+#define   EIC_CONFIG_SENSE7_RISE_Val      _U_(0x1)   /**< \brief (EIC_CONFIG) Rising edge detection */
+#define   EIC_CONFIG_SENSE7_FALL_Val      _U_(0x2)   /**< \brief (EIC_CONFIG) Falling edge detection */
+#define   EIC_CONFIG_SENSE7_BOTH_Val      _U_(0x3)   /**< \brief (EIC_CONFIG) Both edges detection */
+#define   EIC_CONFIG_SENSE7_HIGH_Val      _U_(0x4)   /**< \brief (EIC_CONFIG) High level detection */
+#define   EIC_CONFIG_SENSE7_LOW_Val       _U_(0x5)   /**< \brief (EIC_CONFIG) Low level detection */
+#define EIC_CONFIG_SENSE7_NONE      (EIC_CONFIG_SENSE7_NONE_Val    << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7_RISE      (EIC_CONFIG_SENSE7_RISE_Val    << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7_FALL      (EIC_CONFIG_SENSE7_FALL_Val    << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7_BOTH      (EIC_CONFIG_SENSE7_BOTH_Val    << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7_HIGH      (EIC_CONFIG_SENSE7_HIGH_Val    << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_SENSE7_LOW       (EIC_CONFIG_SENSE7_LOW_Val     << EIC_CONFIG_SENSE7_Pos)
+#define EIC_CONFIG_FILTEN7_Pos      31           /**< \brief (EIC_CONFIG) Filter Enable 7 */
+#define EIC_CONFIG_FILTEN7          (_U_(0x1) << EIC_CONFIG_FILTEN7_Pos)
+#define EIC_CONFIG_MASK             _U_(0xFFFFFFFF) /**< \brief (EIC_CONFIG) MASK Register */
+
+/** \brief EIC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO EIC_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control */
+  __IO EIC_NMICTRL_Type          NMICTRL;     /**< \brief Offset: 0x01 (R/W  8) NMI Control */
+  __IO EIC_NMIFLAG_Type          NMIFLAG;     /**< \brief Offset: 0x02 (R/W 16) NMI Interrupt Flag */
+  __I  EIC_SYNCBUSY_Type         SYNCBUSY;    /**< \brief Offset: 0x04 (R/  32) Syncbusy register */
+  __IO EIC_EVCTRL_Type           EVCTRL;      /**< \brief Offset: 0x08 (R/W 32) Event Control */
+  __IO EIC_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x0C (R/W 32) Interrupt Enable Clear */
+  __IO EIC_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x10 (R/W 32) Interrupt Enable Set */
+  __IO EIC_INTFLAG_Type          INTFLAG;     /**< \brief Offset: 0x14 (R/W 32) Interrupt Flag Status and Clear */
+  __IO EIC_ASYNCH_Type           ASYNCH;      /**< \brief Offset: 0x18 (R/W 32) EIC Asynchronous edge Detection Enable */
+  __IO EIC_CONFIG_Type           CONFIG[2];   /**< \brief Offset: 0x1C (R/W 32) Configuration n */
+} Eic;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_EIC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/evsys.h b/watch-library/hardware/include/component/evsys.h
new file mode 100644
index 00000000..4329ecad
--- /dev/null
+++ b/watch-library/hardware/include/component/evsys.h
@@ -0,0 +1,496 @@
+/**
+ * \file
+ *
+ * \brief Component description for EVSYS
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_EVSYS_COMPONENT_
+#define _SAML22_EVSYS_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR EVSYS */
+/* ========================================================================== */
+/** \addtogroup SAML22_EVSYS Event System Interface */
+/*@{*/
+
+#define EVSYS_U2256
+#define REV_EVSYS                   0x101
+
+/* -------- EVSYS_CTRLA : (EVSYS Offset: 0x00) (R/W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} EVSYS_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_CTRLA_OFFSET          0x00         /**< \brief (EVSYS_CTRLA offset) Control */
+#define EVSYS_CTRLA_RESETVALUE      _U_(0x00)    /**< \brief (EVSYS_CTRLA reset_value) Control */
+
+#define EVSYS_CTRLA_SWRST_Pos       0            /**< \brief (EVSYS_CTRLA) Software Reset */
+#define EVSYS_CTRLA_SWRST           (_U_(0x1) << EVSYS_CTRLA_SWRST_Pos)
+#define EVSYS_CTRLA_MASK            _U_(0x01)    /**< \brief (EVSYS_CTRLA) MASK Register */
+
+/* -------- EVSYS_CHSTATUS : (EVSYS Offset: 0x0C) (R/  32) Channel Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t USRRDY0:1;        /*!< bit:      0  Channel 0 User Ready               */
+    uint32_t USRRDY1:1;        /*!< bit:      1  Channel 1 User Ready               */
+    uint32_t USRRDY2:1;        /*!< bit:      2  Channel 2 User Ready               */
+    uint32_t USRRDY3:1;        /*!< bit:      3  Channel 3 User Ready               */
+    uint32_t USRRDY4:1;        /*!< bit:      4  Channel 4 User Ready               */
+    uint32_t USRRDY5:1;        /*!< bit:      5  Channel 5 User Ready               */
+    uint32_t USRRDY6:1;        /*!< bit:      6  Channel 6 User Ready               */
+    uint32_t USRRDY7:1;        /*!< bit:      7  Channel 7 User Ready               */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t CHBUSY0:1;        /*!< bit:     16  Channel 0 Busy                     */
+    uint32_t CHBUSY1:1;        /*!< bit:     17  Channel 1 Busy                     */
+    uint32_t CHBUSY2:1;        /*!< bit:     18  Channel 2 Busy                     */
+    uint32_t CHBUSY3:1;        /*!< bit:     19  Channel 3 Busy                     */
+    uint32_t CHBUSY4:1;        /*!< bit:     20  Channel 4 Busy                     */
+    uint32_t CHBUSY5:1;        /*!< bit:     21  Channel 5 Busy                     */
+    uint32_t CHBUSY6:1;        /*!< bit:     22  Channel 6 Busy                     */
+    uint32_t CHBUSY7:1;        /*!< bit:     23  Channel 7 Busy                     */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t USRRDY:8;         /*!< bit:  0.. 7  Channel x User Ready               */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t CHBUSY:8;         /*!< bit: 16..23  Channel x Busy                     */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_CHSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_CHSTATUS_OFFSET       0x0C         /**< \brief (EVSYS_CHSTATUS offset) Channel Status */
+#define EVSYS_CHSTATUS_RESETVALUE   _U_(0x00000000) /**< \brief (EVSYS_CHSTATUS reset_value) Channel Status */
+
+#define EVSYS_CHSTATUS_USRRDY0_Pos  0            /**< \brief (EVSYS_CHSTATUS) Channel 0 User Ready */
+#define EVSYS_CHSTATUS_USRRDY0      (_U_(1) << EVSYS_CHSTATUS_USRRDY0_Pos)
+#define EVSYS_CHSTATUS_USRRDY1_Pos  1            /**< \brief (EVSYS_CHSTATUS) Channel 1 User Ready */
+#define EVSYS_CHSTATUS_USRRDY1      (_U_(1) << EVSYS_CHSTATUS_USRRDY1_Pos)
+#define EVSYS_CHSTATUS_USRRDY2_Pos  2            /**< \brief (EVSYS_CHSTATUS) Channel 2 User Ready */
+#define EVSYS_CHSTATUS_USRRDY2      (_U_(1) << EVSYS_CHSTATUS_USRRDY2_Pos)
+#define EVSYS_CHSTATUS_USRRDY3_Pos  3            /**< \brief (EVSYS_CHSTATUS) Channel 3 User Ready */
+#define EVSYS_CHSTATUS_USRRDY3      (_U_(1) << EVSYS_CHSTATUS_USRRDY3_Pos)
+#define EVSYS_CHSTATUS_USRRDY4_Pos  4            /**< \brief (EVSYS_CHSTATUS) Channel 4 User Ready */
+#define EVSYS_CHSTATUS_USRRDY4      (_U_(1) << EVSYS_CHSTATUS_USRRDY4_Pos)
+#define EVSYS_CHSTATUS_USRRDY5_Pos  5            /**< \brief (EVSYS_CHSTATUS) Channel 5 User Ready */
+#define EVSYS_CHSTATUS_USRRDY5      (_U_(1) << EVSYS_CHSTATUS_USRRDY5_Pos)
+#define EVSYS_CHSTATUS_USRRDY6_Pos  6            /**< \brief (EVSYS_CHSTATUS) Channel 6 User Ready */
+#define EVSYS_CHSTATUS_USRRDY6      (_U_(1) << EVSYS_CHSTATUS_USRRDY6_Pos)
+#define EVSYS_CHSTATUS_USRRDY7_Pos  7            /**< \brief (EVSYS_CHSTATUS) Channel 7 User Ready */
+#define EVSYS_CHSTATUS_USRRDY7      (_U_(1) << EVSYS_CHSTATUS_USRRDY7_Pos)
+#define EVSYS_CHSTATUS_USRRDY_Pos   0            /**< \brief (EVSYS_CHSTATUS) Channel x User Ready */
+#define EVSYS_CHSTATUS_USRRDY_Msk   (_U_(0xFF) << EVSYS_CHSTATUS_USRRDY_Pos)
+#define EVSYS_CHSTATUS_USRRDY(value) (EVSYS_CHSTATUS_USRRDY_Msk & ((value) << EVSYS_CHSTATUS_USRRDY_Pos))
+#define EVSYS_CHSTATUS_CHBUSY0_Pos  16           /**< \brief (EVSYS_CHSTATUS) Channel 0 Busy */
+#define EVSYS_CHSTATUS_CHBUSY0      (_U_(1) << EVSYS_CHSTATUS_CHBUSY0_Pos)
+#define EVSYS_CHSTATUS_CHBUSY1_Pos  17           /**< \brief (EVSYS_CHSTATUS) Channel 1 Busy */
+#define EVSYS_CHSTATUS_CHBUSY1      (_U_(1) << EVSYS_CHSTATUS_CHBUSY1_Pos)
+#define EVSYS_CHSTATUS_CHBUSY2_Pos  18           /**< \brief (EVSYS_CHSTATUS) Channel 2 Busy */
+#define EVSYS_CHSTATUS_CHBUSY2      (_U_(1) << EVSYS_CHSTATUS_CHBUSY2_Pos)
+#define EVSYS_CHSTATUS_CHBUSY3_Pos  19           /**< \brief (EVSYS_CHSTATUS) Channel 3 Busy */
+#define EVSYS_CHSTATUS_CHBUSY3      (_U_(1) << EVSYS_CHSTATUS_CHBUSY3_Pos)
+#define EVSYS_CHSTATUS_CHBUSY4_Pos  20           /**< \brief (EVSYS_CHSTATUS) Channel 4 Busy */
+#define EVSYS_CHSTATUS_CHBUSY4      (_U_(1) << EVSYS_CHSTATUS_CHBUSY4_Pos)
+#define EVSYS_CHSTATUS_CHBUSY5_Pos  21           /**< \brief (EVSYS_CHSTATUS) Channel 5 Busy */
+#define EVSYS_CHSTATUS_CHBUSY5      (_U_(1) << EVSYS_CHSTATUS_CHBUSY5_Pos)
+#define EVSYS_CHSTATUS_CHBUSY6_Pos  22           /**< \brief (EVSYS_CHSTATUS) Channel 6 Busy */
+#define EVSYS_CHSTATUS_CHBUSY6      (_U_(1) << EVSYS_CHSTATUS_CHBUSY6_Pos)
+#define EVSYS_CHSTATUS_CHBUSY7_Pos  23           /**< \brief (EVSYS_CHSTATUS) Channel 7 Busy */
+#define EVSYS_CHSTATUS_CHBUSY7      (_U_(1) << EVSYS_CHSTATUS_CHBUSY7_Pos)
+#define EVSYS_CHSTATUS_CHBUSY_Pos   16           /**< \brief (EVSYS_CHSTATUS) Channel x Busy */
+#define EVSYS_CHSTATUS_CHBUSY_Msk   (_U_(0xFF) << EVSYS_CHSTATUS_CHBUSY_Pos)
+#define EVSYS_CHSTATUS_CHBUSY(value) (EVSYS_CHSTATUS_CHBUSY_Msk & ((value) << EVSYS_CHSTATUS_CHBUSY_Pos))
+#define EVSYS_CHSTATUS_MASK         _U_(0x00FF00FF) /**< \brief (EVSYS_CHSTATUS) MASK Register */
+
+/* -------- EVSYS_INTENCLR : (EVSYS Offset: 0x10) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t OVR0:1;           /*!< bit:      0  Channel 0 Overrun Interrupt Enable */
+    uint32_t OVR1:1;           /*!< bit:      1  Channel 1 Overrun Interrupt Enable */
+    uint32_t OVR2:1;           /*!< bit:      2  Channel 2 Overrun Interrupt Enable */
+    uint32_t OVR3:1;           /*!< bit:      3  Channel 3 Overrun Interrupt Enable */
+    uint32_t OVR4:1;           /*!< bit:      4  Channel 4 Overrun Interrupt Enable */
+    uint32_t OVR5:1;           /*!< bit:      5  Channel 5 Overrun Interrupt Enable */
+    uint32_t OVR6:1;           /*!< bit:      6  Channel 6 Overrun Interrupt Enable */
+    uint32_t OVR7:1;           /*!< bit:      7  Channel 7 Overrun Interrupt Enable */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t EVD0:1;           /*!< bit:     16  Channel 0 Event Detection Interrupt Enable */
+    uint32_t EVD1:1;           /*!< bit:     17  Channel 1 Event Detection Interrupt Enable */
+    uint32_t EVD2:1;           /*!< bit:     18  Channel 2 Event Detection Interrupt Enable */
+    uint32_t EVD3:1;           /*!< bit:     19  Channel 3 Event Detection Interrupt Enable */
+    uint32_t EVD4:1;           /*!< bit:     20  Channel 4 Event Detection Interrupt Enable */
+    uint32_t EVD5:1;           /*!< bit:     21  Channel 5 Event Detection Interrupt Enable */
+    uint32_t EVD6:1;           /*!< bit:     22  Channel 6 Event Detection Interrupt Enable */
+    uint32_t EVD7:1;           /*!< bit:     23  Channel 7 Event Detection Interrupt Enable */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t OVR:8;            /*!< bit:  0.. 7  Channel x Overrun Interrupt Enable */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t EVD:8;            /*!< bit: 16..23  Channel x Event Detection Interrupt Enable */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_INTENCLR_OFFSET       0x10         /**< \brief (EVSYS_INTENCLR offset) Interrupt Enable Clear */
+#define EVSYS_INTENCLR_RESETVALUE   _U_(0x00000000) /**< \brief (EVSYS_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define EVSYS_INTENCLR_OVR0_Pos     0            /**< \brief (EVSYS_INTENCLR) Channel 0 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR0         (_U_(1) << EVSYS_INTENCLR_OVR0_Pos)
+#define EVSYS_INTENCLR_OVR1_Pos     1            /**< \brief (EVSYS_INTENCLR) Channel 1 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR1         (_U_(1) << EVSYS_INTENCLR_OVR1_Pos)
+#define EVSYS_INTENCLR_OVR2_Pos     2            /**< \brief (EVSYS_INTENCLR) Channel 2 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR2         (_U_(1) << EVSYS_INTENCLR_OVR2_Pos)
+#define EVSYS_INTENCLR_OVR3_Pos     3            /**< \brief (EVSYS_INTENCLR) Channel 3 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR3         (_U_(1) << EVSYS_INTENCLR_OVR3_Pos)
+#define EVSYS_INTENCLR_OVR4_Pos     4            /**< \brief (EVSYS_INTENCLR) Channel 4 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR4         (_U_(1) << EVSYS_INTENCLR_OVR4_Pos)
+#define EVSYS_INTENCLR_OVR5_Pos     5            /**< \brief (EVSYS_INTENCLR) Channel 5 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR5         (_U_(1) << EVSYS_INTENCLR_OVR5_Pos)
+#define EVSYS_INTENCLR_OVR6_Pos     6            /**< \brief (EVSYS_INTENCLR) Channel 6 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR6         (_U_(1) << EVSYS_INTENCLR_OVR6_Pos)
+#define EVSYS_INTENCLR_OVR7_Pos     7            /**< \brief (EVSYS_INTENCLR) Channel 7 Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR7         (_U_(1) << EVSYS_INTENCLR_OVR7_Pos)
+#define EVSYS_INTENCLR_OVR_Pos      0            /**< \brief (EVSYS_INTENCLR) Channel x Overrun Interrupt Enable */
+#define EVSYS_INTENCLR_OVR_Msk      (_U_(0xFF) << EVSYS_INTENCLR_OVR_Pos)
+#define EVSYS_INTENCLR_OVR(value)   (EVSYS_INTENCLR_OVR_Msk & ((value) << EVSYS_INTENCLR_OVR_Pos))
+#define EVSYS_INTENCLR_EVD0_Pos     16           /**< \brief (EVSYS_INTENCLR) Channel 0 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD0         (_U_(1) << EVSYS_INTENCLR_EVD0_Pos)
+#define EVSYS_INTENCLR_EVD1_Pos     17           /**< \brief (EVSYS_INTENCLR) Channel 1 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD1         (_U_(1) << EVSYS_INTENCLR_EVD1_Pos)
+#define EVSYS_INTENCLR_EVD2_Pos     18           /**< \brief (EVSYS_INTENCLR) Channel 2 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD2         (_U_(1) << EVSYS_INTENCLR_EVD2_Pos)
+#define EVSYS_INTENCLR_EVD3_Pos     19           /**< \brief (EVSYS_INTENCLR) Channel 3 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD3         (_U_(1) << EVSYS_INTENCLR_EVD3_Pos)
+#define EVSYS_INTENCLR_EVD4_Pos     20           /**< \brief (EVSYS_INTENCLR) Channel 4 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD4         (_U_(1) << EVSYS_INTENCLR_EVD4_Pos)
+#define EVSYS_INTENCLR_EVD5_Pos     21           /**< \brief (EVSYS_INTENCLR) Channel 5 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD5         (_U_(1) << EVSYS_INTENCLR_EVD5_Pos)
+#define EVSYS_INTENCLR_EVD6_Pos     22           /**< \brief (EVSYS_INTENCLR) Channel 6 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD6         (_U_(1) << EVSYS_INTENCLR_EVD6_Pos)
+#define EVSYS_INTENCLR_EVD7_Pos     23           /**< \brief (EVSYS_INTENCLR) Channel 7 Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD7         (_U_(1) << EVSYS_INTENCLR_EVD7_Pos)
+#define EVSYS_INTENCLR_EVD_Pos      16           /**< \brief (EVSYS_INTENCLR) Channel x Event Detection Interrupt Enable */
+#define EVSYS_INTENCLR_EVD_Msk      (_U_(0xFF) << EVSYS_INTENCLR_EVD_Pos)
+#define EVSYS_INTENCLR_EVD(value)   (EVSYS_INTENCLR_EVD_Msk & ((value) << EVSYS_INTENCLR_EVD_Pos))
+#define EVSYS_INTENCLR_MASK         _U_(0x00FF00FF) /**< \brief (EVSYS_INTENCLR) MASK Register */
+
+/* -------- EVSYS_INTENSET : (EVSYS Offset: 0x14) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t OVR0:1;           /*!< bit:      0  Channel 0 Overrun Interrupt Enable */
+    uint32_t OVR1:1;           /*!< bit:      1  Channel 1 Overrun Interrupt Enable */
+    uint32_t OVR2:1;           /*!< bit:      2  Channel 2 Overrun Interrupt Enable */
+    uint32_t OVR3:1;           /*!< bit:      3  Channel 3 Overrun Interrupt Enable */
+    uint32_t OVR4:1;           /*!< bit:      4  Channel 4 Overrun Interrupt Enable */
+    uint32_t OVR5:1;           /*!< bit:      5  Channel 5 Overrun Interrupt Enable */
+    uint32_t OVR6:1;           /*!< bit:      6  Channel 6 Overrun Interrupt Enable */
+    uint32_t OVR7:1;           /*!< bit:      7  Channel 7 Overrun Interrupt Enable */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t EVD0:1;           /*!< bit:     16  Channel 0 Event Detection Interrupt Enable */
+    uint32_t EVD1:1;           /*!< bit:     17  Channel 1 Event Detection Interrupt Enable */
+    uint32_t EVD2:1;           /*!< bit:     18  Channel 2 Event Detection Interrupt Enable */
+    uint32_t EVD3:1;           /*!< bit:     19  Channel 3 Event Detection Interrupt Enable */
+    uint32_t EVD4:1;           /*!< bit:     20  Channel 4 Event Detection Interrupt Enable */
+    uint32_t EVD5:1;           /*!< bit:     21  Channel 5 Event Detection Interrupt Enable */
+    uint32_t EVD6:1;           /*!< bit:     22  Channel 6 Event Detection Interrupt Enable */
+    uint32_t EVD7:1;           /*!< bit:     23  Channel 7 Event Detection Interrupt Enable */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t OVR:8;            /*!< bit:  0.. 7  Channel x Overrun Interrupt Enable */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t EVD:8;            /*!< bit: 16..23  Channel x Event Detection Interrupt Enable */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_INTENSET_OFFSET       0x14         /**< \brief (EVSYS_INTENSET offset) Interrupt Enable Set */
+#define EVSYS_INTENSET_RESETVALUE   _U_(0x00000000) /**< \brief (EVSYS_INTENSET reset_value) Interrupt Enable Set */
+
+#define EVSYS_INTENSET_OVR0_Pos     0            /**< \brief (EVSYS_INTENSET) Channel 0 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR0         (_U_(1) << EVSYS_INTENSET_OVR0_Pos)
+#define EVSYS_INTENSET_OVR1_Pos     1            /**< \brief (EVSYS_INTENSET) Channel 1 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR1         (_U_(1) << EVSYS_INTENSET_OVR1_Pos)
+#define EVSYS_INTENSET_OVR2_Pos     2            /**< \brief (EVSYS_INTENSET) Channel 2 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR2         (_U_(1) << EVSYS_INTENSET_OVR2_Pos)
+#define EVSYS_INTENSET_OVR3_Pos     3            /**< \brief (EVSYS_INTENSET) Channel 3 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR3         (_U_(1) << EVSYS_INTENSET_OVR3_Pos)
+#define EVSYS_INTENSET_OVR4_Pos     4            /**< \brief (EVSYS_INTENSET) Channel 4 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR4         (_U_(1) << EVSYS_INTENSET_OVR4_Pos)
+#define EVSYS_INTENSET_OVR5_Pos     5            /**< \brief (EVSYS_INTENSET) Channel 5 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR5         (_U_(1) << EVSYS_INTENSET_OVR5_Pos)
+#define EVSYS_INTENSET_OVR6_Pos     6            /**< \brief (EVSYS_INTENSET) Channel 6 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR6         (_U_(1) << EVSYS_INTENSET_OVR6_Pos)
+#define EVSYS_INTENSET_OVR7_Pos     7            /**< \brief (EVSYS_INTENSET) Channel 7 Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR7         (_U_(1) << EVSYS_INTENSET_OVR7_Pos)
+#define EVSYS_INTENSET_OVR_Pos      0            /**< \brief (EVSYS_INTENSET) Channel x Overrun Interrupt Enable */
+#define EVSYS_INTENSET_OVR_Msk      (_U_(0xFF) << EVSYS_INTENSET_OVR_Pos)
+#define EVSYS_INTENSET_OVR(value)   (EVSYS_INTENSET_OVR_Msk & ((value) << EVSYS_INTENSET_OVR_Pos))
+#define EVSYS_INTENSET_EVD0_Pos     16           /**< \brief (EVSYS_INTENSET) Channel 0 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD0         (_U_(1) << EVSYS_INTENSET_EVD0_Pos)
+#define EVSYS_INTENSET_EVD1_Pos     17           /**< \brief (EVSYS_INTENSET) Channel 1 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD1         (_U_(1) << EVSYS_INTENSET_EVD1_Pos)
+#define EVSYS_INTENSET_EVD2_Pos     18           /**< \brief (EVSYS_INTENSET) Channel 2 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD2         (_U_(1) << EVSYS_INTENSET_EVD2_Pos)
+#define EVSYS_INTENSET_EVD3_Pos     19           /**< \brief (EVSYS_INTENSET) Channel 3 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD3         (_U_(1) << EVSYS_INTENSET_EVD3_Pos)
+#define EVSYS_INTENSET_EVD4_Pos     20           /**< \brief (EVSYS_INTENSET) Channel 4 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD4         (_U_(1) << EVSYS_INTENSET_EVD4_Pos)
+#define EVSYS_INTENSET_EVD5_Pos     21           /**< \brief (EVSYS_INTENSET) Channel 5 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD5         (_U_(1) << EVSYS_INTENSET_EVD5_Pos)
+#define EVSYS_INTENSET_EVD6_Pos     22           /**< \brief (EVSYS_INTENSET) Channel 6 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD6         (_U_(1) << EVSYS_INTENSET_EVD6_Pos)
+#define EVSYS_INTENSET_EVD7_Pos     23           /**< \brief (EVSYS_INTENSET) Channel 7 Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD7         (_U_(1) << EVSYS_INTENSET_EVD7_Pos)
+#define EVSYS_INTENSET_EVD_Pos      16           /**< \brief (EVSYS_INTENSET) Channel x Event Detection Interrupt Enable */
+#define EVSYS_INTENSET_EVD_Msk      (_U_(0xFF) << EVSYS_INTENSET_EVD_Pos)
+#define EVSYS_INTENSET_EVD(value)   (EVSYS_INTENSET_EVD_Msk & ((value) << EVSYS_INTENSET_EVD_Pos))
+#define EVSYS_INTENSET_MASK         _U_(0x00FF00FF) /**< \brief (EVSYS_INTENSET) MASK Register */
+
+/* -------- EVSYS_INTFLAG : (EVSYS Offset: 0x18) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t OVR0:1;           /*!< bit:      0  Channel 0 Overrun                  */
+    __I uint32_t OVR1:1;           /*!< bit:      1  Channel 1 Overrun                  */
+    __I uint32_t OVR2:1;           /*!< bit:      2  Channel 2 Overrun                  */
+    __I uint32_t OVR3:1;           /*!< bit:      3  Channel 3 Overrun                  */
+    __I uint32_t OVR4:1;           /*!< bit:      4  Channel 4 Overrun                  */
+    __I uint32_t OVR5:1;           /*!< bit:      5  Channel 5 Overrun                  */
+    __I uint32_t OVR6:1;           /*!< bit:      6  Channel 6 Overrun                  */
+    __I uint32_t OVR7:1;           /*!< bit:      7  Channel 7 Overrun                  */
+    __I uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    __I uint32_t EVD0:1;           /*!< bit:     16  Channel 0 Event Detection          */
+    __I uint32_t EVD1:1;           /*!< bit:     17  Channel 1 Event Detection          */
+    __I uint32_t EVD2:1;           /*!< bit:     18  Channel 2 Event Detection          */
+    __I uint32_t EVD3:1;           /*!< bit:     19  Channel 3 Event Detection          */
+    __I uint32_t EVD4:1;           /*!< bit:     20  Channel 4 Event Detection          */
+    __I uint32_t EVD5:1;           /*!< bit:     21  Channel 5 Event Detection          */
+    __I uint32_t EVD6:1;           /*!< bit:     22  Channel 6 Event Detection          */
+    __I uint32_t EVD7:1;           /*!< bit:     23  Channel 7 Event Detection          */
+    __I uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint32_t OVR:8;            /*!< bit:  0.. 7  Channel x Overrun                  */
+    __I uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    __I uint32_t EVD:8;            /*!< bit: 16..23  Channel x Event Detection          */
+    __I uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_INTFLAG_OFFSET        0x18         /**< \brief (EVSYS_INTFLAG offset) Interrupt Flag Status and Clear */
+#define EVSYS_INTFLAG_RESETVALUE    _U_(0x00000000) /**< \brief (EVSYS_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define EVSYS_INTFLAG_OVR0_Pos      0            /**< \brief (EVSYS_INTFLAG) Channel 0 Overrun */
+#define EVSYS_INTFLAG_OVR0          (_U_(1) << EVSYS_INTFLAG_OVR0_Pos)
+#define EVSYS_INTFLAG_OVR1_Pos      1            /**< \brief (EVSYS_INTFLAG) Channel 1 Overrun */
+#define EVSYS_INTFLAG_OVR1          (_U_(1) << EVSYS_INTFLAG_OVR1_Pos)
+#define EVSYS_INTFLAG_OVR2_Pos      2            /**< \brief (EVSYS_INTFLAG) Channel 2 Overrun */
+#define EVSYS_INTFLAG_OVR2          (_U_(1) << EVSYS_INTFLAG_OVR2_Pos)
+#define EVSYS_INTFLAG_OVR3_Pos      3            /**< \brief (EVSYS_INTFLAG) Channel 3 Overrun */
+#define EVSYS_INTFLAG_OVR3          (_U_(1) << EVSYS_INTFLAG_OVR3_Pos)
+#define EVSYS_INTFLAG_OVR4_Pos      4            /**< \brief (EVSYS_INTFLAG) Channel 4 Overrun */
+#define EVSYS_INTFLAG_OVR4          (_U_(1) << EVSYS_INTFLAG_OVR4_Pos)
+#define EVSYS_INTFLAG_OVR5_Pos      5            /**< \brief (EVSYS_INTFLAG) Channel 5 Overrun */
+#define EVSYS_INTFLAG_OVR5          (_U_(1) << EVSYS_INTFLAG_OVR5_Pos)
+#define EVSYS_INTFLAG_OVR6_Pos      6            /**< \brief (EVSYS_INTFLAG) Channel 6 Overrun */
+#define EVSYS_INTFLAG_OVR6          (_U_(1) << EVSYS_INTFLAG_OVR6_Pos)
+#define EVSYS_INTFLAG_OVR7_Pos      7            /**< \brief (EVSYS_INTFLAG) Channel 7 Overrun */
+#define EVSYS_INTFLAG_OVR7          (_U_(1) << EVSYS_INTFLAG_OVR7_Pos)
+#define EVSYS_INTFLAG_OVR_Pos       0            /**< \brief (EVSYS_INTFLAG) Channel x Overrun */
+#define EVSYS_INTFLAG_OVR_Msk       (_U_(0xFF) << EVSYS_INTFLAG_OVR_Pos)
+#define EVSYS_INTFLAG_OVR(value)    (EVSYS_INTFLAG_OVR_Msk & ((value) << EVSYS_INTFLAG_OVR_Pos))
+#define EVSYS_INTFLAG_EVD0_Pos      16           /**< \brief (EVSYS_INTFLAG) Channel 0 Event Detection */
+#define EVSYS_INTFLAG_EVD0          (_U_(1) << EVSYS_INTFLAG_EVD0_Pos)
+#define EVSYS_INTFLAG_EVD1_Pos      17           /**< \brief (EVSYS_INTFLAG) Channel 1 Event Detection */
+#define EVSYS_INTFLAG_EVD1          (_U_(1) << EVSYS_INTFLAG_EVD1_Pos)
+#define EVSYS_INTFLAG_EVD2_Pos      18           /**< \brief (EVSYS_INTFLAG) Channel 2 Event Detection */
+#define EVSYS_INTFLAG_EVD2          (_U_(1) << EVSYS_INTFLAG_EVD2_Pos)
+#define EVSYS_INTFLAG_EVD3_Pos      19           /**< \brief (EVSYS_INTFLAG) Channel 3 Event Detection */
+#define EVSYS_INTFLAG_EVD3          (_U_(1) << EVSYS_INTFLAG_EVD3_Pos)
+#define EVSYS_INTFLAG_EVD4_Pos      20           /**< \brief (EVSYS_INTFLAG) Channel 4 Event Detection */
+#define EVSYS_INTFLAG_EVD4          (_U_(1) << EVSYS_INTFLAG_EVD4_Pos)
+#define EVSYS_INTFLAG_EVD5_Pos      21           /**< \brief (EVSYS_INTFLAG) Channel 5 Event Detection */
+#define EVSYS_INTFLAG_EVD5          (_U_(1) << EVSYS_INTFLAG_EVD5_Pos)
+#define EVSYS_INTFLAG_EVD6_Pos      22           /**< \brief (EVSYS_INTFLAG) Channel 6 Event Detection */
+#define EVSYS_INTFLAG_EVD6          (_U_(1) << EVSYS_INTFLAG_EVD6_Pos)
+#define EVSYS_INTFLAG_EVD7_Pos      23           /**< \brief (EVSYS_INTFLAG) Channel 7 Event Detection */
+#define EVSYS_INTFLAG_EVD7          (_U_(1) << EVSYS_INTFLAG_EVD7_Pos)
+#define EVSYS_INTFLAG_EVD_Pos       16           /**< \brief (EVSYS_INTFLAG) Channel x Event Detection */
+#define EVSYS_INTFLAG_EVD_Msk       (_U_(0xFF) << EVSYS_INTFLAG_EVD_Pos)
+#define EVSYS_INTFLAG_EVD(value)    (EVSYS_INTFLAG_EVD_Msk & ((value) << EVSYS_INTFLAG_EVD_Pos))
+#define EVSYS_INTFLAG_MASK          _U_(0x00FF00FF) /**< \brief (EVSYS_INTFLAG) MASK Register */
+
+/* -------- EVSYS_SWEVT : (EVSYS Offset: 0x1C) ( /W 32) Software Event -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CHANNEL0:1;       /*!< bit:      0  Channel 0 Software Selection       */
+    uint32_t CHANNEL1:1;       /*!< bit:      1  Channel 1 Software Selection       */
+    uint32_t CHANNEL2:1;       /*!< bit:      2  Channel 2 Software Selection       */
+    uint32_t CHANNEL3:1;       /*!< bit:      3  Channel 3 Software Selection       */
+    uint32_t CHANNEL4:1;       /*!< bit:      4  Channel 4 Software Selection       */
+    uint32_t CHANNEL5:1;       /*!< bit:      5  Channel 5 Software Selection       */
+    uint32_t CHANNEL6:1;       /*!< bit:      6  Channel 6 Software Selection       */
+    uint32_t CHANNEL7:1;       /*!< bit:      7  Channel 7 Software Selection       */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t CHANNEL:8;        /*!< bit:  0.. 7  Channel x Software Selection       */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_SWEVT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_SWEVT_OFFSET          0x1C         /**< \brief (EVSYS_SWEVT offset) Software Event */
+#define EVSYS_SWEVT_RESETVALUE      _U_(0x00000000) /**< \brief (EVSYS_SWEVT reset_value) Software Event */
+
+#define EVSYS_SWEVT_CHANNEL0_Pos    0            /**< \brief (EVSYS_SWEVT) Channel 0 Software Selection */
+#define EVSYS_SWEVT_CHANNEL0        (_U_(1) << EVSYS_SWEVT_CHANNEL0_Pos)
+#define EVSYS_SWEVT_CHANNEL1_Pos    1            /**< \brief (EVSYS_SWEVT) Channel 1 Software Selection */
+#define EVSYS_SWEVT_CHANNEL1        (_U_(1) << EVSYS_SWEVT_CHANNEL1_Pos)
+#define EVSYS_SWEVT_CHANNEL2_Pos    2            /**< \brief (EVSYS_SWEVT) Channel 2 Software Selection */
+#define EVSYS_SWEVT_CHANNEL2        (_U_(1) << EVSYS_SWEVT_CHANNEL2_Pos)
+#define EVSYS_SWEVT_CHANNEL3_Pos    3            /**< \brief (EVSYS_SWEVT) Channel 3 Software Selection */
+#define EVSYS_SWEVT_CHANNEL3        (_U_(1) << EVSYS_SWEVT_CHANNEL3_Pos)
+#define EVSYS_SWEVT_CHANNEL4_Pos    4            /**< \brief (EVSYS_SWEVT) Channel 4 Software Selection */
+#define EVSYS_SWEVT_CHANNEL4        (_U_(1) << EVSYS_SWEVT_CHANNEL4_Pos)
+#define EVSYS_SWEVT_CHANNEL5_Pos    5            /**< \brief (EVSYS_SWEVT) Channel 5 Software Selection */
+#define EVSYS_SWEVT_CHANNEL5        (_U_(1) << EVSYS_SWEVT_CHANNEL5_Pos)
+#define EVSYS_SWEVT_CHANNEL6_Pos    6            /**< \brief (EVSYS_SWEVT) Channel 6 Software Selection */
+#define EVSYS_SWEVT_CHANNEL6        (_U_(1) << EVSYS_SWEVT_CHANNEL6_Pos)
+#define EVSYS_SWEVT_CHANNEL7_Pos    7            /**< \brief (EVSYS_SWEVT) Channel 7 Software Selection */
+#define EVSYS_SWEVT_CHANNEL7        (_U_(1) << EVSYS_SWEVT_CHANNEL7_Pos)
+#define EVSYS_SWEVT_CHANNEL_Pos     0            /**< \brief (EVSYS_SWEVT) Channel x Software Selection */
+#define EVSYS_SWEVT_CHANNEL_Msk     (_U_(0xFF) << EVSYS_SWEVT_CHANNEL_Pos)
+#define EVSYS_SWEVT_CHANNEL(value)  (EVSYS_SWEVT_CHANNEL_Msk & ((value) << EVSYS_SWEVT_CHANNEL_Pos))
+#define EVSYS_SWEVT_MASK            _U_(0x000000FF) /**< \brief (EVSYS_SWEVT) MASK Register */
+
+/* -------- EVSYS_CHANNEL : (EVSYS Offset: 0x20) (R/W 32) Channel n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EVGEN:7;          /*!< bit:  0.. 6  Event Generator Selection          */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t PATH:2;           /*!< bit:  8.. 9  Path Selection                     */
+    uint32_t EDGSEL:2;         /*!< bit: 10..11  Edge Detection Selection           */
+    uint32_t :2;               /*!< bit: 12..13  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:     14  Run in standby                     */
+    uint32_t ONDEMAND:1;       /*!< bit:     15  Generic Clock On Demand            */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_CHANNEL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_CHANNEL_OFFSET        0x20         /**< \brief (EVSYS_CHANNEL offset) Channel n */
+#define EVSYS_CHANNEL_RESETVALUE    _U_(0x00008000) /**< \brief (EVSYS_CHANNEL reset_value) Channel n */
+
+#define EVSYS_CHANNEL_EVGEN_Pos     0            /**< \brief (EVSYS_CHANNEL) Event Generator Selection */
+#define EVSYS_CHANNEL_EVGEN_Msk     (_U_(0x7F) << EVSYS_CHANNEL_EVGEN_Pos)
+#define EVSYS_CHANNEL_EVGEN(value)  (EVSYS_CHANNEL_EVGEN_Msk & ((value) << EVSYS_CHANNEL_EVGEN_Pos))
+#define EVSYS_CHANNEL_PATH_Pos      8            /**< \brief (EVSYS_CHANNEL) Path Selection */
+#define EVSYS_CHANNEL_PATH_Msk      (_U_(0x3) << EVSYS_CHANNEL_PATH_Pos)
+#define EVSYS_CHANNEL_PATH(value)   (EVSYS_CHANNEL_PATH_Msk & ((value) << EVSYS_CHANNEL_PATH_Pos))
+#define   EVSYS_CHANNEL_PATH_SYNCHRONOUS_Val _U_(0x0)   /**< \brief (EVSYS_CHANNEL) Synchronous path */
+#define   EVSYS_CHANNEL_PATH_RESYNCHRONIZED_Val _U_(0x1)   /**< \brief (EVSYS_CHANNEL) Resynchronized path */
+#define   EVSYS_CHANNEL_PATH_ASYNCHRONOUS_Val _U_(0x2)   /**< \brief (EVSYS_CHANNEL) Asynchronous path */
+#define EVSYS_CHANNEL_PATH_SYNCHRONOUS (EVSYS_CHANNEL_PATH_SYNCHRONOUS_Val << EVSYS_CHANNEL_PATH_Pos)
+#define EVSYS_CHANNEL_PATH_RESYNCHRONIZED (EVSYS_CHANNEL_PATH_RESYNCHRONIZED_Val << EVSYS_CHANNEL_PATH_Pos)
+#define EVSYS_CHANNEL_PATH_ASYNCHRONOUS (EVSYS_CHANNEL_PATH_ASYNCHRONOUS_Val << EVSYS_CHANNEL_PATH_Pos)
+#define EVSYS_CHANNEL_EDGSEL_Pos    10           /**< \brief (EVSYS_CHANNEL) Edge Detection Selection */
+#define EVSYS_CHANNEL_EDGSEL_Msk    (_U_(0x3) << EVSYS_CHANNEL_EDGSEL_Pos)
+#define EVSYS_CHANNEL_EDGSEL(value) (EVSYS_CHANNEL_EDGSEL_Msk & ((value) << EVSYS_CHANNEL_EDGSEL_Pos))
+#define   EVSYS_CHANNEL_EDGSEL_NO_EVT_OUTPUT_Val _U_(0x0)   /**< \brief (EVSYS_CHANNEL) No event output when using the resynchronized or synchronous path */
+#define   EVSYS_CHANNEL_EDGSEL_RISING_EDGE_Val _U_(0x1)   /**< \brief (EVSYS_CHANNEL) Event detection only on the rising edge of the signal from the event generator when using the resynchronized or synchronous path */
+#define   EVSYS_CHANNEL_EDGSEL_FALLING_EDGE_Val _U_(0x2)   /**< \brief (EVSYS_CHANNEL) Event detection only on the falling edge of the signal from the event generator when using the resynchronized or synchronous path */
+#define   EVSYS_CHANNEL_EDGSEL_BOTH_EDGES_Val _U_(0x3)   /**< \brief (EVSYS_CHANNEL) Event detection on rising and falling edges of the signal from the event generator when using the resynchronized or synchronous path */
+#define EVSYS_CHANNEL_EDGSEL_NO_EVT_OUTPUT (EVSYS_CHANNEL_EDGSEL_NO_EVT_OUTPUT_Val << EVSYS_CHANNEL_EDGSEL_Pos)
+#define EVSYS_CHANNEL_EDGSEL_RISING_EDGE (EVSYS_CHANNEL_EDGSEL_RISING_EDGE_Val << EVSYS_CHANNEL_EDGSEL_Pos)
+#define EVSYS_CHANNEL_EDGSEL_FALLING_EDGE (EVSYS_CHANNEL_EDGSEL_FALLING_EDGE_Val << EVSYS_CHANNEL_EDGSEL_Pos)
+#define EVSYS_CHANNEL_EDGSEL_BOTH_EDGES (EVSYS_CHANNEL_EDGSEL_BOTH_EDGES_Val << EVSYS_CHANNEL_EDGSEL_Pos)
+#define EVSYS_CHANNEL_RUNSTDBY_Pos  14           /**< \brief (EVSYS_CHANNEL) Run in standby */
+#define EVSYS_CHANNEL_RUNSTDBY      (_U_(0x1) << EVSYS_CHANNEL_RUNSTDBY_Pos)
+#define EVSYS_CHANNEL_ONDEMAND_Pos  15           /**< \brief (EVSYS_CHANNEL) Generic Clock On Demand */
+#define EVSYS_CHANNEL_ONDEMAND      (_U_(0x1) << EVSYS_CHANNEL_ONDEMAND_Pos)
+#define EVSYS_CHANNEL_MASK          _U_(0x0000CF7F) /**< \brief (EVSYS_CHANNEL) MASK Register */
+
+/* -------- EVSYS_USER : (EVSYS Offset: 0x80) (R/W 32) User Multiplexer n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CHANNEL:4;        /*!< bit:  0.. 3  Channel Event Selection            */
+    uint32_t :28;              /*!< bit:  4..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} EVSYS_USER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define EVSYS_USER_OFFSET           0x80         /**< \brief (EVSYS_USER offset) User Multiplexer n */
+#define EVSYS_USER_RESETVALUE       _U_(0x00000000) /**< \brief (EVSYS_USER reset_value) User Multiplexer n */
+
+#define EVSYS_USER_CHANNEL_Pos      0            /**< \brief (EVSYS_USER) Channel Event Selection */
+#define EVSYS_USER_CHANNEL_Msk      (_U_(0xF) << EVSYS_USER_CHANNEL_Pos)
+#define EVSYS_USER_CHANNEL(value)   (EVSYS_USER_CHANNEL_Msk & ((value) << EVSYS_USER_CHANNEL_Pos))
+#define EVSYS_USER_MASK             _U_(0x0000000F) /**< \brief (EVSYS_USER) MASK Register */
+
+/** \brief EVSYS hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO EVSYS_CTRLA_Type          CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control */
+       RoReg8                    Reserved1[0xB];
+  __I  EVSYS_CHSTATUS_Type       CHSTATUS;    /**< \brief Offset: 0x0C (R/  32) Channel Status */
+  __IO EVSYS_INTENCLR_Type       INTENCLR;    /**< \brief Offset: 0x10 (R/W 32) Interrupt Enable Clear */
+  __IO EVSYS_INTENSET_Type       INTENSET;    /**< \brief Offset: 0x14 (R/W 32) Interrupt Enable Set */
+  __IO EVSYS_INTFLAG_Type        INTFLAG;     /**< \brief Offset: 0x18 (R/W 32) Interrupt Flag Status and Clear */
+  __O  EVSYS_SWEVT_Type          SWEVT;       /**< \brief Offset: 0x1C ( /W 32) Software Event */
+  __IO EVSYS_CHANNEL_Type        CHANNEL[8];  /**< \brief Offset: 0x20 (R/W 32) Channel n */
+       RoReg8                    Reserved2[0x40];
+  __IO EVSYS_USER_Type           USER[31];    /**< \brief Offset: 0x80 (R/W 32) User Multiplexer n */
+} Evsys;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_EVSYS_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/freqm.h b/watch-library/hardware/include/component/freqm.h
new file mode 100644
index 00000000..9147ba32
--- /dev/null
+++ b/watch-library/hardware/include/component/freqm.h
@@ -0,0 +1,233 @@
+/**
+ * \file
+ *
+ * \brief Component description for FREQM
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_FREQM_COMPONENT_
+#define _SAML22_FREQM_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR FREQM */
+/* ========================================================================== */
+/** \addtogroup SAML22_FREQM Frequency Meter */
+/*@{*/
+
+#define FREQM_U2257
+#define REV_FREQM                   0x101
+
+/* -------- FREQM_CTRLA : (FREQM Offset: 0x00) (R/W  8) Control A Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_CTRLA_OFFSET          0x00         /**< \brief (FREQM_CTRLA offset) Control A Register */
+#define FREQM_CTRLA_RESETVALUE      _U_(0x00)    /**< \brief (FREQM_CTRLA reset_value) Control A Register */
+
+#define FREQM_CTRLA_SWRST_Pos       0            /**< \brief (FREQM_CTRLA) Software Reset */
+#define FREQM_CTRLA_SWRST           (_U_(0x1) << FREQM_CTRLA_SWRST_Pos)
+#define FREQM_CTRLA_ENABLE_Pos      1            /**< \brief (FREQM_CTRLA) Enable */
+#define FREQM_CTRLA_ENABLE          (_U_(0x1) << FREQM_CTRLA_ENABLE_Pos)
+#define FREQM_CTRLA_MASK            _U_(0x03)    /**< \brief (FREQM_CTRLA) MASK Register */
+
+/* -------- FREQM_CTRLB : (FREQM Offset: 0x01) ( /W  8) Control B Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  START:1;          /*!< bit:      0  Start Measurement                  */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_CTRLB_OFFSET          0x01         /**< \brief (FREQM_CTRLB offset) Control B Register */
+#define FREQM_CTRLB_RESETVALUE      _U_(0x00)    /**< \brief (FREQM_CTRLB reset_value) Control B Register */
+
+#define FREQM_CTRLB_START_Pos       0            /**< \brief (FREQM_CTRLB) Start Measurement */
+#define FREQM_CTRLB_START           (_U_(0x1) << FREQM_CTRLB_START_Pos)
+#define FREQM_CTRLB_MASK            _U_(0x01)    /**< \brief (FREQM_CTRLB) MASK Register */
+
+/* -------- FREQM_CFGA : (FREQM Offset: 0x02) (R/W 16) Config A register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t REFNUM:8;         /*!< bit:  0.. 7  Number of Reference Clock Cycles   */
+    uint16_t :8;               /*!< bit:  8..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} FREQM_CFGA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_CFGA_OFFSET           0x02         /**< \brief (FREQM_CFGA offset) Config A register */
+#define FREQM_CFGA_RESETVALUE       _U_(0x0000)  /**< \brief (FREQM_CFGA reset_value) Config A register */
+
+#define FREQM_CFGA_REFNUM_Pos       0            /**< \brief (FREQM_CFGA) Number of Reference Clock Cycles */
+#define FREQM_CFGA_REFNUM_Msk       (_U_(0xFF) << FREQM_CFGA_REFNUM_Pos)
+#define FREQM_CFGA_REFNUM(value)    (FREQM_CFGA_REFNUM_Msk & ((value) << FREQM_CFGA_REFNUM_Pos))
+#define FREQM_CFGA_MASK             _U_(0x00FF)  /**< \brief (FREQM_CFGA) MASK Register */
+
+/* -------- FREQM_INTENCLR : (FREQM Offset: 0x08) (R/W  8) Interrupt Enable Clear Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DONE:1;           /*!< bit:      0  Measurement Done Interrupt Enable  */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_INTENCLR_OFFSET       0x08         /**< \brief (FREQM_INTENCLR offset) Interrupt Enable Clear Register */
+#define FREQM_INTENCLR_RESETVALUE   _U_(0x00)    /**< \brief (FREQM_INTENCLR reset_value) Interrupt Enable Clear Register */
+
+#define FREQM_INTENCLR_DONE_Pos     0            /**< \brief (FREQM_INTENCLR) Measurement Done Interrupt Enable */
+#define FREQM_INTENCLR_DONE         (_U_(0x1) << FREQM_INTENCLR_DONE_Pos)
+#define FREQM_INTENCLR_MASK         _U_(0x01)    /**< \brief (FREQM_INTENCLR) MASK Register */
+
+/* -------- FREQM_INTENSET : (FREQM Offset: 0x09) (R/W  8) Interrupt Enable Set Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DONE:1;           /*!< bit:      0  Measurement Done Interrupt Enable  */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_INTENSET_OFFSET       0x09         /**< \brief (FREQM_INTENSET offset) Interrupt Enable Set Register */
+#define FREQM_INTENSET_RESETVALUE   _U_(0x00)    /**< \brief (FREQM_INTENSET reset_value) Interrupt Enable Set Register */
+
+#define FREQM_INTENSET_DONE_Pos     0            /**< \brief (FREQM_INTENSET) Measurement Done Interrupt Enable */
+#define FREQM_INTENSET_DONE         (_U_(0x1) << FREQM_INTENSET_DONE_Pos)
+#define FREQM_INTENSET_MASK         _U_(0x01)    /**< \brief (FREQM_INTENSET) MASK Register */
+
+/* -------- FREQM_INTFLAG : (FREQM Offset: 0x0A) (R/W  8) Interrupt Flag Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  DONE:1;           /*!< bit:      0  Measurement Done                   */
+    __I uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_INTFLAG_OFFSET        0x0A         /**< \brief (FREQM_INTFLAG offset) Interrupt Flag Register */
+#define FREQM_INTFLAG_RESETVALUE    _U_(0x00)    /**< \brief (FREQM_INTFLAG reset_value) Interrupt Flag Register */
+
+#define FREQM_INTFLAG_DONE_Pos      0            /**< \brief (FREQM_INTFLAG) Measurement Done */
+#define FREQM_INTFLAG_DONE          (_U_(0x1) << FREQM_INTFLAG_DONE_Pos)
+#define FREQM_INTFLAG_MASK          _U_(0x01)    /**< \brief (FREQM_INTFLAG) MASK Register */
+
+/* -------- FREQM_STATUS : (FREQM Offset: 0x0B) (R/W  8) Status Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  BUSY:1;           /*!< bit:      0  FREQM Status                       */
+    uint8_t  OVF:1;            /*!< bit:      1  Sticky Count Value Overflow        */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} FREQM_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_STATUS_OFFSET         0x0B         /**< \brief (FREQM_STATUS offset) Status Register */
+#define FREQM_STATUS_RESETVALUE     _U_(0x00)    /**< \brief (FREQM_STATUS reset_value) Status Register */
+
+#define FREQM_STATUS_BUSY_Pos       0            /**< \brief (FREQM_STATUS) FREQM Status */
+#define FREQM_STATUS_BUSY           (_U_(0x1) << FREQM_STATUS_BUSY_Pos)
+#define FREQM_STATUS_OVF_Pos        1            /**< \brief (FREQM_STATUS) Sticky Count Value Overflow */
+#define FREQM_STATUS_OVF            (_U_(0x1) << FREQM_STATUS_OVF_Pos)
+#define FREQM_STATUS_MASK           _U_(0x03)    /**< \brief (FREQM_STATUS) MASK Register */
+
+/* -------- FREQM_SYNCBUSY : (FREQM Offset: 0x0C) (R/  32) Synchronization Busy Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t :30;              /*!< bit:  2..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} FREQM_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_SYNCBUSY_OFFSET       0x0C         /**< \brief (FREQM_SYNCBUSY offset) Synchronization Busy Register */
+#define FREQM_SYNCBUSY_RESETVALUE   _U_(0x00000000) /**< \brief (FREQM_SYNCBUSY reset_value) Synchronization Busy Register */
+
+#define FREQM_SYNCBUSY_SWRST_Pos    0            /**< \brief (FREQM_SYNCBUSY) Software Reset */
+#define FREQM_SYNCBUSY_SWRST        (_U_(0x1) << FREQM_SYNCBUSY_SWRST_Pos)
+#define FREQM_SYNCBUSY_ENABLE_Pos   1            /**< \brief (FREQM_SYNCBUSY) Enable */
+#define FREQM_SYNCBUSY_ENABLE       (_U_(0x1) << FREQM_SYNCBUSY_ENABLE_Pos)
+#define FREQM_SYNCBUSY_MASK         _U_(0x00000003) /**< \brief (FREQM_SYNCBUSY) MASK Register */
+
+/* -------- FREQM_VALUE : (FREQM Offset: 0x10) (R/  32) Count Value Register -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t VALUE:24;         /*!< bit:  0..23  Measurement Value                  */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} FREQM_VALUE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define FREQM_VALUE_OFFSET          0x10         /**< \brief (FREQM_VALUE offset) Count Value Register */
+#define FREQM_VALUE_RESETVALUE      _U_(0x00000000) /**< \brief (FREQM_VALUE reset_value) Count Value Register */
+
+#define FREQM_VALUE_VALUE_Pos       0            /**< \brief (FREQM_VALUE) Measurement Value */
+#define FREQM_VALUE_VALUE_Msk       (_U_(0xFFFFFF) << FREQM_VALUE_VALUE_Pos)
+#define FREQM_VALUE_VALUE(value)    (FREQM_VALUE_VALUE_Msk & ((value) << FREQM_VALUE_VALUE_Pos))
+#define FREQM_VALUE_MASK            _U_(0x00FFFFFF) /**< \brief (FREQM_VALUE) MASK Register */
+
+/** \brief FREQM hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO FREQM_CTRLA_Type          CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control A Register */
+  __O  FREQM_CTRLB_Type          CTRLB;       /**< \brief Offset: 0x01 ( /W  8) Control B Register */
+  __IO FREQM_CFGA_Type           CFGA;        /**< \brief Offset: 0x02 (R/W 16) Config A register */
+       RoReg8                    Reserved1[0x4];
+  __IO FREQM_INTENCLR_Type       INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt Enable Clear Register */
+  __IO FREQM_INTENSET_Type       INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt Enable Set Register */
+  __IO FREQM_INTFLAG_Type        INTFLAG;     /**< \brief Offset: 0x0A (R/W  8) Interrupt Flag Register */
+  __IO FREQM_STATUS_Type         STATUS;      /**< \brief Offset: 0x0B (R/W  8) Status Register */
+  __I  FREQM_SYNCBUSY_Type       SYNCBUSY;    /**< \brief Offset: 0x0C (R/  32) Synchronization Busy Register */
+  __I  FREQM_VALUE_Type          VALUE;       /**< \brief Offset: 0x10 (R/  32) Count Value Register */
+} Freqm;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_FREQM_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/gclk.h b/watch-library/hardware/include/component/gclk.h
new file mode 100644
index 00000000..41da1846
--- /dev/null
+++ b/watch-library/hardware/include/component/gclk.h
@@ -0,0 +1,221 @@
+/**
+ * \file
+ *
+ * \brief Component description for GCLK
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_GCLK_COMPONENT_
+#define _SAML22_GCLK_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR GCLK */
+/* ========================================================================== */
+/** \addtogroup SAML22_GCLK Generic Clock Generator */
+/*@{*/
+
+#define GCLK_U2122
+#define REV_GCLK                    0x111
+
+/* -------- GCLK_CTRLA : (GCLK Offset: 0x00) (R/W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} GCLK_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define GCLK_CTRLA_OFFSET           0x00         /**< \brief (GCLK_CTRLA offset) Control */
+#define GCLK_CTRLA_RESETVALUE       _U_(0x00)    /**< \brief (GCLK_CTRLA reset_value) Control */
+
+#define GCLK_CTRLA_SWRST_Pos        0            /**< \brief (GCLK_CTRLA) Software Reset */
+#define GCLK_CTRLA_SWRST            (_U_(0x1) << GCLK_CTRLA_SWRST_Pos)
+#define GCLK_CTRLA_MASK             _U_(0x01)    /**< \brief (GCLK_CTRLA) MASK Register */
+
+/* -------- GCLK_SYNCBUSY : (GCLK Offset: 0x04) (R/  32) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchroniation Busy bit */
+    uint32_t :1;               /*!< bit:      1  Reserved                           */
+    uint32_t GENCTRL0:1;       /*!< bit:      2  Generic Clock Generator Control 0 Synchronization Busy bits */
+    uint32_t GENCTRL1:1;       /*!< bit:      3  Generic Clock Generator Control 1 Synchronization Busy bits */
+    uint32_t GENCTRL2:1;       /*!< bit:      4  Generic Clock Generator Control 2 Synchronization Busy bits */
+    uint32_t GENCTRL3:1;       /*!< bit:      5  Generic Clock Generator Control 3 Synchronization Busy bits */
+    uint32_t GENCTRL4:1;       /*!< bit:      6  Generic Clock Generator Control 4 Synchronization Busy bits */
+    uint32_t :25;              /*!< bit:  7..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint32_t GENCTRL:5;        /*!< bit:  2.. 6  Generic Clock Generator Control x Synchronization Busy bits */
+    uint32_t :25;              /*!< bit:  7..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} GCLK_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define GCLK_SYNCBUSY_OFFSET        0x04         /**< \brief (GCLK_SYNCBUSY offset) Synchronization Busy */
+#define GCLK_SYNCBUSY_RESETVALUE    _U_(0x00000000) /**< \brief (GCLK_SYNCBUSY reset_value) Synchronization Busy */
+
+#define GCLK_SYNCBUSY_SWRST_Pos     0            /**< \brief (GCLK_SYNCBUSY) Software Reset Synchroniation Busy bit */
+#define GCLK_SYNCBUSY_SWRST         (_U_(0x1) << GCLK_SYNCBUSY_SWRST_Pos)
+#define GCLK_SYNCBUSY_GENCTRL0_Pos  2            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control 0 Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL0      (_U_(1) << GCLK_SYNCBUSY_GENCTRL0_Pos)
+#define GCLK_SYNCBUSY_GENCTRL1_Pos  3            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control 1 Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL1      (_U_(1) << GCLK_SYNCBUSY_GENCTRL1_Pos)
+#define GCLK_SYNCBUSY_GENCTRL2_Pos  4            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control 2 Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL2      (_U_(1) << GCLK_SYNCBUSY_GENCTRL2_Pos)
+#define GCLK_SYNCBUSY_GENCTRL3_Pos  5            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control 3 Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL3      (_U_(1) << GCLK_SYNCBUSY_GENCTRL3_Pos)
+#define GCLK_SYNCBUSY_GENCTRL4_Pos  6            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control 4 Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL4      (_U_(1) << GCLK_SYNCBUSY_GENCTRL4_Pos)
+#define GCLK_SYNCBUSY_GENCTRL_Pos   2            /**< \brief (GCLK_SYNCBUSY) Generic Clock Generator Control x Synchronization Busy bits */
+#define GCLK_SYNCBUSY_GENCTRL_Msk   (_U_(0x1F) << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_GENCTRL(value) (GCLK_SYNCBUSY_GENCTRL_Msk & ((value) << GCLK_SYNCBUSY_GENCTRL_Pos))
+#define   GCLK_SYNCBUSY_GENCTRL_GCLK0_Val _U_(0x1)   /**< \brief (GCLK_SYNCBUSY) Generic clock generator 0 */
+#define   GCLK_SYNCBUSY_GENCTRL_GCLK1_Val _U_(0x2)   /**< \brief (GCLK_SYNCBUSY) Generic clock generator 1 */
+#define   GCLK_SYNCBUSY_GENCTRL_GCLK2_Val _U_(0x4)   /**< \brief (GCLK_SYNCBUSY) Generic clock generator 2 */
+#define   GCLK_SYNCBUSY_GENCTRL_GCLK3_Val _U_(0x8)   /**< \brief (GCLK_SYNCBUSY) Generic clock generator 3 */
+#define   GCLK_SYNCBUSY_GENCTRL_GCLK4_Val _U_(0x10)   /**< \brief (GCLK_SYNCBUSY) Generic clock generator 4 */
+#define GCLK_SYNCBUSY_GENCTRL_GCLK0 (GCLK_SYNCBUSY_GENCTRL_GCLK0_Val << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_GENCTRL_GCLK1 (GCLK_SYNCBUSY_GENCTRL_GCLK1_Val << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_GENCTRL_GCLK2 (GCLK_SYNCBUSY_GENCTRL_GCLK2_Val << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_GENCTRL_GCLK3 (GCLK_SYNCBUSY_GENCTRL_GCLK3_Val << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_GENCTRL_GCLK4 (GCLK_SYNCBUSY_GENCTRL_GCLK4_Val << GCLK_SYNCBUSY_GENCTRL_Pos)
+#define GCLK_SYNCBUSY_MASK          _U_(0x0000007D) /**< \brief (GCLK_SYNCBUSY) MASK Register */
+
+/* -------- GCLK_GENCTRL : (GCLK Offset: 0x20) (R/W 32) Generic Clock Generator Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SRC:3;            /*!< bit:  0.. 2  Source Select                      */
+    uint32_t :5;               /*!< bit:  3.. 7  Reserved                           */
+    uint32_t GENEN:1;          /*!< bit:      8  Generic Clock Generator Enable     */
+    uint32_t IDC:1;            /*!< bit:      9  Improve Duty Cycle                 */
+    uint32_t OOV:1;            /*!< bit:     10  Output Off Value                   */
+    uint32_t OE:1;             /*!< bit:     11  Output Enable                      */
+    uint32_t DIVSEL:1;         /*!< bit:     12  Divide Selection                   */
+    uint32_t RUNSTDBY:1;       /*!< bit:     13  Run in Standby                     */
+    uint32_t :2;               /*!< bit: 14..15  Reserved                           */
+    uint32_t DIV:16;           /*!< bit: 16..31  Division Factor                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} GCLK_GENCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define GCLK_GENCTRL_OFFSET         0x20         /**< \brief (GCLK_GENCTRL offset) Generic Clock Generator Control */
+#define GCLK_GENCTRL_RESETVALUE     _U_(0x00000000) /**< \brief (GCLK_GENCTRL reset_value) Generic Clock Generator Control */
+
+#define GCLK_GENCTRL_SRC_Pos        0            /**< \brief (GCLK_GENCTRL) Source Select */
+#define GCLK_GENCTRL_SRC_Msk        (_U_(0x7) << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC(value)     (GCLK_GENCTRL_SRC_Msk & ((value) << GCLK_GENCTRL_SRC_Pos))
+#define   GCLK_GENCTRL_SRC_XOSC_Val       _U_(0x0)   /**< \brief (GCLK_GENCTRL) XOSC oscillator output */
+#define   GCLK_GENCTRL_SRC_GCLKIN_Val     _U_(0x1)   /**< \brief (GCLK_GENCTRL) Generator input pad */
+#define   GCLK_GENCTRL_SRC_GCLKGEN1_Val   _U_(0x2)   /**< \brief (GCLK_GENCTRL) Generic clock generator 1 output */
+#define   GCLK_GENCTRL_SRC_OSCULP32K_Val  _U_(0x3)   /**< \brief (GCLK_GENCTRL) OSCULP32K oscillator output */
+#define   GCLK_GENCTRL_SRC_XOSC32K_Val    _U_(0x4)   /**< \brief (GCLK_GENCTRL) XOSC32K oscillator output */
+#define   GCLK_GENCTRL_SRC_OSC16M_Val     _U_(0x5)   /**< \brief (GCLK_GENCTRL) OSC16M oscillator output */
+#define   GCLK_GENCTRL_SRC_DFLL48M_Val    _U_(0x6)   /**< \brief (GCLK_GENCTRL) DFLL48M output */
+#define   GCLK_GENCTRL_SRC_DPLL96M_Val    _U_(0x7)   /**< \brief (GCLK_GENCTRL) DPLL96M output */
+#define GCLK_GENCTRL_SRC_XOSC       (GCLK_GENCTRL_SRC_XOSC_Val     << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_GCLKIN     (GCLK_GENCTRL_SRC_GCLKIN_Val   << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_GCLKGEN1   (GCLK_GENCTRL_SRC_GCLKGEN1_Val << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_OSCULP32K  (GCLK_GENCTRL_SRC_OSCULP32K_Val << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_XOSC32K    (GCLK_GENCTRL_SRC_XOSC32K_Val  << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_OSC16M     (GCLK_GENCTRL_SRC_OSC16M_Val   << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_DFLL48M    (GCLK_GENCTRL_SRC_DFLL48M_Val  << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_SRC_DPLL96M    (GCLK_GENCTRL_SRC_DPLL96M_Val  << GCLK_GENCTRL_SRC_Pos)
+#define GCLK_GENCTRL_GENEN_Pos      8            /**< \brief (GCLK_GENCTRL) Generic Clock Generator Enable */
+#define GCLK_GENCTRL_GENEN          (_U_(0x1) << GCLK_GENCTRL_GENEN_Pos)
+#define GCLK_GENCTRL_IDC_Pos        9            /**< \brief (GCLK_GENCTRL) Improve Duty Cycle */
+#define GCLK_GENCTRL_IDC            (_U_(0x1) << GCLK_GENCTRL_IDC_Pos)
+#define GCLK_GENCTRL_OOV_Pos        10           /**< \brief (GCLK_GENCTRL) Output Off Value */
+#define GCLK_GENCTRL_OOV            (_U_(0x1) << GCLK_GENCTRL_OOV_Pos)
+#define GCLK_GENCTRL_OE_Pos         11           /**< \brief (GCLK_GENCTRL) Output Enable */
+#define GCLK_GENCTRL_OE             (_U_(0x1) << GCLK_GENCTRL_OE_Pos)
+#define GCLK_GENCTRL_DIVSEL_Pos     12           /**< \brief (GCLK_GENCTRL) Divide Selection */
+#define GCLK_GENCTRL_DIVSEL         (_U_(0x1) << GCLK_GENCTRL_DIVSEL_Pos)
+#define GCLK_GENCTRL_RUNSTDBY_Pos   13           /**< \brief (GCLK_GENCTRL) Run in Standby */
+#define GCLK_GENCTRL_RUNSTDBY       (_U_(0x1) << GCLK_GENCTRL_RUNSTDBY_Pos)
+#define GCLK_GENCTRL_DIV_Pos        16           /**< \brief (GCLK_GENCTRL) Division Factor */
+#define GCLK_GENCTRL_DIV_Msk        (_U_(0xFFFF) << GCLK_GENCTRL_DIV_Pos)
+#define GCLK_GENCTRL_DIV(value)     (GCLK_GENCTRL_DIV_Msk & ((value) << GCLK_GENCTRL_DIV_Pos))
+#define GCLK_GENCTRL_MASK           _U_(0xFFFF3F07) /**< \brief (GCLK_GENCTRL) MASK Register */
+
+/* -------- GCLK_PCHCTRL : (GCLK Offset: 0x80) (R/W 32) Peripheral Clock Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t GEN:3;            /*!< bit:  0.. 2  Generic Clock Generator            */
+    uint32_t :3;               /*!< bit:  3.. 5  Reserved                           */
+    uint32_t CHEN:1;           /*!< bit:      6  Channel Enable                     */
+    uint32_t WRTLOCK:1;        /*!< bit:      7  Write Lock                         */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} GCLK_PCHCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define GCLK_PCHCTRL_OFFSET         0x80         /**< \brief (GCLK_PCHCTRL offset) Peripheral Clock Control */
+#define GCLK_PCHCTRL_RESETVALUE     _U_(0x00000000) /**< \brief (GCLK_PCHCTRL reset_value) Peripheral Clock Control */
+
+#define GCLK_PCHCTRL_GEN_Pos        0            /**< \brief (GCLK_PCHCTRL) Generic Clock Generator */
+#define GCLK_PCHCTRL_GEN_Msk        (_U_(0x7) << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_GEN(value)     (GCLK_PCHCTRL_GEN_Msk & ((value) << GCLK_PCHCTRL_GEN_Pos))
+#define   GCLK_PCHCTRL_GEN_GCLK0_Val      _U_(0x0)   /**< \brief (GCLK_PCHCTRL) Generic clock generator 0 */
+#define   GCLK_PCHCTRL_GEN_GCLK1_Val      _U_(0x1)   /**< \brief (GCLK_PCHCTRL) Generic clock generator 1 */
+#define   GCLK_PCHCTRL_GEN_GCLK2_Val      _U_(0x2)   /**< \brief (GCLK_PCHCTRL) Generic clock generator 2 */
+#define   GCLK_PCHCTRL_GEN_GCLK3_Val      _U_(0x3)   /**< \brief (GCLK_PCHCTRL) Generic clock generator 3 */
+#define   GCLK_PCHCTRL_GEN_GCLK4_Val      _U_(0x4)   /**< \brief (GCLK_PCHCTRL) Generic clock generator 4 */
+#define GCLK_PCHCTRL_GEN_GCLK0      (GCLK_PCHCTRL_GEN_GCLK0_Val    << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_GEN_GCLK1      (GCLK_PCHCTRL_GEN_GCLK1_Val    << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_GEN_GCLK2      (GCLK_PCHCTRL_GEN_GCLK2_Val    << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_GEN_GCLK3      (GCLK_PCHCTRL_GEN_GCLK3_Val    << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_GEN_GCLK4      (GCLK_PCHCTRL_GEN_GCLK4_Val    << GCLK_PCHCTRL_GEN_Pos)
+#define GCLK_PCHCTRL_CHEN_Pos       6            /**< \brief (GCLK_PCHCTRL) Channel Enable */
+#define GCLK_PCHCTRL_CHEN           (_U_(0x1) << GCLK_PCHCTRL_CHEN_Pos)
+#define GCLK_PCHCTRL_WRTLOCK_Pos    7            /**< \brief (GCLK_PCHCTRL) Write Lock */
+#define GCLK_PCHCTRL_WRTLOCK        (_U_(0x1) << GCLK_PCHCTRL_WRTLOCK_Pos)
+#define GCLK_PCHCTRL_MASK           _U_(0x000000C7) /**< \brief (GCLK_PCHCTRL) MASK Register */
+
+/** \brief GCLK hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO GCLK_CTRLA_Type           CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control */
+       RoReg8                    Reserved1[0x3];
+  __I  GCLK_SYNCBUSY_Type        SYNCBUSY;    /**< \brief Offset: 0x04 (R/  32) Synchronization Busy */
+       RoReg8                    Reserved2[0x18];
+  __IO GCLK_GENCTRL_Type         GENCTRL[5];  /**< \brief Offset: 0x20 (R/W 32) Generic Clock Generator Control */
+       RoReg8                    Reserved3[0x4C];
+  __IO GCLK_PCHCTRL_Type         PCHCTRL[30]; /**< \brief Offset: 0x80 (R/W 32) Peripheral Clock Control */
+} Gclk;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_GCLK_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/mclk.h b/watch-library/hardware/include/component/mclk.h
new file mode 100644
index 00000000..7a79abc1
--- /dev/null
+++ b/watch-library/hardware/include/component/mclk.h
@@ -0,0 +1,380 @@
+/**
+ * \file
+ *
+ * \brief Component description for MCLK
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_MCLK_COMPONENT_
+#define _SAML22_MCLK_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR MCLK */
+/* ========================================================================== */
+/** \addtogroup SAML22_MCLK Main Clock */
+/*@{*/
+
+#define MCLK_U2234
+#define REV_MCLK                    0x210
+
+/* -------- MCLK_INTENCLR : (MCLK Offset: 0x01) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CKRDY:1;          /*!< bit:      0  Clock Ready Interrupt Enable       */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} MCLK_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_INTENCLR_OFFSET        0x01         /**< \brief (MCLK_INTENCLR offset) Interrupt Enable Clear */
+#define MCLK_INTENCLR_RESETVALUE    _U_(0x00)    /**< \brief (MCLK_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define MCLK_INTENCLR_CKRDY_Pos     0            /**< \brief (MCLK_INTENCLR) Clock Ready Interrupt Enable */
+#define MCLK_INTENCLR_CKRDY         (_U_(0x1) << MCLK_INTENCLR_CKRDY_Pos)
+#define MCLK_INTENCLR_MASK          _U_(0x01)    /**< \brief (MCLK_INTENCLR) MASK Register */
+
+/* -------- MCLK_INTENSET : (MCLK Offset: 0x02) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CKRDY:1;          /*!< bit:      0  Clock Ready Interrupt Enable       */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} MCLK_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_INTENSET_OFFSET        0x02         /**< \brief (MCLK_INTENSET offset) Interrupt Enable Set */
+#define MCLK_INTENSET_RESETVALUE    _U_(0x00)    /**< \brief (MCLK_INTENSET reset_value) Interrupt Enable Set */
+
+#define MCLK_INTENSET_CKRDY_Pos     0            /**< \brief (MCLK_INTENSET) Clock Ready Interrupt Enable */
+#define MCLK_INTENSET_CKRDY         (_U_(0x1) << MCLK_INTENSET_CKRDY_Pos)
+#define MCLK_INTENSET_MASK          _U_(0x01)    /**< \brief (MCLK_INTENSET) MASK Register */
+
+/* -------- MCLK_INTFLAG : (MCLK Offset: 0x03) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  CKRDY:1;          /*!< bit:      0  Clock Ready                        */
+    __I uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} MCLK_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_INTFLAG_OFFSET         0x03         /**< \brief (MCLK_INTFLAG offset) Interrupt Flag Status and Clear */
+#define MCLK_INTFLAG_RESETVALUE     _U_(0x01)    /**< \brief (MCLK_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define MCLK_INTFLAG_CKRDY_Pos      0            /**< \brief (MCLK_INTFLAG) Clock Ready */
+#define MCLK_INTFLAG_CKRDY          (_U_(0x1) << MCLK_INTFLAG_CKRDY_Pos)
+#define MCLK_INTFLAG_MASK           _U_(0x01)    /**< \brief (MCLK_INTFLAG) MASK Register */
+
+/* -------- MCLK_CPUDIV : (MCLK Offset: 0x04) (R/W  8) CPU Clock Division -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CPUDIV:8;         /*!< bit:  0.. 7  CPU Clock Division Factor          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} MCLK_CPUDIV_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_CPUDIV_OFFSET          0x04         /**< \brief (MCLK_CPUDIV offset) CPU Clock Division */
+#define MCLK_CPUDIV_RESETVALUE      _U_(0x01)    /**< \brief (MCLK_CPUDIV reset_value) CPU Clock Division */
+
+#define MCLK_CPUDIV_CPUDIV_Pos      0            /**< \brief (MCLK_CPUDIV) CPU Clock Division Factor */
+#define MCLK_CPUDIV_CPUDIV_Msk      (_U_(0xFF) << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV(value)   (MCLK_CPUDIV_CPUDIV_Msk & ((value) << MCLK_CPUDIV_CPUDIV_Pos))
+#define   MCLK_CPUDIV_CPUDIV_DIV1_Val     _U_(0x1)   /**< \brief (MCLK_CPUDIV) Divide by 1 */
+#define   MCLK_CPUDIV_CPUDIV_DIV2_Val     _U_(0x2)   /**< \brief (MCLK_CPUDIV) Divide by 2 */
+#define   MCLK_CPUDIV_CPUDIV_DIV4_Val     _U_(0x4)   /**< \brief (MCLK_CPUDIV) Divide by 4 */
+#define   MCLK_CPUDIV_CPUDIV_DIV8_Val     _U_(0x8)   /**< \brief (MCLK_CPUDIV) Divide by 8 */
+#define   MCLK_CPUDIV_CPUDIV_DIV16_Val    _U_(0x10)   /**< \brief (MCLK_CPUDIV) Divide by 16 */
+#define   MCLK_CPUDIV_CPUDIV_DIV32_Val    _U_(0x20)   /**< \brief (MCLK_CPUDIV) Divide by 32 */
+#define   MCLK_CPUDIV_CPUDIV_DIV64_Val    _U_(0x40)   /**< \brief (MCLK_CPUDIV) Divide by 64 */
+#define   MCLK_CPUDIV_CPUDIV_DIV128_Val   _U_(0x80)   /**< \brief (MCLK_CPUDIV) Divide by 128 */
+#define MCLK_CPUDIV_CPUDIV_DIV1     (MCLK_CPUDIV_CPUDIV_DIV1_Val   << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV2     (MCLK_CPUDIV_CPUDIV_DIV2_Val   << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV4     (MCLK_CPUDIV_CPUDIV_DIV4_Val   << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV8     (MCLK_CPUDIV_CPUDIV_DIV8_Val   << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV16    (MCLK_CPUDIV_CPUDIV_DIV16_Val  << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV32    (MCLK_CPUDIV_CPUDIV_DIV32_Val  << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV64    (MCLK_CPUDIV_CPUDIV_DIV64_Val  << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_CPUDIV_DIV128   (MCLK_CPUDIV_CPUDIV_DIV128_Val << MCLK_CPUDIV_CPUDIV_Pos)
+#define MCLK_CPUDIV_MASK            _U_(0xFF)    /**< \brief (MCLK_CPUDIV) MASK Register */
+
+/* -------- MCLK_BUPDIV : (MCLK Offset: 0x06) (R/W  8) Backup Clock Division -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  BUPDIV:8;         /*!< bit:  0.. 7  Backup Clock Division Factor       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} MCLK_BUPDIV_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_BUPDIV_OFFSET          0x06         /**< \brief (MCLK_BUPDIV offset) Backup Clock Division */
+#define MCLK_BUPDIV_RESETVALUE      _U_(0x01)    /**< \brief (MCLK_BUPDIV reset_value) Backup Clock Division */
+
+#define MCLK_BUPDIV_BUPDIV_Pos      0            /**< \brief (MCLK_BUPDIV) Backup Clock Division Factor */
+#define MCLK_BUPDIV_BUPDIV_Msk      (_U_(0xFF) << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV(value)   (MCLK_BUPDIV_BUPDIV_Msk & ((value) << MCLK_BUPDIV_BUPDIV_Pos))
+#define   MCLK_BUPDIV_BUPDIV_DIV1_Val     _U_(0x1)   /**< \brief (MCLK_BUPDIV) Divide by 1 */
+#define   MCLK_BUPDIV_BUPDIV_DIV2_Val     _U_(0x2)   /**< \brief (MCLK_BUPDIV) Divide by 2 */
+#define   MCLK_BUPDIV_BUPDIV_DIV4_Val     _U_(0x4)   /**< \brief (MCLK_BUPDIV) Divide by 4 */
+#define   MCLK_BUPDIV_BUPDIV_DIV8_Val     _U_(0x8)   /**< \brief (MCLK_BUPDIV) Divide by 8 */
+#define   MCLK_BUPDIV_BUPDIV_DIV16_Val    _U_(0x10)   /**< \brief (MCLK_BUPDIV) Divide by 16 */
+#define   MCLK_BUPDIV_BUPDIV_DIV32_Val    _U_(0x20)   /**< \brief (MCLK_BUPDIV) Divide by 32 */
+#define   MCLK_BUPDIV_BUPDIV_DIV64_Val    _U_(0x40)   /**< \brief (MCLK_BUPDIV) Divide by 64 */
+#define   MCLK_BUPDIV_BUPDIV_DIV128_Val   _U_(0x80)   /**< \brief (MCLK_BUPDIV) Divide by 128 */
+#define MCLK_BUPDIV_BUPDIV_DIV1     (MCLK_BUPDIV_BUPDIV_DIV1_Val   << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV2     (MCLK_BUPDIV_BUPDIV_DIV2_Val   << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV4     (MCLK_BUPDIV_BUPDIV_DIV4_Val   << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV8     (MCLK_BUPDIV_BUPDIV_DIV8_Val   << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV16    (MCLK_BUPDIV_BUPDIV_DIV16_Val  << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV32    (MCLK_BUPDIV_BUPDIV_DIV32_Val  << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV64    (MCLK_BUPDIV_BUPDIV_DIV64_Val  << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_BUPDIV_DIV128   (MCLK_BUPDIV_BUPDIV_DIV128_Val << MCLK_BUPDIV_BUPDIV_Pos)
+#define MCLK_BUPDIV_MASK            _U_(0xFF)    /**< \brief (MCLK_BUPDIV) MASK Register */
+
+/* -------- MCLK_AHBMASK : (MCLK Offset: 0x10) (R/W 32) AHB Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t HPB0_:1;          /*!< bit:      0  HPB0 AHB Clock Mask                */
+    uint32_t HPB1_:1;          /*!< bit:      1  HPB1 AHB Clock Mask                */
+    uint32_t HPB2_:1;          /*!< bit:      2  HPB2 AHB Clock Mask                */
+    uint32_t DMAC_:1;          /*!< bit:      3  DMAC AHB Clock Mask                */
+    uint32_t USB_:1;           /*!< bit:      4  USB AHB Clock Mask                 */
+    uint32_t DSU_:1;           /*!< bit:      5  DSU AHB Clock Mask                 */
+    uint32_t :1;               /*!< bit:      6  Reserved                           */
+    uint32_t PAC_:1;           /*!< bit:      7  PAC AHB Clock Mask                 */
+    uint32_t NVMCTRL_:1;       /*!< bit:      8  NVMCTRL AHB Clock Mask             */
+    uint32_t HSRAM_:1;         /*!< bit:      9  HSRAM AHB Clock Mask               */
+    uint32_t NVMCTRL_PICACHU_:1; /*!< bit:     10  NVMCTRL_PICACHU AHB Clock Mask     */
+    uint32_t :21;              /*!< bit: 11..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MCLK_AHBMASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_AHBMASK_OFFSET         0x10         /**< \brief (MCLK_AHBMASK offset) AHB Mask */
+#define MCLK_AHBMASK_RESETVALUE     _U_(0x000007FF) /**< \brief (MCLK_AHBMASK reset_value) AHB Mask */
+
+#define MCLK_AHBMASK_HPB0_Pos       0            /**< \brief (MCLK_AHBMASK) HPB0 AHB Clock Mask */
+#define MCLK_AHBMASK_HPB0           (_U_(0x1) << MCLK_AHBMASK_HPB0_Pos)
+#define MCLK_AHBMASK_HPB1_Pos       1            /**< \brief (MCLK_AHBMASK) HPB1 AHB Clock Mask */
+#define MCLK_AHBMASK_HPB1           (_U_(0x1) << MCLK_AHBMASK_HPB1_Pos)
+#define MCLK_AHBMASK_HPB2_Pos       2            /**< \brief (MCLK_AHBMASK) HPB2 AHB Clock Mask */
+#define MCLK_AHBMASK_HPB2           (_U_(0x1) << MCLK_AHBMASK_HPB2_Pos)
+#define MCLK_AHBMASK_DMAC_Pos       3            /**< \brief (MCLK_AHBMASK) DMAC AHB Clock Mask */
+#define MCLK_AHBMASK_DMAC           (_U_(0x1) << MCLK_AHBMASK_DMAC_Pos)
+#define MCLK_AHBMASK_USB_Pos        4            /**< \brief (MCLK_AHBMASK) USB AHB Clock Mask */
+#define MCLK_AHBMASK_USB            (_U_(0x1) << MCLK_AHBMASK_USB_Pos)
+#define MCLK_AHBMASK_DSU_Pos        5            /**< \brief (MCLK_AHBMASK) DSU AHB Clock Mask */
+#define MCLK_AHBMASK_DSU            (_U_(0x1) << MCLK_AHBMASK_DSU_Pos)
+#define MCLK_AHBMASK_PAC_Pos        7            /**< \brief (MCLK_AHBMASK) PAC AHB Clock Mask */
+#define MCLK_AHBMASK_PAC            (_U_(0x1) << MCLK_AHBMASK_PAC_Pos)
+#define MCLK_AHBMASK_NVMCTRL_Pos    8            /**< \brief (MCLK_AHBMASK) NVMCTRL AHB Clock Mask */
+#define MCLK_AHBMASK_NVMCTRL        (_U_(0x1) << MCLK_AHBMASK_NVMCTRL_Pos)
+#define MCLK_AHBMASK_HSRAM_Pos      9            /**< \brief (MCLK_AHBMASK) HSRAM AHB Clock Mask */
+#define MCLK_AHBMASK_HSRAM          (_U_(0x1) << MCLK_AHBMASK_HSRAM_Pos)
+#define MCLK_AHBMASK_NVMCTRL_PICACHU_Pos 10           /**< \brief (MCLK_AHBMASK) NVMCTRL_PICACHU AHB Clock Mask */
+#define MCLK_AHBMASK_NVMCTRL_PICACHU (_U_(0x1) << MCLK_AHBMASK_NVMCTRL_PICACHU_Pos)
+#define MCLK_AHBMASK_MASK           _U_(0x000007BF) /**< \brief (MCLK_AHBMASK) MASK Register */
+
+/* -------- MCLK_APBAMASK : (MCLK Offset: 0x14) (R/W 32) APBA Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PAC_:1;           /*!< bit:      0  PAC APB Clock Enable               */
+    uint32_t PM_:1;            /*!< bit:      1  PM APB Clock Enable                */
+    uint32_t MCLK_:1;          /*!< bit:      2  MCLK APB Clock Enable              */
+    uint32_t RSTC_:1;          /*!< bit:      3  RSTC APB Clock Enable              */
+    uint32_t OSCCTRL_:1;       /*!< bit:      4  OSCCTRL APB Clock Enable           */
+    uint32_t OSC32KCTRL_:1;    /*!< bit:      5  OSC32KCTRL APB Clock Enable        */
+    uint32_t SUPC_:1;          /*!< bit:      6  SUPC APB Clock Enable              */
+    uint32_t GCLK_:1;          /*!< bit:      7  GCLK APB Clock Enable              */
+    uint32_t WDT_:1;           /*!< bit:      8  WDT APB Clock Enable               */
+    uint32_t RTC_:1;           /*!< bit:      9  RTC APB Clock Enable               */
+    uint32_t EIC_:1;           /*!< bit:     10  EIC APB Clock Enable               */
+    uint32_t FREQM_:1;         /*!< bit:     11  FREQM APB Clock Enable             */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MCLK_APBAMASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_APBAMASK_OFFSET        0x14         /**< \brief (MCLK_APBAMASK offset) APBA Mask */
+#define MCLK_APBAMASK_RESETVALUE    _U_(0x00001FFF) /**< \brief (MCLK_APBAMASK reset_value) APBA Mask */
+
+#define MCLK_APBAMASK_PAC_Pos       0            /**< \brief (MCLK_APBAMASK) PAC APB Clock Enable */
+#define MCLK_APBAMASK_PAC           (_U_(0x1) << MCLK_APBAMASK_PAC_Pos)
+#define MCLK_APBAMASK_PM_Pos        1            /**< \brief (MCLK_APBAMASK) PM APB Clock Enable */
+#define MCLK_APBAMASK_PM            (_U_(0x1) << MCLK_APBAMASK_PM_Pos)
+#define MCLK_APBAMASK_MCLK_Pos      2            /**< \brief (MCLK_APBAMASK) MCLK APB Clock Enable */
+#define MCLK_APBAMASK_MCLK          (_U_(0x1) << MCLK_APBAMASK_MCLK_Pos)
+#define MCLK_APBAMASK_RSTC_Pos      3            /**< \brief (MCLK_APBAMASK) RSTC APB Clock Enable */
+#define MCLK_APBAMASK_RSTC          (_U_(0x1) << MCLK_APBAMASK_RSTC_Pos)
+#define MCLK_APBAMASK_OSCCTRL_Pos   4            /**< \brief (MCLK_APBAMASK) OSCCTRL APB Clock Enable */
+#define MCLK_APBAMASK_OSCCTRL       (_U_(0x1) << MCLK_APBAMASK_OSCCTRL_Pos)
+#define MCLK_APBAMASK_OSC32KCTRL_Pos 5            /**< \brief (MCLK_APBAMASK) OSC32KCTRL APB Clock Enable */
+#define MCLK_APBAMASK_OSC32KCTRL    (_U_(0x1) << MCLK_APBAMASK_OSC32KCTRL_Pos)
+#define MCLK_APBAMASK_SUPC_Pos      6            /**< \brief (MCLK_APBAMASK) SUPC APB Clock Enable */
+#define MCLK_APBAMASK_SUPC          (_U_(0x1) << MCLK_APBAMASK_SUPC_Pos)
+#define MCLK_APBAMASK_GCLK_Pos      7            /**< \brief (MCLK_APBAMASK) GCLK APB Clock Enable */
+#define MCLK_APBAMASK_GCLK          (_U_(0x1) << MCLK_APBAMASK_GCLK_Pos)
+#define MCLK_APBAMASK_WDT_Pos       8            /**< \brief (MCLK_APBAMASK) WDT APB Clock Enable */
+#define MCLK_APBAMASK_WDT           (_U_(0x1) << MCLK_APBAMASK_WDT_Pos)
+#define MCLK_APBAMASK_RTC_Pos       9            /**< \brief (MCLK_APBAMASK) RTC APB Clock Enable */
+#define MCLK_APBAMASK_RTC           (_U_(0x1) << MCLK_APBAMASK_RTC_Pos)
+#define MCLK_APBAMASK_EIC_Pos       10           /**< \brief (MCLK_APBAMASK) EIC APB Clock Enable */
+#define MCLK_APBAMASK_EIC           (_U_(0x1) << MCLK_APBAMASK_EIC_Pos)
+#define MCLK_APBAMASK_FREQM_Pos     11           /**< \brief (MCLK_APBAMASK) FREQM APB Clock Enable */
+#define MCLK_APBAMASK_FREQM         (_U_(0x1) << MCLK_APBAMASK_FREQM_Pos)
+#define MCLK_APBAMASK_MASK          _U_(0x00000FFF) /**< \brief (MCLK_APBAMASK) MASK Register */
+
+/* -------- MCLK_APBBMASK : (MCLK Offset: 0x18) (R/W 32) APBB Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t USB_:1;           /*!< bit:      0  USB APB Clock Enable               */
+    uint32_t DSU_:1;           /*!< bit:      1  DSU APB Clock Enable               */
+    uint32_t NVMCTRL_:1;       /*!< bit:      2  NVMCTRL APB Clock Enable           */
+    uint32_t PORT_:1;          /*!< bit:      3  PORT APB Clock Enable              */
+    uint32_t :28;              /*!< bit:  4..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MCLK_APBBMASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_APBBMASK_OFFSET        0x18         /**< \brief (MCLK_APBBMASK offset) APBB Mask */
+#define MCLK_APBBMASK_RESETVALUE    _U_(0x0000004F) /**< \brief (MCLK_APBBMASK reset_value) APBB Mask */
+
+#define MCLK_APBBMASK_USB_Pos       0            /**< \brief (MCLK_APBBMASK) USB APB Clock Enable */
+#define MCLK_APBBMASK_USB           (_U_(0x1) << MCLK_APBBMASK_USB_Pos)
+#define MCLK_APBBMASK_DSU_Pos       1            /**< \brief (MCLK_APBBMASK) DSU APB Clock Enable */
+#define MCLK_APBBMASK_DSU           (_U_(0x1) << MCLK_APBBMASK_DSU_Pos)
+#define MCLK_APBBMASK_NVMCTRL_Pos   2            /**< \brief (MCLK_APBBMASK) NVMCTRL APB Clock Enable */
+#define MCLK_APBBMASK_NVMCTRL       (_U_(0x1) << MCLK_APBBMASK_NVMCTRL_Pos)
+#define MCLK_APBBMASK_PORT_Pos      3            /**< \brief (MCLK_APBBMASK) PORT APB Clock Enable */
+#define MCLK_APBBMASK_PORT          (_U_(0x1) << MCLK_APBBMASK_PORT_Pos)
+#define MCLK_APBBMASK_MASK          _U_(0x0000000F) /**< \brief (MCLK_APBBMASK) MASK Register */
+
+/* -------- MCLK_APBCMASK : (MCLK Offset: 0x1C) (R/W 32) APBC Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EVSYS_:1;         /*!< bit:      0  EVSYS APB Clock Enable             */
+    uint32_t SERCOM0_:1;       /*!< bit:      1  SERCOM0 APB Clock Enable           */
+    uint32_t SERCOM1_:1;       /*!< bit:      2  SERCOM1 APB Clock Enable           */
+    uint32_t SERCOM2_:1;       /*!< bit:      3  SERCOM2 APB Clock Enable           */
+    uint32_t SERCOM3_:1;       /*!< bit:      4  SERCOM3 APB Clock Enable           */
+    uint32_t SERCOM4_:1;       /*!< bit:      5  SERCOM4 APB Clock Enable           */
+    uint32_t SERCOM5_:1;       /*!< bit:      6  SERCOM5 APB Clock Enable           */
+    uint32_t TCC0_:1;          /*!< bit:      7  TCC0 APB Clock Enable              */
+    uint32_t TC0_:1;           /*!< bit:      8  TC0 APB Clock Enable               */
+    uint32_t TC1_:1;           /*!< bit:      9  TC1 APB Clock Enable               */
+    uint32_t TC2_:1;           /*!< bit:     10  TC2 APB Clock Enable               */
+    uint32_t TC3_:1;           /*!< bit:     11  TC3 APB Clock Enable               */
+    uint32_t ADC_:1;           /*!< bit:     12  ADC APB Clock Enable               */
+    uint32_t AC_:1;            /*!< bit:     13  AC APB Clock Enable                */
+    uint32_t PTC_:1;           /*!< bit:     14  PTC APB Clock Enable               */
+    uint32_t SLCD_:1;          /*!< bit:     15  SLCD APB Clock Enable              */
+    uint32_t AES_:1;           /*!< bit:     16  AES APB Clock Enable               */
+    uint32_t TRNG_:1;          /*!< bit:     17  TRNG APB Clock Enable              */
+    uint32_t CCL_:1;           /*!< bit:     18  CCL APB Clock Enable               */
+    uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MCLK_APBCMASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MCLK_APBCMASK_OFFSET        0x1C         /**< \brief (MCLK_APBCMASK offset) APBC Mask */
+#define MCLK_APBCMASK_RESETVALUE    _U_(0x0007FFFF) /**< \brief (MCLK_APBCMASK reset_value) APBC Mask */
+
+#define MCLK_APBCMASK_EVSYS_Pos     0            /**< \brief (MCLK_APBCMASK) EVSYS APB Clock Enable */
+#define MCLK_APBCMASK_EVSYS         (_U_(0x1) << MCLK_APBCMASK_EVSYS_Pos)
+#define MCLK_APBCMASK_SERCOM0_Pos   1            /**< \brief (MCLK_APBCMASK) SERCOM0 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM0       (_U_(0x1) << MCLK_APBCMASK_SERCOM0_Pos)
+#define MCLK_APBCMASK_SERCOM1_Pos   2            /**< \brief (MCLK_APBCMASK) SERCOM1 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM1       (_U_(0x1) << MCLK_APBCMASK_SERCOM1_Pos)
+#define MCLK_APBCMASK_SERCOM2_Pos   3            /**< \brief (MCLK_APBCMASK) SERCOM2 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM2       (_U_(0x1) << MCLK_APBCMASK_SERCOM2_Pos)
+#define MCLK_APBCMASK_SERCOM3_Pos   4            /**< \brief (MCLK_APBCMASK) SERCOM3 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM3       (_U_(0x1) << MCLK_APBCMASK_SERCOM3_Pos)
+#define MCLK_APBCMASK_SERCOM4_Pos   5            /**< \brief (MCLK_APBCMASK) SERCOM4 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM4       (_U_(0x1) << MCLK_APBCMASK_SERCOM4_Pos)
+#define MCLK_APBCMASK_SERCOM5_Pos   6            /**< \brief (MCLK_APBCMASK) SERCOM5 APB Clock Enable */
+#define MCLK_APBCMASK_SERCOM5       (_U_(0x1) << MCLK_APBCMASK_SERCOM5_Pos)
+#define MCLK_APBCMASK_TCC0_Pos      7            /**< \brief (MCLK_APBCMASK) TCC0 APB Clock Enable */
+#define MCLK_APBCMASK_TCC0          (_U_(0x1) << MCLK_APBCMASK_TCC0_Pos)
+#define MCLK_APBCMASK_TC0_Pos       8            /**< \brief (MCLK_APBCMASK) TC0 APB Clock Enable */
+#define MCLK_APBCMASK_TC0           (_U_(0x1) << MCLK_APBCMASK_TC0_Pos)
+#define MCLK_APBCMASK_TC1_Pos       9            /**< \brief (MCLK_APBCMASK) TC1 APB Clock Enable */
+#define MCLK_APBCMASK_TC1           (_U_(0x1) << MCLK_APBCMASK_TC1_Pos)
+#define MCLK_APBCMASK_TC2_Pos       10           /**< \brief (MCLK_APBCMASK) TC2 APB Clock Enable */
+#define MCLK_APBCMASK_TC2           (_U_(0x1) << MCLK_APBCMASK_TC2_Pos)
+#define MCLK_APBCMASK_TC3_Pos       11           /**< \brief (MCLK_APBCMASK) TC3 APB Clock Enable */
+#define MCLK_APBCMASK_TC3           (_U_(0x1) << MCLK_APBCMASK_TC3_Pos)
+#define MCLK_APBCMASK_ADC_Pos       12           /**< \brief (MCLK_APBCMASK) ADC APB Clock Enable */
+#define MCLK_APBCMASK_ADC           (_U_(0x1) << MCLK_APBCMASK_ADC_Pos)
+#define MCLK_APBCMASK_AC_Pos        13           /**< \brief (MCLK_APBCMASK) AC APB Clock Enable */
+#define MCLK_APBCMASK_AC            (_U_(0x1) << MCLK_APBCMASK_AC_Pos)
+#define MCLK_APBCMASK_PTC_Pos       14           /**< \brief (MCLK_APBCMASK) PTC APB Clock Enable */
+#define MCLK_APBCMASK_PTC           (_U_(0x1) << MCLK_APBCMASK_PTC_Pos)
+#define MCLK_APBCMASK_SLCD_Pos      15           /**< \brief (MCLK_APBCMASK) SLCD APB Clock Enable */
+#define MCLK_APBCMASK_SLCD          (_U_(0x1) << MCLK_APBCMASK_SLCD_Pos)
+#define MCLK_APBCMASK_AES_Pos       16           /**< \brief (MCLK_APBCMASK) AES APB Clock Enable */
+#define MCLK_APBCMASK_AES           (_U_(0x1) << MCLK_APBCMASK_AES_Pos)
+#define MCLK_APBCMASK_TRNG_Pos      17           /**< \brief (MCLK_APBCMASK) TRNG APB Clock Enable */
+#define MCLK_APBCMASK_TRNG          (_U_(0x1) << MCLK_APBCMASK_TRNG_Pos)
+#define MCLK_APBCMASK_CCL_Pos       18           /**< \brief (MCLK_APBCMASK) CCL APB Clock Enable */
+#define MCLK_APBCMASK_CCL           (_U_(0x1) << MCLK_APBCMASK_CCL_Pos)
+#define MCLK_APBCMASK_MASK          _U_(0x0007FFFF) /**< \brief (MCLK_APBCMASK) MASK Register */
+
+/** \brief MCLK hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+       RoReg8                    Reserved1[0x1];
+  __IO MCLK_INTENCLR_Type        INTENCLR;    /**< \brief Offset: 0x01 (R/W  8) Interrupt Enable Clear */
+  __IO MCLK_INTENSET_Type        INTENSET;    /**< \brief Offset: 0x02 (R/W  8) Interrupt Enable Set */
+  __IO MCLK_INTFLAG_Type         INTFLAG;     /**< \brief Offset: 0x03 (R/W  8) Interrupt Flag Status and Clear */
+  __IO MCLK_CPUDIV_Type          CPUDIV;      /**< \brief Offset: 0x04 (R/W  8) CPU Clock Division */
+       RoReg8                    Reserved2[0x1];
+  __IO MCLK_BUPDIV_Type          BUPDIV;      /**< \brief Offset: 0x06 (R/W  8) Backup Clock Division */
+       RoReg8                    Reserved3[0x9];
+  __IO MCLK_AHBMASK_Type         AHBMASK;     /**< \brief Offset: 0x10 (R/W 32) AHB Mask */
+  __IO MCLK_APBAMASK_Type        APBAMASK;    /**< \brief Offset: 0x14 (R/W 32) APBA Mask */
+  __IO MCLK_APBBMASK_Type        APBBMASK;    /**< \brief Offset: 0x18 (R/W 32) APBB Mask */
+  __IO MCLK_APBCMASK_Type        APBCMASK;    /**< \brief Offset: 0x1C (R/W 32) APBC Mask */
+} Mclk;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_MCLK_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/mtb.h b/watch-library/hardware/include/component/mtb.h
new file mode 100644
index 00000000..71765c1e
--- /dev/null
+++ b/watch-library/hardware/include/component/mtb.h
@@ -0,0 +1,382 @@
+/**
+ * \file
+ *
+ * \brief Component description for MTB
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_MTB_COMPONENT_
+#define _SAML22_MTB_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR MTB */
+/* ========================================================================== */
+/** \addtogroup SAML22_MTB Cortex-M0+ Micro-Trace Buffer */
+/*@{*/
+
+#define MTB_U2002
+#define REV_MTB                     0x100
+
+/* -------- MTB_POSITION : (MTB Offset: 0x000) (R/W 32) MTB Position -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint32_t WRAP:1;           /*!< bit:      2  Pointer Value Wraps                */
+    uint32_t POINTER:29;       /*!< bit:  3..31  Trace Packet Location Pointer      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_POSITION_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_POSITION_OFFSET         0x000        /**< \brief (MTB_POSITION offset) MTB Position */
+
+#define MTB_POSITION_WRAP_Pos       2            /**< \brief (MTB_POSITION) Pointer Value Wraps */
+#define MTB_POSITION_WRAP           (_U_(0x1) << MTB_POSITION_WRAP_Pos)
+#define MTB_POSITION_POINTER_Pos    3            /**< \brief (MTB_POSITION) Trace Packet Location Pointer */
+#define MTB_POSITION_POINTER_Msk    (_U_(0x1FFFFFFF) << MTB_POSITION_POINTER_Pos)
+#define MTB_POSITION_POINTER(value) (MTB_POSITION_POINTER_Msk & ((value) << MTB_POSITION_POINTER_Pos))
+#define MTB_POSITION_MASK           _U_(0xFFFFFFFC) /**< \brief (MTB_POSITION) MASK Register */
+
+/* -------- MTB_MASTER : (MTB Offset: 0x004) (R/W 32) MTB Master -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t MASK:5;           /*!< bit:  0.. 4  Maximum Value of the Trace Buffer in SRAM */
+    uint32_t TSTARTEN:1;       /*!< bit:      5  Trace Start Input Enable           */
+    uint32_t TSTOPEN:1;        /*!< bit:      6  Trace Stop Input Enable            */
+    uint32_t SFRWPRIV:1;       /*!< bit:      7  Special Function Register Write Privilege */
+    uint32_t RAMPRIV:1;        /*!< bit:      8  SRAM Privilege                     */
+    uint32_t HALTREQ:1;        /*!< bit:      9  Halt Request                       */
+    uint32_t :21;              /*!< bit: 10..30  Reserved                           */
+    uint32_t EN:1;             /*!< bit:     31  Main Trace Enable                  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_MASTER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_MASTER_OFFSET           0x004        /**< \brief (MTB_MASTER offset) MTB Master */
+#define MTB_MASTER_RESETVALUE       _U_(0x00000000) /**< \brief (MTB_MASTER reset_value) MTB Master */
+
+#define MTB_MASTER_MASK_Pos         0            /**< \brief (MTB_MASTER) Maximum Value of the Trace Buffer in SRAM */
+#define MTB_MASTER_MASK_Msk         (_U_(0x1F) << MTB_MASTER_MASK_Pos)
+#define MTB_MASTER_MASK(value)      (MTB_MASTER_MASK_Msk & ((value) << MTB_MASTER_MASK_Pos))
+#define MTB_MASTER_TSTARTEN_Pos     5            /**< \brief (MTB_MASTER) Trace Start Input Enable */
+#define MTB_MASTER_TSTARTEN         (_U_(0x1) << MTB_MASTER_TSTARTEN_Pos)
+#define MTB_MASTER_TSTOPEN_Pos      6            /**< \brief (MTB_MASTER) Trace Stop Input Enable */
+#define MTB_MASTER_TSTOPEN          (_U_(0x1) << MTB_MASTER_TSTOPEN_Pos)
+#define MTB_MASTER_SFRWPRIV_Pos     7            /**< \brief (MTB_MASTER) Special Function Register Write Privilege */
+#define MTB_MASTER_SFRWPRIV         (_U_(0x1) << MTB_MASTER_SFRWPRIV_Pos)
+#define MTB_MASTER_RAMPRIV_Pos      8            /**< \brief (MTB_MASTER) SRAM Privilege */
+#define MTB_MASTER_RAMPRIV          (_U_(0x1) << MTB_MASTER_RAMPRIV_Pos)
+#define MTB_MASTER_HALTREQ_Pos      9            /**< \brief (MTB_MASTER) Halt Request */
+#define MTB_MASTER_HALTREQ          (_U_(0x1) << MTB_MASTER_HALTREQ_Pos)
+#define MTB_MASTER_EN_Pos           31           /**< \brief (MTB_MASTER) Main Trace Enable */
+#define MTB_MASTER_EN               (_U_(0x1) << MTB_MASTER_EN_Pos)
+#define MTB_MASTER_MASK_            _U_(0x800003FF) /**< \brief (MTB_MASTER) MASK Register */
+
+/* -------- MTB_FLOW : (MTB Offset: 0x008) (R/W 32) MTB Flow -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t AUTOSTOP:1;       /*!< bit:      0  Auto Stop Tracing                  */
+    uint32_t AUTOHALT:1;       /*!< bit:      1  Auto Halt Request                  */
+    uint32_t :1;               /*!< bit:      2  Reserved                           */
+    uint32_t WATERMARK:29;     /*!< bit:  3..31  Watermark value                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_FLOW_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_FLOW_OFFSET             0x008        /**< \brief (MTB_FLOW offset) MTB Flow */
+#define MTB_FLOW_RESETVALUE         _U_(0x00000000) /**< \brief (MTB_FLOW reset_value) MTB Flow */
+
+#define MTB_FLOW_AUTOSTOP_Pos       0            /**< \brief (MTB_FLOW) Auto Stop Tracing */
+#define MTB_FLOW_AUTOSTOP           (_U_(0x1) << MTB_FLOW_AUTOSTOP_Pos)
+#define MTB_FLOW_AUTOHALT_Pos       1            /**< \brief (MTB_FLOW) Auto Halt Request */
+#define MTB_FLOW_AUTOHALT           (_U_(0x1) << MTB_FLOW_AUTOHALT_Pos)
+#define MTB_FLOW_WATERMARK_Pos      3            /**< \brief (MTB_FLOW) Watermark value */
+#define MTB_FLOW_WATERMARK_Msk      (_U_(0x1FFFFFFF) << MTB_FLOW_WATERMARK_Pos)
+#define MTB_FLOW_WATERMARK(value)   (MTB_FLOW_WATERMARK_Msk & ((value) << MTB_FLOW_WATERMARK_Pos))
+#define MTB_FLOW_MASK               _U_(0xFFFFFFFB) /**< \brief (MTB_FLOW) MASK Register */
+
+/* -------- MTB_BASE : (MTB Offset: 0x00C) (R/  32) MTB Base -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_BASE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_BASE_OFFSET             0x00C        /**< \brief (MTB_BASE offset) MTB Base */
+#define MTB_BASE_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_BASE) MASK Register */
+
+/* -------- MTB_ITCTRL : (MTB Offset: 0xF00) (R/W 32) MTB Integration Mode Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_ITCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_ITCTRL_OFFSET           0xF00        /**< \brief (MTB_ITCTRL offset) MTB Integration Mode Control */
+#define MTB_ITCTRL_MASK             _U_(0xFFFFFFFF) /**< \brief (MTB_ITCTRL) MASK Register */
+
+/* -------- MTB_CLAIMSET : (MTB Offset: 0xFA0) (R/W 32) MTB Claim Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CLAIMSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CLAIMSET_OFFSET         0xFA0        /**< \brief (MTB_CLAIMSET offset) MTB Claim Set */
+#define MTB_CLAIMSET_MASK           _U_(0xFFFFFFFF) /**< \brief (MTB_CLAIMSET) MASK Register */
+
+/* -------- MTB_CLAIMCLR : (MTB Offset: 0xFA4) (R/W 32) MTB Claim Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CLAIMCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CLAIMCLR_OFFSET         0xFA4        /**< \brief (MTB_CLAIMCLR offset) MTB Claim Clear */
+#define MTB_CLAIMCLR_MASK           _U_(0xFFFFFFFF) /**< \brief (MTB_CLAIMCLR) MASK Register */
+
+/* -------- MTB_LOCKACCESS : (MTB Offset: 0xFB0) (R/W 32) MTB Lock Access -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_LOCKACCESS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_LOCKACCESS_OFFSET       0xFB0        /**< \brief (MTB_LOCKACCESS offset) MTB Lock Access */
+#define MTB_LOCKACCESS_MASK         _U_(0xFFFFFFFF) /**< \brief (MTB_LOCKACCESS) MASK Register */
+
+/* -------- MTB_LOCKSTATUS : (MTB Offset: 0xFB4) (R/  32) MTB Lock Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_LOCKSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_LOCKSTATUS_OFFSET       0xFB4        /**< \brief (MTB_LOCKSTATUS offset) MTB Lock Status */
+#define MTB_LOCKSTATUS_MASK         _U_(0xFFFFFFFF) /**< \brief (MTB_LOCKSTATUS) MASK Register */
+
+/* -------- MTB_AUTHSTATUS : (MTB Offset: 0xFB8) (R/  32) MTB Authentication Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_AUTHSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_AUTHSTATUS_OFFSET       0xFB8        /**< \brief (MTB_AUTHSTATUS offset) MTB Authentication Status */
+#define MTB_AUTHSTATUS_MASK         _U_(0xFFFFFFFF) /**< \brief (MTB_AUTHSTATUS) MASK Register */
+
+/* -------- MTB_DEVARCH : (MTB Offset: 0xFBC) (R/  32) MTB Device Architecture -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_DEVARCH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_DEVARCH_OFFSET          0xFBC        /**< \brief (MTB_DEVARCH offset) MTB Device Architecture */
+#define MTB_DEVARCH_MASK            _U_(0xFFFFFFFF) /**< \brief (MTB_DEVARCH) MASK Register */
+
+/* -------- MTB_DEVID : (MTB Offset: 0xFC8) (R/  32) MTB Device Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_DEVID_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_DEVID_OFFSET            0xFC8        /**< \brief (MTB_DEVID offset) MTB Device Configuration */
+#define MTB_DEVID_MASK              _U_(0xFFFFFFFF) /**< \brief (MTB_DEVID) MASK Register */
+
+/* -------- MTB_DEVTYPE : (MTB Offset: 0xFCC) (R/  32) MTB Device Type -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_DEVTYPE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_DEVTYPE_OFFSET          0xFCC        /**< \brief (MTB_DEVTYPE offset) MTB Device Type */
+#define MTB_DEVTYPE_MASK            _U_(0xFFFFFFFF) /**< \brief (MTB_DEVTYPE) MASK Register */
+
+/* -------- MTB_PID4 : (MTB Offset: 0xFD0) (R/  32) Peripheral Identification 4 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID4_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID4_OFFSET             0xFD0        /**< \brief (MTB_PID4 offset) Peripheral Identification 4 */
+#define MTB_PID4_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID4) MASK Register */
+
+/* -------- MTB_PID5 : (MTB Offset: 0xFD4) (R/  32) Peripheral Identification 5 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID5_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID5_OFFSET             0xFD4        /**< \brief (MTB_PID5 offset) Peripheral Identification 5 */
+#define MTB_PID5_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID5) MASK Register */
+
+/* -------- MTB_PID6 : (MTB Offset: 0xFD8) (R/  32) Peripheral Identification 6 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID6_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID6_OFFSET             0xFD8        /**< \brief (MTB_PID6 offset) Peripheral Identification 6 */
+#define MTB_PID6_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID6) MASK Register */
+
+/* -------- MTB_PID7 : (MTB Offset: 0xFDC) (R/  32) Peripheral Identification 7 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID7_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID7_OFFSET             0xFDC        /**< \brief (MTB_PID7 offset) Peripheral Identification 7 */
+#define MTB_PID7_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID7) MASK Register */
+
+/* -------- MTB_PID0 : (MTB Offset: 0xFE0) (R/  32) Peripheral Identification 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID0_OFFSET             0xFE0        /**< \brief (MTB_PID0 offset) Peripheral Identification 0 */
+#define MTB_PID0_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID0) MASK Register */
+
+/* -------- MTB_PID1 : (MTB Offset: 0xFE4) (R/  32) Peripheral Identification 1 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID1_OFFSET             0xFE4        /**< \brief (MTB_PID1 offset) Peripheral Identification 1 */
+#define MTB_PID1_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID1) MASK Register */
+
+/* -------- MTB_PID2 : (MTB Offset: 0xFE8) (R/  32) Peripheral Identification 2 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID2_OFFSET             0xFE8        /**< \brief (MTB_PID2 offset) Peripheral Identification 2 */
+#define MTB_PID2_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID2) MASK Register */
+
+/* -------- MTB_PID3 : (MTB Offset: 0xFEC) (R/  32) Peripheral Identification 3 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_PID3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_PID3_OFFSET             0xFEC        /**< \brief (MTB_PID3 offset) Peripheral Identification 3 */
+#define MTB_PID3_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_PID3) MASK Register */
+
+/* -------- MTB_CID0 : (MTB Offset: 0xFF0) (R/  32) Component Identification 0 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CID0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CID0_OFFSET             0xFF0        /**< \brief (MTB_CID0 offset) Component Identification 0 */
+#define MTB_CID0_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_CID0) MASK Register */
+
+/* -------- MTB_CID1 : (MTB Offset: 0xFF4) (R/  32) Component Identification 1 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CID1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CID1_OFFSET             0xFF4        /**< \brief (MTB_CID1 offset) Component Identification 1 */
+#define MTB_CID1_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_CID1) MASK Register */
+
+/* -------- MTB_CID2 : (MTB Offset: 0xFF8) (R/  32) Component Identification 2 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CID2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CID2_OFFSET             0xFF8        /**< \brief (MTB_CID2 offset) Component Identification 2 */
+#define MTB_CID2_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_CID2) MASK Register */
+
+/* -------- MTB_CID3 : (MTB Offset: 0xFFC) (R/  32) Component Identification 3 -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} MTB_CID3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define MTB_CID3_OFFSET             0xFFC        /**< \brief (MTB_CID3 offset) Component Identification 3 */
+#define MTB_CID3_MASK               _U_(0xFFFFFFFF) /**< \brief (MTB_CID3) MASK Register */
+
+/** \brief MTB hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO MTB_POSITION_Type         POSITION;    /**< \brief Offset: 0x000 (R/W 32) MTB Position */
+  __IO MTB_MASTER_Type           MASTER;      /**< \brief Offset: 0x004 (R/W 32) MTB Master */
+  __IO MTB_FLOW_Type             FLOW;        /**< \brief Offset: 0x008 (R/W 32) MTB Flow */
+  __I  MTB_BASE_Type             BASE;        /**< \brief Offset: 0x00C (R/  32) MTB Base */
+       RoReg8                    Reserved1[0xEF0];
+  __IO MTB_ITCTRL_Type           ITCTRL;      /**< \brief Offset: 0xF00 (R/W 32) MTB Integration Mode Control */
+       RoReg8                    Reserved2[0x9C];
+  __IO MTB_CLAIMSET_Type         CLAIMSET;    /**< \brief Offset: 0xFA0 (R/W 32) MTB Claim Set */
+  __IO MTB_CLAIMCLR_Type         CLAIMCLR;    /**< \brief Offset: 0xFA4 (R/W 32) MTB Claim Clear */
+       RoReg8                    Reserved3[0x8];
+  __IO MTB_LOCKACCESS_Type       LOCKACCESS;  /**< \brief Offset: 0xFB0 (R/W 32) MTB Lock Access */
+  __I  MTB_LOCKSTATUS_Type       LOCKSTATUS;  /**< \brief Offset: 0xFB4 (R/  32) MTB Lock Status */
+  __I  MTB_AUTHSTATUS_Type       AUTHSTATUS;  /**< \brief Offset: 0xFB8 (R/  32) MTB Authentication Status */
+  __I  MTB_DEVARCH_Type          DEVARCH;     /**< \brief Offset: 0xFBC (R/  32) MTB Device Architecture */
+       RoReg8                    Reserved4[0x8];
+  __I  MTB_DEVID_Type            DEVID;       /**< \brief Offset: 0xFC8 (R/  32) MTB Device Configuration */
+  __I  MTB_DEVTYPE_Type          DEVTYPE;     /**< \brief Offset: 0xFCC (R/  32) MTB Device Type */
+  __I  MTB_PID4_Type             PID4;        /**< \brief Offset: 0xFD0 (R/  32) Peripheral Identification 4 */
+  __I  MTB_PID5_Type             PID5;        /**< \brief Offset: 0xFD4 (R/  32) Peripheral Identification 5 */
+  __I  MTB_PID6_Type             PID6;        /**< \brief Offset: 0xFD8 (R/  32) Peripheral Identification 6 */
+  __I  MTB_PID7_Type             PID7;        /**< \brief Offset: 0xFDC (R/  32) Peripheral Identification 7 */
+  __I  MTB_PID0_Type             PID0;        /**< \brief Offset: 0xFE0 (R/  32) Peripheral Identification 0 */
+  __I  MTB_PID1_Type             PID1;        /**< \brief Offset: 0xFE4 (R/  32) Peripheral Identification 1 */
+  __I  MTB_PID2_Type             PID2;        /**< \brief Offset: 0xFE8 (R/  32) Peripheral Identification 2 */
+  __I  MTB_PID3_Type             PID3;        /**< \brief Offset: 0xFEC (R/  32) Peripheral Identification 3 */
+  __I  MTB_CID0_Type             CID0;        /**< \brief Offset: 0xFF0 (R/  32) Component Identification 0 */
+  __I  MTB_CID1_Type             CID1;        /**< \brief Offset: 0xFF4 (R/  32) Component Identification 1 */
+  __I  MTB_CID2_Type             CID2;        /**< \brief Offset: 0xFF8 (R/  32) Component Identification 2 */
+  __I  MTB_CID3_Type             CID3;        /**< \brief Offset: 0xFFC (R/  32) Component Identification 3 */
+} Mtb;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_MTB_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/nvmctrl.h b/watch-library/hardware/include/component/nvmctrl.h
new file mode 100644
index 00000000..18dc6f32
--- /dev/null
+++ b/watch-library/hardware/include/component/nvmctrl.h
@@ -0,0 +1,528 @@
+/**
+ * \file
+ *
+ * \brief Component description for NVMCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_NVMCTRL_COMPONENT_
+#define _SAML22_NVMCTRL_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR NVMCTRL */
+/* ========================================================================== */
+/** \addtogroup SAML22_NVMCTRL Non-Volatile Memory Controller */
+/*@{*/
+
+#define NVMCTRL_U2207
+#define REV_NVMCTRL                 0x302
+
+/* -------- NVMCTRL_CTRLA : (NVMCTRL Offset: 0x00) (R/W 16) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t CMD:7;            /*!< bit:  0.. 6  Command                            */
+    uint16_t :1;               /*!< bit:      7  Reserved                           */
+    uint16_t CMDEX:8;          /*!< bit:  8..15  Command Execution                  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_CTRLA_OFFSET        0x00         /**< \brief (NVMCTRL_CTRLA offset) Control A */
+#define NVMCTRL_CTRLA_RESETVALUE    _U_(0x0000)  /**< \brief (NVMCTRL_CTRLA reset_value) Control A */
+
+#define NVMCTRL_CTRLA_CMD_Pos       0            /**< \brief (NVMCTRL_CTRLA) Command */
+#define NVMCTRL_CTRLA_CMD_Msk       (_U_(0x7F) << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD(value)    (NVMCTRL_CTRLA_CMD_Msk & ((value) << NVMCTRL_CTRLA_CMD_Pos))
+#define   NVMCTRL_CTRLA_CMD_ER_Val        _U_(0x2)   /**< \brief (NVMCTRL_CTRLA) Erase Row - Erases the row addressed by the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_WP_Val        _U_(0x4)   /**< \brief (NVMCTRL_CTRLA) Write Page - Writes the contents of the page buffer to the page addressed by the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_EAR_Val       _U_(0x5)   /**< \brief (NVMCTRL_CTRLA) Erase Auxiliary Row - Erases the auxiliary row addressed by the ADDR register. This command can be given only when the security bit is not set and only to the user configuration row. */
+#define   NVMCTRL_CTRLA_CMD_WAP_Val       _U_(0x6)   /**< \brief (NVMCTRL_CTRLA) Write Auxiliary Page - Writes the contents of the page buffer to the page addressed by the ADDR register. This command can be given only when the security bit is not set and only to the user configuration row. */
+#define   NVMCTRL_CTRLA_CMD_SF_Val        _U_(0xA)   /**< \brief (NVMCTRL_CTRLA) Security Flow Command */
+#define   NVMCTRL_CTRLA_CMD_WL_Val        _U_(0xF)   /**< \brief (NVMCTRL_CTRLA) Write lockbits */
+#define   NVMCTRL_CTRLA_CMD_RWWEEER_Val   _U_(0x1A)   /**< \brief (NVMCTRL_CTRLA) RWW EEPROM area Erase Row - Erases the row addressed by the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_RWWEEWP_Val   _U_(0x1C)   /**< \brief (NVMCTRL_CTRLA) RWW EEPROM Write Page - Writes the contents of the page buffer to the page addressed by the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_LR_Val        _U_(0x40)   /**< \brief (NVMCTRL_CTRLA) Lock Region - Locks the region containing the address location in the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_UR_Val        _U_(0x41)   /**< \brief (NVMCTRL_CTRLA) Unlock Region - Unlocks the region containing the address location in the ADDR register. */
+#define   NVMCTRL_CTRLA_CMD_SPRM_Val      _U_(0x42)   /**< \brief (NVMCTRL_CTRLA) Sets the power reduction mode. */
+#define   NVMCTRL_CTRLA_CMD_CPRM_Val      _U_(0x43)   /**< \brief (NVMCTRL_CTRLA) Clears the power reduction mode. */
+#define   NVMCTRL_CTRLA_CMD_PBC_Val       _U_(0x44)   /**< \brief (NVMCTRL_CTRLA) Page Buffer Clear - Clears the page buffer. */
+#define   NVMCTRL_CTRLA_CMD_SSB_Val       _U_(0x45)   /**< \brief (NVMCTRL_CTRLA) Set Security Bit - Sets the security bit by writing 0x00 to the first byte in the lockbit row. */
+#define   NVMCTRL_CTRLA_CMD_INVALL_Val    _U_(0x46)   /**< \brief (NVMCTRL_CTRLA) Invalidate all cache lines. */
+#define NVMCTRL_CTRLA_CMD_ER        (NVMCTRL_CTRLA_CMD_ER_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_WP        (NVMCTRL_CTRLA_CMD_WP_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_EAR       (NVMCTRL_CTRLA_CMD_EAR_Val     << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_WAP       (NVMCTRL_CTRLA_CMD_WAP_Val     << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_SF        (NVMCTRL_CTRLA_CMD_SF_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_WL        (NVMCTRL_CTRLA_CMD_WL_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_RWWEEER   (NVMCTRL_CTRLA_CMD_RWWEEER_Val << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_RWWEEWP   (NVMCTRL_CTRLA_CMD_RWWEEWP_Val << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_LR        (NVMCTRL_CTRLA_CMD_LR_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_UR        (NVMCTRL_CTRLA_CMD_UR_Val      << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_SPRM      (NVMCTRL_CTRLA_CMD_SPRM_Val    << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_CPRM      (NVMCTRL_CTRLA_CMD_CPRM_Val    << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_PBC       (NVMCTRL_CTRLA_CMD_PBC_Val     << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_SSB       (NVMCTRL_CTRLA_CMD_SSB_Val     << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMD_INVALL    (NVMCTRL_CTRLA_CMD_INVALL_Val  << NVMCTRL_CTRLA_CMD_Pos)
+#define NVMCTRL_CTRLA_CMDEX_Pos     8            /**< \brief (NVMCTRL_CTRLA) Command Execution */
+#define NVMCTRL_CTRLA_CMDEX_Msk     (_U_(0xFF) << NVMCTRL_CTRLA_CMDEX_Pos)
+#define NVMCTRL_CTRLA_CMDEX(value)  (NVMCTRL_CTRLA_CMDEX_Msk & ((value) << NVMCTRL_CTRLA_CMDEX_Pos))
+#define   NVMCTRL_CTRLA_CMDEX_KEY_Val     _U_(0xA5)   /**< \brief (NVMCTRL_CTRLA) Execution Key */
+#define NVMCTRL_CTRLA_CMDEX_KEY     (NVMCTRL_CTRLA_CMDEX_KEY_Val   << NVMCTRL_CTRLA_CMDEX_Pos)
+#define NVMCTRL_CTRLA_MASK          _U_(0xFF7F)  /**< \brief (NVMCTRL_CTRLA) MASK Register */
+
+/* -------- NVMCTRL_CTRLB : (NVMCTRL Offset: 0x04) (R/W 32) Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t RWS:4;            /*!< bit:  1.. 4  NVM Read Wait States               */
+    uint32_t :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint32_t MANW:1;           /*!< bit:      7  Manual Write                       */
+    uint32_t SLEEPPRM:2;       /*!< bit:  8.. 9  Power Reduction Mode during Sleep  */
+    uint32_t :1;               /*!< bit:     10  Reserved                           */
+    uint32_t FWUP:1;           /*!< bit:     11  fast wake-up                       */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t READMODE:2;       /*!< bit: 16..17  NVMCTRL Read Mode                  */
+    uint32_t CACHEDIS:1;       /*!< bit:     18  Cache Disable                      */
+    uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_CTRLB_OFFSET        0x04         /**< \brief (NVMCTRL_CTRLB offset) Control B */
+#define NVMCTRL_CTRLB_RESETVALUE    _U_(0x00000080) /**< \brief (NVMCTRL_CTRLB reset_value) Control B */
+
+#define NVMCTRL_CTRLB_RWS_Pos       1            /**< \brief (NVMCTRL_CTRLB) NVM Read Wait States */
+#define NVMCTRL_CTRLB_RWS_Msk       (_U_(0xF) << NVMCTRL_CTRLB_RWS_Pos)
+#define NVMCTRL_CTRLB_RWS(value)    (NVMCTRL_CTRLB_RWS_Msk & ((value) << NVMCTRL_CTRLB_RWS_Pos))
+#define   NVMCTRL_CTRLB_RWS_SINGLE_Val    _U_(0x0)   /**< \brief (NVMCTRL_CTRLB) Single Auto Wait State */
+#define   NVMCTRL_CTRLB_RWS_HALF_Val      _U_(0x1)   /**< \brief (NVMCTRL_CTRLB) Half Auto Wait State */
+#define   NVMCTRL_CTRLB_RWS_DUAL_Val      _U_(0x2)   /**< \brief (NVMCTRL_CTRLB) Dual Auto Wait State */
+#define NVMCTRL_CTRLB_RWS_SINGLE    (NVMCTRL_CTRLB_RWS_SINGLE_Val  << NVMCTRL_CTRLB_RWS_Pos)
+#define NVMCTRL_CTRLB_RWS_HALF      (NVMCTRL_CTRLB_RWS_HALF_Val    << NVMCTRL_CTRLB_RWS_Pos)
+#define NVMCTRL_CTRLB_RWS_DUAL      (NVMCTRL_CTRLB_RWS_DUAL_Val    << NVMCTRL_CTRLB_RWS_Pos)
+#define NVMCTRL_CTRLB_MANW_Pos      7            /**< \brief (NVMCTRL_CTRLB) Manual Write */
+#define NVMCTRL_CTRLB_MANW          (_U_(0x1) << NVMCTRL_CTRLB_MANW_Pos)
+#define NVMCTRL_CTRLB_SLEEPPRM_Pos  8            /**< \brief (NVMCTRL_CTRLB) Power Reduction Mode during Sleep */
+#define NVMCTRL_CTRLB_SLEEPPRM_Msk  (_U_(0x3) << NVMCTRL_CTRLB_SLEEPPRM_Pos)
+#define NVMCTRL_CTRLB_SLEEPPRM(value) (NVMCTRL_CTRLB_SLEEPPRM_Msk & ((value) << NVMCTRL_CTRLB_SLEEPPRM_Pos))
+#define   NVMCTRL_CTRLB_SLEEPPRM_WAKEONACCESS_Val _U_(0x0)   /**< \brief (NVMCTRL_CTRLB) NVM block enters low-power mode when entering sleep.NVM block exits low-power mode upon first access. */
+#define   NVMCTRL_CTRLB_SLEEPPRM_WAKEUPINSTANT_Val _U_(0x1)   /**< \brief (NVMCTRL_CTRLB) NVM block enters low-power mode when entering sleep.NVM block exits low-power mode when exiting sleep. */
+#define   NVMCTRL_CTRLB_SLEEPPRM_DISABLED_Val _U_(0x3)   /**< \brief (NVMCTRL_CTRLB) Auto power reduction disabled. */
+#define NVMCTRL_CTRLB_SLEEPPRM_WAKEONACCESS (NVMCTRL_CTRLB_SLEEPPRM_WAKEONACCESS_Val << NVMCTRL_CTRLB_SLEEPPRM_Pos)
+#define NVMCTRL_CTRLB_SLEEPPRM_WAKEUPINSTANT (NVMCTRL_CTRLB_SLEEPPRM_WAKEUPINSTANT_Val << NVMCTRL_CTRLB_SLEEPPRM_Pos)
+#define NVMCTRL_CTRLB_SLEEPPRM_DISABLED (NVMCTRL_CTRLB_SLEEPPRM_DISABLED_Val << NVMCTRL_CTRLB_SLEEPPRM_Pos)
+#define NVMCTRL_CTRLB_FWUP_Pos      11           /**< \brief (NVMCTRL_CTRLB) fast wake-up */
+#define NVMCTRL_CTRLB_FWUP          (_U_(0x1) << NVMCTRL_CTRLB_FWUP_Pos)
+#define NVMCTRL_CTRLB_READMODE_Pos  16           /**< \brief (NVMCTRL_CTRLB) NVMCTRL Read Mode */
+#define NVMCTRL_CTRLB_READMODE_Msk  (_U_(0x3) << NVMCTRL_CTRLB_READMODE_Pos)
+#define NVMCTRL_CTRLB_READMODE(value) (NVMCTRL_CTRLB_READMODE_Msk & ((value) << NVMCTRL_CTRLB_READMODE_Pos))
+#define   NVMCTRL_CTRLB_READMODE_NO_MISS_PENALTY_Val _U_(0x0)   /**< \brief (NVMCTRL_CTRLB) The NVM Controller (cache system) does not insert wait states on a cache miss. Gives the best system performance. */
+#define   NVMCTRL_CTRLB_READMODE_LOW_POWER_Val _U_(0x1)   /**< \brief (NVMCTRL_CTRLB) Reduces power consumption of the cache system, but inserts a wait state each time there is a cache miss. This mode may not be relevant if CPU performance is required, as the application will be stalled and may lead to increase run time. */
+#define   NVMCTRL_CTRLB_READMODE_DETERMINISTIC_Val _U_(0x2)   /**< \brief (NVMCTRL_CTRLB) The cache system ensures that a cache hit or miss takes the same amount of time, determined by the number of programmed flash wait states. This mode can be used for real-time applications that require deterministic execution timings. */
+#define NVMCTRL_CTRLB_READMODE_NO_MISS_PENALTY (NVMCTRL_CTRLB_READMODE_NO_MISS_PENALTY_Val << NVMCTRL_CTRLB_READMODE_Pos)
+#define NVMCTRL_CTRLB_READMODE_LOW_POWER (NVMCTRL_CTRLB_READMODE_LOW_POWER_Val << NVMCTRL_CTRLB_READMODE_Pos)
+#define NVMCTRL_CTRLB_READMODE_DETERMINISTIC (NVMCTRL_CTRLB_READMODE_DETERMINISTIC_Val << NVMCTRL_CTRLB_READMODE_Pos)
+#define NVMCTRL_CTRLB_CACHEDIS_Pos  18           /**< \brief (NVMCTRL_CTRLB) Cache Disable */
+#define NVMCTRL_CTRLB_CACHEDIS      (_U_(0x1) << NVMCTRL_CTRLB_CACHEDIS_Pos)
+#define NVMCTRL_CTRLB_MASK          _U_(0x00070B9E) /**< \brief (NVMCTRL_CTRLB) MASK Register */
+
+/* -------- NVMCTRL_PARAM : (NVMCTRL Offset: 0x08) (R/W 32) NVM Parameter -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t NVMP:16;          /*!< bit:  0..15  NVM Pages                          */
+    uint32_t PSZ:3;            /*!< bit: 16..18  Page Size                          */
+    uint32_t :1;               /*!< bit:     19  Reserved                           */
+    uint32_t RWWEEP:12;        /*!< bit: 20..31  RWW EEPROM Pages                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_PARAM_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_PARAM_OFFSET        0x08         /**< \brief (NVMCTRL_PARAM offset) NVM Parameter */
+#define NVMCTRL_PARAM_RESETVALUE    _U_(0x00000000) /**< \brief (NVMCTRL_PARAM reset_value) NVM Parameter */
+
+#define NVMCTRL_PARAM_NVMP_Pos      0            /**< \brief (NVMCTRL_PARAM) NVM Pages */
+#define NVMCTRL_PARAM_NVMP_Msk      (_U_(0xFFFF) << NVMCTRL_PARAM_NVMP_Pos)
+#define NVMCTRL_PARAM_NVMP(value)   (NVMCTRL_PARAM_NVMP_Msk & ((value) << NVMCTRL_PARAM_NVMP_Pos))
+#define NVMCTRL_PARAM_PSZ_Pos       16           /**< \brief (NVMCTRL_PARAM) Page Size */
+#define NVMCTRL_PARAM_PSZ_Msk       (_U_(0x7) << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ(value)    (NVMCTRL_PARAM_PSZ_Msk & ((value) << NVMCTRL_PARAM_PSZ_Pos))
+#define   NVMCTRL_PARAM_PSZ_8_Val         _U_(0x0)   /**< \brief (NVMCTRL_PARAM) 8 bytes */
+#define   NVMCTRL_PARAM_PSZ_16_Val        _U_(0x1)   /**< \brief (NVMCTRL_PARAM) 16 bytes */
+#define   NVMCTRL_PARAM_PSZ_32_Val        _U_(0x2)   /**< \brief (NVMCTRL_PARAM) 32 bytes */
+#define   NVMCTRL_PARAM_PSZ_64_Val        _U_(0x3)   /**< \brief (NVMCTRL_PARAM) 64 bytes */
+#define   NVMCTRL_PARAM_PSZ_128_Val       _U_(0x4)   /**< \brief (NVMCTRL_PARAM) 128 bytes */
+#define   NVMCTRL_PARAM_PSZ_256_Val       _U_(0x5)   /**< \brief (NVMCTRL_PARAM) 256 bytes */
+#define   NVMCTRL_PARAM_PSZ_512_Val       _U_(0x6)   /**< \brief (NVMCTRL_PARAM) 512 bytes */
+#define   NVMCTRL_PARAM_PSZ_1024_Val      _U_(0x7)   /**< \brief (NVMCTRL_PARAM) 1024 bytes */
+#define NVMCTRL_PARAM_PSZ_8         (NVMCTRL_PARAM_PSZ_8_Val       << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_16        (NVMCTRL_PARAM_PSZ_16_Val      << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_32        (NVMCTRL_PARAM_PSZ_32_Val      << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_64        (NVMCTRL_PARAM_PSZ_64_Val      << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_128       (NVMCTRL_PARAM_PSZ_128_Val     << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_256       (NVMCTRL_PARAM_PSZ_256_Val     << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_512       (NVMCTRL_PARAM_PSZ_512_Val     << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_PSZ_1024      (NVMCTRL_PARAM_PSZ_1024_Val    << NVMCTRL_PARAM_PSZ_Pos)
+#define NVMCTRL_PARAM_RWWEEP_Pos    20           /**< \brief (NVMCTRL_PARAM) RWW EEPROM Pages */
+#define NVMCTRL_PARAM_RWWEEP_Msk    (_U_(0xFFF) << NVMCTRL_PARAM_RWWEEP_Pos)
+#define NVMCTRL_PARAM_RWWEEP(value) (NVMCTRL_PARAM_RWWEEP_Msk & ((value) << NVMCTRL_PARAM_RWWEEP_Pos))
+#define NVMCTRL_PARAM_MASK          _U_(0xFFF7FFFF) /**< \brief (NVMCTRL_PARAM) MASK Register */
+
+/* -------- NVMCTRL_INTENCLR : (NVMCTRL Offset: 0x0C) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  READY:1;          /*!< bit:      0  NVM Ready Interrupt Enable         */
+    uint8_t  ERROR:1;          /*!< bit:      1  Error Interrupt Enable             */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} NVMCTRL_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_INTENCLR_OFFSET     0x0C         /**< \brief (NVMCTRL_INTENCLR offset) Interrupt Enable Clear */
+#define NVMCTRL_INTENCLR_RESETVALUE _U_(0x00)    /**< \brief (NVMCTRL_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define NVMCTRL_INTENCLR_READY_Pos  0            /**< \brief (NVMCTRL_INTENCLR) NVM Ready Interrupt Enable */
+#define NVMCTRL_INTENCLR_READY      (_U_(0x1) << NVMCTRL_INTENCLR_READY_Pos)
+#define NVMCTRL_INTENCLR_ERROR_Pos  1            /**< \brief (NVMCTRL_INTENCLR) Error Interrupt Enable */
+#define NVMCTRL_INTENCLR_ERROR      (_U_(0x1) << NVMCTRL_INTENCLR_ERROR_Pos)
+#define NVMCTRL_INTENCLR_MASK       _U_(0x03)    /**< \brief (NVMCTRL_INTENCLR) MASK Register */
+
+/* -------- NVMCTRL_INTENSET : (NVMCTRL Offset: 0x10) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  READY:1;          /*!< bit:      0  NVM Ready Interrupt Enable         */
+    uint8_t  ERROR:1;          /*!< bit:      1  Error Interrupt Enable             */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} NVMCTRL_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_INTENSET_OFFSET     0x10         /**< \brief (NVMCTRL_INTENSET offset) Interrupt Enable Set */
+#define NVMCTRL_INTENSET_RESETVALUE _U_(0x00)    /**< \brief (NVMCTRL_INTENSET reset_value) Interrupt Enable Set */
+
+#define NVMCTRL_INTENSET_READY_Pos  0            /**< \brief (NVMCTRL_INTENSET) NVM Ready Interrupt Enable */
+#define NVMCTRL_INTENSET_READY      (_U_(0x1) << NVMCTRL_INTENSET_READY_Pos)
+#define NVMCTRL_INTENSET_ERROR_Pos  1            /**< \brief (NVMCTRL_INTENSET) Error Interrupt Enable */
+#define NVMCTRL_INTENSET_ERROR      (_U_(0x1) << NVMCTRL_INTENSET_ERROR_Pos)
+#define NVMCTRL_INTENSET_MASK       _U_(0x03)    /**< \brief (NVMCTRL_INTENSET) MASK Register */
+
+/* -------- NVMCTRL_INTFLAG : (NVMCTRL Offset: 0x14) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  READY:1;          /*!< bit:      0  NVM Ready                          */
+    __I uint8_t  ERROR:1;          /*!< bit:      1  Error                              */
+    __I uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} NVMCTRL_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_INTFLAG_OFFSET      0x14         /**< \brief (NVMCTRL_INTFLAG offset) Interrupt Flag Status and Clear */
+#define NVMCTRL_INTFLAG_RESETVALUE  _U_(0x00)    /**< \brief (NVMCTRL_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define NVMCTRL_INTFLAG_READY_Pos   0            /**< \brief (NVMCTRL_INTFLAG) NVM Ready */
+#define NVMCTRL_INTFLAG_READY       (_U_(0x1) << NVMCTRL_INTFLAG_READY_Pos)
+#define NVMCTRL_INTFLAG_ERROR_Pos   1            /**< \brief (NVMCTRL_INTFLAG) Error */
+#define NVMCTRL_INTFLAG_ERROR       (_U_(0x1) << NVMCTRL_INTFLAG_ERROR_Pos)
+#define NVMCTRL_INTFLAG_MASK        _U_(0x03)    /**< \brief (NVMCTRL_INTFLAG) MASK Register */
+
+/* -------- NVMCTRL_STATUS : (NVMCTRL Offset: 0x18) (R/W 16) Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PRM:1;            /*!< bit:      0  Power Reduction Mode               */
+    uint16_t LOAD:1;           /*!< bit:      1  NVM Page Buffer Active Loading     */
+    uint16_t PROGE:1;          /*!< bit:      2  Programming Error Status           */
+    uint16_t LOCKE:1;          /*!< bit:      3  Lock Error Status                  */
+    uint16_t NVME:1;           /*!< bit:      4  NVM Error                          */
+    uint16_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint16_t SB:1;             /*!< bit:      8  Security Bit Status                */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_STATUS_OFFSET       0x18         /**< \brief (NVMCTRL_STATUS offset) Status */
+#define NVMCTRL_STATUS_RESETVALUE   _U_(0x0000)  /**< \brief (NVMCTRL_STATUS reset_value) Status */
+
+#define NVMCTRL_STATUS_PRM_Pos      0            /**< \brief (NVMCTRL_STATUS) Power Reduction Mode */
+#define NVMCTRL_STATUS_PRM          (_U_(0x1) << NVMCTRL_STATUS_PRM_Pos)
+#define NVMCTRL_STATUS_LOAD_Pos     1            /**< \brief (NVMCTRL_STATUS) NVM Page Buffer Active Loading */
+#define NVMCTRL_STATUS_LOAD         (_U_(0x1) << NVMCTRL_STATUS_LOAD_Pos)
+#define NVMCTRL_STATUS_PROGE_Pos    2            /**< \brief (NVMCTRL_STATUS) Programming Error Status */
+#define NVMCTRL_STATUS_PROGE        (_U_(0x1) << NVMCTRL_STATUS_PROGE_Pos)
+#define NVMCTRL_STATUS_LOCKE_Pos    3            /**< \brief (NVMCTRL_STATUS) Lock Error Status */
+#define NVMCTRL_STATUS_LOCKE        (_U_(0x1) << NVMCTRL_STATUS_LOCKE_Pos)
+#define NVMCTRL_STATUS_NVME_Pos     4            /**< \brief (NVMCTRL_STATUS) NVM Error */
+#define NVMCTRL_STATUS_NVME         (_U_(0x1) << NVMCTRL_STATUS_NVME_Pos)
+#define NVMCTRL_STATUS_SB_Pos       8            /**< \brief (NVMCTRL_STATUS) Security Bit Status */
+#define NVMCTRL_STATUS_SB           (_U_(0x1) << NVMCTRL_STATUS_SB_Pos)
+#define NVMCTRL_STATUS_MASK         _U_(0x011F)  /**< \brief (NVMCTRL_STATUS) MASK Register */
+
+/* -------- NVMCTRL_ADDR : (NVMCTRL Offset: 0x1C) (R/W 32) Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t ADDR:22;          /*!< bit:  0..21  NVM Address                        */
+    uint32_t :10;              /*!< bit: 22..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_ADDR_OFFSET         0x1C         /**< \brief (NVMCTRL_ADDR offset) Address */
+#define NVMCTRL_ADDR_RESETVALUE     _U_(0x00000000) /**< \brief (NVMCTRL_ADDR reset_value) Address */
+
+#define NVMCTRL_ADDR_ADDR_Pos       0            /**< \brief (NVMCTRL_ADDR) NVM Address */
+#define NVMCTRL_ADDR_ADDR_Msk       (_U_(0x3FFFFF) << NVMCTRL_ADDR_ADDR_Pos)
+#define NVMCTRL_ADDR_ADDR(value)    (NVMCTRL_ADDR_ADDR_Msk & ((value) << NVMCTRL_ADDR_ADDR_Pos))
+#define NVMCTRL_ADDR_MASK           _U_(0x003FFFFF) /**< \brief (NVMCTRL_ADDR) MASK Register */
+
+/* -------- NVMCTRL_LOCK : (NVMCTRL Offset: 0x20) (R/W 16) Lock Section -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t LOCK:16;          /*!< bit:  0..15  Region Lock Bits                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} NVMCTRL_LOCK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define NVMCTRL_LOCK_OFFSET         0x20         /**< \brief (NVMCTRL_LOCK offset) Lock Section */
+
+#define NVMCTRL_LOCK_LOCK_Pos       0            /**< \brief (NVMCTRL_LOCK) Region Lock Bits */
+#define NVMCTRL_LOCK_LOCK_Msk       (_U_(0xFFFF) << NVMCTRL_LOCK_LOCK_Pos)
+#define NVMCTRL_LOCK_LOCK(value)    (NVMCTRL_LOCK_LOCK_Msk & ((value) << NVMCTRL_LOCK_LOCK_Pos))
+#define NVMCTRL_LOCK_MASK           _U_(0xFFFF)  /**< \brief (NVMCTRL_LOCK) MASK Register */
+
+/** \brief NVMCTRL APB hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO NVMCTRL_CTRLA_Type        CTRLA;       /**< \brief Offset: 0x00 (R/W 16) Control A */
+       RoReg8                    Reserved1[0x2];
+  __IO NVMCTRL_CTRLB_Type        CTRLB;       /**< \brief Offset: 0x04 (R/W 32) Control B */
+  __IO NVMCTRL_PARAM_Type        PARAM;       /**< \brief Offset: 0x08 (R/W 32) NVM Parameter */
+  __IO NVMCTRL_INTENCLR_Type     INTENCLR;    /**< \brief Offset: 0x0C (R/W  8) Interrupt Enable Clear */
+       RoReg8                    Reserved2[0x3];
+  __IO NVMCTRL_INTENSET_Type     INTENSET;    /**< \brief Offset: 0x10 (R/W  8) Interrupt Enable Set */
+       RoReg8                    Reserved3[0x3];
+  __IO NVMCTRL_INTFLAG_Type      INTFLAG;     /**< \brief Offset: 0x14 (R/W  8) Interrupt Flag Status and Clear */
+       RoReg8                    Reserved4[0x3];
+  __IO NVMCTRL_STATUS_Type       STATUS;      /**< \brief Offset: 0x18 (R/W 16) Status */
+       RoReg8                    Reserved5[0x2];
+  __IO NVMCTRL_ADDR_Type         ADDR;        /**< \brief Offset: 0x1C (R/W 32) Address */
+  __IO NVMCTRL_LOCK_Type         LOCK;        /**< \brief Offset: 0x20 (R/W 16) Lock Section */
+} Nvmctrl;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#ifdef __GNUC__
+ #define SECTION_NVMCTRL_CAL          __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_LOCKBIT      __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_OTP1         __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_OTP2         __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_OTP3         __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_OTP4         __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_OTP5         __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_TEMP_LOG     __attribute__ ((section(".flash")))
+ #define SECTION_NVMCTRL_USER         __attribute__ ((section(".flash")))
+#elif defined(__ICCARM__)
+ #define SECTION_NVMCTRL_CAL          @".flash"
+ #define SECTION_NVMCTRL_LOCKBIT      @".flash"
+ #define SECTION_NVMCTRL_OTP1         @".flash"
+ #define SECTION_NVMCTRL_OTP2         @".flash"
+ #define SECTION_NVMCTRL_OTP3         @".flash"
+ #define SECTION_NVMCTRL_OTP4         @".flash"
+ #define SECTION_NVMCTRL_OTP5         @".flash"
+ #define SECTION_NVMCTRL_TEMP_LOG     @".flash"
+ #define SECTION_NVMCTRL_USER         @".flash"
+#endif
+
+/*@}*/
+
+/* ************************************************************************** */
+/**  SOFTWARE PERIPHERAL API DEFINITION FOR NON-VOLATILE FUSES */
+/* ************************************************************************** */
+/** \addtogroup fuses_api Peripheral Software API */
+/*@{*/
+
+
+#define ADC_FUSES_BIASCOMP_ADDR     NVMCTRL_OTP5
+#define ADC_FUSES_BIASCOMP_Pos      3            /**< \brief (NVMCTRL_OTP5) ADC Comparator Scaling */
+#define ADC_FUSES_BIASCOMP_Msk      (_U_(0x7) << ADC_FUSES_BIASCOMP_Pos)
+#define ADC_FUSES_BIASCOMP(value)   (ADC_FUSES_BIASCOMP_Msk & ((value) << ADC_FUSES_BIASCOMP_Pos))
+
+#define ADC_FUSES_BIASREFBUF_ADDR   NVMCTRL_OTP5
+#define ADC_FUSES_BIASREFBUF_Pos    0            /**< \brief (NVMCTRL_OTP5) ADC Bias Reference Buffer Scaling */
+#define ADC_FUSES_BIASREFBUF_Msk    (_U_(0x7) << ADC_FUSES_BIASREFBUF_Pos)
+#define ADC_FUSES_BIASREFBUF(value) (ADC_FUSES_BIASREFBUF_Msk & ((value) << ADC_FUSES_BIASREFBUF_Pos))
+
+#define FUSES_BOD12_HYST_ADDR       (NVMCTRL_USER + 4)
+#define FUSES_BOD12_HYST_Pos        10           /**< \brief (NVMCTRL_USER) BOD12 Hysteresis */
+#define FUSES_BOD12_HYST_Msk        (_U_(0x1) << FUSES_BOD12_HYST_Pos)
+
+#define FUSES_BOD33USERLEVEL_ADDR   NVMCTRL_USER
+#define FUSES_BOD33USERLEVEL_Pos    8            /**< \brief (NVMCTRL_USER) BOD33 User Level */
+#define FUSES_BOD33USERLEVEL_Msk    (_U_(0x3F) << FUSES_BOD33USERLEVEL_Pos)
+#define FUSES_BOD33USERLEVEL(value) (FUSES_BOD33USERLEVEL_Msk & ((value) << FUSES_BOD33USERLEVEL_Pos))
+
+#define FUSES_BOD33_ACTION_ADDR     NVMCTRL_USER
+#define FUSES_BOD33_ACTION_Pos      15           /**< \brief (NVMCTRL_USER) BOD33 Action */
+#define FUSES_BOD33_ACTION_Msk      (_U_(0x3) << FUSES_BOD33_ACTION_Pos)
+#define FUSES_BOD33_ACTION(value)   (FUSES_BOD33_ACTION_Msk & ((value) << FUSES_BOD33_ACTION_Pos))
+
+#define FUSES_BOD33_DIS_ADDR        NVMCTRL_USER
+#define FUSES_BOD33_DIS_Pos         14           /**< \brief (NVMCTRL_USER) BOD33 Disable */
+#define FUSES_BOD33_DIS_Msk         (_U_(0x1) << FUSES_BOD33_DIS_Pos)
+
+#define FUSES_BOD33_HYST_ADDR       (NVMCTRL_USER + 4)
+#define FUSES_BOD33_HYST_Pos        9            /**< \brief (NVMCTRL_USER) BOD33 Hysteresis */
+#define FUSES_BOD33_HYST_Msk        (_U_(0x1) << FUSES_BOD33_HYST_Pos)
+
+#define FUSES_DFLL48M_COARSE_CAL_ADDR NVMCTRL_OTP5
+#define FUSES_DFLL48M_COARSE_CAL_Pos 26           /**< \brief (NVMCTRL_OTP5) DFLL48M Coarse Calibration */
+#define FUSES_DFLL48M_COARSE_CAL_Msk (_U_(0x3F) << FUSES_DFLL48M_COARSE_CAL_Pos)
+#define FUSES_DFLL48M_COARSE_CAL(value) (FUSES_DFLL48M_COARSE_CAL_Msk & ((value) << FUSES_DFLL48M_COARSE_CAL_Pos))
+
+#define FUSES_HOT_ADC_VAL_CTAT_ADDR (NVMCTRL_TEMP_LOG + 8)
+#define FUSES_HOT_ADC_VAL_CTAT_Pos  12           /**< \brief (NVMCTRL_TEMP_LOG) 12-bit ADC conversion at hot temperature CTAT */
+#define FUSES_HOT_ADC_VAL_CTAT_Msk  (_U_(0xFFF) << FUSES_HOT_ADC_VAL_CTAT_Pos)
+#define FUSES_HOT_ADC_VAL_CTAT(value) (FUSES_HOT_ADC_VAL_CTAT_Msk & ((value) << FUSES_HOT_ADC_VAL_CTAT_Pos))
+
+#define FUSES_HOT_ADC_VAL_PTAT_ADDR (NVMCTRL_TEMP_LOG + 4)
+#define FUSES_HOT_ADC_VAL_PTAT_Pos  20           /**< \brief (NVMCTRL_TEMP_LOG) 12-bit ADC conversion at hot temperature PTAT */
+#define FUSES_HOT_ADC_VAL_PTAT_Msk  (_U_(0xFFF) << FUSES_HOT_ADC_VAL_PTAT_Pos)
+#define FUSES_HOT_ADC_VAL_PTAT(value) (FUSES_HOT_ADC_VAL_PTAT_Msk & ((value) << FUSES_HOT_ADC_VAL_PTAT_Pos))
+
+#define FUSES_HOT_INT1V_VAL_ADDR    (NVMCTRL_TEMP_LOG + 4)
+#define FUSES_HOT_INT1V_VAL_Pos     0            /**< \brief (NVMCTRL_TEMP_LOG) 2's complement of the internal 1V reference drift at hot temperature (versus a 1.0 centered value) */
+#define FUSES_HOT_INT1V_VAL_Msk     (_U_(0xFF) << FUSES_HOT_INT1V_VAL_Pos)
+#define FUSES_HOT_INT1V_VAL(value)  (FUSES_HOT_INT1V_VAL_Msk & ((value) << FUSES_HOT_INT1V_VAL_Pos))
+
+#define FUSES_HOT_TEMP_VAL_DEC_ADDR NVMCTRL_TEMP_LOG
+#define FUSES_HOT_TEMP_VAL_DEC_Pos  20           /**< \brief (NVMCTRL_TEMP_LOG) Decimal part of hot temperature */
+#define FUSES_HOT_TEMP_VAL_DEC_Msk  (_U_(0xF) << FUSES_HOT_TEMP_VAL_DEC_Pos)
+#define FUSES_HOT_TEMP_VAL_DEC(value) (FUSES_HOT_TEMP_VAL_DEC_Msk & ((value) << FUSES_HOT_TEMP_VAL_DEC_Pos))
+
+#define FUSES_HOT_TEMP_VAL_INT_ADDR NVMCTRL_TEMP_LOG
+#define FUSES_HOT_TEMP_VAL_INT_Pos  12           /**< \brief (NVMCTRL_TEMP_LOG) Integer part of hot temperature in oC */
+#define FUSES_HOT_TEMP_VAL_INT_Msk  (_U_(0xFF) << FUSES_HOT_TEMP_VAL_INT_Pos)
+#define FUSES_HOT_TEMP_VAL_INT(value) (FUSES_HOT_TEMP_VAL_INT_Msk & ((value) << FUSES_HOT_TEMP_VAL_INT_Pos))
+
+#define FUSES_ROOM_ADC_VAL_CTAT_ADDR (NVMCTRL_TEMP_LOG + 8)
+#define FUSES_ROOM_ADC_VAL_CTAT_Pos 0            /**< \brief (NVMCTRL_TEMP_LOG) 12-bit ADC conversion at room temperature CTAT */
+#define FUSES_ROOM_ADC_VAL_CTAT_Msk (_U_(0xFFF) << FUSES_ROOM_ADC_VAL_CTAT_Pos)
+#define FUSES_ROOM_ADC_VAL_CTAT(value) (FUSES_ROOM_ADC_VAL_CTAT_Msk & ((value) << FUSES_ROOM_ADC_VAL_CTAT_Pos))
+
+#define FUSES_ROOM_ADC_VAL_PTAT_ADDR (NVMCTRL_TEMP_LOG + 4)
+#define FUSES_ROOM_ADC_VAL_PTAT_Pos 8            /**< \brief (NVMCTRL_TEMP_LOG) 12-bit ADC conversion at room temperature PTAT */
+#define FUSES_ROOM_ADC_VAL_PTAT_Msk (_U_(0xFFF) << FUSES_ROOM_ADC_VAL_PTAT_Pos)
+#define FUSES_ROOM_ADC_VAL_PTAT(value) (FUSES_ROOM_ADC_VAL_PTAT_Msk & ((value) << FUSES_ROOM_ADC_VAL_PTAT_Pos))
+
+#define FUSES_ROOM_INT1V_VAL_ADDR   NVMCTRL_TEMP_LOG
+#define FUSES_ROOM_INT1V_VAL_Pos    24           /**< \brief (NVMCTRL_TEMP_LOG) 2's complement of the internal 1V reference drift at room temperature (versus a 1.0 centered value) */
+#define FUSES_ROOM_INT1V_VAL_Msk    (_U_(0xFF) << FUSES_ROOM_INT1V_VAL_Pos)
+#define FUSES_ROOM_INT1V_VAL(value) (FUSES_ROOM_INT1V_VAL_Msk & ((value) << FUSES_ROOM_INT1V_VAL_Pos))
+
+#define FUSES_ROOM_TEMP_VAL_DEC_ADDR NVMCTRL_TEMP_LOG
+#define FUSES_ROOM_TEMP_VAL_DEC_Pos 8            /**< \brief (NVMCTRL_TEMP_LOG) Decimal part of room temperature */
+#define FUSES_ROOM_TEMP_VAL_DEC_Msk (_U_(0xF) << FUSES_ROOM_TEMP_VAL_DEC_Pos)
+#define FUSES_ROOM_TEMP_VAL_DEC(value) (FUSES_ROOM_TEMP_VAL_DEC_Msk & ((value) << FUSES_ROOM_TEMP_VAL_DEC_Pos))
+
+#define FUSES_ROOM_TEMP_VAL_INT_ADDR NVMCTRL_TEMP_LOG
+#define FUSES_ROOM_TEMP_VAL_INT_Pos 0            /**< \brief (NVMCTRL_TEMP_LOG) Integer part of room temperature in oC */
+#define FUSES_ROOM_TEMP_VAL_INT_Msk (_U_(0xFF) << FUSES_ROOM_TEMP_VAL_INT_Pos)
+#define FUSES_ROOM_TEMP_VAL_INT(value) (FUSES_ROOM_TEMP_VAL_INT_Msk & ((value) << FUSES_ROOM_TEMP_VAL_INT_Pos))
+
+#define NVMCTRL_FUSES_BOOTPROT_ADDR NVMCTRL_USER
+#define NVMCTRL_FUSES_BOOTPROT_Pos  0            /**< \brief (NVMCTRL_USER) Bootloader Size */
+#define NVMCTRL_FUSES_BOOTPROT_Msk  (_U_(0x7) << NVMCTRL_FUSES_BOOTPROT_Pos)
+#define NVMCTRL_FUSES_BOOTPROT(value) (NVMCTRL_FUSES_BOOTPROT_Msk & ((value) << NVMCTRL_FUSES_BOOTPROT_Pos))
+
+#define NVMCTRL_FUSES_EEPROM_SIZE_ADDR NVMCTRL_USER
+#define NVMCTRL_FUSES_EEPROM_SIZE_Pos 4            /**< \brief (NVMCTRL_USER) EEPROM Size */
+#define NVMCTRL_FUSES_EEPROM_SIZE_Msk (_U_(0x7) << NVMCTRL_FUSES_EEPROM_SIZE_Pos)
+#define NVMCTRL_FUSES_EEPROM_SIZE(value) (NVMCTRL_FUSES_EEPROM_SIZE_Msk & ((value) << NVMCTRL_FUSES_EEPROM_SIZE_Pos))
+
+#define NVMCTRL_FUSES_REGION_LOCKS_ADDR (NVMCTRL_USER + 4)
+#define NVMCTRL_FUSES_REGION_LOCKS_Pos 16           /**< \brief (NVMCTRL_USER) NVM Region Locks */
+#define NVMCTRL_FUSES_REGION_LOCKS_Msk (_U_(0xFFFF) << NVMCTRL_FUSES_REGION_LOCKS_Pos)
+#define NVMCTRL_FUSES_REGION_LOCKS(value) (NVMCTRL_FUSES_REGION_LOCKS_Msk & ((value) << NVMCTRL_FUSES_REGION_LOCKS_Pos))
+
+#define USB_FUSES_TRANSN_ADDR       NVMCTRL_OTP5
+#define USB_FUSES_TRANSN_Pos        13           /**< \brief (NVMCTRL_OTP5) USB pad Transn calibration */
+#define USB_FUSES_TRANSN_Msk        (_U_(0x1F) << USB_FUSES_TRANSN_Pos)
+#define USB_FUSES_TRANSN(value)     (USB_FUSES_TRANSN_Msk & ((value) << USB_FUSES_TRANSN_Pos))
+
+#define USB_FUSES_TRANSP_ADDR       NVMCTRL_OTP5
+#define USB_FUSES_TRANSP_Pos        18           /**< \brief (NVMCTRL_OTP5) USB pad Transp calibration */
+#define USB_FUSES_TRANSP_Msk        (_U_(0x1F) << USB_FUSES_TRANSP_Pos)
+#define USB_FUSES_TRANSP(value)     (USB_FUSES_TRANSP_Msk & ((value) << USB_FUSES_TRANSP_Pos))
+
+#define USB_FUSES_TRIM_ADDR         NVMCTRL_OTP5
+#define USB_FUSES_TRIM_Pos          23           /**< \brief (NVMCTRL_OTP5) USB pad Trim calibration */
+#define USB_FUSES_TRIM_Msk          (_U_(0x7) << USB_FUSES_TRIM_Pos)
+#define USB_FUSES_TRIM(value)       (USB_FUSES_TRIM_Msk & ((value) << USB_FUSES_TRIM_Pos))
+
+#define WDT_FUSES_ALWAYSON_ADDR     NVMCTRL_USER
+#define WDT_FUSES_ALWAYSON_Pos      27           /**< \brief (NVMCTRL_USER) WDT Always On */
+#define WDT_FUSES_ALWAYSON_Msk      (_U_(0x1) << WDT_FUSES_ALWAYSON_Pos)
+
+#define WDT_FUSES_ENABLE_ADDR       NVMCTRL_USER
+#define WDT_FUSES_ENABLE_Pos        26           /**< \brief (NVMCTRL_USER) WDT Enable */
+#define WDT_FUSES_ENABLE_Msk        (_U_(0x1) << WDT_FUSES_ENABLE_Pos)
+
+#define WDT_FUSES_EWOFFSET_ADDR     (NVMCTRL_USER + 4)
+#define WDT_FUSES_EWOFFSET_Pos      4            /**< \brief (NVMCTRL_USER) WDT Early Warning Offset */
+#define WDT_FUSES_EWOFFSET_Msk      (_U_(0xF) << WDT_FUSES_EWOFFSET_Pos)
+#define WDT_FUSES_EWOFFSET(value)   (WDT_FUSES_EWOFFSET_Msk & ((value) << WDT_FUSES_EWOFFSET_Pos))
+
+#define WDT_FUSES_PER_ADDR          NVMCTRL_USER
+#define WDT_FUSES_PER_Pos           28           /**< \brief (NVMCTRL_USER) WDT Period */
+#define WDT_FUSES_PER_Msk           (_U_(0xF) << WDT_FUSES_PER_Pos)
+#define WDT_FUSES_PER(value)        (WDT_FUSES_PER_Msk & ((value) << WDT_FUSES_PER_Pos))
+
+#define WDT_FUSES_WEN_ADDR          (NVMCTRL_USER + 4)
+#define WDT_FUSES_WEN_Pos           8            /**< \brief (NVMCTRL_USER) WDT Window Mode Enable */
+#define WDT_FUSES_WEN_Msk           (_U_(0x1) << WDT_FUSES_WEN_Pos)
+
+#define WDT_FUSES_WINDOW_ADDR       (NVMCTRL_USER + 4)
+#define WDT_FUSES_WINDOW_Pos        0            /**< \brief (NVMCTRL_USER) WDT Window */
+#define WDT_FUSES_WINDOW_Msk        (_U_(0xF) << WDT_FUSES_WINDOW_Pos)
+#define WDT_FUSES_WINDOW(value)     (WDT_FUSES_WINDOW_Msk & ((value) << WDT_FUSES_WINDOW_Pos))
+
+/*@}*/
+
+#endif /* _SAML22_NVMCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/osc32kctrl.h b/watch-library/hardware/include/component/osc32kctrl.h
new file mode 100644
index 00000000..cc4ee9a1
--- /dev/null
+++ b/watch-library/hardware/include/component/osc32kctrl.h
@@ -0,0 +1,313 @@
+/**
+ * \file
+ *
+ * \brief Component description for OSC32KCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_OSC32KCTRL_COMPONENT_
+#define _SAML22_OSC32KCTRL_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR OSC32KCTRL */
+/* ========================================================================== */
+/** \addtogroup SAML22_OSC32KCTRL 32k Oscillators Control */
+/*@{*/
+
+#define OSC32KCTRL_U2246
+#define REV_OSC32KCTRL              0x300
+
+/* -------- OSC32KCTRL_INTENCLR : (OSC32KCTRL Offset: 0x00) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSC32KRDY:1;     /*!< bit:      0  XOSC32K Ready Interrupt Enable     */
+    uint32_t :1;               /*!< bit:      1  Reserved                           */
+    uint32_t CLKFAIL:1;        /*!< bit:      2  XOSC32K Clock Failure Detector Interrupt Enable */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_INTENCLR_OFFSET  0x00         /**< \brief (OSC32KCTRL_INTENCLR offset) Interrupt Enable Clear */
+#define OSC32KCTRL_INTENCLR_RESETVALUE _U_(0x00000000) /**< \brief (OSC32KCTRL_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define OSC32KCTRL_INTENCLR_XOSC32KRDY_Pos 0            /**< \brief (OSC32KCTRL_INTENCLR) XOSC32K Ready Interrupt Enable */
+#define OSC32KCTRL_INTENCLR_XOSC32KRDY (_U_(0x1) << OSC32KCTRL_INTENCLR_XOSC32KRDY_Pos)
+#define OSC32KCTRL_INTENCLR_CLKFAIL_Pos 2            /**< \brief (OSC32KCTRL_INTENCLR) XOSC32K Clock Failure Detector Interrupt Enable */
+#define OSC32KCTRL_INTENCLR_CLKFAIL (_U_(0x1) << OSC32KCTRL_INTENCLR_CLKFAIL_Pos)
+#define OSC32KCTRL_INTENCLR_MASK    _U_(0x00000005) /**< \brief (OSC32KCTRL_INTENCLR) MASK Register */
+
+/* -------- OSC32KCTRL_INTENSET : (OSC32KCTRL Offset: 0x04) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSC32KRDY:1;     /*!< bit:      0  XOSC32K Ready Interrupt Enable     */
+    uint32_t :1;               /*!< bit:      1  Reserved                           */
+    uint32_t CLKFAIL:1;        /*!< bit:      2  XOSC32K Clock Failure Detector Interrupt Enable */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_INTENSET_OFFSET  0x04         /**< \brief (OSC32KCTRL_INTENSET offset) Interrupt Enable Set */
+#define OSC32KCTRL_INTENSET_RESETVALUE _U_(0x00000000) /**< \brief (OSC32KCTRL_INTENSET reset_value) Interrupt Enable Set */
+
+#define OSC32KCTRL_INTENSET_XOSC32KRDY_Pos 0            /**< \brief (OSC32KCTRL_INTENSET) XOSC32K Ready Interrupt Enable */
+#define OSC32KCTRL_INTENSET_XOSC32KRDY (_U_(0x1) << OSC32KCTRL_INTENSET_XOSC32KRDY_Pos)
+#define OSC32KCTRL_INTENSET_CLKFAIL_Pos 2            /**< \brief (OSC32KCTRL_INTENSET) XOSC32K Clock Failure Detector Interrupt Enable */
+#define OSC32KCTRL_INTENSET_CLKFAIL (_U_(0x1) << OSC32KCTRL_INTENSET_CLKFAIL_Pos)
+#define OSC32KCTRL_INTENSET_MASK    _U_(0x00000005) /**< \brief (OSC32KCTRL_INTENSET) MASK Register */
+
+/* -------- OSC32KCTRL_INTFLAG : (OSC32KCTRL Offset: 0x08) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t XOSC32KRDY:1;     /*!< bit:      0  XOSC32K Ready                      */
+    __I uint32_t :1;               /*!< bit:      1  Reserved                           */
+    __I uint32_t CLKFAIL:1;        /*!< bit:      2  XOSC32K Clock Failure Detector     */
+    __I uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_INTFLAG_OFFSET   0x08         /**< \brief (OSC32KCTRL_INTFLAG offset) Interrupt Flag Status and Clear */
+#define OSC32KCTRL_INTFLAG_RESETVALUE _U_(0x00000000) /**< \brief (OSC32KCTRL_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define OSC32KCTRL_INTFLAG_XOSC32KRDY_Pos 0            /**< \brief (OSC32KCTRL_INTFLAG) XOSC32K Ready */
+#define OSC32KCTRL_INTFLAG_XOSC32KRDY (_U_(0x1) << OSC32KCTRL_INTFLAG_XOSC32KRDY_Pos)
+#define OSC32KCTRL_INTFLAG_CLKFAIL_Pos 2            /**< \brief (OSC32KCTRL_INTFLAG) XOSC32K Clock Failure Detector */
+#define OSC32KCTRL_INTFLAG_CLKFAIL  (_U_(0x1) << OSC32KCTRL_INTFLAG_CLKFAIL_Pos)
+#define OSC32KCTRL_INTFLAG_MASK     _U_(0x00000005) /**< \brief (OSC32KCTRL_INTFLAG) MASK Register */
+
+/* -------- OSC32KCTRL_STATUS : (OSC32KCTRL Offset: 0x0C) (R/  32) Power and Clocks Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSC32KRDY:1;     /*!< bit:      0  XOSC32K Ready                      */
+    uint32_t :1;               /*!< bit:      1  Reserved                           */
+    uint32_t CLKFAIL:1;        /*!< bit:      2  XOSC32K Clock Failure Detector     */
+    uint32_t CLKSW:1;          /*!< bit:      3  XOSC32K Clock switch               */
+    uint32_t :28;              /*!< bit:  4..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_STATUS_OFFSET    0x0C         /**< \brief (OSC32KCTRL_STATUS offset) Power and Clocks Status */
+#define OSC32KCTRL_STATUS_RESETVALUE _U_(0x00000000) /**< \brief (OSC32KCTRL_STATUS reset_value) Power and Clocks Status */
+
+#define OSC32KCTRL_STATUS_XOSC32KRDY_Pos 0            /**< \brief (OSC32KCTRL_STATUS) XOSC32K Ready */
+#define OSC32KCTRL_STATUS_XOSC32KRDY (_U_(0x1) << OSC32KCTRL_STATUS_XOSC32KRDY_Pos)
+#define OSC32KCTRL_STATUS_CLKFAIL_Pos 2            /**< \brief (OSC32KCTRL_STATUS) XOSC32K Clock Failure Detector */
+#define OSC32KCTRL_STATUS_CLKFAIL   (_U_(0x1) << OSC32KCTRL_STATUS_CLKFAIL_Pos)
+#define OSC32KCTRL_STATUS_CLKSW_Pos 3            /**< \brief (OSC32KCTRL_STATUS) XOSC32K Clock switch */
+#define OSC32KCTRL_STATUS_CLKSW     (_U_(0x1) << OSC32KCTRL_STATUS_CLKSW_Pos)
+#define OSC32KCTRL_STATUS_MASK      _U_(0x0000000D) /**< \brief (OSC32KCTRL_STATUS) MASK Register */
+
+/* -------- OSC32KCTRL_RTCCTRL : (OSC32KCTRL Offset: 0x10) (R/W  8) RTC Clock Selection -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  RTCSEL:3;         /*!< bit:  0.. 2  RTC Clock Selection                */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSC32KCTRL_RTCCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_RTCCTRL_OFFSET   0x10         /**< \brief (OSC32KCTRL_RTCCTRL offset) RTC Clock Selection */
+#define OSC32KCTRL_RTCCTRL_RESETVALUE _U_(0x00)    /**< \brief (OSC32KCTRL_RTCCTRL reset_value) RTC Clock Selection */
+
+#define OSC32KCTRL_RTCCTRL_RTCSEL_Pos 0            /**< \brief (OSC32KCTRL_RTCCTRL) RTC Clock Selection */
+#define OSC32KCTRL_RTCCTRL_RTCSEL_Msk (_U_(0x7) << OSC32KCTRL_RTCCTRL_RTCSEL_Pos)
+#define OSC32KCTRL_RTCCTRL_RTCSEL(value) (OSC32KCTRL_RTCCTRL_RTCSEL_Msk & ((value) << OSC32KCTRL_RTCCTRL_RTCSEL_Pos))
+#define   OSC32KCTRL_RTCCTRL_RTCSEL_ULP1K_Val _U_(0x0)   /**< \brief (OSC32KCTRL_RTCCTRL) 1.024kHz from 32kHz internal ULP oscillator */
+#define   OSC32KCTRL_RTCCTRL_RTCSEL_ULP32K_Val _U_(0x1)   /**< \brief (OSC32KCTRL_RTCCTRL) 32.768kHz from 32kHz internal ULP oscillator */
+#define   OSC32KCTRL_RTCCTRL_RTCSEL_XOSC1K_Val _U_(0x4)   /**< \brief (OSC32KCTRL_RTCCTRL) 1.024kHz from 32.768kHz external oscillator */
+#define   OSC32KCTRL_RTCCTRL_RTCSEL_XOSC32K_Val _U_(0x5)   /**< \brief (OSC32KCTRL_RTCCTRL) 32.768kHz from 32.768kHz external crystal oscillator */
+#define OSC32KCTRL_RTCCTRL_RTCSEL_ULP1K (OSC32KCTRL_RTCCTRL_RTCSEL_ULP1K_Val << OSC32KCTRL_RTCCTRL_RTCSEL_Pos)
+#define OSC32KCTRL_RTCCTRL_RTCSEL_ULP32K (OSC32KCTRL_RTCCTRL_RTCSEL_ULP32K_Val << OSC32KCTRL_RTCCTRL_RTCSEL_Pos)
+#define OSC32KCTRL_RTCCTRL_RTCSEL_XOSC1K (OSC32KCTRL_RTCCTRL_RTCSEL_XOSC1K_Val << OSC32KCTRL_RTCCTRL_RTCSEL_Pos)
+#define OSC32KCTRL_RTCCTRL_RTCSEL_XOSC32K (OSC32KCTRL_RTCCTRL_RTCSEL_XOSC32K_Val << OSC32KCTRL_RTCCTRL_RTCSEL_Pos)
+#define OSC32KCTRL_RTCCTRL_MASK     _U_(0x07)    /**< \brief (OSC32KCTRL_RTCCTRL) MASK Register */
+
+/* -------- OSC32KCTRL_SLCDCTRL : (OSC32KCTRL Offset: 0x11) (R/W  8) SLCD Clock Selection -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SLCDSEL:1;        /*!< bit:      0  SLCD Clock Selection               */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSC32KCTRL_SLCDCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_SLCDCTRL_OFFSET  0x11         /**< \brief (OSC32KCTRL_SLCDCTRL offset) SLCD Clock Selection */
+#define OSC32KCTRL_SLCDCTRL_RESETVALUE _U_(0x00)    /**< \brief (OSC32KCTRL_SLCDCTRL reset_value) SLCD Clock Selection */
+
+#define OSC32KCTRL_SLCDCTRL_SLCDSEL_Pos 0            /**< \brief (OSC32KCTRL_SLCDCTRL) SLCD Clock Selection */
+#define OSC32KCTRL_SLCDCTRL_SLCDSEL (_U_(0x1) << OSC32KCTRL_SLCDCTRL_SLCDSEL_Pos)
+#define OSC32KCTRL_SLCDCTRL_MASK    _U_(0x01)    /**< \brief (OSC32KCTRL_SLCDCTRL) MASK Register */
+
+/* -------- OSC32KCTRL_XOSC32K : (OSC32KCTRL Offset: 0x14) (R/W 16) 32kHz External Crystal Oscillator (XOSC32K) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t :1;               /*!< bit:      0  Reserved                           */
+    uint16_t ENABLE:1;         /*!< bit:      1  Oscillator Enable                  */
+    uint16_t XTALEN:1;         /*!< bit:      2  Crystal Oscillator Enable          */
+    uint16_t EN32K:1;          /*!< bit:      3  32kHz Output Enable                */
+    uint16_t EN1K:1;           /*!< bit:      4  1kHz Output Enable                 */
+    uint16_t :1;               /*!< bit:      5  Reserved                           */
+    uint16_t RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint16_t ONDEMAND:1;       /*!< bit:      7  On Demand Control                  */
+    uint16_t STARTUP:3;        /*!< bit:  8..10  Oscillator Start-Up Time           */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t WRTLOCK:1;        /*!< bit:     12  Write Lock                         */
+    uint16_t :3;               /*!< bit: 13..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_XOSC32K_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_XOSC32K_OFFSET   0x14         /**< \brief (OSC32KCTRL_XOSC32K offset) 32kHz External Crystal Oscillator (XOSC32K) Control */
+#define OSC32KCTRL_XOSC32K_RESETVALUE _U_(0x0080)  /**< \brief (OSC32KCTRL_XOSC32K reset_value) 32kHz External Crystal Oscillator (XOSC32K) Control */
+
+#define OSC32KCTRL_XOSC32K_ENABLE_Pos 1            /**< \brief (OSC32KCTRL_XOSC32K) Oscillator Enable */
+#define OSC32KCTRL_XOSC32K_ENABLE   (_U_(0x1) << OSC32KCTRL_XOSC32K_ENABLE_Pos)
+#define OSC32KCTRL_XOSC32K_XTALEN_Pos 2            /**< \brief (OSC32KCTRL_XOSC32K) Crystal Oscillator Enable */
+#define OSC32KCTRL_XOSC32K_XTALEN   (_U_(0x1) << OSC32KCTRL_XOSC32K_XTALEN_Pos)
+#define OSC32KCTRL_XOSC32K_EN32K_Pos 3            /**< \brief (OSC32KCTRL_XOSC32K) 32kHz Output Enable */
+#define OSC32KCTRL_XOSC32K_EN32K    (_U_(0x1) << OSC32KCTRL_XOSC32K_EN32K_Pos)
+#define OSC32KCTRL_XOSC32K_EN1K_Pos 4            /**< \brief (OSC32KCTRL_XOSC32K) 1kHz Output Enable */
+#define OSC32KCTRL_XOSC32K_EN1K     (_U_(0x1) << OSC32KCTRL_XOSC32K_EN1K_Pos)
+#define OSC32KCTRL_XOSC32K_RUNSTDBY_Pos 6            /**< \brief (OSC32KCTRL_XOSC32K) Run in Standby */
+#define OSC32KCTRL_XOSC32K_RUNSTDBY (_U_(0x1) << OSC32KCTRL_XOSC32K_RUNSTDBY_Pos)
+#define OSC32KCTRL_XOSC32K_ONDEMAND_Pos 7            /**< \brief (OSC32KCTRL_XOSC32K) On Demand Control */
+#define OSC32KCTRL_XOSC32K_ONDEMAND (_U_(0x1) << OSC32KCTRL_XOSC32K_ONDEMAND_Pos)
+#define OSC32KCTRL_XOSC32K_STARTUP_Pos 8            /**< \brief (OSC32KCTRL_XOSC32K) Oscillator Start-Up Time */
+#define OSC32KCTRL_XOSC32K_STARTUP_Msk (_U_(0x7) << OSC32KCTRL_XOSC32K_STARTUP_Pos)
+#define OSC32KCTRL_XOSC32K_STARTUP(value) (OSC32KCTRL_XOSC32K_STARTUP_Msk & ((value) << OSC32KCTRL_XOSC32K_STARTUP_Pos))
+#define OSC32KCTRL_XOSC32K_WRTLOCK_Pos 12           /**< \brief (OSC32KCTRL_XOSC32K) Write Lock */
+#define OSC32KCTRL_XOSC32K_WRTLOCK  (_U_(0x1) << OSC32KCTRL_XOSC32K_WRTLOCK_Pos)
+#define OSC32KCTRL_XOSC32K_MASK     _U_(0x17DE)  /**< \brief (OSC32KCTRL_XOSC32K) MASK Register */
+
+/* -------- OSC32KCTRL_CFDCTRL : (OSC32KCTRL Offset: 0x16) (R/W  8) Clock Failure Detector Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CFDEN:1;          /*!< bit:      0  Clock Failure Detector Enable      */
+    uint8_t  SWBACK:1;         /*!< bit:      1  Clock Switch Back                  */
+    uint8_t  CFDPRESC:1;       /*!< bit:      2  Clock Failure Detector Prescaler   */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSC32KCTRL_CFDCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_CFDCTRL_OFFSET   0x16         /**< \brief (OSC32KCTRL_CFDCTRL offset) Clock Failure Detector Control */
+#define OSC32KCTRL_CFDCTRL_RESETVALUE _U_(0x00)    /**< \brief (OSC32KCTRL_CFDCTRL reset_value) Clock Failure Detector Control */
+
+#define OSC32KCTRL_CFDCTRL_CFDEN_Pos 0            /**< \brief (OSC32KCTRL_CFDCTRL) Clock Failure Detector Enable */
+#define OSC32KCTRL_CFDCTRL_CFDEN    (_U_(0x1) << OSC32KCTRL_CFDCTRL_CFDEN_Pos)
+#define OSC32KCTRL_CFDCTRL_SWBACK_Pos 1            /**< \brief (OSC32KCTRL_CFDCTRL) Clock Switch Back */
+#define OSC32KCTRL_CFDCTRL_SWBACK   (_U_(0x1) << OSC32KCTRL_CFDCTRL_SWBACK_Pos)
+#define OSC32KCTRL_CFDCTRL_CFDPRESC_Pos 2            /**< \brief (OSC32KCTRL_CFDCTRL) Clock Failure Detector Prescaler */
+#define OSC32KCTRL_CFDCTRL_CFDPRESC (_U_(0x1) << OSC32KCTRL_CFDCTRL_CFDPRESC_Pos)
+#define OSC32KCTRL_CFDCTRL_MASK     _U_(0x07)    /**< \brief (OSC32KCTRL_CFDCTRL) MASK Register */
+
+/* -------- OSC32KCTRL_EVCTRL : (OSC32KCTRL Offset: 0x17) (R/W  8) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CFDEO:1;          /*!< bit:      0  Clock Failure Detector Event Output Enable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSC32KCTRL_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_EVCTRL_OFFSET    0x17         /**< \brief (OSC32KCTRL_EVCTRL offset) Event Control */
+#define OSC32KCTRL_EVCTRL_RESETVALUE _U_(0x00)    /**< \brief (OSC32KCTRL_EVCTRL reset_value) Event Control */
+
+#define OSC32KCTRL_EVCTRL_CFDEO_Pos 0            /**< \brief (OSC32KCTRL_EVCTRL) Clock Failure Detector Event Output Enable */
+#define OSC32KCTRL_EVCTRL_CFDEO     (_U_(0x1) << OSC32KCTRL_EVCTRL_CFDEO_Pos)
+#define OSC32KCTRL_EVCTRL_MASK      _U_(0x01)    /**< \brief (OSC32KCTRL_EVCTRL) MASK Register */
+
+/* -------- OSC32KCTRL_OSCULP32K : (OSC32KCTRL Offset: 0x1C) (R/W 32) 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t EN32K:1;          /*!< bit:      1  Enable Out 32k                     */
+    uint32_t EN1K:1;           /*!< bit:      2  Enable Out 1k                      */
+    uint32_t :5;               /*!< bit:  3.. 7  Reserved                           */
+    uint32_t CALIB:5;          /*!< bit:  8..12  Oscillator Calibration             */
+    uint32_t :2;               /*!< bit: 13..14  Reserved                           */
+    uint32_t WRTLOCK:1;        /*!< bit:     15  Write Lock                         */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSC32KCTRL_OSCULP32K_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSC32KCTRL_OSCULP32K_OFFSET 0x1C         /**< \brief (OSC32KCTRL_OSCULP32K offset) 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control */
+
+#define OSC32KCTRL_OSCULP32K_EN32K_Pos 1            /**< \brief (OSC32KCTRL_OSCULP32K) Enable Out 32k */
+#define OSC32KCTRL_OSCULP32K_EN32K  (_U_(0x1) << OSC32KCTRL_OSCULP32K_EN32K_Pos)
+#define OSC32KCTRL_OSCULP32K_EN1K_Pos 2            /**< \brief (OSC32KCTRL_OSCULP32K) Enable Out 1k */
+#define OSC32KCTRL_OSCULP32K_EN1K   (_U_(0x1) << OSC32KCTRL_OSCULP32K_EN1K_Pos)
+#define OSC32KCTRL_OSCULP32K_CALIB_Pos 8            /**< \brief (OSC32KCTRL_OSCULP32K) Oscillator Calibration */
+#define OSC32KCTRL_OSCULP32K_CALIB_Msk (_U_(0x1F) << OSC32KCTRL_OSCULP32K_CALIB_Pos)
+#define OSC32KCTRL_OSCULP32K_CALIB(value) (OSC32KCTRL_OSCULP32K_CALIB_Msk & ((value) << OSC32KCTRL_OSCULP32K_CALIB_Pos))
+#define OSC32KCTRL_OSCULP32K_WRTLOCK_Pos 15           /**< \brief (OSC32KCTRL_OSCULP32K) Write Lock */
+#define OSC32KCTRL_OSCULP32K_WRTLOCK (_U_(0x1) << OSC32KCTRL_OSCULP32K_WRTLOCK_Pos)
+#define OSC32KCTRL_OSCULP32K_MASK   _U_(0x00009F06) /**< \brief (OSC32KCTRL_OSCULP32K) MASK Register */
+
+/** \brief OSC32KCTRL hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO OSC32KCTRL_INTENCLR_Type  INTENCLR;    /**< \brief Offset: 0x00 (R/W 32) Interrupt Enable Clear */
+  __IO OSC32KCTRL_INTENSET_Type  INTENSET;    /**< \brief Offset: 0x04 (R/W 32) Interrupt Enable Set */
+  __IO OSC32KCTRL_INTFLAG_Type   INTFLAG;     /**< \brief Offset: 0x08 (R/W 32) Interrupt Flag Status and Clear */
+  __I  OSC32KCTRL_STATUS_Type    STATUS;      /**< \brief Offset: 0x0C (R/  32) Power and Clocks Status */
+  __IO OSC32KCTRL_RTCCTRL_Type   RTCCTRL;     /**< \brief Offset: 0x10 (R/W  8) RTC Clock Selection */
+  __IO OSC32KCTRL_SLCDCTRL_Type  SLCDCTRL;    /**< \brief Offset: 0x11 (R/W  8) SLCD Clock Selection */
+       RoReg8                    Reserved1[0x2];
+  __IO OSC32KCTRL_XOSC32K_Type   XOSC32K;     /**< \brief Offset: 0x14 (R/W 16) 32kHz External Crystal Oscillator (XOSC32K) Control */
+  __IO OSC32KCTRL_CFDCTRL_Type   CFDCTRL;     /**< \brief Offset: 0x16 (R/W  8) Clock Failure Detector Control */
+  __IO OSC32KCTRL_EVCTRL_Type    EVCTRL;      /**< \brief Offset: 0x17 (R/W  8) Event Control */
+       RoReg8                    Reserved2[0x4];
+  __IO OSC32KCTRL_OSCULP32K_Type OSCULP32K;   /**< \brief Offset: 0x1C (R/W 32) 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control */
+} Osc32kctrl;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_OSC32KCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/oscctrl.h b/watch-library/hardware/include/component/oscctrl.h
new file mode 100644
index 00000000..cf8daad0
--- /dev/null
+++ b/watch-library/hardware/include/component/oscctrl.h
@@ -0,0 +1,694 @@
+/**
+ * \file
+ *
+ * \brief Component description for OSCCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_OSCCTRL_COMPONENT_
+#define _SAML22_OSCCTRL_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR OSCCTRL */
+/* ========================================================================== */
+/** \addtogroup SAML22_OSCCTRL Oscillators Control */
+/*@{*/
+
+#define OSCCTRL_U2119
+#define REV_OSCCTRL                 0x300
+
+/* -------- OSCCTRL_INTENCLR : (OSCCTRL Offset: 0x00) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSCRDY:1;        /*!< bit:      0  XOSC Ready Interrupt Enable        */
+    uint32_t XOSCFAIL:1;       /*!< bit:      1  XOSC Clock Failure Detector Interrupt Enable */
+    uint32_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint32_t OSC16MRDY:1;      /*!< bit:      4  OSC16M Ready Interrupt Enable      */
+    uint32_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint32_t DFLLRDY:1;        /*!< bit:      8  DFLL Ready Interrupt Enable        */
+    uint32_t DFLLOOB:1;        /*!< bit:      9  DFLL Out Of Bounds Interrupt Enable */
+    uint32_t DFLLLCKF:1;       /*!< bit:     10  DFLL Lock Fine Interrupt Enable    */
+    uint32_t DFLLLCKC:1;       /*!< bit:     11  DFLL Lock Coarse Interrupt Enable  */
+    uint32_t DFLLRCS:1;        /*!< bit:     12  DFLL Reference Clock Stopped Interrupt Enable */
+    uint32_t :3;               /*!< bit: 13..15  Reserved                           */
+    uint32_t DPLLLCKR:1;       /*!< bit:     16  DPLL Lock Rise Interrupt Enable    */
+    uint32_t DPLLLCKF:1;       /*!< bit:     17  DPLL Lock Fall Interrupt Enable    */
+    uint32_t DPLLLTO:1;        /*!< bit:     18  DPLL Time Out Interrupt Enable     */
+    uint32_t DPLLLDRTO:1;      /*!< bit:     19  DPLL Ratio Ready Interrupt Enable  */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_INTENCLR_OFFSET     0x00         /**< \brief (OSCCTRL_INTENCLR offset) Interrupt Enable Clear */
+#define OSCCTRL_INTENCLR_RESETVALUE _U_(0x00000000) /**< \brief (OSCCTRL_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define OSCCTRL_INTENCLR_XOSCRDY_Pos 0            /**< \brief (OSCCTRL_INTENCLR) XOSC Ready Interrupt Enable */
+#define OSCCTRL_INTENCLR_XOSCRDY    (_U_(0x1) << OSCCTRL_INTENCLR_XOSCRDY_Pos)
+#define OSCCTRL_INTENCLR_XOSCFAIL_Pos 1            /**< \brief (OSCCTRL_INTENCLR) XOSC Clock Failure Detector Interrupt Enable */
+#define OSCCTRL_INTENCLR_XOSCFAIL   (_U_(0x1) << OSCCTRL_INTENCLR_XOSCFAIL_Pos)
+#define OSCCTRL_INTENCLR_OSC16MRDY_Pos 4            /**< \brief (OSCCTRL_INTENCLR) OSC16M Ready Interrupt Enable */
+#define OSCCTRL_INTENCLR_OSC16MRDY  (_U_(0x1) << OSCCTRL_INTENCLR_OSC16MRDY_Pos)
+#define OSCCTRL_INTENCLR_DFLLRDY_Pos 8            /**< \brief (OSCCTRL_INTENCLR) DFLL Ready Interrupt Enable */
+#define OSCCTRL_INTENCLR_DFLLRDY    (_U_(0x1) << OSCCTRL_INTENCLR_DFLLRDY_Pos)
+#define OSCCTRL_INTENCLR_DFLLOOB_Pos 9            /**< \brief (OSCCTRL_INTENCLR) DFLL Out Of Bounds Interrupt Enable */
+#define OSCCTRL_INTENCLR_DFLLOOB    (_U_(0x1) << OSCCTRL_INTENCLR_DFLLOOB_Pos)
+#define OSCCTRL_INTENCLR_DFLLLCKF_Pos 10           /**< \brief (OSCCTRL_INTENCLR) DFLL Lock Fine Interrupt Enable */
+#define OSCCTRL_INTENCLR_DFLLLCKF   (_U_(0x1) << OSCCTRL_INTENCLR_DFLLLCKF_Pos)
+#define OSCCTRL_INTENCLR_DFLLLCKC_Pos 11           /**< \brief (OSCCTRL_INTENCLR) DFLL Lock Coarse Interrupt Enable */
+#define OSCCTRL_INTENCLR_DFLLLCKC   (_U_(0x1) << OSCCTRL_INTENCLR_DFLLLCKC_Pos)
+#define OSCCTRL_INTENCLR_DFLLRCS_Pos 12           /**< \brief (OSCCTRL_INTENCLR) DFLL Reference Clock Stopped Interrupt Enable */
+#define OSCCTRL_INTENCLR_DFLLRCS    (_U_(0x1) << OSCCTRL_INTENCLR_DFLLRCS_Pos)
+#define OSCCTRL_INTENCLR_DPLLLCKR_Pos 16           /**< \brief (OSCCTRL_INTENCLR) DPLL Lock Rise Interrupt Enable */
+#define OSCCTRL_INTENCLR_DPLLLCKR   (_U_(0x1) << OSCCTRL_INTENCLR_DPLLLCKR_Pos)
+#define OSCCTRL_INTENCLR_DPLLLCKF_Pos 17           /**< \brief (OSCCTRL_INTENCLR) DPLL Lock Fall Interrupt Enable */
+#define OSCCTRL_INTENCLR_DPLLLCKF   (_U_(0x1) << OSCCTRL_INTENCLR_DPLLLCKF_Pos)
+#define OSCCTRL_INTENCLR_DPLLLTO_Pos 18           /**< \brief (OSCCTRL_INTENCLR) DPLL Time Out Interrupt Enable */
+#define OSCCTRL_INTENCLR_DPLLLTO    (_U_(0x1) << OSCCTRL_INTENCLR_DPLLLTO_Pos)
+#define OSCCTRL_INTENCLR_DPLLLDRTO_Pos 19           /**< \brief (OSCCTRL_INTENCLR) DPLL Ratio Ready Interrupt Enable */
+#define OSCCTRL_INTENCLR_DPLLLDRTO  (_U_(0x1) << OSCCTRL_INTENCLR_DPLLLDRTO_Pos)
+#define OSCCTRL_INTENCLR_MASK       _U_(0x000F1F13) /**< \brief (OSCCTRL_INTENCLR) MASK Register */
+
+/* -------- OSCCTRL_INTENSET : (OSCCTRL Offset: 0x04) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSCRDY:1;        /*!< bit:      0  XOSC Ready Interrupt Enable        */
+    uint32_t XOSCFAIL:1;       /*!< bit:      1  XOSC Clock Failure Detector Interrupt Enable */
+    uint32_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint32_t OSC16MRDY:1;      /*!< bit:      4  OSC16M Ready Interrupt Enable      */
+    uint32_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint32_t DFLLRDY:1;        /*!< bit:      8  DFLL Ready Interrupt Enable        */
+    uint32_t DFLLOOB:1;        /*!< bit:      9  DFLL Out Of Bounds Interrupt Enable */
+    uint32_t DFLLLCKF:1;       /*!< bit:     10  DFLL Lock Fine Interrupt Enable    */
+    uint32_t DFLLLCKC:1;       /*!< bit:     11  DFLL Lock Coarse Interrupt Enable  */
+    uint32_t DFLLRCS:1;        /*!< bit:     12  DFLL Reference Clock Stopped Interrupt Enable */
+    uint32_t :3;               /*!< bit: 13..15  Reserved                           */
+    uint32_t DPLLLCKR:1;       /*!< bit:     16  DPLL Lock Rise Interrupt Enable    */
+    uint32_t DPLLLCKF:1;       /*!< bit:     17  DPLL Lock Fall Interrupt Enable    */
+    uint32_t DPLLLTO:1;        /*!< bit:     18  DPLL Time Out Interrupt Enable     */
+    uint32_t DPLLLDRTO:1;      /*!< bit:     19  DPLL Ratio Ready Interrupt Enable  */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_INTENSET_OFFSET     0x04         /**< \brief (OSCCTRL_INTENSET offset) Interrupt Enable Set */
+#define OSCCTRL_INTENSET_RESETVALUE _U_(0x00000000) /**< \brief (OSCCTRL_INTENSET reset_value) Interrupt Enable Set */
+
+#define OSCCTRL_INTENSET_XOSCRDY_Pos 0            /**< \brief (OSCCTRL_INTENSET) XOSC Ready Interrupt Enable */
+#define OSCCTRL_INTENSET_XOSCRDY    (_U_(0x1) << OSCCTRL_INTENSET_XOSCRDY_Pos)
+#define OSCCTRL_INTENSET_XOSCFAIL_Pos 1            /**< \brief (OSCCTRL_INTENSET) XOSC Clock Failure Detector Interrupt Enable */
+#define OSCCTRL_INTENSET_XOSCFAIL   (_U_(0x1) << OSCCTRL_INTENSET_XOSCFAIL_Pos)
+#define OSCCTRL_INTENSET_OSC16MRDY_Pos 4            /**< \brief (OSCCTRL_INTENSET) OSC16M Ready Interrupt Enable */
+#define OSCCTRL_INTENSET_OSC16MRDY  (_U_(0x1) << OSCCTRL_INTENSET_OSC16MRDY_Pos)
+#define OSCCTRL_INTENSET_DFLLRDY_Pos 8            /**< \brief (OSCCTRL_INTENSET) DFLL Ready Interrupt Enable */
+#define OSCCTRL_INTENSET_DFLLRDY    (_U_(0x1) << OSCCTRL_INTENSET_DFLLRDY_Pos)
+#define OSCCTRL_INTENSET_DFLLOOB_Pos 9            /**< \brief (OSCCTRL_INTENSET) DFLL Out Of Bounds Interrupt Enable */
+#define OSCCTRL_INTENSET_DFLLOOB    (_U_(0x1) << OSCCTRL_INTENSET_DFLLOOB_Pos)
+#define OSCCTRL_INTENSET_DFLLLCKF_Pos 10           /**< \brief (OSCCTRL_INTENSET) DFLL Lock Fine Interrupt Enable */
+#define OSCCTRL_INTENSET_DFLLLCKF   (_U_(0x1) << OSCCTRL_INTENSET_DFLLLCKF_Pos)
+#define OSCCTRL_INTENSET_DFLLLCKC_Pos 11           /**< \brief (OSCCTRL_INTENSET) DFLL Lock Coarse Interrupt Enable */
+#define OSCCTRL_INTENSET_DFLLLCKC   (_U_(0x1) << OSCCTRL_INTENSET_DFLLLCKC_Pos)
+#define OSCCTRL_INTENSET_DFLLRCS_Pos 12           /**< \brief (OSCCTRL_INTENSET) DFLL Reference Clock Stopped Interrupt Enable */
+#define OSCCTRL_INTENSET_DFLLRCS    (_U_(0x1) << OSCCTRL_INTENSET_DFLLRCS_Pos)
+#define OSCCTRL_INTENSET_DPLLLCKR_Pos 16           /**< \brief (OSCCTRL_INTENSET) DPLL Lock Rise Interrupt Enable */
+#define OSCCTRL_INTENSET_DPLLLCKR   (_U_(0x1) << OSCCTRL_INTENSET_DPLLLCKR_Pos)
+#define OSCCTRL_INTENSET_DPLLLCKF_Pos 17           /**< \brief (OSCCTRL_INTENSET) DPLL Lock Fall Interrupt Enable */
+#define OSCCTRL_INTENSET_DPLLLCKF   (_U_(0x1) << OSCCTRL_INTENSET_DPLLLCKF_Pos)
+#define OSCCTRL_INTENSET_DPLLLTO_Pos 18           /**< \brief (OSCCTRL_INTENSET) DPLL Time Out Interrupt Enable */
+#define OSCCTRL_INTENSET_DPLLLTO    (_U_(0x1) << OSCCTRL_INTENSET_DPLLLTO_Pos)
+#define OSCCTRL_INTENSET_DPLLLDRTO_Pos 19           /**< \brief (OSCCTRL_INTENSET) DPLL Ratio Ready Interrupt Enable */
+#define OSCCTRL_INTENSET_DPLLLDRTO  (_U_(0x1) << OSCCTRL_INTENSET_DPLLLDRTO_Pos)
+#define OSCCTRL_INTENSET_MASK       _U_(0x000F1F13) /**< \brief (OSCCTRL_INTENSET) MASK Register */
+
+/* -------- OSCCTRL_INTFLAG : (OSCCTRL Offset: 0x08) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t XOSCRDY:1;        /*!< bit:      0  XOSC Ready                         */
+    __I uint32_t XOSCFAIL:1;       /*!< bit:      1  XOSC Clock Failure Detector        */
+    __I uint32_t :2;               /*!< bit:  2.. 3  Reserved                           */
+    __I uint32_t OSC16MRDY:1;      /*!< bit:      4  OSC16M Ready                       */
+    __I uint32_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    __I uint32_t DFLLRDY:1;        /*!< bit:      8  DFLL Ready                         */
+    __I uint32_t DFLLOOB:1;        /*!< bit:      9  DFLL Out Of Bounds                 */
+    __I uint32_t DFLLLCKF:1;       /*!< bit:     10  DFLL Lock Fine                     */
+    __I uint32_t DFLLLCKC:1;       /*!< bit:     11  DFLL Lock Coarse                   */
+    __I uint32_t DFLLRCS:1;        /*!< bit:     12  DFLL Reference Clock Stopped       */
+    __I uint32_t :3;               /*!< bit: 13..15  Reserved                           */
+    __I uint32_t DPLLLCKR:1;       /*!< bit:     16  DPLL Lock Rise                     */
+    __I uint32_t DPLLLCKF:1;       /*!< bit:     17  DPLL Lock Fall                     */
+    __I uint32_t DPLLLTO:1;        /*!< bit:     18  DPLL Timeout                       */
+    __I uint32_t DPLLLDRTO:1;      /*!< bit:     19  DPLL Ratio Ready                   */
+    __I uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_INTFLAG_OFFSET      0x08         /**< \brief (OSCCTRL_INTFLAG offset) Interrupt Flag Status and Clear */
+#define OSCCTRL_INTFLAG_RESETVALUE  _U_(0x00000000) /**< \brief (OSCCTRL_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define OSCCTRL_INTFLAG_XOSCRDY_Pos 0            /**< \brief (OSCCTRL_INTFLAG) XOSC Ready */
+#define OSCCTRL_INTFLAG_XOSCRDY     (_U_(0x1) << OSCCTRL_INTFLAG_XOSCRDY_Pos)
+#define OSCCTRL_INTFLAG_XOSCFAIL_Pos 1            /**< \brief (OSCCTRL_INTFLAG) XOSC Clock Failure Detector */
+#define OSCCTRL_INTFLAG_XOSCFAIL    (_U_(0x1) << OSCCTRL_INTFLAG_XOSCFAIL_Pos)
+#define OSCCTRL_INTFLAG_OSC16MRDY_Pos 4            /**< \brief (OSCCTRL_INTFLAG) OSC16M Ready */
+#define OSCCTRL_INTFLAG_OSC16MRDY   (_U_(0x1) << OSCCTRL_INTFLAG_OSC16MRDY_Pos)
+#define OSCCTRL_INTFLAG_DFLLRDY_Pos 8            /**< \brief (OSCCTRL_INTFLAG) DFLL Ready */
+#define OSCCTRL_INTFLAG_DFLLRDY     (_U_(0x1) << OSCCTRL_INTFLAG_DFLLRDY_Pos)
+#define OSCCTRL_INTFLAG_DFLLOOB_Pos 9            /**< \brief (OSCCTRL_INTFLAG) DFLL Out Of Bounds */
+#define OSCCTRL_INTFLAG_DFLLOOB     (_U_(0x1) << OSCCTRL_INTFLAG_DFLLOOB_Pos)
+#define OSCCTRL_INTFLAG_DFLLLCKF_Pos 10           /**< \brief (OSCCTRL_INTFLAG) DFLL Lock Fine */
+#define OSCCTRL_INTFLAG_DFLLLCKF    (_U_(0x1) << OSCCTRL_INTFLAG_DFLLLCKF_Pos)
+#define OSCCTRL_INTFLAG_DFLLLCKC_Pos 11           /**< \brief (OSCCTRL_INTFLAG) DFLL Lock Coarse */
+#define OSCCTRL_INTFLAG_DFLLLCKC    (_U_(0x1) << OSCCTRL_INTFLAG_DFLLLCKC_Pos)
+#define OSCCTRL_INTFLAG_DFLLRCS_Pos 12           /**< \brief (OSCCTRL_INTFLAG) DFLL Reference Clock Stopped */
+#define OSCCTRL_INTFLAG_DFLLRCS     (_U_(0x1) << OSCCTRL_INTFLAG_DFLLRCS_Pos)
+#define OSCCTRL_INTFLAG_DPLLLCKR_Pos 16           /**< \brief (OSCCTRL_INTFLAG) DPLL Lock Rise */
+#define OSCCTRL_INTFLAG_DPLLLCKR    (_U_(0x1) << OSCCTRL_INTFLAG_DPLLLCKR_Pos)
+#define OSCCTRL_INTFLAG_DPLLLCKF_Pos 17           /**< \brief (OSCCTRL_INTFLAG) DPLL Lock Fall */
+#define OSCCTRL_INTFLAG_DPLLLCKF    (_U_(0x1) << OSCCTRL_INTFLAG_DPLLLCKF_Pos)
+#define OSCCTRL_INTFLAG_DPLLLTO_Pos 18           /**< \brief (OSCCTRL_INTFLAG) DPLL Timeout */
+#define OSCCTRL_INTFLAG_DPLLLTO     (_U_(0x1) << OSCCTRL_INTFLAG_DPLLLTO_Pos)
+#define OSCCTRL_INTFLAG_DPLLLDRTO_Pos 19           /**< \brief (OSCCTRL_INTFLAG) DPLL Ratio Ready */
+#define OSCCTRL_INTFLAG_DPLLLDRTO   (_U_(0x1) << OSCCTRL_INTFLAG_DPLLLDRTO_Pos)
+#define OSCCTRL_INTFLAG_MASK        _U_(0x000F1F13) /**< \brief (OSCCTRL_INTFLAG) MASK Register */
+
+/* -------- OSCCTRL_STATUS : (OSCCTRL Offset: 0x0C) (R/  32) Power and Clocks Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t XOSCRDY:1;        /*!< bit:      0  XOSC Ready                         */
+    uint32_t XOSCFAIL:1;       /*!< bit:      1  XOSC Clock Failure Detector        */
+    uint32_t XOSCCKSW:1;       /*!< bit:      2  XOSC Clock Switch                  */
+    uint32_t :1;               /*!< bit:      3  Reserved                           */
+    uint32_t OSC16MRDY:1;      /*!< bit:      4  OSC16M Ready                       */
+    uint32_t :3;               /*!< bit:  5.. 7  Reserved                           */
+    uint32_t DFLLRDY:1;        /*!< bit:      8  DFLL Ready                         */
+    uint32_t DFLLOOB:1;        /*!< bit:      9  DFLL Out Of Bounds                 */
+    uint32_t DFLLLCKF:1;       /*!< bit:     10  DFLL Lock Fine                     */
+    uint32_t DFLLLCKC:1;       /*!< bit:     11  DFLL Lock Coarse                   */
+    uint32_t DFLLRCS:1;        /*!< bit:     12  DFLL Reference Clock Stopped       */
+    uint32_t :3;               /*!< bit: 13..15  Reserved                           */
+    uint32_t DPLLLCKR:1;       /*!< bit:     16  DPLL Lock Rise                     */
+    uint32_t DPLLLCKF:1;       /*!< bit:     17  DPLL Lock Fall                     */
+    uint32_t DPLLTO:1;         /*!< bit:     18  DPLL Timeout                       */
+    uint32_t DPLLLDRTO:1;      /*!< bit:     19  DPLL Ratio Ready                   */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_STATUS_OFFSET       0x0C         /**< \brief (OSCCTRL_STATUS offset) Power and Clocks Status */
+#define OSCCTRL_STATUS_RESETVALUE   _U_(0x00000000) /**< \brief (OSCCTRL_STATUS reset_value) Power and Clocks Status */
+
+#define OSCCTRL_STATUS_XOSCRDY_Pos  0            /**< \brief (OSCCTRL_STATUS) XOSC Ready */
+#define OSCCTRL_STATUS_XOSCRDY      (_U_(0x1) << OSCCTRL_STATUS_XOSCRDY_Pos)
+#define OSCCTRL_STATUS_XOSCFAIL_Pos 1            /**< \brief (OSCCTRL_STATUS) XOSC Clock Failure Detector */
+#define OSCCTRL_STATUS_XOSCFAIL     (_U_(0x1) << OSCCTRL_STATUS_XOSCFAIL_Pos)
+#define OSCCTRL_STATUS_XOSCCKSW_Pos 2            /**< \brief (OSCCTRL_STATUS) XOSC Clock Switch */
+#define OSCCTRL_STATUS_XOSCCKSW     (_U_(0x1) << OSCCTRL_STATUS_XOSCCKSW_Pos)
+#define OSCCTRL_STATUS_OSC16MRDY_Pos 4            /**< \brief (OSCCTRL_STATUS) OSC16M Ready */
+#define OSCCTRL_STATUS_OSC16MRDY    (_U_(0x1) << OSCCTRL_STATUS_OSC16MRDY_Pos)
+#define OSCCTRL_STATUS_DFLLRDY_Pos  8            /**< \brief (OSCCTRL_STATUS) DFLL Ready */
+#define OSCCTRL_STATUS_DFLLRDY      (_U_(0x1) << OSCCTRL_STATUS_DFLLRDY_Pos)
+#define OSCCTRL_STATUS_DFLLOOB_Pos  9            /**< \brief (OSCCTRL_STATUS) DFLL Out Of Bounds */
+#define OSCCTRL_STATUS_DFLLOOB      (_U_(0x1) << OSCCTRL_STATUS_DFLLOOB_Pos)
+#define OSCCTRL_STATUS_DFLLLCKF_Pos 10           /**< \brief (OSCCTRL_STATUS) DFLL Lock Fine */
+#define OSCCTRL_STATUS_DFLLLCKF     (_U_(0x1) << OSCCTRL_STATUS_DFLLLCKF_Pos)
+#define OSCCTRL_STATUS_DFLLLCKC_Pos 11           /**< \brief (OSCCTRL_STATUS) DFLL Lock Coarse */
+#define OSCCTRL_STATUS_DFLLLCKC     (_U_(0x1) << OSCCTRL_STATUS_DFLLLCKC_Pos)
+#define OSCCTRL_STATUS_DFLLRCS_Pos  12           /**< \brief (OSCCTRL_STATUS) DFLL Reference Clock Stopped */
+#define OSCCTRL_STATUS_DFLLRCS      (_U_(0x1) << OSCCTRL_STATUS_DFLLRCS_Pos)
+#define OSCCTRL_STATUS_DPLLLCKR_Pos 16           /**< \brief (OSCCTRL_STATUS) DPLL Lock Rise */
+#define OSCCTRL_STATUS_DPLLLCKR     (_U_(0x1) << OSCCTRL_STATUS_DPLLLCKR_Pos)
+#define OSCCTRL_STATUS_DPLLLCKF_Pos 17           /**< \brief (OSCCTRL_STATUS) DPLL Lock Fall */
+#define OSCCTRL_STATUS_DPLLLCKF     (_U_(0x1) << OSCCTRL_STATUS_DPLLLCKF_Pos)
+#define OSCCTRL_STATUS_DPLLTO_Pos   18           /**< \brief (OSCCTRL_STATUS) DPLL Timeout */
+#define OSCCTRL_STATUS_DPLLTO       (_U_(0x1) << OSCCTRL_STATUS_DPLLTO_Pos)
+#define OSCCTRL_STATUS_DPLLLDRTO_Pos 19           /**< \brief (OSCCTRL_STATUS) DPLL Ratio Ready */
+#define OSCCTRL_STATUS_DPLLLDRTO    (_U_(0x1) << OSCCTRL_STATUS_DPLLLDRTO_Pos)
+#define OSCCTRL_STATUS_MASK         _U_(0x000F1F17) /**< \brief (OSCCTRL_STATUS) MASK Register */
+
+/* -------- OSCCTRL_XOSCCTRL : (OSCCTRL Offset: 0x10) (R/W 16) External Multipurpose Crystal Oscillator (XOSC) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t :1;               /*!< bit:      0  Reserved                           */
+    uint16_t ENABLE:1;         /*!< bit:      1  Oscillator Enable                  */
+    uint16_t XTALEN:1;         /*!< bit:      2  Crystal Oscillator Enable          */
+    uint16_t CFDEN:1;          /*!< bit:      3  Xosc Clock Failure Detecteor Enable */
+    uint16_t SWBEN:1;          /*!< bit:      4  Xosc Clock Switch Enable           */
+    uint16_t :1;               /*!< bit:      5  Reserved                           */
+    uint16_t RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint16_t ONDEMAND:1;       /*!< bit:      7  On Demand Control                  */
+    uint16_t GAIN:3;           /*!< bit:  8..10  Oscillator Gain                    */
+    uint16_t AMPGC:1;          /*!< bit:     11  Automatic Amplitude Gain Control   */
+    uint16_t STARTUP:4;        /*!< bit: 12..15  Start-Up Time                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_XOSCCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_XOSCCTRL_OFFSET     0x10         /**< \brief (OSCCTRL_XOSCCTRL offset) External Multipurpose Crystal Oscillator (XOSC) Control */
+#define OSCCTRL_XOSCCTRL_RESETVALUE _U_(0x0080)  /**< \brief (OSCCTRL_XOSCCTRL reset_value) External Multipurpose Crystal Oscillator (XOSC) Control */
+
+#define OSCCTRL_XOSCCTRL_ENABLE_Pos 1            /**< \brief (OSCCTRL_XOSCCTRL) Oscillator Enable */
+#define OSCCTRL_XOSCCTRL_ENABLE     (_U_(0x1) << OSCCTRL_XOSCCTRL_ENABLE_Pos)
+#define OSCCTRL_XOSCCTRL_XTALEN_Pos 2            /**< \brief (OSCCTRL_XOSCCTRL) Crystal Oscillator Enable */
+#define OSCCTRL_XOSCCTRL_XTALEN     (_U_(0x1) << OSCCTRL_XOSCCTRL_XTALEN_Pos)
+#define OSCCTRL_XOSCCTRL_CFDEN_Pos  3            /**< \brief (OSCCTRL_XOSCCTRL) Xosc Clock Failure Detecteor Enable */
+#define OSCCTRL_XOSCCTRL_CFDEN      (_U_(0x1) << OSCCTRL_XOSCCTRL_CFDEN_Pos)
+#define OSCCTRL_XOSCCTRL_SWBEN_Pos  4            /**< \brief (OSCCTRL_XOSCCTRL) Xosc Clock Switch Enable */
+#define OSCCTRL_XOSCCTRL_SWBEN      (_U_(0x1) << OSCCTRL_XOSCCTRL_SWBEN_Pos)
+#define OSCCTRL_XOSCCTRL_RUNSTDBY_Pos 6            /**< \brief (OSCCTRL_XOSCCTRL) Run in Standby */
+#define OSCCTRL_XOSCCTRL_RUNSTDBY   (_U_(0x1) << OSCCTRL_XOSCCTRL_RUNSTDBY_Pos)
+#define OSCCTRL_XOSCCTRL_ONDEMAND_Pos 7            /**< \brief (OSCCTRL_XOSCCTRL) On Demand Control */
+#define OSCCTRL_XOSCCTRL_ONDEMAND   (_U_(0x1) << OSCCTRL_XOSCCTRL_ONDEMAND_Pos)
+#define OSCCTRL_XOSCCTRL_GAIN_Pos   8            /**< \brief (OSCCTRL_XOSCCTRL) Oscillator Gain */
+#define OSCCTRL_XOSCCTRL_GAIN_Msk   (_U_(0x7) << OSCCTRL_XOSCCTRL_GAIN_Pos)
+#define OSCCTRL_XOSCCTRL_GAIN(value) (OSCCTRL_XOSCCTRL_GAIN_Msk & ((value) << OSCCTRL_XOSCCTRL_GAIN_Pos))
+#define OSCCTRL_XOSCCTRL_AMPGC_Pos  11           /**< \brief (OSCCTRL_XOSCCTRL) Automatic Amplitude Gain Control */
+#define OSCCTRL_XOSCCTRL_AMPGC      (_U_(0x1) << OSCCTRL_XOSCCTRL_AMPGC_Pos)
+#define OSCCTRL_XOSCCTRL_STARTUP_Pos 12           /**< \brief (OSCCTRL_XOSCCTRL) Start-Up Time */
+#define OSCCTRL_XOSCCTRL_STARTUP_Msk (_U_(0xF) << OSCCTRL_XOSCCTRL_STARTUP_Pos)
+#define OSCCTRL_XOSCCTRL_STARTUP(value) (OSCCTRL_XOSCCTRL_STARTUP_Msk & ((value) << OSCCTRL_XOSCCTRL_STARTUP_Pos))
+#define OSCCTRL_XOSCCTRL_MASK       _U_(0xFFDE)  /**< \brief (OSCCTRL_XOSCCTRL) MASK Register */
+
+/* -------- OSCCTRL_CFDPRESC : (OSCCTRL Offset: 0x12) (R/W  8) Cloc Failure Detector Prescaler -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CFDPRESC:3;       /*!< bit:  0.. 2  Clock Failure Detector Prescaler   */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_CFDPRESC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_CFDPRESC_OFFSET     0x12         /**< \brief (OSCCTRL_CFDPRESC offset) Cloc Failure Detector Prescaler */
+#define OSCCTRL_CFDPRESC_RESETVALUE _U_(0x00)    /**< \brief (OSCCTRL_CFDPRESC reset_value) Cloc Failure Detector Prescaler */
+
+#define OSCCTRL_CFDPRESC_CFDPRESC_Pos 0            /**< \brief (OSCCTRL_CFDPRESC) Clock Failure Detector Prescaler */
+#define OSCCTRL_CFDPRESC_CFDPRESC_Msk (_U_(0x7) << OSCCTRL_CFDPRESC_CFDPRESC_Pos)
+#define OSCCTRL_CFDPRESC_CFDPRESC(value) (OSCCTRL_CFDPRESC_CFDPRESC_Msk & ((value) << OSCCTRL_CFDPRESC_CFDPRESC_Pos))
+#define OSCCTRL_CFDPRESC_MASK       _U_(0x07)    /**< \brief (OSCCTRL_CFDPRESC) MASK Register */
+
+/* -------- OSCCTRL_EVCTRL : (OSCCTRL Offset: 0x13) (R/W  8) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CFDEO:1;          /*!< bit:      0  Clock Failure Detector Event Output Enable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_EVCTRL_OFFSET       0x13         /**< \brief (OSCCTRL_EVCTRL offset) Event Control */
+#define OSCCTRL_EVCTRL_RESETVALUE   _U_(0x00)    /**< \brief (OSCCTRL_EVCTRL reset_value) Event Control */
+
+#define OSCCTRL_EVCTRL_CFDEO_Pos    0            /**< \brief (OSCCTRL_EVCTRL) Clock Failure Detector Event Output Enable */
+#define OSCCTRL_EVCTRL_CFDEO        (_U_(0x1) << OSCCTRL_EVCTRL_CFDEO_Pos)
+#define OSCCTRL_EVCTRL_MASK         _U_(0x01)    /**< \brief (OSCCTRL_EVCTRL) MASK Register */
+
+/* -------- OSCCTRL_OSC16MCTRL : (OSCCTRL Offset: 0x14) (R/W  8) 16MHz Internal Oscillator (OSC16M) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :1;               /*!< bit:      0  Reserved                           */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Oscillator Enable                  */
+    uint8_t  FSEL:2;           /*!< bit:  2.. 3  Oscillator Frequency Select        */
+    uint8_t  :2;               /*!< bit:  4.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint8_t  ONDEMAND:1;       /*!< bit:      7  On Demand Control                  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_OSC16MCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_OSC16MCTRL_OFFSET   0x14         /**< \brief (OSCCTRL_OSC16MCTRL offset) 16MHz Internal Oscillator (OSC16M) Control */
+#define OSCCTRL_OSC16MCTRL_RESETVALUE _U_(0x82)    /**< \brief (OSCCTRL_OSC16MCTRL reset_value) 16MHz Internal Oscillator (OSC16M) Control */
+
+#define OSCCTRL_OSC16MCTRL_ENABLE_Pos 1            /**< \brief (OSCCTRL_OSC16MCTRL) Oscillator Enable */
+#define OSCCTRL_OSC16MCTRL_ENABLE   (_U_(0x1) << OSCCTRL_OSC16MCTRL_ENABLE_Pos)
+#define OSCCTRL_OSC16MCTRL_FSEL_Pos 2            /**< \brief (OSCCTRL_OSC16MCTRL) Oscillator Frequency Select */
+#define OSCCTRL_OSC16MCTRL_FSEL_Msk (_U_(0x3) << OSCCTRL_OSC16MCTRL_FSEL_Pos)
+#define OSCCTRL_OSC16MCTRL_FSEL(value) (OSCCTRL_OSC16MCTRL_FSEL_Msk & ((value) << OSCCTRL_OSC16MCTRL_FSEL_Pos))
+#define   OSCCTRL_OSC16MCTRL_FSEL_4_Val   _U_(0x0)   /**< \brief (OSCCTRL_OSC16MCTRL) 4MHz */
+#define   OSCCTRL_OSC16MCTRL_FSEL_8_Val   _U_(0x1)   /**< \brief (OSCCTRL_OSC16MCTRL) 8MHz */
+#define   OSCCTRL_OSC16MCTRL_FSEL_12_Val  _U_(0x2)   /**< \brief (OSCCTRL_OSC16MCTRL) 12MHz */
+#define   OSCCTRL_OSC16MCTRL_FSEL_16_Val  _U_(0x3)   /**< \brief (OSCCTRL_OSC16MCTRL) 16MHz */
+#define OSCCTRL_OSC16MCTRL_FSEL_4   (OSCCTRL_OSC16MCTRL_FSEL_4_Val << OSCCTRL_OSC16MCTRL_FSEL_Pos)
+#define OSCCTRL_OSC16MCTRL_FSEL_8   (OSCCTRL_OSC16MCTRL_FSEL_8_Val << OSCCTRL_OSC16MCTRL_FSEL_Pos)
+#define OSCCTRL_OSC16MCTRL_FSEL_12  (OSCCTRL_OSC16MCTRL_FSEL_12_Val << OSCCTRL_OSC16MCTRL_FSEL_Pos)
+#define OSCCTRL_OSC16MCTRL_FSEL_16  (OSCCTRL_OSC16MCTRL_FSEL_16_Val << OSCCTRL_OSC16MCTRL_FSEL_Pos)
+#define OSCCTRL_OSC16MCTRL_RUNSTDBY_Pos 6            /**< \brief (OSCCTRL_OSC16MCTRL) Run in Standby */
+#define OSCCTRL_OSC16MCTRL_RUNSTDBY (_U_(0x1) << OSCCTRL_OSC16MCTRL_RUNSTDBY_Pos)
+#define OSCCTRL_OSC16MCTRL_ONDEMAND_Pos 7            /**< \brief (OSCCTRL_OSC16MCTRL) On Demand Control */
+#define OSCCTRL_OSC16MCTRL_ONDEMAND (_U_(0x1) << OSCCTRL_OSC16MCTRL_ONDEMAND_Pos)
+#define OSCCTRL_OSC16MCTRL_MASK     _U_(0xCE)    /**< \brief (OSCCTRL_OSC16MCTRL) MASK Register */
+
+/* -------- OSCCTRL_DFLLCTRL : (OSCCTRL Offset: 0x18) (R/W 16) DFLL48M Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t :1;               /*!< bit:      0  Reserved                           */
+    uint16_t ENABLE:1;         /*!< bit:      1  DFLL Enable                        */
+    uint16_t MODE:1;           /*!< bit:      2  Operating Mode Selection           */
+    uint16_t STABLE:1;         /*!< bit:      3  Stable DFLL Frequency              */
+    uint16_t LLAW:1;           /*!< bit:      4  Lose Lock After Wake               */
+    uint16_t USBCRM:1;         /*!< bit:      5  USB Clock Recovery Mode            */
+    uint16_t RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint16_t ONDEMAND:1;       /*!< bit:      7  On Demand Control                  */
+    uint16_t CCDIS:1;          /*!< bit:      8  Chill Cycle Disable                */
+    uint16_t QLDIS:1;          /*!< bit:      9  Quick Lock Disable                 */
+    uint16_t BPLCKC:1;         /*!< bit:     10  Bypass Coarse Lock                 */
+    uint16_t WAITLOCK:1;       /*!< bit:     11  Wait Lock                          */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_DFLLCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DFLLCTRL_OFFSET     0x18         /**< \brief (OSCCTRL_DFLLCTRL offset) DFLL48M Control */
+#define OSCCTRL_DFLLCTRL_RESETVALUE _U_(0x0080)  /**< \brief (OSCCTRL_DFLLCTRL reset_value) DFLL48M Control */
+
+#define OSCCTRL_DFLLCTRL_ENABLE_Pos 1            /**< \brief (OSCCTRL_DFLLCTRL) DFLL Enable */
+#define OSCCTRL_DFLLCTRL_ENABLE     (_U_(0x1) << OSCCTRL_DFLLCTRL_ENABLE_Pos)
+#define OSCCTRL_DFLLCTRL_MODE_Pos   2            /**< \brief (OSCCTRL_DFLLCTRL) Operating Mode Selection */
+#define OSCCTRL_DFLLCTRL_MODE       (_U_(0x1) << OSCCTRL_DFLLCTRL_MODE_Pos)
+#define OSCCTRL_DFLLCTRL_STABLE_Pos 3            /**< \brief (OSCCTRL_DFLLCTRL) Stable DFLL Frequency */
+#define OSCCTRL_DFLLCTRL_STABLE     (_U_(0x1) << OSCCTRL_DFLLCTRL_STABLE_Pos)
+#define OSCCTRL_DFLLCTRL_LLAW_Pos   4            /**< \brief (OSCCTRL_DFLLCTRL) Lose Lock After Wake */
+#define OSCCTRL_DFLLCTRL_LLAW       (_U_(0x1) << OSCCTRL_DFLLCTRL_LLAW_Pos)
+#define OSCCTRL_DFLLCTRL_USBCRM_Pos 5            /**< \brief (OSCCTRL_DFLLCTRL) USB Clock Recovery Mode */
+#define OSCCTRL_DFLLCTRL_USBCRM     (_U_(0x1) << OSCCTRL_DFLLCTRL_USBCRM_Pos)
+#define OSCCTRL_DFLLCTRL_RUNSTDBY_Pos 6            /**< \brief (OSCCTRL_DFLLCTRL) Run in Standby */
+#define OSCCTRL_DFLLCTRL_RUNSTDBY   (_U_(0x1) << OSCCTRL_DFLLCTRL_RUNSTDBY_Pos)
+#define OSCCTRL_DFLLCTRL_ONDEMAND_Pos 7            /**< \brief (OSCCTRL_DFLLCTRL) On Demand Control */
+#define OSCCTRL_DFLLCTRL_ONDEMAND   (_U_(0x1) << OSCCTRL_DFLLCTRL_ONDEMAND_Pos)
+#define OSCCTRL_DFLLCTRL_CCDIS_Pos  8            /**< \brief (OSCCTRL_DFLLCTRL) Chill Cycle Disable */
+#define OSCCTRL_DFLLCTRL_CCDIS      (_U_(0x1) << OSCCTRL_DFLLCTRL_CCDIS_Pos)
+#define OSCCTRL_DFLLCTRL_QLDIS_Pos  9            /**< \brief (OSCCTRL_DFLLCTRL) Quick Lock Disable */
+#define OSCCTRL_DFLLCTRL_QLDIS      (_U_(0x1) << OSCCTRL_DFLLCTRL_QLDIS_Pos)
+#define OSCCTRL_DFLLCTRL_BPLCKC_Pos 10           /**< \brief (OSCCTRL_DFLLCTRL) Bypass Coarse Lock */
+#define OSCCTRL_DFLLCTRL_BPLCKC     (_U_(0x1) << OSCCTRL_DFLLCTRL_BPLCKC_Pos)
+#define OSCCTRL_DFLLCTRL_WAITLOCK_Pos 11           /**< \brief (OSCCTRL_DFLLCTRL) Wait Lock */
+#define OSCCTRL_DFLLCTRL_WAITLOCK   (_U_(0x1) << OSCCTRL_DFLLCTRL_WAITLOCK_Pos)
+#define OSCCTRL_DFLLCTRL_MASK       _U_(0x0FFE)  /**< \brief (OSCCTRL_DFLLCTRL) MASK Register */
+
+/* -------- OSCCTRL_DFLLVAL : (OSCCTRL Offset: 0x1C) (R/W 32) DFLL48M Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t FINE:10;          /*!< bit:  0.. 9  Fine Value                         */
+    uint32_t COARSE:6;         /*!< bit: 10..15  Coarse Value                       */
+    uint32_t DIFF:16;          /*!< bit: 16..31  Multiplication Ratio Difference    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_DFLLVAL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DFLLVAL_OFFSET      0x1C         /**< \brief (OSCCTRL_DFLLVAL offset) DFLL48M Value */
+#define OSCCTRL_DFLLVAL_RESETVALUE  _U_(0x00000000) /**< \brief (OSCCTRL_DFLLVAL reset_value) DFLL48M Value */
+
+#define OSCCTRL_DFLLVAL_FINE_Pos    0            /**< \brief (OSCCTRL_DFLLVAL) Fine Value */
+#define OSCCTRL_DFLLVAL_FINE_Msk    (_U_(0x3FF) << OSCCTRL_DFLLVAL_FINE_Pos)
+#define OSCCTRL_DFLLVAL_FINE(value) (OSCCTRL_DFLLVAL_FINE_Msk & ((value) << OSCCTRL_DFLLVAL_FINE_Pos))
+#define OSCCTRL_DFLLVAL_COARSE_Pos  10           /**< \brief (OSCCTRL_DFLLVAL) Coarse Value */
+#define OSCCTRL_DFLLVAL_COARSE_Msk  (_U_(0x3F) << OSCCTRL_DFLLVAL_COARSE_Pos)
+#define OSCCTRL_DFLLVAL_COARSE(value) (OSCCTRL_DFLLVAL_COARSE_Msk & ((value) << OSCCTRL_DFLLVAL_COARSE_Pos))
+#define OSCCTRL_DFLLVAL_DIFF_Pos    16           /**< \brief (OSCCTRL_DFLLVAL) Multiplication Ratio Difference */
+#define OSCCTRL_DFLLVAL_DIFF_Msk    (_U_(0xFFFF) << OSCCTRL_DFLLVAL_DIFF_Pos)
+#define OSCCTRL_DFLLVAL_DIFF(value) (OSCCTRL_DFLLVAL_DIFF_Msk & ((value) << OSCCTRL_DFLLVAL_DIFF_Pos))
+#define OSCCTRL_DFLLVAL_MASK        _U_(0xFFFFFFFF) /**< \brief (OSCCTRL_DFLLVAL) MASK Register */
+
+/* -------- OSCCTRL_DFLLMUL : (OSCCTRL Offset: 0x20) (R/W 32) DFLL48M Multiplier -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t MUL:16;           /*!< bit:  0..15  DFLL Multiply Factor               */
+    uint32_t FSTEP:10;         /*!< bit: 16..25  Fine Maximum Step                  */
+    uint32_t CSTEP:6;          /*!< bit: 26..31  Coarse Maximum Step                */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_DFLLMUL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DFLLMUL_OFFSET      0x20         /**< \brief (OSCCTRL_DFLLMUL offset) DFLL48M Multiplier */
+#define OSCCTRL_DFLLMUL_RESETVALUE  _U_(0x00000000) /**< \brief (OSCCTRL_DFLLMUL reset_value) DFLL48M Multiplier */
+
+#define OSCCTRL_DFLLMUL_MUL_Pos     0            /**< \brief (OSCCTRL_DFLLMUL) DFLL Multiply Factor */
+#define OSCCTRL_DFLLMUL_MUL_Msk     (_U_(0xFFFF) << OSCCTRL_DFLLMUL_MUL_Pos)
+#define OSCCTRL_DFLLMUL_MUL(value)  (OSCCTRL_DFLLMUL_MUL_Msk & ((value) << OSCCTRL_DFLLMUL_MUL_Pos))
+#define OSCCTRL_DFLLMUL_FSTEP_Pos   16           /**< \brief (OSCCTRL_DFLLMUL) Fine Maximum Step */
+#define OSCCTRL_DFLLMUL_FSTEP_Msk   (_U_(0x3FF) << OSCCTRL_DFLLMUL_FSTEP_Pos)
+#define OSCCTRL_DFLLMUL_FSTEP(value) (OSCCTRL_DFLLMUL_FSTEP_Msk & ((value) << OSCCTRL_DFLLMUL_FSTEP_Pos))
+#define OSCCTRL_DFLLMUL_CSTEP_Pos   26           /**< \brief (OSCCTRL_DFLLMUL) Coarse Maximum Step */
+#define OSCCTRL_DFLLMUL_CSTEP_Msk   (_U_(0x3F) << OSCCTRL_DFLLMUL_CSTEP_Pos)
+#define OSCCTRL_DFLLMUL_CSTEP(value) (OSCCTRL_DFLLMUL_CSTEP_Msk & ((value) << OSCCTRL_DFLLMUL_CSTEP_Pos))
+#define OSCCTRL_DFLLMUL_MASK        _U_(0xFFFFFFFF) /**< \brief (OSCCTRL_DFLLMUL) MASK Register */
+
+/* -------- OSCCTRL_DFLLSYNC : (OSCCTRL Offset: 0x24) (R/W  8) DFLL48M Synchronization -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :7;               /*!< bit:  0.. 6  Reserved                           */
+    uint8_t  READREQ:1;        /*!< bit:      7  Read Request                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_DFLLSYNC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DFLLSYNC_OFFSET     0x24         /**< \brief (OSCCTRL_DFLLSYNC offset) DFLL48M Synchronization */
+#define OSCCTRL_DFLLSYNC_RESETVALUE _U_(0x00)    /**< \brief (OSCCTRL_DFLLSYNC reset_value) DFLL48M Synchronization */
+
+#define OSCCTRL_DFLLSYNC_READREQ_Pos 7            /**< \brief (OSCCTRL_DFLLSYNC) Read Request */
+#define OSCCTRL_DFLLSYNC_READREQ    (_U_(0x1) << OSCCTRL_DFLLSYNC_READREQ_Pos)
+#define OSCCTRL_DFLLSYNC_MASK       _U_(0x80)    /**< \brief (OSCCTRL_DFLLSYNC) MASK Register */
+
+/* -------- OSCCTRL_DPLLCTRLA : (OSCCTRL Offset: 0x28) (R/W  8) DPLL Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :1;               /*!< bit:      0  Reserved                           */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :4;               /*!< bit:  2.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint8_t  ONDEMAND:1;       /*!< bit:      7  On Demand                          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_DPLLCTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLCTRLA_OFFSET    0x28         /**< \brief (OSCCTRL_DPLLCTRLA offset) DPLL Control */
+#define OSCCTRL_DPLLCTRLA_RESETVALUE _U_(0x80)    /**< \brief (OSCCTRL_DPLLCTRLA reset_value) DPLL Control */
+
+#define OSCCTRL_DPLLCTRLA_ENABLE_Pos 1            /**< \brief (OSCCTRL_DPLLCTRLA) Enable */
+#define OSCCTRL_DPLLCTRLA_ENABLE    (_U_(0x1) << OSCCTRL_DPLLCTRLA_ENABLE_Pos)
+#define OSCCTRL_DPLLCTRLA_RUNSTDBY_Pos 6            /**< \brief (OSCCTRL_DPLLCTRLA) Run in Standby */
+#define OSCCTRL_DPLLCTRLA_RUNSTDBY  (_U_(0x1) << OSCCTRL_DPLLCTRLA_RUNSTDBY_Pos)
+#define OSCCTRL_DPLLCTRLA_ONDEMAND_Pos 7            /**< \brief (OSCCTRL_DPLLCTRLA) On Demand */
+#define OSCCTRL_DPLLCTRLA_ONDEMAND  (_U_(0x1) << OSCCTRL_DPLLCTRLA_ONDEMAND_Pos)
+#define OSCCTRL_DPLLCTRLA_MASK      _U_(0xC2)    /**< \brief (OSCCTRL_DPLLCTRLA) MASK Register */
+
+/* -------- OSCCTRL_DPLLRATIO : (OSCCTRL Offset: 0x2C) (R/W 32) DPLL Ratio Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t LDR:12;           /*!< bit:  0..11  Loop Divider Ratio                 */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t LDRFRAC:4;        /*!< bit: 16..19  Loop Divider Ratio Fractional Part */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_DPLLRATIO_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLRATIO_OFFSET    0x2C         /**< \brief (OSCCTRL_DPLLRATIO offset) DPLL Ratio Control */
+#define OSCCTRL_DPLLRATIO_RESETVALUE _U_(0x00000000) /**< \brief (OSCCTRL_DPLLRATIO reset_value) DPLL Ratio Control */
+
+#define OSCCTRL_DPLLRATIO_LDR_Pos   0            /**< \brief (OSCCTRL_DPLLRATIO) Loop Divider Ratio */
+#define OSCCTRL_DPLLRATIO_LDR_Msk   (_U_(0xFFF) << OSCCTRL_DPLLRATIO_LDR_Pos)
+#define OSCCTRL_DPLLRATIO_LDR(value) (OSCCTRL_DPLLRATIO_LDR_Msk & ((value) << OSCCTRL_DPLLRATIO_LDR_Pos))
+#define OSCCTRL_DPLLRATIO_LDRFRAC_Pos 16           /**< \brief (OSCCTRL_DPLLRATIO) Loop Divider Ratio Fractional Part */
+#define OSCCTRL_DPLLRATIO_LDRFRAC_Msk (_U_(0xF) << OSCCTRL_DPLLRATIO_LDRFRAC_Pos)
+#define OSCCTRL_DPLLRATIO_LDRFRAC(value) (OSCCTRL_DPLLRATIO_LDRFRAC_Msk & ((value) << OSCCTRL_DPLLRATIO_LDRFRAC_Pos))
+#define OSCCTRL_DPLLRATIO_MASK      _U_(0x000F0FFF) /**< \brief (OSCCTRL_DPLLRATIO) MASK Register */
+
+/* -------- OSCCTRL_DPLLCTRLB : (OSCCTRL Offset: 0x30) (R/W 32) Digital Core Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t FILTER:2;         /*!< bit:  0.. 1  Proportional Integral Filter Selection */
+    uint32_t LPEN:1;           /*!< bit:      2  Low-Power Enable                   */
+    uint32_t WUF:1;            /*!< bit:      3  Wake Up Fast                       */
+    uint32_t REFCLK:2;         /*!< bit:  4.. 5  Reference Clock Selection          */
+    uint32_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint32_t LTIME:3;          /*!< bit:  8..10  Lock Time                          */
+    uint32_t :1;               /*!< bit:     11  Reserved                           */
+    uint32_t LBYPASS:1;        /*!< bit:     12  Lock Bypass                        */
+    uint32_t :3;               /*!< bit: 13..15  Reserved                           */
+    uint32_t DIV:11;           /*!< bit: 16..26  Clock Divider                      */
+    uint32_t :5;               /*!< bit: 27..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} OSCCTRL_DPLLCTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLCTRLB_OFFSET    0x30         /**< \brief (OSCCTRL_DPLLCTRLB offset) Digital Core Configuration */
+#define OSCCTRL_DPLLCTRLB_RESETVALUE _U_(0x00000000) /**< \brief (OSCCTRL_DPLLCTRLB reset_value) Digital Core Configuration */
+
+#define OSCCTRL_DPLLCTRLB_FILTER_Pos 0            /**< \brief (OSCCTRL_DPLLCTRLB) Proportional Integral Filter Selection */
+#define OSCCTRL_DPLLCTRLB_FILTER_Msk (_U_(0x3) << OSCCTRL_DPLLCTRLB_FILTER_Pos)
+#define OSCCTRL_DPLLCTRLB_FILTER(value) (OSCCTRL_DPLLCTRLB_FILTER_Msk & ((value) << OSCCTRL_DPLLCTRLB_FILTER_Pos))
+#define OSCCTRL_DPLLCTRLB_LPEN_Pos  2            /**< \brief (OSCCTRL_DPLLCTRLB) Low-Power Enable */
+#define OSCCTRL_DPLLCTRLB_LPEN      (_U_(0x1) << OSCCTRL_DPLLCTRLB_LPEN_Pos)
+#define OSCCTRL_DPLLCTRLB_WUF_Pos   3            /**< \brief (OSCCTRL_DPLLCTRLB) Wake Up Fast */
+#define OSCCTRL_DPLLCTRLB_WUF       (_U_(0x1) << OSCCTRL_DPLLCTRLB_WUF_Pos)
+#define OSCCTRL_DPLLCTRLB_REFCLK_Pos 4            /**< \brief (OSCCTRL_DPLLCTRLB) Reference Clock Selection */
+#define OSCCTRL_DPLLCTRLB_REFCLK_Msk (_U_(0x3) << OSCCTRL_DPLLCTRLB_REFCLK_Pos)
+#define OSCCTRL_DPLLCTRLB_REFCLK(value) (OSCCTRL_DPLLCTRLB_REFCLK_Msk & ((value) << OSCCTRL_DPLLCTRLB_REFCLK_Pos))
+#define OSCCTRL_DPLLCTRLB_LTIME_Pos 8            /**< \brief (OSCCTRL_DPLLCTRLB) Lock Time */
+#define OSCCTRL_DPLLCTRLB_LTIME_Msk (_U_(0x7) << OSCCTRL_DPLLCTRLB_LTIME_Pos)
+#define OSCCTRL_DPLLCTRLB_LTIME(value) (OSCCTRL_DPLLCTRLB_LTIME_Msk & ((value) << OSCCTRL_DPLLCTRLB_LTIME_Pos))
+#define OSCCTRL_DPLLCTRLB_LBYPASS_Pos 12           /**< \brief (OSCCTRL_DPLLCTRLB) Lock Bypass */
+#define OSCCTRL_DPLLCTRLB_LBYPASS   (_U_(0x1) << OSCCTRL_DPLLCTRLB_LBYPASS_Pos)
+#define OSCCTRL_DPLLCTRLB_DIV_Pos   16           /**< \brief (OSCCTRL_DPLLCTRLB) Clock Divider */
+#define OSCCTRL_DPLLCTRLB_DIV_Msk   (_U_(0x7FF) << OSCCTRL_DPLLCTRLB_DIV_Pos)
+#define OSCCTRL_DPLLCTRLB_DIV(value) (OSCCTRL_DPLLCTRLB_DIV_Msk & ((value) << OSCCTRL_DPLLCTRLB_DIV_Pos))
+#define OSCCTRL_DPLLCTRLB_MASK      _U_(0x07FF173F) /**< \brief (OSCCTRL_DPLLCTRLB) MASK Register */
+
+/* -------- OSCCTRL_DPLLPRESC : (OSCCTRL Offset: 0x34) (R/W  8) DPLL Prescaler -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PRESC:2;          /*!< bit:  0.. 1  Output Clock Prescaler             */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_DPLLPRESC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLPRESC_OFFSET    0x34         /**< \brief (OSCCTRL_DPLLPRESC offset) DPLL Prescaler */
+#define OSCCTRL_DPLLPRESC_RESETVALUE _U_(0x00)    /**< \brief (OSCCTRL_DPLLPRESC reset_value) DPLL Prescaler */
+
+#define OSCCTRL_DPLLPRESC_PRESC_Pos 0            /**< \brief (OSCCTRL_DPLLPRESC) Output Clock Prescaler */
+#define OSCCTRL_DPLLPRESC_PRESC_Msk (_U_(0x3) << OSCCTRL_DPLLPRESC_PRESC_Pos)
+#define OSCCTRL_DPLLPRESC_PRESC(value) (OSCCTRL_DPLLPRESC_PRESC_Msk & ((value) << OSCCTRL_DPLLPRESC_PRESC_Pos))
+#define   OSCCTRL_DPLLPRESC_PRESC_DIV1_Val _U_(0x0)   /**< \brief (OSCCTRL_DPLLPRESC) DPLL output is divided by 1 */
+#define   OSCCTRL_DPLLPRESC_PRESC_DIV2_Val _U_(0x1)   /**< \brief (OSCCTRL_DPLLPRESC) DPLL output is divided by 2 */
+#define   OSCCTRL_DPLLPRESC_PRESC_DIV4_Val _U_(0x2)   /**< \brief (OSCCTRL_DPLLPRESC) DPLL output is divided by 4 */
+#define OSCCTRL_DPLLPRESC_PRESC_DIV1 (OSCCTRL_DPLLPRESC_PRESC_DIV1_Val << OSCCTRL_DPLLPRESC_PRESC_Pos)
+#define OSCCTRL_DPLLPRESC_PRESC_DIV2 (OSCCTRL_DPLLPRESC_PRESC_DIV2_Val << OSCCTRL_DPLLPRESC_PRESC_Pos)
+#define OSCCTRL_DPLLPRESC_PRESC_DIV4 (OSCCTRL_DPLLPRESC_PRESC_DIV4_Val << OSCCTRL_DPLLPRESC_PRESC_Pos)
+#define OSCCTRL_DPLLPRESC_MASK      _U_(0x03)    /**< \brief (OSCCTRL_DPLLPRESC) MASK Register */
+
+/* -------- OSCCTRL_DPLLSYNCBUSY : (OSCCTRL Offset: 0x38) (R/   8) DPLL Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :1;               /*!< bit:      0  Reserved                           */
+    uint8_t  ENABLE:1;         /*!< bit:      1  DPLL Enable Synchronization Status */
+    uint8_t  DPLLRATIO:1;      /*!< bit:      2  DPLL Ratio Synchronization Status  */
+    uint8_t  DPLLPRESC:1;      /*!< bit:      3  DPLL Prescaler Synchronization Status */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_DPLLSYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLSYNCBUSY_OFFSET 0x38         /**< \brief (OSCCTRL_DPLLSYNCBUSY offset) DPLL Synchronization Busy */
+#define OSCCTRL_DPLLSYNCBUSY_RESETVALUE _U_(0x00)    /**< \brief (OSCCTRL_DPLLSYNCBUSY reset_value) DPLL Synchronization Busy */
+
+#define OSCCTRL_DPLLSYNCBUSY_ENABLE_Pos 1            /**< \brief (OSCCTRL_DPLLSYNCBUSY) DPLL Enable Synchronization Status */
+#define OSCCTRL_DPLLSYNCBUSY_ENABLE (_U_(0x1) << OSCCTRL_DPLLSYNCBUSY_ENABLE_Pos)
+#define OSCCTRL_DPLLSYNCBUSY_DPLLRATIO_Pos 2            /**< \brief (OSCCTRL_DPLLSYNCBUSY) DPLL Ratio Synchronization Status */
+#define OSCCTRL_DPLLSYNCBUSY_DPLLRATIO (_U_(0x1) << OSCCTRL_DPLLSYNCBUSY_DPLLRATIO_Pos)
+#define OSCCTRL_DPLLSYNCBUSY_DPLLPRESC_Pos 3            /**< \brief (OSCCTRL_DPLLSYNCBUSY) DPLL Prescaler Synchronization Status */
+#define OSCCTRL_DPLLSYNCBUSY_DPLLPRESC (_U_(0x1) << OSCCTRL_DPLLSYNCBUSY_DPLLPRESC_Pos)
+#define OSCCTRL_DPLLSYNCBUSY_MASK   _U_(0x0E)    /**< \brief (OSCCTRL_DPLLSYNCBUSY) MASK Register */
+
+/* -------- OSCCTRL_DPLLSTATUS : (OSCCTRL Offset: 0x3C) (R/   8) DPLL Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  LOCK:1;           /*!< bit:      0  DPLL Lock Status                   */
+    uint8_t  CLKRDY:1;         /*!< bit:      1  DPLL Clock Ready                   */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} OSCCTRL_DPLLSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define OSCCTRL_DPLLSTATUS_OFFSET   0x3C         /**< \brief (OSCCTRL_DPLLSTATUS offset) DPLL Status */
+#define OSCCTRL_DPLLSTATUS_RESETVALUE _U_(0x00)    /**< \brief (OSCCTRL_DPLLSTATUS reset_value) DPLL Status */
+
+#define OSCCTRL_DPLLSTATUS_LOCK_Pos 0            /**< \brief (OSCCTRL_DPLLSTATUS) DPLL Lock Status */
+#define OSCCTRL_DPLLSTATUS_LOCK     (_U_(0x1) << OSCCTRL_DPLLSTATUS_LOCK_Pos)
+#define OSCCTRL_DPLLSTATUS_CLKRDY_Pos 1            /**< \brief (OSCCTRL_DPLLSTATUS) DPLL Clock Ready */
+#define OSCCTRL_DPLLSTATUS_CLKRDY   (_U_(0x1) << OSCCTRL_DPLLSTATUS_CLKRDY_Pos)
+#define OSCCTRL_DPLLSTATUS_MASK     _U_(0x03)    /**< \brief (OSCCTRL_DPLLSTATUS) MASK Register */
+
+/** \brief OSCCTRL hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO OSCCTRL_INTENCLR_Type     INTENCLR;    /**< \brief Offset: 0x00 (R/W 32) Interrupt Enable Clear */
+  __IO OSCCTRL_INTENSET_Type     INTENSET;    /**< \brief Offset: 0x04 (R/W 32) Interrupt Enable Set */
+  __IO OSCCTRL_INTFLAG_Type      INTFLAG;     /**< \brief Offset: 0x08 (R/W 32) Interrupt Flag Status and Clear */
+  __I  OSCCTRL_STATUS_Type       STATUS;      /**< \brief Offset: 0x0C (R/  32) Power and Clocks Status */
+  __IO OSCCTRL_XOSCCTRL_Type     XOSCCTRL;    /**< \brief Offset: 0x10 (R/W 16) External Multipurpose Crystal Oscillator (XOSC) Control */
+  __IO OSCCTRL_CFDPRESC_Type     CFDPRESC;    /**< \brief Offset: 0x12 (R/W  8) Cloc Failure Detector Prescaler */
+  __IO OSCCTRL_EVCTRL_Type       EVCTRL;      /**< \brief Offset: 0x13 (R/W  8) Event Control */
+  __IO OSCCTRL_OSC16MCTRL_Type   OSC16MCTRL;  /**< \brief Offset: 0x14 (R/W  8) 16MHz Internal Oscillator (OSC16M) Control */
+       RoReg8                    Reserved1[0x3];
+  __IO OSCCTRL_DFLLCTRL_Type     DFLLCTRL;    /**< \brief Offset: 0x18 (R/W 16) DFLL48M Control */
+       RoReg8                    Reserved2[0x2];
+  __IO OSCCTRL_DFLLVAL_Type      DFLLVAL;     /**< \brief Offset: 0x1C (R/W 32) DFLL48M Value */
+  __IO OSCCTRL_DFLLMUL_Type      DFLLMUL;     /**< \brief Offset: 0x20 (R/W 32) DFLL48M Multiplier */
+  __IO OSCCTRL_DFLLSYNC_Type     DFLLSYNC;    /**< \brief Offset: 0x24 (R/W  8) DFLL48M Synchronization */
+       RoReg8                    Reserved3[0x3];
+  __IO OSCCTRL_DPLLCTRLA_Type    DPLLCTRLA;   /**< \brief Offset: 0x28 (R/W  8) DPLL Control */
+       RoReg8                    Reserved4[0x3];
+  __IO OSCCTRL_DPLLRATIO_Type    DPLLRATIO;   /**< \brief Offset: 0x2C (R/W 32) DPLL Ratio Control */
+  __IO OSCCTRL_DPLLCTRLB_Type    DPLLCTRLB;   /**< \brief Offset: 0x30 (R/W 32) Digital Core Configuration */
+  __IO OSCCTRL_DPLLPRESC_Type    DPLLPRESC;   /**< \brief Offset: 0x34 (R/W  8) DPLL Prescaler */
+       RoReg8                    Reserved5[0x3];
+  __I  OSCCTRL_DPLLSYNCBUSY_Type DPLLSYNCBUSY; /**< \brief Offset: 0x38 (R/   8) DPLL Synchronization Busy */
+       RoReg8                    Reserved6[0x3];
+  __I  OSCCTRL_DPLLSTATUS_Type   DPLLSTATUS;  /**< \brief Offset: 0x3C (R/   8) DPLL Status */
+} Oscctrl;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_OSCCTRL_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/pac.h b/watch-library/hardware/include/component/pac.h
new file mode 100644
index 00000000..7c084d23
--- /dev/null
+++ b/watch-library/hardware/include/component/pac.h
@@ -0,0 +1,497 @@
+/**
+ * \file
+ *
+ * \brief Component description for PAC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PAC_COMPONENT_
+#define _SAML22_PAC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR PAC */
+/* ========================================================================== */
+/** \addtogroup SAML22_PAC Peripheral Access Controller */
+/*@{*/
+
+#define PAC_U2120
+#define REV_PAC                     0x110
+
+/* -------- PAC_WRCTRL : (PAC Offset: 0x00) (R/W 32) Write control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PERID:16;         /*!< bit:  0..15  Peripheral identifier              */
+    uint32_t KEY:8;            /*!< bit: 16..23  Peripheral access control key      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_WRCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_WRCTRL_OFFSET           0x00         /**< \brief (PAC_WRCTRL offset) Write control */
+#define PAC_WRCTRL_RESETVALUE       _U_(0x00000000) /**< \brief (PAC_WRCTRL reset_value) Write control */
+
+#define PAC_WRCTRL_PERID_Pos        0            /**< \brief (PAC_WRCTRL) Peripheral identifier */
+#define PAC_WRCTRL_PERID_Msk        (_U_(0xFFFF) << PAC_WRCTRL_PERID_Pos)
+#define PAC_WRCTRL_PERID(value)     (PAC_WRCTRL_PERID_Msk & ((value) << PAC_WRCTRL_PERID_Pos))
+#define PAC_WRCTRL_KEY_Pos          16           /**< \brief (PAC_WRCTRL) Peripheral access control key */
+#define PAC_WRCTRL_KEY_Msk          (_U_(0xFF) << PAC_WRCTRL_KEY_Pos)
+#define PAC_WRCTRL_KEY(value)       (PAC_WRCTRL_KEY_Msk & ((value) << PAC_WRCTRL_KEY_Pos))
+#define   PAC_WRCTRL_KEY_OFF_Val          _U_(0x0)   /**< \brief (PAC_WRCTRL) No action */
+#define   PAC_WRCTRL_KEY_CLR_Val          _U_(0x1)   /**< \brief (PAC_WRCTRL) Clear protection */
+#define   PAC_WRCTRL_KEY_SET_Val          _U_(0x2)   /**< \brief (PAC_WRCTRL) Set protection */
+#define   PAC_WRCTRL_KEY_SETLCK_Val       _U_(0x3)   /**< \brief (PAC_WRCTRL) Set and lock protection */
+#define PAC_WRCTRL_KEY_OFF          (PAC_WRCTRL_KEY_OFF_Val        << PAC_WRCTRL_KEY_Pos)
+#define PAC_WRCTRL_KEY_CLR          (PAC_WRCTRL_KEY_CLR_Val        << PAC_WRCTRL_KEY_Pos)
+#define PAC_WRCTRL_KEY_SET          (PAC_WRCTRL_KEY_SET_Val        << PAC_WRCTRL_KEY_Pos)
+#define PAC_WRCTRL_KEY_SETLCK       (PAC_WRCTRL_KEY_SETLCK_Val     << PAC_WRCTRL_KEY_Pos)
+#define PAC_WRCTRL_MASK             _U_(0x00FFFFFF) /**< \brief (PAC_WRCTRL) MASK Register */
+
+/* -------- PAC_EVCTRL : (PAC Offset: 0x04) (R/W  8) Event control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ERREO:1;          /*!< bit:      0  Peripheral acess error event output */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PAC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_EVCTRL_OFFSET           0x04         /**< \brief (PAC_EVCTRL offset) Event control */
+#define PAC_EVCTRL_RESETVALUE       _U_(0x00)    /**< \brief (PAC_EVCTRL reset_value) Event control */
+
+#define PAC_EVCTRL_ERREO_Pos        0            /**< \brief (PAC_EVCTRL) Peripheral acess error event output */
+#define PAC_EVCTRL_ERREO            (_U_(0x1) << PAC_EVCTRL_ERREO_Pos)
+#define PAC_EVCTRL_MASK             _U_(0x01)    /**< \brief (PAC_EVCTRL) MASK Register */
+
+/* -------- PAC_INTENCLR : (PAC Offset: 0x08) (R/W  8) Interrupt enable clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ERR:1;            /*!< bit:      0  Peripheral access error interrupt disable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PAC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTENCLR_OFFSET         0x08         /**< \brief (PAC_INTENCLR offset) Interrupt enable clear */
+#define PAC_INTENCLR_RESETVALUE     _U_(0x00)    /**< \brief (PAC_INTENCLR reset_value) Interrupt enable clear */
+
+#define PAC_INTENCLR_ERR_Pos        0            /**< \brief (PAC_INTENCLR) Peripheral access error interrupt disable */
+#define PAC_INTENCLR_ERR            (_U_(0x1) << PAC_INTENCLR_ERR_Pos)
+#define PAC_INTENCLR_MASK           _U_(0x01)    /**< \brief (PAC_INTENCLR) MASK Register */
+
+/* -------- PAC_INTENSET : (PAC Offset: 0x09) (R/W  8) Interrupt enable set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  ERR:1;            /*!< bit:      0  Peripheral access error interrupt enable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PAC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTENSET_OFFSET         0x09         /**< \brief (PAC_INTENSET offset) Interrupt enable set */
+#define PAC_INTENSET_RESETVALUE     _U_(0x00)    /**< \brief (PAC_INTENSET reset_value) Interrupt enable set */
+
+#define PAC_INTENSET_ERR_Pos        0            /**< \brief (PAC_INTENSET) Peripheral access error interrupt enable */
+#define PAC_INTENSET_ERR            (_U_(0x1) << PAC_INTENSET_ERR_Pos)
+#define PAC_INTENSET_MASK           _U_(0x01)    /**< \brief (PAC_INTENSET) MASK Register */
+
+/* -------- PAC_INTFLAGAHB : (PAC Offset: 0x10) (R/W 32) Bridge interrupt flag status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t FLASH_:1;         /*!< bit:      0  FLASH                              */
+    __I uint32_t HSRAMCM0P_:1;     /*!< bit:      1  HSRAMCM0P                          */
+    __I uint32_t HSRAMDSU_:1;      /*!< bit:      2  HSRAMDSU                           */
+    __I uint32_t HPB1_:1;          /*!< bit:      3  HPB1                               */
+    __I uint32_t HPB0_:1;          /*!< bit:      4  HPB0                               */
+    __I uint32_t HPB2_:1;          /*!< bit:      5  HPB2                               */
+    __I uint32_t HSRAMDMAC_:1;     /*!< bit:      6  HSRAMDMAC                          */
+    __I uint32_t :25;              /*!< bit:  7..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_INTFLAGAHB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTFLAGAHB_OFFSET       0x10         /**< \brief (PAC_INTFLAGAHB offset) Bridge interrupt flag status */
+#define PAC_INTFLAGAHB_RESETVALUE   _U_(0x00000000) /**< \brief (PAC_INTFLAGAHB reset_value) Bridge interrupt flag status */
+
+#define PAC_INTFLAGAHB_FLASH_Pos    0            /**< \brief (PAC_INTFLAGAHB) FLASH */
+#define PAC_INTFLAGAHB_FLASH        (_U_(0x1) << PAC_INTFLAGAHB_FLASH_Pos)
+#define PAC_INTFLAGAHB_HSRAMCM0P_Pos 1            /**< \brief (PAC_INTFLAGAHB) HSRAMCM0P */
+#define PAC_INTFLAGAHB_HSRAMCM0P    (_U_(0x1) << PAC_INTFLAGAHB_HSRAMCM0P_Pos)
+#define PAC_INTFLAGAHB_HSRAMDSU_Pos 2            /**< \brief (PAC_INTFLAGAHB) HSRAMDSU */
+#define PAC_INTFLAGAHB_HSRAMDSU     (_U_(0x1) << PAC_INTFLAGAHB_HSRAMDSU_Pos)
+#define PAC_INTFLAGAHB_HPB1_Pos     3            /**< \brief (PAC_INTFLAGAHB) HPB1 */
+#define PAC_INTFLAGAHB_HPB1         (_U_(0x1) << PAC_INTFLAGAHB_HPB1_Pos)
+#define PAC_INTFLAGAHB_HPB0_Pos     4            /**< \brief (PAC_INTFLAGAHB) HPB0 */
+#define PAC_INTFLAGAHB_HPB0         (_U_(0x1) << PAC_INTFLAGAHB_HPB0_Pos)
+#define PAC_INTFLAGAHB_HPB2_Pos     5            /**< \brief (PAC_INTFLAGAHB) HPB2 */
+#define PAC_INTFLAGAHB_HPB2         (_U_(0x1) << PAC_INTFLAGAHB_HPB2_Pos)
+#define PAC_INTFLAGAHB_HSRAMDMAC_Pos 6            /**< \brief (PAC_INTFLAGAHB) HSRAMDMAC */
+#define PAC_INTFLAGAHB_HSRAMDMAC    (_U_(0x1) << PAC_INTFLAGAHB_HSRAMDMAC_Pos)
+#define PAC_INTFLAGAHB_MASK         _U_(0x0000007F) /**< \brief (PAC_INTFLAGAHB) MASK Register */
+
+/* -------- PAC_INTFLAGA : (PAC Offset: 0x14) (R/W 32) Peripheral interrupt flag status - Bridge A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t PAC_:1;           /*!< bit:      0  PAC                                */
+    __I uint32_t PM_:1;            /*!< bit:      1  PM                                 */
+    __I uint32_t MCLK_:1;          /*!< bit:      2  MCLK                               */
+    __I uint32_t RSTC_:1;          /*!< bit:      3  RSTC                               */
+    __I uint32_t OSCCTRL_:1;       /*!< bit:      4  OSCCTRL                            */
+    __I uint32_t OSC32KCTRL_:1;    /*!< bit:      5  OSC32KCTRL                         */
+    __I uint32_t SUPC_:1;          /*!< bit:      6  SUPC                               */
+    __I uint32_t GCLK_:1;          /*!< bit:      7  GCLK                               */
+    __I uint32_t WDT_:1;           /*!< bit:      8  WDT                                */
+    __I uint32_t RTC_:1;           /*!< bit:      9  RTC                                */
+    __I uint32_t EIC_:1;           /*!< bit:     10  EIC                                */
+    __I uint32_t FREQM_:1;         /*!< bit:     11  FREQM                              */
+    __I uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_INTFLAGA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTFLAGA_OFFSET         0x14         /**< \brief (PAC_INTFLAGA offset) Peripheral interrupt flag status - Bridge A */
+#define PAC_INTFLAGA_RESETVALUE     _U_(0x00000000) /**< \brief (PAC_INTFLAGA reset_value) Peripheral interrupt flag status - Bridge A */
+
+#define PAC_INTFLAGA_PAC_Pos        0            /**< \brief (PAC_INTFLAGA) PAC */
+#define PAC_INTFLAGA_PAC            (_U_(0x1) << PAC_INTFLAGA_PAC_Pos)
+#define PAC_INTFLAGA_PM_Pos         1            /**< \brief (PAC_INTFLAGA) PM */
+#define PAC_INTFLAGA_PM             (_U_(0x1) << PAC_INTFLAGA_PM_Pos)
+#define PAC_INTFLAGA_MCLK_Pos       2            /**< \brief (PAC_INTFLAGA) MCLK */
+#define PAC_INTFLAGA_MCLK           (_U_(0x1) << PAC_INTFLAGA_MCLK_Pos)
+#define PAC_INTFLAGA_RSTC_Pos       3            /**< \brief (PAC_INTFLAGA) RSTC */
+#define PAC_INTFLAGA_RSTC           (_U_(0x1) << PAC_INTFLAGA_RSTC_Pos)
+#define PAC_INTFLAGA_OSCCTRL_Pos    4            /**< \brief (PAC_INTFLAGA) OSCCTRL */
+#define PAC_INTFLAGA_OSCCTRL        (_U_(0x1) << PAC_INTFLAGA_OSCCTRL_Pos)
+#define PAC_INTFLAGA_OSC32KCTRL_Pos 5            /**< \brief (PAC_INTFLAGA) OSC32KCTRL */
+#define PAC_INTFLAGA_OSC32KCTRL     (_U_(0x1) << PAC_INTFLAGA_OSC32KCTRL_Pos)
+#define PAC_INTFLAGA_SUPC_Pos       6            /**< \brief (PAC_INTFLAGA) SUPC */
+#define PAC_INTFLAGA_SUPC           (_U_(0x1) << PAC_INTFLAGA_SUPC_Pos)
+#define PAC_INTFLAGA_GCLK_Pos       7            /**< \brief (PAC_INTFLAGA) GCLK */
+#define PAC_INTFLAGA_GCLK           (_U_(0x1) << PAC_INTFLAGA_GCLK_Pos)
+#define PAC_INTFLAGA_WDT_Pos        8            /**< \brief (PAC_INTFLAGA) WDT */
+#define PAC_INTFLAGA_WDT            (_U_(0x1) << PAC_INTFLAGA_WDT_Pos)
+#define PAC_INTFLAGA_RTC_Pos        9            /**< \brief (PAC_INTFLAGA) RTC */
+#define PAC_INTFLAGA_RTC            (_U_(0x1) << PAC_INTFLAGA_RTC_Pos)
+#define PAC_INTFLAGA_EIC_Pos        10           /**< \brief (PAC_INTFLAGA) EIC */
+#define PAC_INTFLAGA_EIC            (_U_(0x1) << PAC_INTFLAGA_EIC_Pos)
+#define PAC_INTFLAGA_FREQM_Pos      11           /**< \brief (PAC_INTFLAGA) FREQM */
+#define PAC_INTFLAGA_FREQM          (_U_(0x1) << PAC_INTFLAGA_FREQM_Pos)
+#define PAC_INTFLAGA_MASK           _U_(0x00000FFF) /**< \brief (PAC_INTFLAGA) MASK Register */
+
+/* -------- PAC_INTFLAGB : (PAC Offset: 0x18) (R/W 32) Peripheral interrupt flag status - Bridge B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t USB_:1;           /*!< bit:      0  USB                                */
+    __I uint32_t DSU_:1;           /*!< bit:      1  DSU                                */
+    __I uint32_t NVMCTRL_:1;       /*!< bit:      2  NVMCTRL                            */
+    __I uint32_t PORT_:1;          /*!< bit:      3  PORT                               */
+    __I uint32_t DMAC_:1;          /*!< bit:      4  DMAC                               */
+    __I uint32_t MTB_:1;           /*!< bit:      5  MTB                                */
+    __I uint32_t :26;              /*!< bit:  6..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_INTFLAGB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTFLAGB_OFFSET         0x18         /**< \brief (PAC_INTFLAGB offset) Peripheral interrupt flag status - Bridge B */
+#define PAC_INTFLAGB_RESETVALUE     _U_(0x00000000) /**< \brief (PAC_INTFLAGB reset_value) Peripheral interrupt flag status - Bridge B */
+
+#define PAC_INTFLAGB_USB_Pos        0            /**< \brief (PAC_INTFLAGB) USB */
+#define PAC_INTFLAGB_USB            (_U_(0x1) << PAC_INTFLAGB_USB_Pos)
+#define PAC_INTFLAGB_DSU_Pos        1            /**< \brief (PAC_INTFLAGB) DSU */
+#define PAC_INTFLAGB_DSU            (_U_(0x1) << PAC_INTFLAGB_DSU_Pos)
+#define PAC_INTFLAGB_NVMCTRL_Pos    2            /**< \brief (PAC_INTFLAGB) NVMCTRL */
+#define PAC_INTFLAGB_NVMCTRL        (_U_(0x1) << PAC_INTFLAGB_NVMCTRL_Pos)
+#define PAC_INTFLAGB_PORT_Pos       3            /**< \brief (PAC_INTFLAGB) PORT */
+#define PAC_INTFLAGB_PORT           (_U_(0x1) << PAC_INTFLAGB_PORT_Pos)
+#define PAC_INTFLAGB_DMAC_Pos       4            /**< \brief (PAC_INTFLAGB) DMAC */
+#define PAC_INTFLAGB_DMAC           (_U_(0x1) << PAC_INTFLAGB_DMAC_Pos)
+#define PAC_INTFLAGB_MTB_Pos        5            /**< \brief (PAC_INTFLAGB) MTB */
+#define PAC_INTFLAGB_MTB            (_U_(0x1) << PAC_INTFLAGB_MTB_Pos)
+#define PAC_INTFLAGB_MASK           _U_(0x0000003F) /**< \brief (PAC_INTFLAGB) MASK Register */
+
+/* -------- PAC_INTFLAGC : (PAC Offset: 0x1C) (R/W 32) Peripheral interrupt flag status - Bridge C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t EVSYS_:1;         /*!< bit:      0  EVSYS                              */
+    __I uint32_t SERCOM0_:1;       /*!< bit:      1  SERCOM0                            */
+    __I uint32_t SERCOM1_:1;       /*!< bit:      2  SERCOM1                            */
+    __I uint32_t SERCOM2_:1;       /*!< bit:      3  SERCOM2                            */
+    __I uint32_t SERCOM3_:1;       /*!< bit:      4  SERCOM3                            */
+    __I uint32_t SERCOM4_:1;       /*!< bit:      5  SERCOM4                            */
+    __I uint32_t SERCOM5_:1;       /*!< bit:      6  SERCOM5                            */
+    __I uint32_t TCC0_:1;          /*!< bit:      7  TCC0                               */
+    __I uint32_t TC0_:1;           /*!< bit:      8  TC0                                */
+    __I uint32_t TC1_:1;           /*!< bit:      9  TC1                                */
+    __I uint32_t TC2_:1;           /*!< bit:     10  TC2                                */
+    __I uint32_t TC3_:1;           /*!< bit:     11  TC3                                */
+    __I uint32_t ADC_:1;           /*!< bit:     12  ADC                                */
+    __I uint32_t AC_:1;            /*!< bit:     13  AC                                 */
+    __I uint32_t PTC_:1;           /*!< bit:     14  PTC                                */
+    __I uint32_t SLCD_:1;          /*!< bit:     15  SLCD                               */
+    __I uint32_t AES_:1;           /*!< bit:     16  AES                                */
+    __I uint32_t TRNG_:1;          /*!< bit:     17  TRNG                               */
+    __I uint32_t CCL_:1;           /*!< bit:     18  CCL                                */
+    __I uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_INTFLAGC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_INTFLAGC_OFFSET         0x1C         /**< \brief (PAC_INTFLAGC offset) Peripheral interrupt flag status - Bridge C */
+#define PAC_INTFLAGC_RESETVALUE     _U_(0x00000000) /**< \brief (PAC_INTFLAGC reset_value) Peripheral interrupt flag status - Bridge C */
+
+#define PAC_INTFLAGC_EVSYS_Pos      0            /**< \brief (PAC_INTFLAGC) EVSYS */
+#define PAC_INTFLAGC_EVSYS          (_U_(0x1) << PAC_INTFLAGC_EVSYS_Pos)
+#define PAC_INTFLAGC_SERCOM0_Pos    1            /**< \brief (PAC_INTFLAGC) SERCOM0 */
+#define PAC_INTFLAGC_SERCOM0        (_U_(0x1) << PAC_INTFLAGC_SERCOM0_Pos)
+#define PAC_INTFLAGC_SERCOM1_Pos    2            /**< \brief (PAC_INTFLAGC) SERCOM1 */
+#define PAC_INTFLAGC_SERCOM1        (_U_(0x1) << PAC_INTFLAGC_SERCOM1_Pos)
+#define PAC_INTFLAGC_SERCOM2_Pos    3            /**< \brief (PAC_INTFLAGC) SERCOM2 */
+#define PAC_INTFLAGC_SERCOM2        (_U_(0x1) << PAC_INTFLAGC_SERCOM2_Pos)
+#define PAC_INTFLAGC_SERCOM3_Pos    4            /**< \brief (PAC_INTFLAGC) SERCOM3 */
+#define PAC_INTFLAGC_SERCOM3        (_U_(0x1) << PAC_INTFLAGC_SERCOM3_Pos)
+#define PAC_INTFLAGC_SERCOM4_Pos    5            /**< \brief (PAC_INTFLAGC) SERCOM4 */
+#define PAC_INTFLAGC_SERCOM4        (_U_(0x1) << PAC_INTFLAGC_SERCOM4_Pos)
+#define PAC_INTFLAGC_SERCOM5_Pos    6            /**< \brief (PAC_INTFLAGC) SERCOM5 */
+#define PAC_INTFLAGC_SERCOM5        (_U_(0x1) << PAC_INTFLAGC_SERCOM5_Pos)
+#define PAC_INTFLAGC_TCC0_Pos       7            /**< \brief (PAC_INTFLAGC) TCC0 */
+#define PAC_INTFLAGC_TCC0           (_U_(0x1) << PAC_INTFLAGC_TCC0_Pos)
+#define PAC_INTFLAGC_TC0_Pos        8            /**< \brief (PAC_INTFLAGC) TC0 */
+#define PAC_INTFLAGC_TC0            (_U_(0x1) << PAC_INTFLAGC_TC0_Pos)
+#define PAC_INTFLAGC_TC1_Pos        9            /**< \brief (PAC_INTFLAGC) TC1 */
+#define PAC_INTFLAGC_TC1            (_U_(0x1) << PAC_INTFLAGC_TC1_Pos)
+#define PAC_INTFLAGC_TC2_Pos        10           /**< \brief (PAC_INTFLAGC) TC2 */
+#define PAC_INTFLAGC_TC2            (_U_(0x1) << PAC_INTFLAGC_TC2_Pos)
+#define PAC_INTFLAGC_TC3_Pos        11           /**< \brief (PAC_INTFLAGC) TC3 */
+#define PAC_INTFLAGC_TC3            (_U_(0x1) << PAC_INTFLAGC_TC3_Pos)
+#define PAC_INTFLAGC_ADC_Pos        12           /**< \brief (PAC_INTFLAGC) ADC */
+#define PAC_INTFLAGC_ADC            (_U_(0x1) << PAC_INTFLAGC_ADC_Pos)
+#define PAC_INTFLAGC_AC_Pos         13           /**< \brief (PAC_INTFLAGC) AC */
+#define PAC_INTFLAGC_AC             (_U_(0x1) << PAC_INTFLAGC_AC_Pos)
+#define PAC_INTFLAGC_PTC_Pos        14           /**< \brief (PAC_INTFLAGC) PTC */
+#define PAC_INTFLAGC_PTC            (_U_(0x1) << PAC_INTFLAGC_PTC_Pos)
+#define PAC_INTFLAGC_SLCD_Pos       15           /**< \brief (PAC_INTFLAGC) SLCD */
+#define PAC_INTFLAGC_SLCD           (_U_(0x1) << PAC_INTFLAGC_SLCD_Pos)
+#define PAC_INTFLAGC_AES_Pos        16           /**< \brief (PAC_INTFLAGC) AES */
+#define PAC_INTFLAGC_AES            (_U_(0x1) << PAC_INTFLAGC_AES_Pos)
+#define PAC_INTFLAGC_TRNG_Pos       17           /**< \brief (PAC_INTFLAGC) TRNG */
+#define PAC_INTFLAGC_TRNG           (_U_(0x1) << PAC_INTFLAGC_TRNG_Pos)
+#define PAC_INTFLAGC_CCL_Pos        18           /**< \brief (PAC_INTFLAGC) CCL */
+#define PAC_INTFLAGC_CCL            (_U_(0x1) << PAC_INTFLAGC_CCL_Pos)
+#define PAC_INTFLAGC_MASK           _U_(0x0007FFFF) /**< \brief (PAC_INTFLAGC) MASK Register */
+
+/* -------- PAC_STATUSA : (PAC Offset: 0x34) (R/  32) Peripheral write protection status - Bridge A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PAC_:1;           /*!< bit:      0  PAC APB Protect Enable             */
+    uint32_t PM_:1;            /*!< bit:      1  PM APB Protect Enable              */
+    uint32_t MCLK_:1;          /*!< bit:      2  MCLK APB Protect Enable            */
+    uint32_t RSTC_:1;          /*!< bit:      3  RSTC APB Protect Enable            */
+    uint32_t OSCCTRL_:1;       /*!< bit:      4  OSCCTRL APB Protect Enable         */
+    uint32_t OSC32KCTRL_:1;    /*!< bit:      5  OSC32KCTRL APB Protect Enable      */
+    uint32_t SUPC_:1;          /*!< bit:      6  SUPC APB Protect Enable            */
+    uint32_t GCLK_:1;          /*!< bit:      7  GCLK APB Protect Enable            */
+    uint32_t WDT_:1;           /*!< bit:      8  WDT APB Protect Enable             */
+    uint32_t RTC_:1;           /*!< bit:      9  RTC APB Protect Enable             */
+    uint32_t EIC_:1;           /*!< bit:     10  EIC APB Protect Enable             */
+    uint32_t FREQM_:1;         /*!< bit:     11  FREQM APB Protect Enable           */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_STATUSA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_STATUSA_OFFSET          0x34         /**< \brief (PAC_STATUSA offset) Peripheral write protection status - Bridge A */
+#define PAC_STATUSA_RESETVALUE      _U_(0x00000000) /**< \brief (PAC_STATUSA reset_value) Peripheral write protection status - Bridge A */
+
+#define PAC_STATUSA_PAC_Pos         0            /**< \brief (PAC_STATUSA) PAC APB Protect Enable */
+#define PAC_STATUSA_PAC             (_U_(0x1) << PAC_STATUSA_PAC_Pos)
+#define PAC_STATUSA_PM_Pos          1            /**< \brief (PAC_STATUSA) PM APB Protect Enable */
+#define PAC_STATUSA_PM              (_U_(0x1) << PAC_STATUSA_PM_Pos)
+#define PAC_STATUSA_MCLK_Pos        2            /**< \brief (PAC_STATUSA) MCLK APB Protect Enable */
+#define PAC_STATUSA_MCLK            (_U_(0x1) << PAC_STATUSA_MCLK_Pos)
+#define PAC_STATUSA_RSTC_Pos        3            /**< \brief (PAC_STATUSA) RSTC APB Protect Enable */
+#define PAC_STATUSA_RSTC            (_U_(0x1) << PAC_STATUSA_RSTC_Pos)
+#define PAC_STATUSA_OSCCTRL_Pos     4            /**< \brief (PAC_STATUSA) OSCCTRL APB Protect Enable */
+#define PAC_STATUSA_OSCCTRL         (_U_(0x1) << PAC_STATUSA_OSCCTRL_Pos)
+#define PAC_STATUSA_OSC32KCTRL_Pos  5            /**< \brief (PAC_STATUSA) OSC32KCTRL APB Protect Enable */
+#define PAC_STATUSA_OSC32KCTRL      (_U_(0x1) << PAC_STATUSA_OSC32KCTRL_Pos)
+#define PAC_STATUSA_SUPC_Pos        6            /**< \brief (PAC_STATUSA) SUPC APB Protect Enable */
+#define PAC_STATUSA_SUPC            (_U_(0x1) << PAC_STATUSA_SUPC_Pos)
+#define PAC_STATUSA_GCLK_Pos        7            /**< \brief (PAC_STATUSA) GCLK APB Protect Enable */
+#define PAC_STATUSA_GCLK            (_U_(0x1) << PAC_STATUSA_GCLK_Pos)
+#define PAC_STATUSA_WDT_Pos         8            /**< \brief (PAC_STATUSA) WDT APB Protect Enable */
+#define PAC_STATUSA_WDT             (_U_(0x1) << PAC_STATUSA_WDT_Pos)
+#define PAC_STATUSA_RTC_Pos         9            /**< \brief (PAC_STATUSA) RTC APB Protect Enable */
+#define PAC_STATUSA_RTC             (_U_(0x1) << PAC_STATUSA_RTC_Pos)
+#define PAC_STATUSA_EIC_Pos         10           /**< \brief (PAC_STATUSA) EIC APB Protect Enable */
+#define PAC_STATUSA_EIC             (_U_(0x1) << PAC_STATUSA_EIC_Pos)
+#define PAC_STATUSA_FREQM_Pos       11           /**< \brief (PAC_STATUSA) FREQM APB Protect Enable */
+#define PAC_STATUSA_FREQM           (_U_(0x1) << PAC_STATUSA_FREQM_Pos)
+#define PAC_STATUSA_MASK            _U_(0x00000FFF) /**< \brief (PAC_STATUSA) MASK Register */
+
+/* -------- PAC_STATUSB : (PAC Offset: 0x38) (R/  32) Peripheral write protection status - Bridge B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t USB_:1;           /*!< bit:      0  USB APB Protect Enable             */
+    uint32_t DSU_:1;           /*!< bit:      1  DSU APB Protect Enable             */
+    uint32_t NVMCTRL_:1;       /*!< bit:      2  NVMCTRL APB Protect Enable         */
+    uint32_t PORT_:1;          /*!< bit:      3  PORT APB Protect Enable            */
+    uint32_t DMAC_:1;          /*!< bit:      4  DMAC APB Protect Enable            */
+    uint32_t MTB_:1;           /*!< bit:      5  MTB APB Protect Enable             */
+    uint32_t :26;              /*!< bit:  6..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_STATUSB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_STATUSB_OFFSET          0x38         /**< \brief (PAC_STATUSB offset) Peripheral write protection status - Bridge B */
+#define PAC_STATUSB_RESETVALUE      _U_(0x00000002) /**< \brief (PAC_STATUSB reset_value) Peripheral write protection status - Bridge B */
+
+#define PAC_STATUSB_USB_Pos         0            /**< \brief (PAC_STATUSB) USB APB Protect Enable */
+#define PAC_STATUSB_USB             (_U_(0x1) << PAC_STATUSB_USB_Pos)
+#define PAC_STATUSB_DSU_Pos         1            /**< \brief (PAC_STATUSB) DSU APB Protect Enable */
+#define PAC_STATUSB_DSU             (_U_(0x1) << PAC_STATUSB_DSU_Pos)
+#define PAC_STATUSB_NVMCTRL_Pos     2            /**< \brief (PAC_STATUSB) NVMCTRL APB Protect Enable */
+#define PAC_STATUSB_NVMCTRL         (_U_(0x1) << PAC_STATUSB_NVMCTRL_Pos)
+#define PAC_STATUSB_PORT_Pos        3            /**< \brief (PAC_STATUSB) PORT APB Protect Enable */
+#define PAC_STATUSB_PORT            (_U_(0x1) << PAC_STATUSB_PORT_Pos)
+#define PAC_STATUSB_DMAC_Pos        4            /**< \brief (PAC_STATUSB) DMAC APB Protect Enable */
+#define PAC_STATUSB_DMAC            (_U_(0x1) << PAC_STATUSB_DMAC_Pos)
+#define PAC_STATUSB_MTB_Pos         5            /**< \brief (PAC_STATUSB) MTB APB Protect Enable */
+#define PAC_STATUSB_MTB             (_U_(0x1) << PAC_STATUSB_MTB_Pos)
+#define PAC_STATUSB_MASK            _U_(0x0000003F) /**< \brief (PAC_STATUSB) MASK Register */
+
+/* -------- PAC_STATUSC : (PAC Offset: 0x3C) (R/  32) Peripheral write protection status - Bridge C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EVSYS_:1;         /*!< bit:      0  EVSYS APB Protect Enable           */
+    uint32_t SERCOM0_:1;       /*!< bit:      1  SERCOM0 APB Protect Enable         */
+    uint32_t SERCOM1_:1;       /*!< bit:      2  SERCOM1 APB Protect Enable         */
+    uint32_t SERCOM2_:1;       /*!< bit:      3  SERCOM2 APB Protect Enable         */
+    uint32_t SERCOM3_:1;       /*!< bit:      4  SERCOM3 APB Protect Enable         */
+    uint32_t SERCOM4_:1;       /*!< bit:      5  SERCOM4 APB Protect Enable         */
+    uint32_t SERCOM5_:1;       /*!< bit:      6  SERCOM5 APB Protect Enable         */
+    uint32_t TCC0_:1;          /*!< bit:      7  TCC0 APB Protect Enable            */
+    uint32_t TC0_:1;           /*!< bit:      8  TC0 APB Protect Enable             */
+    uint32_t TC1_:1;           /*!< bit:      9  TC1 APB Protect Enable             */
+    uint32_t TC2_:1;           /*!< bit:     10  TC2 APB Protect Enable             */
+    uint32_t TC3_:1;           /*!< bit:     11  TC3 APB Protect Enable             */
+    uint32_t ADC_:1;           /*!< bit:     12  ADC APB Protect Enable             */
+    uint32_t AC_:1;            /*!< bit:     13  AC APB Protect Enable              */
+    uint32_t PTC_:1;           /*!< bit:     14  PTC APB Protect Enable             */
+    uint32_t SLCD_:1;          /*!< bit:     15  SLCD APB Protect Enable            */
+    uint32_t AES_:1;           /*!< bit:     16  AES APB Protect Enable             */
+    uint32_t TRNG_:1;          /*!< bit:     17  TRNG APB Protect Enable            */
+    uint32_t CCL_:1;           /*!< bit:     18  CCL APB Protect Enable             */
+    uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PAC_STATUSC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PAC_STATUSC_OFFSET          0x3C         /**< \brief (PAC_STATUSC offset) Peripheral write protection status - Bridge C */
+#define PAC_STATUSC_RESETVALUE      _U_(0x00080000) /**< \brief (PAC_STATUSC reset_value) Peripheral write protection status - Bridge C */
+
+#define PAC_STATUSC_EVSYS_Pos       0            /**< \brief (PAC_STATUSC) EVSYS APB Protect Enable */
+#define PAC_STATUSC_EVSYS           (_U_(0x1) << PAC_STATUSC_EVSYS_Pos)
+#define PAC_STATUSC_SERCOM0_Pos     1            /**< \brief (PAC_STATUSC) SERCOM0 APB Protect Enable */
+#define PAC_STATUSC_SERCOM0         (_U_(0x1) << PAC_STATUSC_SERCOM0_Pos)
+#define PAC_STATUSC_SERCOM1_Pos     2            /**< \brief (PAC_STATUSC) SERCOM1 APB Protect Enable */
+#define PAC_STATUSC_SERCOM1         (_U_(0x1) << PAC_STATUSC_SERCOM1_Pos)
+#define PAC_STATUSC_SERCOM2_Pos     3            /**< \brief (PAC_STATUSC) SERCOM2 APB Protect Enable */
+#define PAC_STATUSC_SERCOM2         (_U_(0x1) << PAC_STATUSC_SERCOM2_Pos)
+#define PAC_STATUSC_SERCOM3_Pos     4            /**< \brief (PAC_STATUSC) SERCOM3 APB Protect Enable */
+#define PAC_STATUSC_SERCOM3         (_U_(0x1) << PAC_STATUSC_SERCOM3_Pos)
+#define PAC_STATUSC_SERCOM4_Pos     5            /**< \brief (PAC_STATUSC) SERCOM4 APB Protect Enable */
+#define PAC_STATUSC_SERCOM4         (_U_(0x1) << PAC_STATUSC_SERCOM4_Pos)
+#define PAC_STATUSC_SERCOM5_Pos     6            /**< \brief (PAC_STATUSC) SERCOM5 APB Protect Enable */
+#define PAC_STATUSC_SERCOM5         (_U_(0x1) << PAC_STATUSC_SERCOM5_Pos)
+#define PAC_STATUSC_TCC0_Pos        7            /**< \brief (PAC_STATUSC) TCC0 APB Protect Enable */
+#define PAC_STATUSC_TCC0            (_U_(0x1) << PAC_STATUSC_TCC0_Pos)
+#define PAC_STATUSC_TC0_Pos         8            /**< \brief (PAC_STATUSC) TC0 APB Protect Enable */
+#define PAC_STATUSC_TC0             (_U_(0x1) << PAC_STATUSC_TC0_Pos)
+#define PAC_STATUSC_TC1_Pos         9            /**< \brief (PAC_STATUSC) TC1 APB Protect Enable */
+#define PAC_STATUSC_TC1             (_U_(0x1) << PAC_STATUSC_TC1_Pos)
+#define PAC_STATUSC_TC2_Pos         10           /**< \brief (PAC_STATUSC) TC2 APB Protect Enable */
+#define PAC_STATUSC_TC2             (_U_(0x1) << PAC_STATUSC_TC2_Pos)
+#define PAC_STATUSC_TC3_Pos         11           /**< \brief (PAC_STATUSC) TC3 APB Protect Enable */
+#define PAC_STATUSC_TC3             (_U_(0x1) << PAC_STATUSC_TC3_Pos)
+#define PAC_STATUSC_ADC_Pos         12           /**< \brief (PAC_STATUSC) ADC APB Protect Enable */
+#define PAC_STATUSC_ADC             (_U_(0x1) << PAC_STATUSC_ADC_Pos)
+#define PAC_STATUSC_AC_Pos          13           /**< \brief (PAC_STATUSC) AC APB Protect Enable */
+#define PAC_STATUSC_AC              (_U_(0x1) << PAC_STATUSC_AC_Pos)
+#define PAC_STATUSC_PTC_Pos         14           /**< \brief (PAC_STATUSC) PTC APB Protect Enable */
+#define PAC_STATUSC_PTC             (_U_(0x1) << PAC_STATUSC_PTC_Pos)
+#define PAC_STATUSC_SLCD_Pos        15           /**< \brief (PAC_STATUSC) SLCD APB Protect Enable */
+#define PAC_STATUSC_SLCD            (_U_(0x1) << PAC_STATUSC_SLCD_Pos)
+#define PAC_STATUSC_AES_Pos         16           /**< \brief (PAC_STATUSC) AES APB Protect Enable */
+#define PAC_STATUSC_AES             (_U_(0x1) << PAC_STATUSC_AES_Pos)
+#define PAC_STATUSC_TRNG_Pos        17           /**< \brief (PAC_STATUSC) TRNG APB Protect Enable */
+#define PAC_STATUSC_TRNG            (_U_(0x1) << PAC_STATUSC_TRNG_Pos)
+#define PAC_STATUSC_CCL_Pos         18           /**< \brief (PAC_STATUSC) CCL APB Protect Enable */
+#define PAC_STATUSC_CCL             (_U_(0x1) << PAC_STATUSC_CCL_Pos)
+#define PAC_STATUSC_MASK            _U_(0x0007FFFF) /**< \brief (PAC_STATUSC) MASK Register */
+
+/** \brief PAC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO PAC_WRCTRL_Type           WRCTRL;      /**< \brief Offset: 0x00 (R/W 32) Write control */
+  __IO PAC_EVCTRL_Type           EVCTRL;      /**< \brief Offset: 0x04 (R/W  8) Event control */
+       RoReg8                    Reserved1[0x3];
+  __IO PAC_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt enable clear */
+  __IO PAC_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt enable set */
+       RoReg8                    Reserved2[0x6];
+  __IO PAC_INTFLAGAHB_Type       INTFLAGAHB;  /**< \brief Offset: 0x10 (R/W 32) Bridge interrupt flag status */
+  __IO PAC_INTFLAGA_Type         INTFLAGA;    /**< \brief Offset: 0x14 (R/W 32) Peripheral interrupt flag status - Bridge A */
+  __IO PAC_INTFLAGB_Type         INTFLAGB;    /**< \brief Offset: 0x18 (R/W 32) Peripheral interrupt flag status - Bridge B */
+  __IO PAC_INTFLAGC_Type         INTFLAGC;    /**< \brief Offset: 0x1C (R/W 32) Peripheral interrupt flag status - Bridge C */
+       RoReg8                    Reserved3[0x14];
+  __I  PAC_STATUSA_Type          STATUSA;     /**< \brief Offset: 0x34 (R/  32) Peripheral write protection status - Bridge A */
+  __I  PAC_STATUSB_Type          STATUSB;     /**< \brief Offset: 0x38 (R/  32) Peripheral write protection status - Bridge B */
+  __I  PAC_STATUSC_Type          STATUSC;     /**< \brief Offset: 0x3C (R/  32) Peripheral write protection status - Bridge C */
+} Pac;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_PAC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/pm.h b/watch-library/hardware/include/component/pm.h
new file mode 100644
index 00000000..6320208c
--- /dev/null
+++ b/watch-library/hardware/include/component/pm.h
@@ -0,0 +1,222 @@
+/**
+ * \file
+ *
+ * \brief Component description for PM
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PM_COMPONENT_
+#define _SAML22_PM_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR PM */
+/* ========================================================================== */
+/** \addtogroup SAML22_PM Power Manager */
+/*@{*/
+
+#define PM_U2240
+#define REV_PM                      0x211
+
+/* -------- PM_CTRLA : (PM Offset: 0x00) (R/W  8) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint8_t  IORET:1;          /*!< bit:      2  I/O Retention                      */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_CTRLA_OFFSET             0x00         /**< \brief (PM_CTRLA offset) Control A */
+#define PM_CTRLA_RESETVALUE         _U_(0x00)    /**< \brief (PM_CTRLA reset_value) Control A */
+
+#define PM_CTRLA_IORET_Pos          2            /**< \brief (PM_CTRLA) I/O Retention */
+#define PM_CTRLA_IORET              (_U_(0x1) << PM_CTRLA_IORET_Pos)
+#define PM_CTRLA_MASK               _U_(0x04)    /**< \brief (PM_CTRLA) MASK Register */
+
+/* -------- PM_SLEEPCFG : (PM Offset: 0x01) (R/W  8) Sleep Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SLEEPMODE:3;      /*!< bit:  0.. 2  Sleep Mode                         */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_SLEEPCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_SLEEPCFG_OFFSET          0x01         /**< \brief (PM_SLEEPCFG offset) Sleep Configuration */
+#define PM_SLEEPCFG_RESETVALUE      _U_(0x02)    /**< \brief (PM_SLEEPCFG reset_value) Sleep Configuration */
+
+#define PM_SLEEPCFG_SLEEPMODE_Pos   0            /**< \brief (PM_SLEEPCFG) Sleep Mode */
+#define PM_SLEEPCFG_SLEEPMODE_Msk   (_U_(0x7) << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE(value) (PM_SLEEPCFG_SLEEPMODE_Msk & ((value) << PM_SLEEPCFG_SLEEPMODE_Pos))
+#define   PM_SLEEPCFG_SLEEPMODE_IDLE0_Val _U_(0x0)   /**< \brief (PM_SLEEPCFG) CPU clock is OFF */
+#define   PM_SLEEPCFG_SLEEPMODE_IDLE1_Val _U_(0x1)   /**< \brief (PM_SLEEPCFG) AHB clock is OFF */
+#define   PM_SLEEPCFG_SLEEPMODE_IDLE2_Val _U_(0x2)   /**< \brief (PM_SLEEPCFG) APB clock are OFF */
+#define   PM_SLEEPCFG_SLEEPMODE_STANDBY_Val _U_(0x4)   /**< \brief (PM_SLEEPCFG) All Clocks are OFF */
+#define   PM_SLEEPCFG_SLEEPMODE_BACKUP_Val _U_(0x5)   /**< \brief (PM_SLEEPCFG) Only Backup domain is powered ON */
+#define   PM_SLEEPCFG_SLEEPMODE_OFF_Val   _U_(0x6)   /**< \brief (PM_SLEEPCFG) All power domains are powered OFF */
+#define PM_SLEEPCFG_SLEEPMODE_IDLE0 (PM_SLEEPCFG_SLEEPMODE_IDLE0_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE_IDLE1 (PM_SLEEPCFG_SLEEPMODE_IDLE1_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE_IDLE2 (PM_SLEEPCFG_SLEEPMODE_IDLE2_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE_STANDBY (PM_SLEEPCFG_SLEEPMODE_STANDBY_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE_BACKUP (PM_SLEEPCFG_SLEEPMODE_BACKUP_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_SLEEPMODE_OFF   (PM_SLEEPCFG_SLEEPMODE_OFF_Val << PM_SLEEPCFG_SLEEPMODE_Pos)
+#define PM_SLEEPCFG_MASK            _U_(0x07)    /**< \brief (PM_SLEEPCFG) MASK Register */
+
+/* -------- PM_PLCFG : (PM Offset: 0x02) (R/W  8) Performance Level Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PLSEL:2;          /*!< bit:  0.. 1  Performance Level Select           */
+    uint8_t  :5;               /*!< bit:  2.. 6  Reserved                           */
+    uint8_t  PLDIS:1;          /*!< bit:      7  Performance Level Disable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_PLCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_PLCFG_OFFSET             0x02         /**< \brief (PM_PLCFG offset) Performance Level Configuration */
+#define PM_PLCFG_RESETVALUE         _U_(0x00)    /**< \brief (PM_PLCFG reset_value) Performance Level Configuration */
+
+#define PM_PLCFG_PLSEL_Pos          0            /**< \brief (PM_PLCFG) Performance Level Select */
+#define PM_PLCFG_PLSEL_Msk          (_U_(0x3) << PM_PLCFG_PLSEL_Pos)
+#define PM_PLCFG_PLSEL(value)       (PM_PLCFG_PLSEL_Msk & ((value) << PM_PLCFG_PLSEL_Pos))
+#define   PM_PLCFG_PLSEL_PL0_Val          _U_(0x0)   /**< \brief (PM_PLCFG) Performance Level 0 */
+#define   PM_PLCFG_PLSEL_PL1_Val          _U_(0x1)   /**< \brief (PM_PLCFG) Performance Level 1 */
+#define   PM_PLCFG_PLSEL_PL2_Val          _U_(0x2)   /**< \brief (PM_PLCFG) Performance Level 2 */
+#define PM_PLCFG_PLSEL_PL0          (PM_PLCFG_PLSEL_PL0_Val        << PM_PLCFG_PLSEL_Pos)
+#define PM_PLCFG_PLSEL_PL1          (PM_PLCFG_PLSEL_PL1_Val        << PM_PLCFG_PLSEL_Pos)
+#define PM_PLCFG_PLSEL_PL2          (PM_PLCFG_PLSEL_PL2_Val        << PM_PLCFG_PLSEL_Pos)
+#define PM_PLCFG_PLDIS_Pos          7            /**< \brief (PM_PLCFG) Performance Level Disable */
+#define PM_PLCFG_PLDIS              (_U_(0x1) << PM_PLCFG_PLDIS_Pos)
+#define PM_PLCFG_MASK               _U_(0x83)    /**< \brief (PM_PLCFG) MASK Register */
+
+/* -------- PM_INTENCLR : (PM Offset: 0x04) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PLRDY:1;          /*!< bit:      0  Performance Level Interrupt Enable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_INTENCLR_OFFSET          0x04         /**< \brief (PM_INTENCLR offset) Interrupt Enable Clear */
+#define PM_INTENCLR_RESETVALUE      _U_(0x00)    /**< \brief (PM_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define PM_INTENCLR_PLRDY_Pos       0            /**< \brief (PM_INTENCLR) Performance Level Interrupt Enable */
+#define PM_INTENCLR_PLRDY           (_U_(0x1) << PM_INTENCLR_PLRDY_Pos)
+#define PM_INTENCLR_MASK            _U_(0x01)    /**< \brief (PM_INTENCLR) MASK Register */
+
+/* -------- PM_INTENSET : (PM Offset: 0x05) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PLRDY:1;          /*!< bit:      0  Performance Level Ready interrupt Enable */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_INTENSET_OFFSET          0x05         /**< \brief (PM_INTENSET offset) Interrupt Enable Set */
+#define PM_INTENSET_RESETVALUE      _U_(0x00)    /**< \brief (PM_INTENSET reset_value) Interrupt Enable Set */
+
+#define PM_INTENSET_PLRDY_Pos       0            /**< \brief (PM_INTENSET) Performance Level Ready interrupt Enable */
+#define PM_INTENSET_PLRDY           (_U_(0x1) << PM_INTENSET_PLRDY_Pos)
+#define PM_INTENSET_MASK            _U_(0x01)    /**< \brief (PM_INTENSET) MASK Register */
+
+/* -------- PM_INTFLAG : (PM Offset: 0x06) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  PLRDY:1;          /*!< bit:      0  Performance Level Ready            */
+    __I uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PM_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_INTFLAG_OFFSET           0x06         /**< \brief (PM_INTFLAG offset) Interrupt Flag Status and Clear */
+#define PM_INTFLAG_RESETVALUE       _U_(0x00)    /**< \brief (PM_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define PM_INTFLAG_PLRDY_Pos        0            /**< \brief (PM_INTFLAG) Performance Level Ready */
+#define PM_INTFLAG_PLRDY            (_U_(0x1) << PM_INTFLAG_PLRDY_Pos)
+#define PM_INTFLAG_MASK             _U_(0x01)    /**< \brief (PM_INTFLAG) MASK Register */
+
+/* -------- PM_STDBYCFG : (PM Offset: 0x08) (R/W 16) Standby Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t :6;               /*!< bit:  0.. 5  Reserved                           */
+    uint16_t VREGSMOD:2;       /*!< bit:  6.. 7  Voltage Regulator Standby mode     */
+    uint16_t :2;               /*!< bit:  8.. 9  Reserved                           */
+    uint16_t BBIASHS:2;        /*!< bit: 10..11  Back Bias for HMCRAMCHS            */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} PM_STDBYCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PM_STDBYCFG_OFFSET          0x08         /**< \brief (PM_STDBYCFG offset) Standby Configuration */
+#define PM_STDBYCFG_RESETVALUE      _U_(0x0400)  /**< \brief (PM_STDBYCFG reset_value) Standby Configuration */
+
+#define PM_STDBYCFG_VREGSMOD_Pos    6            /**< \brief (PM_STDBYCFG) Voltage Regulator Standby mode */
+#define PM_STDBYCFG_VREGSMOD_Msk    (_U_(0x3) << PM_STDBYCFG_VREGSMOD_Pos)
+#define PM_STDBYCFG_VREGSMOD(value) (PM_STDBYCFG_VREGSMOD_Msk & ((value) << PM_STDBYCFG_VREGSMOD_Pos))
+#define   PM_STDBYCFG_VREGSMOD_AUTO_Val   _U_(0x0)   /**< \brief (PM_STDBYCFG) Automatic mode */
+#define   PM_STDBYCFG_VREGSMOD_PERFORMANCE_Val _U_(0x1)   /**< \brief (PM_STDBYCFG) Performance oriented */
+#define   PM_STDBYCFG_VREGSMOD_LP_Val     _U_(0x2)   /**< \brief (PM_STDBYCFG) Low Power oriented */
+#define PM_STDBYCFG_VREGSMOD_AUTO   (PM_STDBYCFG_VREGSMOD_AUTO_Val << PM_STDBYCFG_VREGSMOD_Pos)
+#define PM_STDBYCFG_VREGSMOD_PERFORMANCE (PM_STDBYCFG_VREGSMOD_PERFORMANCE_Val << PM_STDBYCFG_VREGSMOD_Pos)
+#define PM_STDBYCFG_VREGSMOD_LP     (PM_STDBYCFG_VREGSMOD_LP_Val   << PM_STDBYCFG_VREGSMOD_Pos)
+#define PM_STDBYCFG_BBIASHS_Pos     10           /**< \brief (PM_STDBYCFG) Back Bias for HMCRAMCHS */
+#define PM_STDBYCFG_BBIASHS_Msk     (_U_(0x3) << PM_STDBYCFG_BBIASHS_Pos)
+#define PM_STDBYCFG_BBIASHS(value)  (PM_STDBYCFG_BBIASHS_Msk & ((value) << PM_STDBYCFG_BBIASHS_Pos))
+#define PM_STDBYCFG_MASK            _U_(0x0CC0)  /**< \brief (PM_STDBYCFG) MASK Register */
+
+/** \brief PM hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO PM_CTRLA_Type             CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control A */
+  __IO PM_SLEEPCFG_Type          SLEEPCFG;    /**< \brief Offset: 0x01 (R/W  8) Sleep Configuration */
+  __IO PM_PLCFG_Type             PLCFG;       /**< \brief Offset: 0x02 (R/W  8) Performance Level Configuration */
+       RoReg8                    Reserved1[0x1];
+  __IO PM_INTENCLR_Type          INTENCLR;    /**< \brief Offset: 0x04 (R/W  8) Interrupt Enable Clear */
+  __IO PM_INTENSET_Type          INTENSET;    /**< \brief Offset: 0x05 (R/W  8) Interrupt Enable Set */
+  __IO PM_INTFLAG_Type           INTFLAG;     /**< \brief Offset: 0x06 (R/W  8) Interrupt Flag Status and Clear */
+       RoReg8                    Reserved2[0x1];
+  __IO PM_STDBYCFG_Type          STDBYCFG;    /**< \brief Offset: 0x08 (R/W 16) Standby Configuration */
+} Pm;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_PM_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/port.h b/watch-library/hardware/include/component/port.h
new file mode 100644
index 00000000..2ec5713f
--- /dev/null
+++ b/watch-library/hardware/include/component/port.h
@@ -0,0 +1,343 @@
+/**
+ * \file
+ *
+ * \brief Component description for PORT
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PORT_COMPONENT_
+#define _SAML22_PORT_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR PORT */
+/* ========================================================================== */
+/** \addtogroup SAML22_PORT Port Module */
+/*@{*/
+
+#define PORT_U2210
+#define REV_PORT                    0x211
+
+/* -------- PORT_DIR : (PORT Offset: 0x00) (R/W 32) GROUP Data Direction -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_DIR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_DIR_OFFSET             0x00         /**< \brief (PORT_DIR offset) Data Direction */
+#define PORT_DIR_RESETVALUE         _U_(0x00000000) /**< \brief (PORT_DIR reset_value) Data Direction */
+#define PORT_DIR_MASK               _U_(0xFFFFFFFF) /**< \brief (PORT_DIR) MASK Register */
+
+/* -------- PORT_DIRCLR : (PORT Offset: 0x04) (R/W 32) GROUP Data Direction Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_DIRCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_DIRCLR_OFFSET          0x04         /**< \brief (PORT_DIRCLR offset) Data Direction Clear */
+#define PORT_DIRCLR_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_DIRCLR reset_value) Data Direction Clear */
+#define PORT_DIRCLR_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_DIRCLR) MASK Register */
+
+/* -------- PORT_DIRSET : (PORT Offset: 0x08) (R/W 32) GROUP Data Direction Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_DIRSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_DIRSET_OFFSET          0x08         /**< \brief (PORT_DIRSET offset) Data Direction Set */
+#define PORT_DIRSET_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_DIRSET reset_value) Data Direction Set */
+#define PORT_DIRSET_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_DIRSET) MASK Register */
+
+/* -------- PORT_DIRTGL : (PORT Offset: 0x0C) (R/W 32) GROUP Data Direction Toggle -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_DIRTGL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_DIRTGL_OFFSET          0x0C         /**< \brief (PORT_DIRTGL offset) Data Direction Toggle */
+#define PORT_DIRTGL_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_DIRTGL reset_value) Data Direction Toggle */
+#define PORT_DIRTGL_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_DIRTGL) MASK Register */
+
+/* -------- PORT_OUT : (PORT Offset: 0x10) (R/W 32) GROUP Data Output Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_OUT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_OUT_OFFSET             0x10         /**< \brief (PORT_OUT offset) Data Output Value */
+#define PORT_OUT_RESETVALUE         _U_(0x00000000) /**< \brief (PORT_OUT reset_value) Data Output Value */
+#define PORT_OUT_MASK               _U_(0xFFFFFFFF) /**< \brief (PORT_OUT) MASK Register */
+
+/* -------- PORT_OUTCLR : (PORT Offset: 0x14) (R/W 32) GROUP Data Output Value Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_OUTCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_OUTCLR_OFFSET          0x14         /**< \brief (PORT_OUTCLR offset) Data Output Value Clear */
+#define PORT_OUTCLR_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_OUTCLR reset_value) Data Output Value Clear */
+#define PORT_OUTCLR_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_OUTCLR) MASK Register */
+
+/* -------- PORT_OUTSET : (PORT Offset: 0x18) (R/W 32) GROUP Data Output Value Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_OUTSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_OUTSET_OFFSET          0x18         /**< \brief (PORT_OUTSET offset) Data Output Value Set */
+#define PORT_OUTSET_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_OUTSET reset_value) Data Output Value Set */
+#define PORT_OUTSET_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_OUTSET) MASK Register */
+
+/* -------- PORT_OUTTGL : (PORT Offset: 0x1C) (R/W 32) GROUP Data Output Value Toggle -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_OUTTGL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_OUTTGL_OFFSET          0x1C         /**< \brief (PORT_OUTTGL offset) Data Output Value Toggle */
+#define PORT_OUTTGL_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_OUTTGL reset_value) Data Output Value Toggle */
+#define PORT_OUTTGL_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_OUTTGL) MASK Register */
+
+/* -------- PORT_IN : (PORT Offset: 0x20) (R/  32) GROUP Data Input Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_IN_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_IN_OFFSET              0x20         /**< \brief (PORT_IN offset) Data Input Value */
+#define PORT_IN_RESETVALUE          _U_(0x00000000) /**< \brief (PORT_IN reset_value) Data Input Value */
+#define PORT_IN_MASK                _U_(0xFFFFFFFF) /**< \brief (PORT_IN) MASK Register */
+
+/* -------- PORT_CTRL : (PORT Offset: 0x24) (R/W 32) GROUP Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SAMPLING:32;      /*!< bit:  0..31  Input Sampling Mode                */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_CTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_CTRL_OFFSET            0x24         /**< \brief (PORT_CTRL offset) Control */
+#define PORT_CTRL_RESETVALUE        _U_(0x00000000) /**< \brief (PORT_CTRL reset_value) Control */
+
+#define PORT_CTRL_SAMPLING_Pos      0            /**< \brief (PORT_CTRL) Input Sampling Mode */
+#define PORT_CTRL_SAMPLING_Msk      (_U_(0xFFFFFFFF) << PORT_CTRL_SAMPLING_Pos)
+#define PORT_CTRL_SAMPLING(value)   (PORT_CTRL_SAMPLING_Msk & ((value) << PORT_CTRL_SAMPLING_Pos))
+#define PORT_CTRL_MASK              _U_(0xFFFFFFFF) /**< \brief (PORT_CTRL) MASK Register */
+
+/* -------- PORT_WRCONFIG : (PORT Offset: 0x28) ( /W 32) GROUP Write Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PINMASK:16;       /*!< bit:  0..15  Pin Mask for Multiple Pin Configuration */
+    uint32_t PMUXEN:1;         /*!< bit:     16  Select Peripheral Multiplexer      */
+    uint32_t INEN:1;           /*!< bit:     17  Input Enable                       */
+    uint32_t PULLEN:1;         /*!< bit:     18  Pull Enable                        */
+    uint32_t :3;               /*!< bit: 19..21  Reserved                           */
+    uint32_t DRVSTR:1;         /*!< bit:     22  Output Driver Strength Selection   */
+    uint32_t :1;               /*!< bit:     23  Reserved                           */
+    uint32_t PMUX:4;           /*!< bit: 24..27  Peripheral Multiplexing Template   */
+    uint32_t WRPMUX:1;         /*!< bit:     28  Write PMUX Registers               */
+    uint32_t :1;               /*!< bit:     29  Reserved                           */
+    uint32_t WRPINCFG:1;       /*!< bit:     30  Write PINCFG Registers             */
+    uint32_t HWSEL:1;          /*!< bit:     31  Half-Word Select                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_WRCONFIG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_WRCONFIG_OFFSET        0x28         /**< \brief (PORT_WRCONFIG offset) Write Configuration */
+#define PORT_WRCONFIG_RESETVALUE    _U_(0x00000000) /**< \brief (PORT_WRCONFIG reset_value) Write Configuration */
+
+#define PORT_WRCONFIG_PINMASK_Pos   0            /**< \brief (PORT_WRCONFIG) Pin Mask for Multiple Pin Configuration */
+#define PORT_WRCONFIG_PINMASK_Msk   (_U_(0xFFFF) << PORT_WRCONFIG_PINMASK_Pos)
+#define PORT_WRCONFIG_PINMASK(value) (PORT_WRCONFIG_PINMASK_Msk & ((value) << PORT_WRCONFIG_PINMASK_Pos))
+#define PORT_WRCONFIG_PMUXEN_Pos    16           /**< \brief (PORT_WRCONFIG) Select Peripheral Multiplexer */
+#define PORT_WRCONFIG_PMUXEN        (_U_(0x1) << PORT_WRCONFIG_PMUXEN_Pos)
+#define PORT_WRCONFIG_INEN_Pos      17           /**< \brief (PORT_WRCONFIG) Input Enable */
+#define PORT_WRCONFIG_INEN          (_U_(0x1) << PORT_WRCONFIG_INEN_Pos)
+#define PORT_WRCONFIG_PULLEN_Pos    18           /**< \brief (PORT_WRCONFIG) Pull Enable */
+#define PORT_WRCONFIG_PULLEN        (_U_(0x1) << PORT_WRCONFIG_PULLEN_Pos)
+#define PORT_WRCONFIG_DRVSTR_Pos    22           /**< \brief (PORT_WRCONFIG) Output Driver Strength Selection */
+#define PORT_WRCONFIG_DRVSTR        (_U_(0x1) << PORT_WRCONFIG_DRVSTR_Pos)
+#define PORT_WRCONFIG_PMUX_Pos      24           /**< \brief (PORT_WRCONFIG) Peripheral Multiplexing Template */
+#define PORT_WRCONFIG_PMUX_Msk      (_U_(0xF) << PORT_WRCONFIG_PMUX_Pos)
+#define PORT_WRCONFIG_PMUX(value)   (PORT_WRCONFIG_PMUX_Msk & ((value) << PORT_WRCONFIG_PMUX_Pos))
+#define PORT_WRCONFIG_WRPMUX_Pos    28           /**< \brief (PORT_WRCONFIG) Write PMUX Registers */
+#define PORT_WRCONFIG_WRPMUX        (_U_(0x1) << PORT_WRCONFIG_WRPMUX_Pos)
+#define PORT_WRCONFIG_WRPINCFG_Pos  30           /**< \brief (PORT_WRCONFIG) Write PINCFG Registers */
+#define PORT_WRCONFIG_WRPINCFG      (_U_(0x1) << PORT_WRCONFIG_WRPINCFG_Pos)
+#define PORT_WRCONFIG_HWSEL_Pos     31           /**< \brief (PORT_WRCONFIG) Half-Word Select */
+#define PORT_WRCONFIG_HWSEL         (_U_(0x1) << PORT_WRCONFIG_HWSEL_Pos)
+#define PORT_WRCONFIG_MASK          _U_(0xDF47FFFF) /**< \brief (PORT_WRCONFIG) MASK Register */
+
+/* -------- PORT_EVCTRL : (PORT Offset: 0x2C) (R/W 32) GROUP Event Input Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PID0:5;           /*!< bit:  0.. 4  Port Event Pin Identifier 0        */
+    uint32_t EVACT0:2;         /*!< bit:  5.. 6  Port Event Action 0                */
+    uint32_t PORTEI0:1;        /*!< bit:      7  Port Event Enable Input 0          */
+    uint32_t PID1:5;           /*!< bit:  8..12  Port Event Pin Identifier 1        */
+    uint32_t EVACT1:2;         /*!< bit: 13..14  Port Event Action 1                */
+    uint32_t PORTEI1:1;        /*!< bit:     15  Port Event Enable Input 1          */
+    uint32_t PID2:5;           /*!< bit: 16..20  Port Event Pin Identifier 2        */
+    uint32_t EVACT2:2;         /*!< bit: 21..22  Port Event Action 2                */
+    uint32_t PORTEI2:1;        /*!< bit:     23  Port Event Enable Input 2          */
+    uint32_t PID3:5;           /*!< bit: 24..28  Port Event Pin Identifier 3        */
+    uint32_t EVACT3:2;         /*!< bit: 29..30  Port Event Action 3                */
+    uint32_t PORTEI3:1;        /*!< bit:     31  Port Event Enable Input 3          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} PORT_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_EVCTRL_OFFSET          0x2C         /**< \brief (PORT_EVCTRL offset) Event Input Control */
+#define PORT_EVCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (PORT_EVCTRL reset_value) Event Input Control */
+
+#define PORT_EVCTRL_PID0_Pos        0            /**< \brief (PORT_EVCTRL) Port Event Pin Identifier 0 */
+#define PORT_EVCTRL_PID0_Msk        (_U_(0x1F) << PORT_EVCTRL_PID0_Pos)
+#define PORT_EVCTRL_PID0(value)     (PORT_EVCTRL_PID0_Msk & ((value) << PORT_EVCTRL_PID0_Pos))
+#define PORT_EVCTRL_EVACT0_Pos      5            /**< \brief (PORT_EVCTRL) Port Event Action 0 */
+#define PORT_EVCTRL_EVACT0_Msk      (_U_(0x3) << PORT_EVCTRL_EVACT0_Pos)
+#define PORT_EVCTRL_EVACT0(value)   (PORT_EVCTRL_EVACT0_Msk & ((value) << PORT_EVCTRL_EVACT0_Pos))
+#define PORT_EVCTRL_PORTEI0_Pos     7            /**< \brief (PORT_EVCTRL) Port Event Enable Input 0 */
+#define PORT_EVCTRL_PORTEI0         (_U_(0x1) << PORT_EVCTRL_PORTEI0_Pos)
+#define PORT_EVCTRL_PID1_Pos        8            /**< \brief (PORT_EVCTRL) Port Event Pin Identifier 1 */
+#define PORT_EVCTRL_PID1_Msk        (_U_(0x1F) << PORT_EVCTRL_PID1_Pos)
+#define PORT_EVCTRL_PID1(value)     (PORT_EVCTRL_PID1_Msk & ((value) << PORT_EVCTRL_PID1_Pos))
+#define PORT_EVCTRL_EVACT1_Pos      13           /**< \brief (PORT_EVCTRL) Port Event Action 1 */
+#define PORT_EVCTRL_EVACT1_Msk      (_U_(0x3) << PORT_EVCTRL_EVACT1_Pos)
+#define PORT_EVCTRL_EVACT1(value)   (PORT_EVCTRL_EVACT1_Msk & ((value) << PORT_EVCTRL_EVACT1_Pos))
+#define PORT_EVCTRL_PORTEI1_Pos     15           /**< \brief (PORT_EVCTRL) Port Event Enable Input 1 */
+#define PORT_EVCTRL_PORTEI1         (_U_(0x1) << PORT_EVCTRL_PORTEI1_Pos)
+#define PORT_EVCTRL_PID2_Pos        16           /**< \brief (PORT_EVCTRL) Port Event Pin Identifier 2 */
+#define PORT_EVCTRL_PID2_Msk        (_U_(0x1F) << PORT_EVCTRL_PID2_Pos)
+#define PORT_EVCTRL_PID2(value)     (PORT_EVCTRL_PID2_Msk & ((value) << PORT_EVCTRL_PID2_Pos))
+#define PORT_EVCTRL_EVACT2_Pos      21           /**< \brief (PORT_EVCTRL) Port Event Action 2 */
+#define PORT_EVCTRL_EVACT2_Msk      (_U_(0x3) << PORT_EVCTRL_EVACT2_Pos)
+#define PORT_EVCTRL_EVACT2(value)   (PORT_EVCTRL_EVACT2_Msk & ((value) << PORT_EVCTRL_EVACT2_Pos))
+#define PORT_EVCTRL_PORTEI2_Pos     23           /**< \brief (PORT_EVCTRL) Port Event Enable Input 2 */
+#define PORT_EVCTRL_PORTEI2         (_U_(0x1) << PORT_EVCTRL_PORTEI2_Pos)
+#define PORT_EVCTRL_PID3_Pos        24           /**< \brief (PORT_EVCTRL) Port Event Pin Identifier 3 */
+#define PORT_EVCTRL_PID3_Msk        (_U_(0x1F) << PORT_EVCTRL_PID3_Pos)
+#define PORT_EVCTRL_PID3(value)     (PORT_EVCTRL_PID3_Msk & ((value) << PORT_EVCTRL_PID3_Pos))
+#define PORT_EVCTRL_EVACT3_Pos      29           /**< \brief (PORT_EVCTRL) Port Event Action 3 */
+#define PORT_EVCTRL_EVACT3_Msk      (_U_(0x3) << PORT_EVCTRL_EVACT3_Pos)
+#define PORT_EVCTRL_EVACT3(value)   (PORT_EVCTRL_EVACT3_Msk & ((value) << PORT_EVCTRL_EVACT3_Pos))
+#define PORT_EVCTRL_PORTEI3_Pos     31           /**< \brief (PORT_EVCTRL) Port Event Enable Input 3 */
+#define PORT_EVCTRL_PORTEI3         (_U_(0x1) << PORT_EVCTRL_PORTEI3_Pos)
+#define PORT_EVCTRL_MASK            _U_(0xFFFFFFFF) /**< \brief (PORT_EVCTRL) MASK Register */
+
+/* -------- PORT_PMUX : (PORT Offset: 0x30) (R/W  8) GROUP Peripheral Multiplexing n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PMUXE:4;          /*!< bit:  0.. 3  Peripheral Multiplexing for Even-Numbered Pin */
+    uint8_t  PMUXO:4;          /*!< bit:  4.. 7  Peripheral Multiplexing for Odd-Numbered Pin */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PORT_PMUX_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_PMUX_OFFSET            0x30         /**< \brief (PORT_PMUX offset) Peripheral Multiplexing n */
+#define PORT_PMUX_RESETVALUE        _U_(0x00)    /**< \brief (PORT_PMUX reset_value) Peripheral Multiplexing n */
+
+#define PORT_PMUX_PMUXE_Pos         0            /**< \brief (PORT_PMUX) Peripheral Multiplexing for Even-Numbered Pin */
+#define PORT_PMUX_PMUXE_Msk         (_U_(0xF) << PORT_PMUX_PMUXE_Pos)
+#define PORT_PMUX_PMUXE(value)      (PORT_PMUX_PMUXE_Msk & ((value) << PORT_PMUX_PMUXE_Pos))
+#define PORT_PMUX_PMUXO_Pos         4            /**< \brief (PORT_PMUX) Peripheral Multiplexing for Odd-Numbered Pin */
+#define PORT_PMUX_PMUXO_Msk         (_U_(0xF) << PORT_PMUX_PMUXO_Pos)
+#define PORT_PMUX_PMUXO(value)      (PORT_PMUX_PMUXO_Msk & ((value) << PORT_PMUX_PMUXO_Pos))
+#define PORT_PMUX_MASK              _U_(0xFF)    /**< \brief (PORT_PMUX) MASK Register */
+
+/* -------- PORT_PINCFG : (PORT Offset: 0x40) (R/W  8) GROUP Pin Configuration n -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PMUXEN:1;         /*!< bit:      0  Select Peripheral Multiplexer      */
+    uint8_t  INEN:1;           /*!< bit:      1  Input Enable                       */
+    uint8_t  PULLEN:1;         /*!< bit:      2  Pull Enable                        */
+    uint8_t  :3;               /*!< bit:  3.. 5  Reserved                           */
+    uint8_t  DRVSTR:1;         /*!< bit:      6  Output Driver Strength Selection   */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} PORT_PINCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define PORT_PINCFG_OFFSET          0x40         /**< \brief (PORT_PINCFG offset) Pin Configuration n */
+#define PORT_PINCFG_RESETVALUE      _U_(0x00)    /**< \brief (PORT_PINCFG reset_value) Pin Configuration n */
+
+#define PORT_PINCFG_PMUXEN_Pos      0            /**< \brief (PORT_PINCFG) Select Peripheral Multiplexer */
+#define PORT_PINCFG_PMUXEN          (_U_(0x1) << PORT_PINCFG_PMUXEN_Pos)
+#define PORT_PINCFG_INEN_Pos        1            /**< \brief (PORT_PINCFG) Input Enable */
+#define PORT_PINCFG_INEN            (_U_(0x1) << PORT_PINCFG_INEN_Pos)
+#define PORT_PINCFG_PULLEN_Pos      2            /**< \brief (PORT_PINCFG) Pull Enable */
+#define PORT_PINCFG_PULLEN          (_U_(0x1) << PORT_PINCFG_PULLEN_Pos)
+#define PORT_PINCFG_DRVSTR_Pos      6            /**< \brief (PORT_PINCFG) Output Driver Strength Selection */
+#define PORT_PINCFG_DRVSTR          (_U_(0x1) << PORT_PINCFG_DRVSTR_Pos)
+#define PORT_PINCFG_MASK            _U_(0x47)    /**< \brief (PORT_PINCFG) MASK Register */
+
+/** \brief PortGroup hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO PORT_DIR_Type             DIR;         /**< \brief Offset: 0x00 (R/W 32) Data Direction */
+  __IO PORT_DIRCLR_Type          DIRCLR;      /**< \brief Offset: 0x04 (R/W 32) Data Direction Clear */
+  __IO PORT_DIRSET_Type          DIRSET;      /**< \brief Offset: 0x08 (R/W 32) Data Direction Set */
+  __IO PORT_DIRTGL_Type          DIRTGL;      /**< \brief Offset: 0x0C (R/W 32) Data Direction Toggle */
+  __IO PORT_OUT_Type             OUT;         /**< \brief Offset: 0x10 (R/W 32) Data Output Value */
+  __IO PORT_OUTCLR_Type          OUTCLR;      /**< \brief Offset: 0x14 (R/W 32) Data Output Value Clear */
+  __IO PORT_OUTSET_Type          OUTSET;      /**< \brief Offset: 0x18 (R/W 32) Data Output Value Set */
+  __IO PORT_OUTTGL_Type          OUTTGL;      /**< \brief Offset: 0x1C (R/W 32) Data Output Value Toggle */
+  __I  PORT_IN_Type              IN;          /**< \brief Offset: 0x20 (R/  32) Data Input Value */
+  __IO PORT_CTRL_Type            CTRL;        /**< \brief Offset: 0x24 (R/W 32) Control */
+  __O  PORT_WRCONFIG_Type        WRCONFIG;    /**< \brief Offset: 0x28 ( /W 32) Write Configuration */
+  __IO PORT_EVCTRL_Type          EVCTRL;      /**< \brief Offset: 0x2C (R/W 32) Event Input Control */
+  __IO PORT_PMUX_Type            PMUX[16];    /**< \brief Offset: 0x30 (R/W  8) Peripheral Multiplexing n */
+  __IO PORT_PINCFG_Type          PINCFG[32];  /**< \brief Offset: 0x40 (R/W  8) Pin Configuration n */
+       RoReg8                    Reserved1[0x20];
+} PortGroup;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief PORT hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+       PortGroup                 Group[3];    /**< \brief Offset: 0x00 PortGroup groups [GROUPS] */
+} Port;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_PORT_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/rstc.h b/watch-library/hardware/include/component/rstc.h
new file mode 100644
index 00000000..c6e639f7
--- /dev/null
+++ b/watch-library/hardware/include/component/rstc.h
@@ -0,0 +1,112 @@
+/**
+ * \file
+ *
+ * \brief Component description for RSTC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_RSTC_COMPONENT_
+#define _SAML22_RSTC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR RSTC */
+/* ========================================================================== */
+/** \addtogroup SAML22_RSTC Reset Controller */
+/*@{*/
+
+#define RSTC_U2239
+#define REV_RSTC                    0x300
+
+/* -------- RSTC_RCAUSE : (RSTC Offset: 0x00) (R/   8) Reset Cause -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  POR:1;            /*!< bit:      0  Power On Reset                     */
+    uint8_t  BODCORE:1;        /*!< bit:      1  Brown Out CORE Detector Reset      */
+    uint8_t  BODVDD:1;         /*!< bit:      2  Brown Out VDD Detector Reset       */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  EXT:1;            /*!< bit:      4  External Reset                     */
+    uint8_t  WDT:1;            /*!< bit:      5  Watchdog Reset                     */
+    uint8_t  SYST:1;           /*!< bit:      6  System Reset Request               */
+    uint8_t  BACKUP:1;         /*!< bit:      7  Backup Reset                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} RSTC_RCAUSE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RSTC_RCAUSE_OFFSET          0x00         /**< \brief (RSTC_RCAUSE offset) Reset Cause */
+
+#define RSTC_RCAUSE_POR_Pos         0            /**< \brief (RSTC_RCAUSE) Power On Reset */
+#define RSTC_RCAUSE_POR             (_U_(0x1) << RSTC_RCAUSE_POR_Pos)
+#define RSTC_RCAUSE_BODCORE_Pos     1            /**< \brief (RSTC_RCAUSE) Brown Out CORE Detector Reset */
+#define RSTC_RCAUSE_BODCORE         (_U_(0x1) << RSTC_RCAUSE_BODCORE_Pos)
+#define RSTC_RCAUSE_BODVDD_Pos      2            /**< \brief (RSTC_RCAUSE) Brown Out VDD Detector Reset */
+#define RSTC_RCAUSE_BODVDD          (_U_(0x1) << RSTC_RCAUSE_BODVDD_Pos)
+#define RSTC_RCAUSE_EXT_Pos         4            /**< \brief (RSTC_RCAUSE) External Reset */
+#define RSTC_RCAUSE_EXT             (_U_(0x1) << RSTC_RCAUSE_EXT_Pos)
+#define RSTC_RCAUSE_WDT_Pos         5            /**< \brief (RSTC_RCAUSE) Watchdog Reset */
+#define RSTC_RCAUSE_WDT             (_U_(0x1) << RSTC_RCAUSE_WDT_Pos)
+#define RSTC_RCAUSE_SYST_Pos        6            /**< \brief (RSTC_RCAUSE) System Reset Request */
+#define RSTC_RCAUSE_SYST            (_U_(0x1) << RSTC_RCAUSE_SYST_Pos)
+#define RSTC_RCAUSE_BACKUP_Pos      7            /**< \brief (RSTC_RCAUSE) Backup Reset */
+#define RSTC_RCAUSE_BACKUP          (_U_(0x1) << RSTC_RCAUSE_BACKUP_Pos)
+#define RSTC_RCAUSE_MASK            _U_(0xF7)    /**< \brief (RSTC_RCAUSE) MASK Register */
+
+/* -------- RSTC_BKUPEXIT : (RSTC Offset: 0x02) (R/   8) Backup Exit Source -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  EXTWAKE:1;        /*!< bit:      0  External Wakeup                    */
+    uint8_t  RTC:1;            /*!< bit:      1  Real Timer Counter Interrupt       */
+    uint8_t  BBPS:1;           /*!< bit:      2  Battery Backup Power Switch        */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} RSTC_BKUPEXIT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RSTC_BKUPEXIT_OFFSET        0x02         /**< \brief (RSTC_BKUPEXIT offset) Backup Exit Source */
+#define RSTC_BKUPEXIT_RESETVALUE    _U_(0x00)    /**< \brief (RSTC_BKUPEXIT reset_value) Backup Exit Source */
+
+#define RSTC_BKUPEXIT_EXTWAKE_Pos   0            /**< \brief (RSTC_BKUPEXIT) External Wakeup */
+#define RSTC_BKUPEXIT_EXTWAKE       (_U_(0x1) << RSTC_BKUPEXIT_EXTWAKE_Pos)
+#define RSTC_BKUPEXIT_RTC_Pos       1            /**< \brief (RSTC_BKUPEXIT) Real Timer Counter Interrupt */
+#define RSTC_BKUPEXIT_RTC           (_U_(0x1) << RSTC_BKUPEXIT_RTC_Pos)
+#define RSTC_BKUPEXIT_BBPS_Pos      2            /**< \brief (RSTC_BKUPEXIT) Battery Backup Power Switch */
+#define RSTC_BKUPEXIT_BBPS          (_U_(0x1) << RSTC_BKUPEXIT_BBPS_Pos)
+#define RSTC_BKUPEXIT_MASK          _U_(0x07)    /**< \brief (RSTC_BKUPEXIT) MASK Register */
+
+/** \brief RSTC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __I  RSTC_RCAUSE_Type          RCAUSE;      /**< \brief Offset: 0x00 (R/   8) Reset Cause */
+       RoReg8                    Reserved1[0x1];
+  __I  RSTC_BKUPEXIT_Type        BKUPEXIT;    /**< \brief Offset: 0x02 (R/   8) Backup Exit Source */
+} Rstc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_RSTC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/rtc.h b/watch-library/hardware/include/component/rtc.h
new file mode 100644
index 00000000..cba38a78
--- /dev/null
+++ b/watch-library/hardware/include/component/rtc.h
@@ -0,0 +1,2008 @@
+/**
+ * \file
+ *
+ * \brief Component description for RTC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_RTC_COMPONENT_
+#define _SAML22_RTC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR RTC */
+/* ========================================================================== */
+/** \addtogroup SAML22_RTC Real-Time Counter */
+/*@{*/
+
+#define RTC_U2250
+#define REV_RTC                     0x201
+
+/* -------- RTC_MODE0_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE0 MODE0 Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint16_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint16_t MODE:2;           /*!< bit:  2.. 3  Operating Mode                     */
+    uint16_t :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint16_t MATCHCLR:1;       /*!< bit:      7  Clear on Match                     */
+    uint16_t PRESCALER:4;      /*!< bit:  8..11  Prescaler                          */
+    uint16_t :1;               /*!< bit:     12  Reserved                           */
+    uint16_t BKTRST:1;         /*!< bit:     13  BKUP Registers Reset On Tamper Enable */
+    uint16_t GPTRST:1;         /*!< bit:     14  GP Registers Reset On Tamper Enable */
+    uint16_t COUNTSYNC:1;      /*!< bit:     15  Count Read Synchronization Enable  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_CTRLA_OFFSET      0x00         /**< \brief (RTC_MODE0_CTRLA offset) MODE0 Control A */
+#define RTC_MODE0_CTRLA_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE0_CTRLA reset_value) MODE0 Control A */
+
+#define RTC_MODE0_CTRLA_SWRST_Pos   0            /**< \brief (RTC_MODE0_CTRLA) Software Reset */
+#define RTC_MODE0_CTRLA_SWRST       (_U_(0x1) << RTC_MODE0_CTRLA_SWRST_Pos)
+#define RTC_MODE0_CTRLA_ENABLE_Pos  1            /**< \brief (RTC_MODE0_CTRLA) Enable */
+#define RTC_MODE0_CTRLA_ENABLE      (_U_(0x1) << RTC_MODE0_CTRLA_ENABLE_Pos)
+#define RTC_MODE0_CTRLA_MODE_Pos    2            /**< \brief (RTC_MODE0_CTRLA) Operating Mode */
+#define RTC_MODE0_CTRLA_MODE_Msk    (_U_(0x3) << RTC_MODE0_CTRLA_MODE_Pos)
+#define RTC_MODE0_CTRLA_MODE(value) (RTC_MODE0_CTRLA_MODE_Msk & ((value) << RTC_MODE0_CTRLA_MODE_Pos))
+#define   RTC_MODE0_CTRLA_MODE_COUNT32_Val _U_(0x0)   /**< \brief (RTC_MODE0_CTRLA) Mode 0: 32-bit Counter */
+#define   RTC_MODE0_CTRLA_MODE_COUNT16_Val _U_(0x1)   /**< \brief (RTC_MODE0_CTRLA) Mode 1: 16-bit Counter */
+#define   RTC_MODE0_CTRLA_MODE_CLOCK_Val  _U_(0x2)   /**< \brief (RTC_MODE0_CTRLA) Mode 2: Clock/Calendar */
+#define RTC_MODE0_CTRLA_MODE_COUNT32 (RTC_MODE0_CTRLA_MODE_COUNT32_Val << RTC_MODE0_CTRLA_MODE_Pos)
+#define RTC_MODE0_CTRLA_MODE_COUNT16 (RTC_MODE0_CTRLA_MODE_COUNT16_Val << RTC_MODE0_CTRLA_MODE_Pos)
+#define RTC_MODE0_CTRLA_MODE_CLOCK  (RTC_MODE0_CTRLA_MODE_CLOCK_Val << RTC_MODE0_CTRLA_MODE_Pos)
+#define RTC_MODE0_CTRLA_MATCHCLR_Pos 7            /**< \brief (RTC_MODE0_CTRLA) Clear on Match */
+#define RTC_MODE0_CTRLA_MATCHCLR    (_U_(0x1) << RTC_MODE0_CTRLA_MATCHCLR_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_Pos 8            /**< \brief (RTC_MODE0_CTRLA) Prescaler */
+#define RTC_MODE0_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER(value) (RTC_MODE0_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE0_CTRLA_PRESCALER_Pos))
+#define   RTC_MODE0_CTRLA_PRESCALER_OFF_Val _U_(0x0)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV1_Val _U_(0x1)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV2_Val _U_(0x2)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV4_Val _U_(0x3)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV8_Val _U_(0x4)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV16_Val _U_(0x5)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV32_Val _U_(0x6)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV64_Val _U_(0x7)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV128_Val _U_(0x8)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV256_Val _U_(0x9)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV512_Val _U_(0xA)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
+#define   RTC_MODE0_CTRLA_PRESCALER_DIV1024_Val _U_(0xB)   /**< \brief (RTC_MODE0_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
+#define RTC_MODE0_CTRLA_PRESCALER_OFF (RTC_MODE0_CTRLA_PRESCALER_OFF_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV1 (RTC_MODE0_CTRLA_PRESCALER_DIV1_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV2 (RTC_MODE0_CTRLA_PRESCALER_DIV2_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV4 (RTC_MODE0_CTRLA_PRESCALER_DIV4_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV8 (RTC_MODE0_CTRLA_PRESCALER_DIV8_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV16 (RTC_MODE0_CTRLA_PRESCALER_DIV16_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV32 (RTC_MODE0_CTRLA_PRESCALER_DIV32_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV64 (RTC_MODE0_CTRLA_PRESCALER_DIV64_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV128 (RTC_MODE0_CTRLA_PRESCALER_DIV128_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV256 (RTC_MODE0_CTRLA_PRESCALER_DIV256_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV512 (RTC_MODE0_CTRLA_PRESCALER_DIV512_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_PRESCALER_DIV1024 (RTC_MODE0_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE0_CTRLA_PRESCALER_Pos)
+#define RTC_MODE0_CTRLA_BKTRST_Pos  13           /**< \brief (RTC_MODE0_CTRLA) BKUP Registers Reset On Tamper Enable */
+#define RTC_MODE0_CTRLA_BKTRST      (_U_(0x1) << RTC_MODE0_CTRLA_BKTRST_Pos)
+#define RTC_MODE0_CTRLA_GPTRST_Pos  14           /**< \brief (RTC_MODE0_CTRLA) GP Registers Reset On Tamper Enable */
+#define RTC_MODE0_CTRLA_GPTRST      (_U_(0x1) << RTC_MODE0_CTRLA_GPTRST_Pos)
+#define RTC_MODE0_CTRLA_COUNTSYNC_Pos 15           /**< \brief (RTC_MODE0_CTRLA) Count Read Synchronization Enable */
+#define RTC_MODE0_CTRLA_COUNTSYNC   (_U_(0x1) << RTC_MODE0_CTRLA_COUNTSYNC_Pos)
+#define RTC_MODE0_CTRLA_MASK        _U_(0xEF8F)  /**< \brief (RTC_MODE0_CTRLA) MASK Register */
+
+/* -------- RTC_MODE1_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE1 MODE1 Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint16_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint16_t MODE:2;           /*!< bit:  2.. 3  Operating Mode                     */
+    uint16_t :4;               /*!< bit:  4.. 7  Reserved                           */
+    uint16_t PRESCALER:4;      /*!< bit:  8..11  Prescaler                          */
+    uint16_t :1;               /*!< bit:     12  Reserved                           */
+    uint16_t BKTRST:1;         /*!< bit:     13  BKUP Registers Reset On Tamper Enable */
+    uint16_t GPTRST:1;         /*!< bit:     14  GP Registers Reset On Tamper Enable */
+    uint16_t COUNTSYNC:1;      /*!< bit:     15  Count Read Synchronization Enable  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_CTRLA_OFFSET      0x00         /**< \brief (RTC_MODE1_CTRLA offset) MODE1 Control A */
+#define RTC_MODE1_CTRLA_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE1_CTRLA reset_value) MODE1 Control A */
+
+#define RTC_MODE1_CTRLA_SWRST_Pos   0            /**< \brief (RTC_MODE1_CTRLA) Software Reset */
+#define RTC_MODE1_CTRLA_SWRST       (_U_(0x1) << RTC_MODE1_CTRLA_SWRST_Pos)
+#define RTC_MODE1_CTRLA_ENABLE_Pos  1            /**< \brief (RTC_MODE1_CTRLA) Enable */
+#define RTC_MODE1_CTRLA_ENABLE      (_U_(0x1) << RTC_MODE1_CTRLA_ENABLE_Pos)
+#define RTC_MODE1_CTRLA_MODE_Pos    2            /**< \brief (RTC_MODE1_CTRLA) Operating Mode */
+#define RTC_MODE1_CTRLA_MODE_Msk    (_U_(0x3) << RTC_MODE1_CTRLA_MODE_Pos)
+#define RTC_MODE1_CTRLA_MODE(value) (RTC_MODE1_CTRLA_MODE_Msk & ((value) << RTC_MODE1_CTRLA_MODE_Pos))
+#define   RTC_MODE1_CTRLA_MODE_COUNT32_Val _U_(0x0)   /**< \brief (RTC_MODE1_CTRLA) Mode 0: 32-bit Counter */
+#define   RTC_MODE1_CTRLA_MODE_COUNT16_Val _U_(0x1)   /**< \brief (RTC_MODE1_CTRLA) Mode 1: 16-bit Counter */
+#define   RTC_MODE1_CTRLA_MODE_CLOCK_Val  _U_(0x2)   /**< \brief (RTC_MODE1_CTRLA) Mode 2: Clock/Calendar */
+#define RTC_MODE1_CTRLA_MODE_COUNT32 (RTC_MODE1_CTRLA_MODE_COUNT32_Val << RTC_MODE1_CTRLA_MODE_Pos)
+#define RTC_MODE1_CTRLA_MODE_COUNT16 (RTC_MODE1_CTRLA_MODE_COUNT16_Val << RTC_MODE1_CTRLA_MODE_Pos)
+#define RTC_MODE1_CTRLA_MODE_CLOCK  (RTC_MODE1_CTRLA_MODE_CLOCK_Val << RTC_MODE1_CTRLA_MODE_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_Pos 8            /**< \brief (RTC_MODE1_CTRLA) Prescaler */
+#define RTC_MODE1_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER(value) (RTC_MODE1_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE1_CTRLA_PRESCALER_Pos))
+#define   RTC_MODE1_CTRLA_PRESCALER_OFF_Val _U_(0x0)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV1_Val _U_(0x1)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV2_Val _U_(0x2)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV4_Val _U_(0x3)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV8_Val _U_(0x4)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV16_Val _U_(0x5)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV32_Val _U_(0x6)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV64_Val _U_(0x7)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV128_Val _U_(0x8)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV256_Val _U_(0x9)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV512_Val _U_(0xA)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
+#define   RTC_MODE1_CTRLA_PRESCALER_DIV1024_Val _U_(0xB)   /**< \brief (RTC_MODE1_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
+#define RTC_MODE1_CTRLA_PRESCALER_OFF (RTC_MODE1_CTRLA_PRESCALER_OFF_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV1 (RTC_MODE1_CTRLA_PRESCALER_DIV1_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV2 (RTC_MODE1_CTRLA_PRESCALER_DIV2_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV4 (RTC_MODE1_CTRLA_PRESCALER_DIV4_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV8 (RTC_MODE1_CTRLA_PRESCALER_DIV8_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV16 (RTC_MODE1_CTRLA_PRESCALER_DIV16_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV32 (RTC_MODE1_CTRLA_PRESCALER_DIV32_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV64 (RTC_MODE1_CTRLA_PRESCALER_DIV64_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV128 (RTC_MODE1_CTRLA_PRESCALER_DIV128_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV256 (RTC_MODE1_CTRLA_PRESCALER_DIV256_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV512 (RTC_MODE1_CTRLA_PRESCALER_DIV512_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_PRESCALER_DIV1024 (RTC_MODE1_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE1_CTRLA_PRESCALER_Pos)
+#define RTC_MODE1_CTRLA_BKTRST_Pos  13           /**< \brief (RTC_MODE1_CTRLA) BKUP Registers Reset On Tamper Enable */
+#define RTC_MODE1_CTRLA_BKTRST      (_U_(0x1) << RTC_MODE1_CTRLA_BKTRST_Pos)
+#define RTC_MODE1_CTRLA_GPTRST_Pos  14           /**< \brief (RTC_MODE1_CTRLA) GP Registers Reset On Tamper Enable */
+#define RTC_MODE1_CTRLA_GPTRST      (_U_(0x1) << RTC_MODE1_CTRLA_GPTRST_Pos)
+#define RTC_MODE1_CTRLA_COUNTSYNC_Pos 15           /**< \brief (RTC_MODE1_CTRLA) Count Read Synchronization Enable */
+#define RTC_MODE1_CTRLA_COUNTSYNC   (_U_(0x1) << RTC_MODE1_CTRLA_COUNTSYNC_Pos)
+#define RTC_MODE1_CTRLA_MASK        _U_(0xEF0F)  /**< \brief (RTC_MODE1_CTRLA) MASK Register */
+
+/* -------- RTC_MODE2_CTRLA : (RTC Offset: 0x00) (R/W 16) MODE2 MODE2 Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint16_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint16_t MODE:2;           /*!< bit:  2.. 3  Operating Mode                     */
+    uint16_t :2;               /*!< bit:  4.. 5  Reserved                           */
+    uint16_t CLKREP:1;         /*!< bit:      6  Clock Representation               */
+    uint16_t MATCHCLR:1;       /*!< bit:      7  Clear on Match                     */
+    uint16_t PRESCALER:4;      /*!< bit:  8..11  Prescaler                          */
+    uint16_t :1;               /*!< bit:     12  Reserved                           */
+    uint16_t BKTRST:1;         /*!< bit:     13  BKUP Registers Reset On Tamper Enable */
+    uint16_t GPTRST:1;         /*!< bit:     14  GP Registers Reset On Tamper Enable */
+    uint16_t CLOCKSYNC:1;      /*!< bit:     15  Clock Read Synchronization Enable  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_CTRLA_OFFSET      0x00         /**< \brief (RTC_MODE2_CTRLA offset) MODE2 Control A */
+#define RTC_MODE2_CTRLA_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE2_CTRLA reset_value) MODE2 Control A */
+
+#define RTC_MODE2_CTRLA_SWRST_Pos   0            /**< \brief (RTC_MODE2_CTRLA) Software Reset */
+#define RTC_MODE2_CTRLA_SWRST       (_U_(0x1) << RTC_MODE2_CTRLA_SWRST_Pos)
+#define RTC_MODE2_CTRLA_ENABLE_Pos  1            /**< \brief (RTC_MODE2_CTRLA) Enable */
+#define RTC_MODE2_CTRLA_ENABLE      (_U_(0x1) << RTC_MODE2_CTRLA_ENABLE_Pos)
+#define RTC_MODE2_CTRLA_MODE_Pos    2            /**< \brief (RTC_MODE2_CTRLA) Operating Mode */
+#define RTC_MODE2_CTRLA_MODE_Msk    (_U_(0x3) << RTC_MODE2_CTRLA_MODE_Pos)
+#define RTC_MODE2_CTRLA_MODE(value) (RTC_MODE2_CTRLA_MODE_Msk & ((value) << RTC_MODE2_CTRLA_MODE_Pos))
+#define   RTC_MODE2_CTRLA_MODE_COUNT32_Val _U_(0x0)   /**< \brief (RTC_MODE2_CTRLA) Mode 0: 32-bit Counter */
+#define   RTC_MODE2_CTRLA_MODE_COUNT16_Val _U_(0x1)   /**< \brief (RTC_MODE2_CTRLA) Mode 1: 16-bit Counter */
+#define   RTC_MODE2_CTRLA_MODE_CLOCK_Val  _U_(0x2)   /**< \brief (RTC_MODE2_CTRLA) Mode 2: Clock/Calendar */
+#define RTC_MODE2_CTRLA_MODE_COUNT32 (RTC_MODE2_CTRLA_MODE_COUNT32_Val << RTC_MODE2_CTRLA_MODE_Pos)
+#define RTC_MODE2_CTRLA_MODE_COUNT16 (RTC_MODE2_CTRLA_MODE_COUNT16_Val << RTC_MODE2_CTRLA_MODE_Pos)
+#define RTC_MODE2_CTRLA_MODE_CLOCK  (RTC_MODE2_CTRLA_MODE_CLOCK_Val << RTC_MODE2_CTRLA_MODE_Pos)
+#define RTC_MODE2_CTRLA_CLKREP_Pos  6            /**< \brief (RTC_MODE2_CTRLA) Clock Representation */
+#define RTC_MODE2_CTRLA_CLKREP      (_U_(0x1) << RTC_MODE2_CTRLA_CLKREP_Pos)
+#define RTC_MODE2_CTRLA_MATCHCLR_Pos 7            /**< \brief (RTC_MODE2_CTRLA) Clear on Match */
+#define RTC_MODE2_CTRLA_MATCHCLR    (_U_(0x1) << RTC_MODE2_CTRLA_MATCHCLR_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_Pos 8            /**< \brief (RTC_MODE2_CTRLA) Prescaler */
+#define RTC_MODE2_CTRLA_PRESCALER_Msk (_U_(0xF) << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER(value) (RTC_MODE2_CTRLA_PRESCALER_Msk & ((value) << RTC_MODE2_CTRLA_PRESCALER_Pos))
+#define   RTC_MODE2_CTRLA_PRESCALER_OFF_Val _U_(0x0)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV1_Val _U_(0x1)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV2_Val _U_(0x2)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/2 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV4_Val _U_(0x3)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/4 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV8_Val _U_(0x4)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/8 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV16_Val _U_(0x5)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/16 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV32_Val _U_(0x6)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/32 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV64_Val _U_(0x7)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/64 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV128_Val _U_(0x8)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/128 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV256_Val _U_(0x9)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/256 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV512_Val _U_(0xA)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/512 */
+#define   RTC_MODE2_CTRLA_PRESCALER_DIV1024_Val _U_(0xB)   /**< \brief (RTC_MODE2_CTRLA) CLK_RTC_CNT = GCLK_RTC/1024 */
+#define RTC_MODE2_CTRLA_PRESCALER_OFF (RTC_MODE2_CTRLA_PRESCALER_OFF_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV1 (RTC_MODE2_CTRLA_PRESCALER_DIV1_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV2 (RTC_MODE2_CTRLA_PRESCALER_DIV2_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV4 (RTC_MODE2_CTRLA_PRESCALER_DIV4_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV8 (RTC_MODE2_CTRLA_PRESCALER_DIV8_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV16 (RTC_MODE2_CTRLA_PRESCALER_DIV16_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV32 (RTC_MODE2_CTRLA_PRESCALER_DIV32_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV64 (RTC_MODE2_CTRLA_PRESCALER_DIV64_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV128 (RTC_MODE2_CTRLA_PRESCALER_DIV128_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV256 (RTC_MODE2_CTRLA_PRESCALER_DIV256_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV512 (RTC_MODE2_CTRLA_PRESCALER_DIV512_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_PRESCALER_DIV1024 (RTC_MODE2_CTRLA_PRESCALER_DIV1024_Val << RTC_MODE2_CTRLA_PRESCALER_Pos)
+#define RTC_MODE2_CTRLA_BKTRST_Pos  13           /**< \brief (RTC_MODE2_CTRLA) BKUP Registers Reset On Tamper Enable */
+#define RTC_MODE2_CTRLA_BKTRST      (_U_(0x1) << RTC_MODE2_CTRLA_BKTRST_Pos)
+#define RTC_MODE2_CTRLA_GPTRST_Pos  14           /**< \brief (RTC_MODE2_CTRLA) GP Registers Reset On Tamper Enable */
+#define RTC_MODE2_CTRLA_GPTRST      (_U_(0x1) << RTC_MODE2_CTRLA_GPTRST_Pos)
+#define RTC_MODE2_CTRLA_CLOCKSYNC_Pos 15           /**< \brief (RTC_MODE2_CTRLA) Clock Read Synchronization Enable */
+#define RTC_MODE2_CTRLA_CLOCKSYNC   (_U_(0x1) << RTC_MODE2_CTRLA_CLOCKSYNC_Pos)
+#define RTC_MODE2_CTRLA_MASK        _U_(0xEFCF)  /**< \brief (RTC_MODE2_CTRLA) MASK Register */
+
+/* -------- RTC_MODE0_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE0 MODE0 Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t GP0EN:1;          /*!< bit:      0  General Purpose 0 Enable           */
+    uint16_t :3;               /*!< bit:  1.. 3  Reserved                           */
+    uint16_t DEBMAJ:1;         /*!< bit:      4  Debouncer Majority Enable          */
+    uint16_t DEBASYNC:1;       /*!< bit:      5  Debouncer Asynchronous Enable      */
+    uint16_t RTCOUT:1;         /*!< bit:      6  RTC Output Enable                  */
+    uint16_t DMAEN:1;          /*!< bit:      7  DMA Enable                         */
+    uint16_t DEBF:3;           /*!< bit:  8..10  Debounce Freqnuency                */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t ACTF:3;           /*!< bit: 12..14  Active Layer Freqnuency            */
+    uint16_t :1;               /*!< bit:     15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_CTRLB_OFFSET      0x02         /**< \brief (RTC_MODE0_CTRLB offset) MODE0 Control B */
+#define RTC_MODE0_CTRLB_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE0_CTRLB reset_value) MODE0 Control B */
+
+#define RTC_MODE0_CTRLB_GP0EN_Pos   0            /**< \brief (RTC_MODE0_CTRLB) General Purpose 0 Enable */
+#define RTC_MODE0_CTRLB_GP0EN       (_U_(0x1) << RTC_MODE0_CTRLB_GP0EN_Pos)
+#define RTC_MODE0_CTRLB_DEBMAJ_Pos  4            /**< \brief (RTC_MODE0_CTRLB) Debouncer Majority Enable */
+#define RTC_MODE0_CTRLB_DEBMAJ      (_U_(0x1) << RTC_MODE0_CTRLB_DEBMAJ_Pos)
+#define RTC_MODE0_CTRLB_DEBASYNC_Pos 5            /**< \brief (RTC_MODE0_CTRLB) Debouncer Asynchronous Enable */
+#define RTC_MODE0_CTRLB_DEBASYNC    (_U_(0x1) << RTC_MODE0_CTRLB_DEBASYNC_Pos)
+#define RTC_MODE0_CTRLB_RTCOUT_Pos  6            /**< \brief (RTC_MODE0_CTRLB) RTC Output Enable */
+#define RTC_MODE0_CTRLB_RTCOUT      (_U_(0x1) << RTC_MODE0_CTRLB_RTCOUT_Pos)
+#define RTC_MODE0_CTRLB_DMAEN_Pos   7            /**< \brief (RTC_MODE0_CTRLB) DMA Enable */
+#define RTC_MODE0_CTRLB_DMAEN       (_U_(0x1) << RTC_MODE0_CTRLB_DMAEN_Pos)
+#define RTC_MODE0_CTRLB_DEBF_Pos    8            /**< \brief (RTC_MODE0_CTRLB) Debounce Freqnuency */
+#define RTC_MODE0_CTRLB_DEBF_Msk    (_U_(0x7) << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF(value) (RTC_MODE0_CTRLB_DEBF_Msk & ((value) << RTC_MODE0_CTRLB_DEBF_Pos))
+#define   RTC_MODE0_CTRLB_DEBF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
+#define   RTC_MODE0_CTRLB_DEBF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
+#define RTC_MODE0_CTRLB_DEBF_DIV2   (RTC_MODE0_CTRLB_DEBF_DIV2_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV4   (RTC_MODE0_CTRLB_DEBF_DIV4_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV8   (RTC_MODE0_CTRLB_DEBF_DIV8_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV16  (RTC_MODE0_CTRLB_DEBF_DIV16_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV32  (RTC_MODE0_CTRLB_DEBF_DIV32_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV64  (RTC_MODE0_CTRLB_DEBF_DIV64_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV128 (RTC_MODE0_CTRLB_DEBF_DIV128_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_DEBF_DIV256 (RTC_MODE0_CTRLB_DEBF_DIV256_Val << RTC_MODE0_CTRLB_DEBF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_Pos    12           /**< \brief (RTC_MODE0_CTRLB) Active Layer Freqnuency */
+#define RTC_MODE0_CTRLB_ACTF_Msk    (_U_(0x7) << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF(value) (RTC_MODE0_CTRLB_ACTF_Msk & ((value) << RTC_MODE0_CTRLB_ACTF_Pos))
+#define   RTC_MODE0_CTRLB_ACTF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
+#define   RTC_MODE0_CTRLB_ACTF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE0_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
+#define RTC_MODE0_CTRLB_ACTF_DIV2   (RTC_MODE0_CTRLB_ACTF_DIV2_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV4   (RTC_MODE0_CTRLB_ACTF_DIV4_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV8   (RTC_MODE0_CTRLB_ACTF_DIV8_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV16  (RTC_MODE0_CTRLB_ACTF_DIV16_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV32  (RTC_MODE0_CTRLB_ACTF_DIV32_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV64  (RTC_MODE0_CTRLB_ACTF_DIV64_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV128 (RTC_MODE0_CTRLB_ACTF_DIV128_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_ACTF_DIV256 (RTC_MODE0_CTRLB_ACTF_DIV256_Val << RTC_MODE0_CTRLB_ACTF_Pos)
+#define RTC_MODE0_CTRLB_MASK        _U_(0x77F1)  /**< \brief (RTC_MODE0_CTRLB) MASK Register */
+
+/* -------- RTC_MODE1_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE1 MODE1 Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t GP0EN:1;          /*!< bit:      0  General Purpose 0 Enable           */
+    uint16_t :3;               /*!< bit:  1.. 3  Reserved                           */
+    uint16_t DEBMAJ:1;         /*!< bit:      4  Debouncer Majority Enable          */
+    uint16_t DEBASYNC:1;       /*!< bit:      5  Debouncer Asynchronous Enable      */
+    uint16_t RTCOUT:1;         /*!< bit:      6  RTC Output Enable                  */
+    uint16_t DMAEN:1;          /*!< bit:      7  DMA Enable                         */
+    uint16_t DEBF:3;           /*!< bit:  8..10  Debounce Freqnuency                */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t ACTF:3;           /*!< bit: 12..14  Active Layer Freqnuency            */
+    uint16_t :1;               /*!< bit:     15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_CTRLB_OFFSET      0x02         /**< \brief (RTC_MODE1_CTRLB offset) MODE1 Control B */
+#define RTC_MODE1_CTRLB_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE1_CTRLB reset_value) MODE1 Control B */
+
+#define RTC_MODE1_CTRLB_GP0EN_Pos   0            /**< \brief (RTC_MODE1_CTRLB) General Purpose 0 Enable */
+#define RTC_MODE1_CTRLB_GP0EN       (_U_(0x1) << RTC_MODE1_CTRLB_GP0EN_Pos)
+#define RTC_MODE1_CTRLB_DEBMAJ_Pos  4            /**< \brief (RTC_MODE1_CTRLB) Debouncer Majority Enable */
+#define RTC_MODE1_CTRLB_DEBMAJ      (_U_(0x1) << RTC_MODE1_CTRLB_DEBMAJ_Pos)
+#define RTC_MODE1_CTRLB_DEBASYNC_Pos 5            /**< \brief (RTC_MODE1_CTRLB) Debouncer Asynchronous Enable */
+#define RTC_MODE1_CTRLB_DEBASYNC    (_U_(0x1) << RTC_MODE1_CTRLB_DEBASYNC_Pos)
+#define RTC_MODE1_CTRLB_RTCOUT_Pos  6            /**< \brief (RTC_MODE1_CTRLB) RTC Output Enable */
+#define RTC_MODE1_CTRLB_RTCOUT      (_U_(0x1) << RTC_MODE1_CTRLB_RTCOUT_Pos)
+#define RTC_MODE1_CTRLB_DMAEN_Pos   7            /**< \brief (RTC_MODE1_CTRLB) DMA Enable */
+#define RTC_MODE1_CTRLB_DMAEN       (_U_(0x1) << RTC_MODE1_CTRLB_DMAEN_Pos)
+#define RTC_MODE1_CTRLB_DEBF_Pos    8            /**< \brief (RTC_MODE1_CTRLB) Debounce Freqnuency */
+#define RTC_MODE1_CTRLB_DEBF_Msk    (_U_(0x7) << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF(value) (RTC_MODE1_CTRLB_DEBF_Msk & ((value) << RTC_MODE1_CTRLB_DEBF_Pos))
+#define   RTC_MODE1_CTRLB_DEBF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
+#define   RTC_MODE1_CTRLB_DEBF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
+#define RTC_MODE1_CTRLB_DEBF_DIV2   (RTC_MODE1_CTRLB_DEBF_DIV2_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV4   (RTC_MODE1_CTRLB_DEBF_DIV4_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV8   (RTC_MODE1_CTRLB_DEBF_DIV8_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV16  (RTC_MODE1_CTRLB_DEBF_DIV16_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV32  (RTC_MODE1_CTRLB_DEBF_DIV32_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV64  (RTC_MODE1_CTRLB_DEBF_DIV64_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV128 (RTC_MODE1_CTRLB_DEBF_DIV128_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_DEBF_DIV256 (RTC_MODE1_CTRLB_DEBF_DIV256_Val << RTC_MODE1_CTRLB_DEBF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_Pos    12           /**< \brief (RTC_MODE1_CTRLB) Active Layer Freqnuency */
+#define RTC_MODE1_CTRLB_ACTF_Msk    (_U_(0x7) << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF(value) (RTC_MODE1_CTRLB_ACTF_Msk & ((value) << RTC_MODE1_CTRLB_ACTF_Pos))
+#define   RTC_MODE1_CTRLB_ACTF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
+#define   RTC_MODE1_CTRLB_ACTF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE1_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
+#define RTC_MODE1_CTRLB_ACTF_DIV2   (RTC_MODE1_CTRLB_ACTF_DIV2_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV4   (RTC_MODE1_CTRLB_ACTF_DIV4_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV8   (RTC_MODE1_CTRLB_ACTF_DIV8_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV16  (RTC_MODE1_CTRLB_ACTF_DIV16_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV32  (RTC_MODE1_CTRLB_ACTF_DIV32_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV64  (RTC_MODE1_CTRLB_ACTF_DIV64_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV128 (RTC_MODE1_CTRLB_ACTF_DIV128_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_ACTF_DIV256 (RTC_MODE1_CTRLB_ACTF_DIV256_Val << RTC_MODE1_CTRLB_ACTF_Pos)
+#define RTC_MODE1_CTRLB_MASK        _U_(0x77F1)  /**< \brief (RTC_MODE1_CTRLB) MASK Register */
+
+/* -------- RTC_MODE2_CTRLB : (RTC Offset: 0x02) (R/W 16) MODE2 MODE2 Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t GP0EN:1;          /*!< bit:      0  General Purpose 0 Enable           */
+    uint16_t :3;               /*!< bit:  1.. 3  Reserved                           */
+    uint16_t DEBMAJ:1;         /*!< bit:      4  Debouncer Majority Enable          */
+    uint16_t DEBASYNC:1;       /*!< bit:      5  Debouncer Asynchronous Enable      */
+    uint16_t RTCOUT:1;         /*!< bit:      6  RTC Output Enable                  */
+    uint16_t DMAEN:1;          /*!< bit:      7  DMA Enable                         */
+    uint16_t DEBF:3;           /*!< bit:  8..10  Debounce Freqnuency                */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t ACTF:3;           /*!< bit: 12..14  Active Layer Freqnuency            */
+    uint16_t :1;               /*!< bit:     15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_CTRLB_OFFSET      0x02         /**< \brief (RTC_MODE2_CTRLB offset) MODE2 Control B */
+#define RTC_MODE2_CTRLB_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE2_CTRLB reset_value) MODE2 Control B */
+
+#define RTC_MODE2_CTRLB_GP0EN_Pos   0            /**< \brief (RTC_MODE2_CTRLB) General Purpose 0 Enable */
+#define RTC_MODE2_CTRLB_GP0EN       (_U_(0x1) << RTC_MODE2_CTRLB_GP0EN_Pos)
+#define RTC_MODE2_CTRLB_DEBMAJ_Pos  4            /**< \brief (RTC_MODE2_CTRLB) Debouncer Majority Enable */
+#define RTC_MODE2_CTRLB_DEBMAJ      (_U_(0x1) << RTC_MODE2_CTRLB_DEBMAJ_Pos)
+#define RTC_MODE2_CTRLB_DEBASYNC_Pos 5            /**< \brief (RTC_MODE2_CTRLB) Debouncer Asynchronous Enable */
+#define RTC_MODE2_CTRLB_DEBASYNC    (_U_(0x1) << RTC_MODE2_CTRLB_DEBASYNC_Pos)
+#define RTC_MODE2_CTRLB_RTCOUT_Pos  6            /**< \brief (RTC_MODE2_CTRLB) RTC Output Enable */
+#define RTC_MODE2_CTRLB_RTCOUT      (_U_(0x1) << RTC_MODE2_CTRLB_RTCOUT_Pos)
+#define RTC_MODE2_CTRLB_DMAEN_Pos   7            /**< \brief (RTC_MODE2_CTRLB) DMA Enable */
+#define RTC_MODE2_CTRLB_DMAEN       (_U_(0x1) << RTC_MODE2_CTRLB_DMAEN_Pos)
+#define RTC_MODE2_CTRLB_DEBF_Pos    8            /**< \brief (RTC_MODE2_CTRLB) Debounce Freqnuency */
+#define RTC_MODE2_CTRLB_DEBF_Msk    (_U_(0x7) << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF(value) (RTC_MODE2_CTRLB_DEBF_Msk & ((value) << RTC_MODE2_CTRLB_DEBF_Pos))
+#define   RTC_MODE2_CTRLB_DEBF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/2 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/4 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/8 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/16 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/32 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/64 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/128 */
+#define   RTC_MODE2_CTRLB_DEBF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_DEB = CLK_RTC/256 */
+#define RTC_MODE2_CTRLB_DEBF_DIV2   (RTC_MODE2_CTRLB_DEBF_DIV2_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV4   (RTC_MODE2_CTRLB_DEBF_DIV4_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV8   (RTC_MODE2_CTRLB_DEBF_DIV8_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV16  (RTC_MODE2_CTRLB_DEBF_DIV16_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV32  (RTC_MODE2_CTRLB_DEBF_DIV32_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV64  (RTC_MODE2_CTRLB_DEBF_DIV64_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV128 (RTC_MODE2_CTRLB_DEBF_DIV128_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_DEBF_DIV256 (RTC_MODE2_CTRLB_DEBF_DIV256_Val << RTC_MODE2_CTRLB_DEBF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_Pos    12           /**< \brief (RTC_MODE2_CTRLB) Active Layer Freqnuency */
+#define RTC_MODE2_CTRLB_ACTF_Msk    (_U_(0x7) << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF(value) (RTC_MODE2_CTRLB_ACTF_Msk & ((value) << RTC_MODE2_CTRLB_ACTF_Pos))
+#define   RTC_MODE2_CTRLB_ACTF_DIV2_Val   _U_(0x0)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/2 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV4_Val   _U_(0x1)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/4 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV8_Val   _U_(0x2)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/8 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV16_Val  _U_(0x3)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/16 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV32_Val  _U_(0x4)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/32 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV64_Val  _U_(0x5)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/64 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV128_Val _U_(0x6)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/128 */
+#define   RTC_MODE2_CTRLB_ACTF_DIV256_Val _U_(0x7)   /**< \brief (RTC_MODE2_CTRLB) CLK_RTC_OUT = CLK_RTC/256 */
+#define RTC_MODE2_CTRLB_ACTF_DIV2   (RTC_MODE2_CTRLB_ACTF_DIV2_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV4   (RTC_MODE2_CTRLB_ACTF_DIV4_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV8   (RTC_MODE2_CTRLB_ACTF_DIV8_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV16  (RTC_MODE2_CTRLB_ACTF_DIV16_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV32  (RTC_MODE2_CTRLB_ACTF_DIV32_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV64  (RTC_MODE2_CTRLB_ACTF_DIV64_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV128 (RTC_MODE2_CTRLB_ACTF_DIV128_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_ACTF_DIV256 (RTC_MODE2_CTRLB_ACTF_DIV256_Val << RTC_MODE2_CTRLB_ACTF_Pos)
+#define RTC_MODE2_CTRLB_MASK        _U_(0x77F1)  /**< \brief (RTC_MODE2_CTRLB) MASK Register */
+
+/* -------- RTC_MODE0_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE0 MODE0 Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PEREO0:1;         /*!< bit:      0  Periodic Interval 0 Event Output Enable */
+    uint32_t PEREO1:1;         /*!< bit:      1  Periodic Interval 1 Event Output Enable */
+    uint32_t PEREO2:1;         /*!< bit:      2  Periodic Interval 2 Event Output Enable */
+    uint32_t PEREO3:1;         /*!< bit:      3  Periodic Interval 3 Event Output Enable */
+    uint32_t PEREO4:1;         /*!< bit:      4  Periodic Interval 4 Event Output Enable */
+    uint32_t PEREO5:1;         /*!< bit:      5  Periodic Interval 5 Event Output Enable */
+    uint32_t PEREO6:1;         /*!< bit:      6  Periodic Interval 6 Event Output Enable */
+    uint32_t PEREO7:1;         /*!< bit:      7  Periodic Interval 7 Event Output Enable */
+    uint32_t CMPEO0:1;         /*!< bit:      8  Compare 0 Event Output Enable      */
+    uint32_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint32_t TAMPEREO:1;       /*!< bit:     14  Tamper Event Output Enable         */
+    uint32_t OVFEO:1;          /*!< bit:     15  Overflow Event Output Enable       */
+    uint32_t TAMPEVEI:1;       /*!< bit:     16  Tamper Event Input Enable          */
+    uint32_t :15;              /*!< bit: 17..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t PEREO:8;          /*!< bit:  0.. 7  Periodic Interval x Event Output Enable */
+    uint32_t CMPEO:1;          /*!< bit:      8  Compare x Event Output Enable      */
+    uint32_t :23;              /*!< bit:  9..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_EVCTRL_OFFSET     0x04         /**< \brief (RTC_MODE0_EVCTRL offset) MODE0 Event Control */
+#define RTC_MODE0_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_EVCTRL reset_value) MODE0 Event Control */
+
+#define RTC_MODE0_EVCTRL_PEREO0_Pos 0            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 0 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO0     (_U_(1) << RTC_MODE0_EVCTRL_PEREO0_Pos)
+#define RTC_MODE0_EVCTRL_PEREO1_Pos 1            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 1 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO1     (_U_(1) << RTC_MODE0_EVCTRL_PEREO1_Pos)
+#define RTC_MODE0_EVCTRL_PEREO2_Pos 2            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 2 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO2     (_U_(1) << RTC_MODE0_EVCTRL_PEREO2_Pos)
+#define RTC_MODE0_EVCTRL_PEREO3_Pos 3            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 3 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO3     (_U_(1) << RTC_MODE0_EVCTRL_PEREO3_Pos)
+#define RTC_MODE0_EVCTRL_PEREO4_Pos 4            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 4 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO4     (_U_(1) << RTC_MODE0_EVCTRL_PEREO4_Pos)
+#define RTC_MODE0_EVCTRL_PEREO5_Pos 5            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 5 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO5     (_U_(1) << RTC_MODE0_EVCTRL_PEREO5_Pos)
+#define RTC_MODE0_EVCTRL_PEREO6_Pos 6            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 6 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO6     (_U_(1) << RTC_MODE0_EVCTRL_PEREO6_Pos)
+#define RTC_MODE0_EVCTRL_PEREO7_Pos 7            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval 7 Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO7     (_U_(1) << RTC_MODE0_EVCTRL_PEREO7_Pos)
+#define RTC_MODE0_EVCTRL_PEREO_Pos  0            /**< \brief (RTC_MODE0_EVCTRL) Periodic Interval x Event Output Enable */
+#define RTC_MODE0_EVCTRL_PEREO_Msk  (_U_(0xFF) << RTC_MODE0_EVCTRL_PEREO_Pos)
+#define RTC_MODE0_EVCTRL_PEREO(value) (RTC_MODE0_EVCTRL_PEREO_Msk & ((value) << RTC_MODE0_EVCTRL_PEREO_Pos))
+#define RTC_MODE0_EVCTRL_CMPEO0_Pos 8            /**< \brief (RTC_MODE0_EVCTRL) Compare 0 Event Output Enable */
+#define RTC_MODE0_EVCTRL_CMPEO0     (_U_(1) << RTC_MODE0_EVCTRL_CMPEO0_Pos)
+#define RTC_MODE0_EVCTRL_CMPEO_Pos  8            /**< \brief (RTC_MODE0_EVCTRL) Compare x Event Output Enable */
+#define RTC_MODE0_EVCTRL_CMPEO_Msk  (_U_(0x1) << RTC_MODE0_EVCTRL_CMPEO_Pos)
+#define RTC_MODE0_EVCTRL_CMPEO(value) (RTC_MODE0_EVCTRL_CMPEO_Msk & ((value) << RTC_MODE0_EVCTRL_CMPEO_Pos))
+#define RTC_MODE0_EVCTRL_TAMPEREO_Pos 14           /**< \brief (RTC_MODE0_EVCTRL) Tamper Event Output Enable */
+#define RTC_MODE0_EVCTRL_TAMPEREO   (_U_(0x1) << RTC_MODE0_EVCTRL_TAMPEREO_Pos)
+#define RTC_MODE0_EVCTRL_OVFEO_Pos  15           /**< \brief (RTC_MODE0_EVCTRL) Overflow Event Output Enable */
+#define RTC_MODE0_EVCTRL_OVFEO      (_U_(0x1) << RTC_MODE0_EVCTRL_OVFEO_Pos)
+#define RTC_MODE0_EVCTRL_TAMPEVEI_Pos 16           /**< \brief (RTC_MODE0_EVCTRL) Tamper Event Input Enable */
+#define RTC_MODE0_EVCTRL_TAMPEVEI   (_U_(0x1) << RTC_MODE0_EVCTRL_TAMPEVEI_Pos)
+#define RTC_MODE0_EVCTRL_MASK       _U_(0x0001C1FF) /**< \brief (RTC_MODE0_EVCTRL) MASK Register */
+
+/* -------- RTC_MODE1_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE1 MODE1 Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PEREO0:1;         /*!< bit:      0  Periodic Interval 0 Event Output Enable */
+    uint32_t PEREO1:1;         /*!< bit:      1  Periodic Interval 1 Event Output Enable */
+    uint32_t PEREO2:1;         /*!< bit:      2  Periodic Interval 2 Event Output Enable */
+    uint32_t PEREO3:1;         /*!< bit:      3  Periodic Interval 3 Event Output Enable */
+    uint32_t PEREO4:1;         /*!< bit:      4  Periodic Interval 4 Event Output Enable */
+    uint32_t PEREO5:1;         /*!< bit:      5  Periodic Interval 5 Event Output Enable */
+    uint32_t PEREO6:1;         /*!< bit:      6  Periodic Interval 6 Event Output Enable */
+    uint32_t PEREO7:1;         /*!< bit:      7  Periodic Interval 7 Event Output Enable */
+    uint32_t CMPEO0:1;         /*!< bit:      8  Compare 0 Event Output Enable      */
+    uint32_t CMPEO1:1;         /*!< bit:      9  Compare 1 Event Output Enable      */
+    uint32_t :4;               /*!< bit: 10..13  Reserved                           */
+    uint32_t TAMPEREO:1;       /*!< bit:     14  Tamper Event Output Enable         */
+    uint32_t OVFEO:1;          /*!< bit:     15  Overflow Event Output Enable       */
+    uint32_t TAMPEVEI:1;       /*!< bit:     16  Tamper Event Input Enable          */
+    uint32_t :15;              /*!< bit: 17..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t PEREO:8;          /*!< bit:  0.. 7  Periodic Interval x Event Output Enable */
+    uint32_t CMPEO:2;          /*!< bit:  8.. 9  Compare x Event Output Enable      */
+    uint32_t :22;              /*!< bit: 10..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_EVCTRL_OFFSET     0x04         /**< \brief (RTC_MODE1_EVCTRL offset) MODE1 Event Control */
+#define RTC_MODE1_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_EVCTRL reset_value) MODE1 Event Control */
+
+#define RTC_MODE1_EVCTRL_PEREO0_Pos 0            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 0 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO0     (_U_(1) << RTC_MODE1_EVCTRL_PEREO0_Pos)
+#define RTC_MODE1_EVCTRL_PEREO1_Pos 1            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 1 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO1     (_U_(1) << RTC_MODE1_EVCTRL_PEREO1_Pos)
+#define RTC_MODE1_EVCTRL_PEREO2_Pos 2            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 2 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO2     (_U_(1) << RTC_MODE1_EVCTRL_PEREO2_Pos)
+#define RTC_MODE1_EVCTRL_PEREO3_Pos 3            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 3 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO3     (_U_(1) << RTC_MODE1_EVCTRL_PEREO3_Pos)
+#define RTC_MODE1_EVCTRL_PEREO4_Pos 4            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 4 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO4     (_U_(1) << RTC_MODE1_EVCTRL_PEREO4_Pos)
+#define RTC_MODE1_EVCTRL_PEREO5_Pos 5            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 5 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO5     (_U_(1) << RTC_MODE1_EVCTRL_PEREO5_Pos)
+#define RTC_MODE1_EVCTRL_PEREO6_Pos 6            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 6 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO6     (_U_(1) << RTC_MODE1_EVCTRL_PEREO6_Pos)
+#define RTC_MODE1_EVCTRL_PEREO7_Pos 7            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval 7 Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO7     (_U_(1) << RTC_MODE1_EVCTRL_PEREO7_Pos)
+#define RTC_MODE1_EVCTRL_PEREO_Pos  0            /**< \brief (RTC_MODE1_EVCTRL) Periodic Interval x Event Output Enable */
+#define RTC_MODE1_EVCTRL_PEREO_Msk  (_U_(0xFF) << RTC_MODE1_EVCTRL_PEREO_Pos)
+#define RTC_MODE1_EVCTRL_PEREO(value) (RTC_MODE1_EVCTRL_PEREO_Msk & ((value) << RTC_MODE1_EVCTRL_PEREO_Pos))
+#define RTC_MODE1_EVCTRL_CMPEO0_Pos 8            /**< \brief (RTC_MODE1_EVCTRL) Compare 0 Event Output Enable */
+#define RTC_MODE1_EVCTRL_CMPEO0     (_U_(1) << RTC_MODE1_EVCTRL_CMPEO0_Pos)
+#define RTC_MODE1_EVCTRL_CMPEO1_Pos 9            /**< \brief (RTC_MODE1_EVCTRL) Compare 1 Event Output Enable */
+#define RTC_MODE1_EVCTRL_CMPEO1     (_U_(1) << RTC_MODE1_EVCTRL_CMPEO1_Pos)
+#define RTC_MODE1_EVCTRL_CMPEO_Pos  8            /**< \brief (RTC_MODE1_EVCTRL) Compare x Event Output Enable */
+#define RTC_MODE1_EVCTRL_CMPEO_Msk  (_U_(0x3) << RTC_MODE1_EVCTRL_CMPEO_Pos)
+#define RTC_MODE1_EVCTRL_CMPEO(value) (RTC_MODE1_EVCTRL_CMPEO_Msk & ((value) << RTC_MODE1_EVCTRL_CMPEO_Pos))
+#define RTC_MODE1_EVCTRL_TAMPEREO_Pos 14           /**< \brief (RTC_MODE1_EVCTRL) Tamper Event Output Enable */
+#define RTC_MODE1_EVCTRL_TAMPEREO   (_U_(0x1) << RTC_MODE1_EVCTRL_TAMPEREO_Pos)
+#define RTC_MODE1_EVCTRL_OVFEO_Pos  15           /**< \brief (RTC_MODE1_EVCTRL) Overflow Event Output Enable */
+#define RTC_MODE1_EVCTRL_OVFEO      (_U_(0x1) << RTC_MODE1_EVCTRL_OVFEO_Pos)
+#define RTC_MODE1_EVCTRL_TAMPEVEI_Pos 16           /**< \brief (RTC_MODE1_EVCTRL) Tamper Event Input Enable */
+#define RTC_MODE1_EVCTRL_TAMPEVEI   (_U_(0x1) << RTC_MODE1_EVCTRL_TAMPEVEI_Pos)
+#define RTC_MODE1_EVCTRL_MASK       _U_(0x0001C3FF) /**< \brief (RTC_MODE1_EVCTRL) MASK Register */
+
+/* -------- RTC_MODE2_EVCTRL : (RTC Offset: 0x04) (R/W 32) MODE2 MODE2 Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t PEREO0:1;         /*!< bit:      0  Periodic Interval 0 Event Output Enable */
+    uint32_t PEREO1:1;         /*!< bit:      1  Periodic Interval 1 Event Output Enable */
+    uint32_t PEREO2:1;         /*!< bit:      2  Periodic Interval 2 Event Output Enable */
+    uint32_t PEREO3:1;         /*!< bit:      3  Periodic Interval 3 Event Output Enable */
+    uint32_t PEREO4:1;         /*!< bit:      4  Periodic Interval 4 Event Output Enable */
+    uint32_t PEREO5:1;         /*!< bit:      5  Periodic Interval 5 Event Output Enable */
+    uint32_t PEREO6:1;         /*!< bit:      6  Periodic Interval 6 Event Output Enable */
+    uint32_t PEREO7:1;         /*!< bit:      7  Periodic Interval 7 Event Output Enable */
+    uint32_t ALARMEO0:1;       /*!< bit:      8  Alarm 0 Event Output Enable        */
+    uint32_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint32_t TAMPEREO:1;       /*!< bit:     14  Tamper Event Output Enable         */
+    uint32_t OVFEO:1;          /*!< bit:     15  Overflow Event Output Enable       */
+    uint32_t TAMPEVEI:1;       /*!< bit:     16  Tamper Event Input Enable          */
+    uint32_t :15;              /*!< bit: 17..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t PEREO:8;          /*!< bit:  0.. 7  Periodic Interval x Event Output Enable */
+    uint32_t ALARMEO:1;        /*!< bit:      8  Alarm x Event Output Enable        */
+    uint32_t :23;              /*!< bit:  9..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_EVCTRL_OFFSET     0x04         /**< \brief (RTC_MODE2_EVCTRL offset) MODE2 Event Control */
+#define RTC_MODE2_EVCTRL_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_EVCTRL reset_value) MODE2 Event Control */
+
+#define RTC_MODE2_EVCTRL_PEREO0_Pos 0            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 0 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO0     (_U_(1) << RTC_MODE2_EVCTRL_PEREO0_Pos)
+#define RTC_MODE2_EVCTRL_PEREO1_Pos 1            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 1 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO1     (_U_(1) << RTC_MODE2_EVCTRL_PEREO1_Pos)
+#define RTC_MODE2_EVCTRL_PEREO2_Pos 2            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 2 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO2     (_U_(1) << RTC_MODE2_EVCTRL_PEREO2_Pos)
+#define RTC_MODE2_EVCTRL_PEREO3_Pos 3            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 3 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO3     (_U_(1) << RTC_MODE2_EVCTRL_PEREO3_Pos)
+#define RTC_MODE2_EVCTRL_PEREO4_Pos 4            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 4 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO4     (_U_(1) << RTC_MODE2_EVCTRL_PEREO4_Pos)
+#define RTC_MODE2_EVCTRL_PEREO5_Pos 5            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 5 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO5     (_U_(1) << RTC_MODE2_EVCTRL_PEREO5_Pos)
+#define RTC_MODE2_EVCTRL_PEREO6_Pos 6            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 6 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO6     (_U_(1) << RTC_MODE2_EVCTRL_PEREO6_Pos)
+#define RTC_MODE2_EVCTRL_PEREO7_Pos 7            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval 7 Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO7     (_U_(1) << RTC_MODE2_EVCTRL_PEREO7_Pos)
+#define RTC_MODE2_EVCTRL_PEREO_Pos  0            /**< \brief (RTC_MODE2_EVCTRL) Periodic Interval x Event Output Enable */
+#define RTC_MODE2_EVCTRL_PEREO_Msk  (_U_(0xFF) << RTC_MODE2_EVCTRL_PEREO_Pos)
+#define RTC_MODE2_EVCTRL_PEREO(value) (RTC_MODE2_EVCTRL_PEREO_Msk & ((value) << RTC_MODE2_EVCTRL_PEREO_Pos))
+#define RTC_MODE2_EVCTRL_ALARMEO0_Pos 8            /**< \brief (RTC_MODE2_EVCTRL) Alarm 0 Event Output Enable */
+#define RTC_MODE2_EVCTRL_ALARMEO0   (_U_(1) << RTC_MODE2_EVCTRL_ALARMEO0_Pos)
+#define RTC_MODE2_EVCTRL_ALARMEO_Pos 8            /**< \brief (RTC_MODE2_EVCTRL) Alarm x Event Output Enable */
+#define RTC_MODE2_EVCTRL_ALARMEO_Msk (_U_(0x1) << RTC_MODE2_EVCTRL_ALARMEO_Pos)
+#define RTC_MODE2_EVCTRL_ALARMEO(value) (RTC_MODE2_EVCTRL_ALARMEO_Msk & ((value) << RTC_MODE2_EVCTRL_ALARMEO_Pos))
+#define RTC_MODE2_EVCTRL_TAMPEREO_Pos 14           /**< \brief (RTC_MODE2_EVCTRL) Tamper Event Output Enable */
+#define RTC_MODE2_EVCTRL_TAMPEREO   (_U_(0x1) << RTC_MODE2_EVCTRL_TAMPEREO_Pos)
+#define RTC_MODE2_EVCTRL_OVFEO_Pos  15           /**< \brief (RTC_MODE2_EVCTRL) Overflow Event Output Enable */
+#define RTC_MODE2_EVCTRL_OVFEO      (_U_(0x1) << RTC_MODE2_EVCTRL_OVFEO_Pos)
+#define RTC_MODE2_EVCTRL_TAMPEVEI_Pos 16           /**< \brief (RTC_MODE2_EVCTRL) Tamper Event Input Enable */
+#define RTC_MODE2_EVCTRL_TAMPEVEI   (_U_(0x1) << RTC_MODE2_EVCTRL_TAMPEVEI_Pos)
+#define RTC_MODE2_EVCTRL_MASK       _U_(0x0001C1FF) /**< \brief (RTC_MODE2_EVCTRL) MASK Register */
+
+/* -------- RTC_MODE0_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE0 MODE0 Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Interrupt Enable */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Interrupt Enable */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Interrupt Enable */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Interrupt Enable */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Interrupt Enable */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Interrupt Enable */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Interrupt Enable */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Interrupt Enable */
+    uint16_t CMP0:1;           /*!< bit:      8  Compare 0 Interrupt Enable         */
+    uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Interrupt Enable */
+    uint16_t CMP:1;            /*!< bit:      8  Compare x Interrupt Enable         */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_INTENCLR_OFFSET   0x08         /**< \brief (RTC_MODE0_INTENCLR offset) MODE0 Interrupt Enable Clear */
+#define RTC_MODE0_INTENCLR_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE0_INTENCLR reset_value) MODE0 Interrupt Enable Clear */
+
+#define RTC_MODE0_INTENCLR_PER0_Pos 0            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 0 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER0     (_U_(1) << RTC_MODE0_INTENCLR_PER0_Pos)
+#define RTC_MODE0_INTENCLR_PER1_Pos 1            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 1 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER1     (_U_(1) << RTC_MODE0_INTENCLR_PER1_Pos)
+#define RTC_MODE0_INTENCLR_PER2_Pos 2            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 2 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER2     (_U_(1) << RTC_MODE0_INTENCLR_PER2_Pos)
+#define RTC_MODE0_INTENCLR_PER3_Pos 3            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 3 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER3     (_U_(1) << RTC_MODE0_INTENCLR_PER3_Pos)
+#define RTC_MODE0_INTENCLR_PER4_Pos 4            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 4 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER4     (_U_(1) << RTC_MODE0_INTENCLR_PER4_Pos)
+#define RTC_MODE0_INTENCLR_PER5_Pos 5            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 5 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER5     (_U_(1) << RTC_MODE0_INTENCLR_PER5_Pos)
+#define RTC_MODE0_INTENCLR_PER6_Pos 6            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 6 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER6     (_U_(1) << RTC_MODE0_INTENCLR_PER6_Pos)
+#define RTC_MODE0_INTENCLR_PER7_Pos 7            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval 7 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER7     (_U_(1) << RTC_MODE0_INTENCLR_PER7_Pos)
+#define RTC_MODE0_INTENCLR_PER_Pos  0            /**< \brief (RTC_MODE0_INTENCLR) Periodic Interval x Interrupt Enable */
+#define RTC_MODE0_INTENCLR_PER_Msk  (_U_(0xFF) << RTC_MODE0_INTENCLR_PER_Pos)
+#define RTC_MODE0_INTENCLR_PER(value) (RTC_MODE0_INTENCLR_PER_Msk & ((value) << RTC_MODE0_INTENCLR_PER_Pos))
+#define RTC_MODE0_INTENCLR_CMP0_Pos 8            /**< \brief (RTC_MODE0_INTENCLR) Compare 0 Interrupt Enable */
+#define RTC_MODE0_INTENCLR_CMP0     (_U_(1) << RTC_MODE0_INTENCLR_CMP0_Pos)
+#define RTC_MODE0_INTENCLR_CMP_Pos  8            /**< \brief (RTC_MODE0_INTENCLR) Compare x Interrupt Enable */
+#define RTC_MODE0_INTENCLR_CMP_Msk  (_U_(0x1) << RTC_MODE0_INTENCLR_CMP_Pos)
+#define RTC_MODE0_INTENCLR_CMP(value) (RTC_MODE0_INTENCLR_CMP_Msk & ((value) << RTC_MODE0_INTENCLR_CMP_Pos))
+#define RTC_MODE0_INTENCLR_TAMPER_Pos 14           /**< \brief (RTC_MODE0_INTENCLR) Tamper Enable */
+#define RTC_MODE0_INTENCLR_TAMPER   (_U_(0x1) << RTC_MODE0_INTENCLR_TAMPER_Pos)
+#define RTC_MODE0_INTENCLR_OVF_Pos  15           /**< \brief (RTC_MODE0_INTENCLR) Overflow Interrupt Enable */
+#define RTC_MODE0_INTENCLR_OVF      (_U_(0x1) << RTC_MODE0_INTENCLR_OVF_Pos)
+#define RTC_MODE0_INTENCLR_MASK     _U_(0xC1FF)  /**< \brief (RTC_MODE0_INTENCLR) MASK Register */
+
+/* -------- RTC_MODE1_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE1 MODE1 Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Interrupt Enable */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Interrupt Enable */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Interrupt Enable */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Interrupt Enable */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Interrupt Enable */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Interrupt Enable */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Interrupt Enable */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Interrupt Enable */
+    uint16_t CMP0:1;           /*!< bit:      8  Compare 0 Interrupt Enable         */
+    uint16_t CMP1:1;           /*!< bit:      9  Compare 1 Interrupt Enable         */
+    uint16_t :4;               /*!< bit: 10..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Interrupt Enable */
+    uint16_t CMP:2;            /*!< bit:  8.. 9  Compare x Interrupt Enable         */
+    uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_INTENCLR_OFFSET   0x08         /**< \brief (RTC_MODE1_INTENCLR offset) MODE1 Interrupt Enable Clear */
+#define RTC_MODE1_INTENCLR_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE1_INTENCLR reset_value) MODE1 Interrupt Enable Clear */
+
+#define RTC_MODE1_INTENCLR_PER0_Pos 0            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 0 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER0     (_U_(1) << RTC_MODE1_INTENCLR_PER0_Pos)
+#define RTC_MODE1_INTENCLR_PER1_Pos 1            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 1 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER1     (_U_(1) << RTC_MODE1_INTENCLR_PER1_Pos)
+#define RTC_MODE1_INTENCLR_PER2_Pos 2            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 2 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER2     (_U_(1) << RTC_MODE1_INTENCLR_PER2_Pos)
+#define RTC_MODE1_INTENCLR_PER3_Pos 3            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 3 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER3     (_U_(1) << RTC_MODE1_INTENCLR_PER3_Pos)
+#define RTC_MODE1_INTENCLR_PER4_Pos 4            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 4 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER4     (_U_(1) << RTC_MODE1_INTENCLR_PER4_Pos)
+#define RTC_MODE1_INTENCLR_PER5_Pos 5            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 5 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER5     (_U_(1) << RTC_MODE1_INTENCLR_PER5_Pos)
+#define RTC_MODE1_INTENCLR_PER6_Pos 6            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 6 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER6     (_U_(1) << RTC_MODE1_INTENCLR_PER6_Pos)
+#define RTC_MODE1_INTENCLR_PER7_Pos 7            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval 7 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER7     (_U_(1) << RTC_MODE1_INTENCLR_PER7_Pos)
+#define RTC_MODE1_INTENCLR_PER_Pos  0            /**< \brief (RTC_MODE1_INTENCLR) Periodic Interval x Interrupt Enable */
+#define RTC_MODE1_INTENCLR_PER_Msk  (_U_(0xFF) << RTC_MODE1_INTENCLR_PER_Pos)
+#define RTC_MODE1_INTENCLR_PER(value) (RTC_MODE1_INTENCLR_PER_Msk & ((value) << RTC_MODE1_INTENCLR_PER_Pos))
+#define RTC_MODE1_INTENCLR_CMP0_Pos 8            /**< \brief (RTC_MODE1_INTENCLR) Compare 0 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_CMP0     (_U_(1) << RTC_MODE1_INTENCLR_CMP0_Pos)
+#define RTC_MODE1_INTENCLR_CMP1_Pos 9            /**< \brief (RTC_MODE1_INTENCLR) Compare 1 Interrupt Enable */
+#define RTC_MODE1_INTENCLR_CMP1     (_U_(1) << RTC_MODE1_INTENCLR_CMP1_Pos)
+#define RTC_MODE1_INTENCLR_CMP_Pos  8            /**< \brief (RTC_MODE1_INTENCLR) Compare x Interrupt Enable */
+#define RTC_MODE1_INTENCLR_CMP_Msk  (_U_(0x3) << RTC_MODE1_INTENCLR_CMP_Pos)
+#define RTC_MODE1_INTENCLR_CMP(value) (RTC_MODE1_INTENCLR_CMP_Msk & ((value) << RTC_MODE1_INTENCLR_CMP_Pos))
+#define RTC_MODE1_INTENCLR_TAMPER_Pos 14           /**< \brief (RTC_MODE1_INTENCLR) Tamper Enable */
+#define RTC_MODE1_INTENCLR_TAMPER   (_U_(0x1) << RTC_MODE1_INTENCLR_TAMPER_Pos)
+#define RTC_MODE1_INTENCLR_OVF_Pos  15           /**< \brief (RTC_MODE1_INTENCLR) Overflow Interrupt Enable */
+#define RTC_MODE1_INTENCLR_OVF      (_U_(0x1) << RTC_MODE1_INTENCLR_OVF_Pos)
+#define RTC_MODE1_INTENCLR_MASK     _U_(0xC3FF)  /**< \brief (RTC_MODE1_INTENCLR) MASK Register */
+
+/* -------- RTC_MODE2_INTENCLR : (RTC Offset: 0x08) (R/W 16) MODE2 MODE2 Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Interrupt Enable */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Interrupt Enable */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Interrupt Enable */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Interrupt Enable */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Interrupt Enable */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Interrupt Enable */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Interrupt Enable */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Interrupt Enable */
+    uint16_t ALARM0:1;         /*!< bit:      8  Alarm 0 Interrupt Enable           */
+    uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Interrupt Enable */
+    uint16_t ALARM:1;          /*!< bit:      8  Alarm x Interrupt Enable           */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_INTENCLR_OFFSET   0x08         /**< \brief (RTC_MODE2_INTENCLR offset) MODE2 Interrupt Enable Clear */
+#define RTC_MODE2_INTENCLR_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE2_INTENCLR reset_value) MODE2 Interrupt Enable Clear */
+
+#define RTC_MODE2_INTENCLR_PER0_Pos 0            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 0 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER0     (_U_(1) << RTC_MODE2_INTENCLR_PER0_Pos)
+#define RTC_MODE2_INTENCLR_PER1_Pos 1            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 1 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER1     (_U_(1) << RTC_MODE2_INTENCLR_PER1_Pos)
+#define RTC_MODE2_INTENCLR_PER2_Pos 2            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 2 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER2     (_U_(1) << RTC_MODE2_INTENCLR_PER2_Pos)
+#define RTC_MODE2_INTENCLR_PER3_Pos 3            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 3 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER3     (_U_(1) << RTC_MODE2_INTENCLR_PER3_Pos)
+#define RTC_MODE2_INTENCLR_PER4_Pos 4            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 4 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER4     (_U_(1) << RTC_MODE2_INTENCLR_PER4_Pos)
+#define RTC_MODE2_INTENCLR_PER5_Pos 5            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 5 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER5     (_U_(1) << RTC_MODE2_INTENCLR_PER5_Pos)
+#define RTC_MODE2_INTENCLR_PER6_Pos 6            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 6 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER6     (_U_(1) << RTC_MODE2_INTENCLR_PER6_Pos)
+#define RTC_MODE2_INTENCLR_PER7_Pos 7            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval 7 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER7     (_U_(1) << RTC_MODE2_INTENCLR_PER7_Pos)
+#define RTC_MODE2_INTENCLR_PER_Pos  0            /**< \brief (RTC_MODE2_INTENCLR) Periodic Interval x Interrupt Enable */
+#define RTC_MODE2_INTENCLR_PER_Msk  (_U_(0xFF) << RTC_MODE2_INTENCLR_PER_Pos)
+#define RTC_MODE2_INTENCLR_PER(value) (RTC_MODE2_INTENCLR_PER_Msk & ((value) << RTC_MODE2_INTENCLR_PER_Pos))
+#define RTC_MODE2_INTENCLR_ALARM0_Pos 8            /**< \brief (RTC_MODE2_INTENCLR) Alarm 0 Interrupt Enable */
+#define RTC_MODE2_INTENCLR_ALARM0   (_U_(1) << RTC_MODE2_INTENCLR_ALARM0_Pos)
+#define RTC_MODE2_INTENCLR_ALARM_Pos 8            /**< \brief (RTC_MODE2_INTENCLR) Alarm x Interrupt Enable */
+#define RTC_MODE2_INTENCLR_ALARM_Msk (_U_(0x1) << RTC_MODE2_INTENCLR_ALARM_Pos)
+#define RTC_MODE2_INTENCLR_ALARM(value) (RTC_MODE2_INTENCLR_ALARM_Msk & ((value) << RTC_MODE2_INTENCLR_ALARM_Pos))
+#define RTC_MODE2_INTENCLR_TAMPER_Pos 14           /**< \brief (RTC_MODE2_INTENCLR) Tamper Enable */
+#define RTC_MODE2_INTENCLR_TAMPER   (_U_(0x1) << RTC_MODE2_INTENCLR_TAMPER_Pos)
+#define RTC_MODE2_INTENCLR_OVF_Pos  15           /**< \brief (RTC_MODE2_INTENCLR) Overflow Interrupt Enable */
+#define RTC_MODE2_INTENCLR_OVF      (_U_(0x1) << RTC_MODE2_INTENCLR_OVF_Pos)
+#define RTC_MODE2_INTENCLR_MASK     _U_(0xC1FF)  /**< \brief (RTC_MODE2_INTENCLR) MASK Register */
+
+/* -------- RTC_MODE0_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE0 MODE0 Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Interrupt Enable */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Interrupt Enable */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Interrupt Enable */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Interrupt Enable */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Interrupt Enable */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Interrupt Enable */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Interrupt Enable */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Interrupt Enable */
+    uint16_t CMP0:1;           /*!< bit:      8  Compare 0 Interrupt Enable         */
+    uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Interrupt Enable */
+    uint16_t CMP:1;            /*!< bit:      8  Compare x Interrupt Enable         */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_INTENSET_OFFSET   0x0A         /**< \brief (RTC_MODE0_INTENSET offset) MODE0 Interrupt Enable Set */
+#define RTC_MODE0_INTENSET_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE0_INTENSET reset_value) MODE0 Interrupt Enable Set */
+
+#define RTC_MODE0_INTENSET_PER0_Pos 0            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 0 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER0     (_U_(1) << RTC_MODE0_INTENSET_PER0_Pos)
+#define RTC_MODE0_INTENSET_PER1_Pos 1            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 1 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER1     (_U_(1) << RTC_MODE0_INTENSET_PER1_Pos)
+#define RTC_MODE0_INTENSET_PER2_Pos 2            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 2 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER2     (_U_(1) << RTC_MODE0_INTENSET_PER2_Pos)
+#define RTC_MODE0_INTENSET_PER3_Pos 3            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 3 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER3     (_U_(1) << RTC_MODE0_INTENSET_PER3_Pos)
+#define RTC_MODE0_INTENSET_PER4_Pos 4            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 4 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER4     (_U_(1) << RTC_MODE0_INTENSET_PER4_Pos)
+#define RTC_MODE0_INTENSET_PER5_Pos 5            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 5 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER5     (_U_(1) << RTC_MODE0_INTENSET_PER5_Pos)
+#define RTC_MODE0_INTENSET_PER6_Pos 6            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 6 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER6     (_U_(1) << RTC_MODE0_INTENSET_PER6_Pos)
+#define RTC_MODE0_INTENSET_PER7_Pos 7            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval 7 Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER7     (_U_(1) << RTC_MODE0_INTENSET_PER7_Pos)
+#define RTC_MODE0_INTENSET_PER_Pos  0            /**< \brief (RTC_MODE0_INTENSET) Periodic Interval x Interrupt Enable */
+#define RTC_MODE0_INTENSET_PER_Msk  (_U_(0xFF) << RTC_MODE0_INTENSET_PER_Pos)
+#define RTC_MODE0_INTENSET_PER(value) (RTC_MODE0_INTENSET_PER_Msk & ((value) << RTC_MODE0_INTENSET_PER_Pos))
+#define RTC_MODE0_INTENSET_CMP0_Pos 8            /**< \brief (RTC_MODE0_INTENSET) Compare 0 Interrupt Enable */
+#define RTC_MODE0_INTENSET_CMP0     (_U_(1) << RTC_MODE0_INTENSET_CMP0_Pos)
+#define RTC_MODE0_INTENSET_CMP_Pos  8            /**< \brief (RTC_MODE0_INTENSET) Compare x Interrupt Enable */
+#define RTC_MODE0_INTENSET_CMP_Msk  (_U_(0x1) << RTC_MODE0_INTENSET_CMP_Pos)
+#define RTC_MODE0_INTENSET_CMP(value) (RTC_MODE0_INTENSET_CMP_Msk & ((value) << RTC_MODE0_INTENSET_CMP_Pos))
+#define RTC_MODE0_INTENSET_TAMPER_Pos 14           /**< \brief (RTC_MODE0_INTENSET) Tamper Enable */
+#define RTC_MODE0_INTENSET_TAMPER   (_U_(0x1) << RTC_MODE0_INTENSET_TAMPER_Pos)
+#define RTC_MODE0_INTENSET_OVF_Pos  15           /**< \brief (RTC_MODE0_INTENSET) Overflow Interrupt Enable */
+#define RTC_MODE0_INTENSET_OVF      (_U_(0x1) << RTC_MODE0_INTENSET_OVF_Pos)
+#define RTC_MODE0_INTENSET_MASK     _U_(0xC1FF)  /**< \brief (RTC_MODE0_INTENSET) MASK Register */
+
+/* -------- RTC_MODE1_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE1 MODE1 Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Interrupt Enable */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Interrupt Enable */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Interrupt Enable */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Interrupt Enable */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Interrupt Enable */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Interrupt Enable */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Interrupt Enable */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Interrupt Enable */
+    uint16_t CMP0:1;           /*!< bit:      8  Compare 0 Interrupt Enable         */
+    uint16_t CMP1:1;           /*!< bit:      9  Compare 1 Interrupt Enable         */
+    uint16_t :4;               /*!< bit: 10..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Interrupt Enable */
+    uint16_t CMP:2;            /*!< bit:  8.. 9  Compare x Interrupt Enable         */
+    uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_INTENSET_OFFSET   0x0A         /**< \brief (RTC_MODE1_INTENSET offset) MODE1 Interrupt Enable Set */
+#define RTC_MODE1_INTENSET_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE1_INTENSET reset_value) MODE1 Interrupt Enable Set */
+
+#define RTC_MODE1_INTENSET_PER0_Pos 0            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 0 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER0     (_U_(1) << RTC_MODE1_INTENSET_PER0_Pos)
+#define RTC_MODE1_INTENSET_PER1_Pos 1            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 1 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER1     (_U_(1) << RTC_MODE1_INTENSET_PER1_Pos)
+#define RTC_MODE1_INTENSET_PER2_Pos 2            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 2 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER2     (_U_(1) << RTC_MODE1_INTENSET_PER2_Pos)
+#define RTC_MODE1_INTENSET_PER3_Pos 3            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 3 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER3     (_U_(1) << RTC_MODE1_INTENSET_PER3_Pos)
+#define RTC_MODE1_INTENSET_PER4_Pos 4            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 4 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER4     (_U_(1) << RTC_MODE1_INTENSET_PER4_Pos)
+#define RTC_MODE1_INTENSET_PER5_Pos 5            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 5 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER5     (_U_(1) << RTC_MODE1_INTENSET_PER5_Pos)
+#define RTC_MODE1_INTENSET_PER6_Pos 6            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 6 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER6     (_U_(1) << RTC_MODE1_INTENSET_PER6_Pos)
+#define RTC_MODE1_INTENSET_PER7_Pos 7            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval 7 Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER7     (_U_(1) << RTC_MODE1_INTENSET_PER7_Pos)
+#define RTC_MODE1_INTENSET_PER_Pos  0            /**< \brief (RTC_MODE1_INTENSET) Periodic Interval x Interrupt Enable */
+#define RTC_MODE1_INTENSET_PER_Msk  (_U_(0xFF) << RTC_MODE1_INTENSET_PER_Pos)
+#define RTC_MODE1_INTENSET_PER(value) (RTC_MODE1_INTENSET_PER_Msk & ((value) << RTC_MODE1_INTENSET_PER_Pos))
+#define RTC_MODE1_INTENSET_CMP0_Pos 8            /**< \brief (RTC_MODE1_INTENSET) Compare 0 Interrupt Enable */
+#define RTC_MODE1_INTENSET_CMP0     (_U_(1) << RTC_MODE1_INTENSET_CMP0_Pos)
+#define RTC_MODE1_INTENSET_CMP1_Pos 9            /**< \brief (RTC_MODE1_INTENSET) Compare 1 Interrupt Enable */
+#define RTC_MODE1_INTENSET_CMP1     (_U_(1) << RTC_MODE1_INTENSET_CMP1_Pos)
+#define RTC_MODE1_INTENSET_CMP_Pos  8            /**< \brief (RTC_MODE1_INTENSET) Compare x Interrupt Enable */
+#define RTC_MODE1_INTENSET_CMP_Msk  (_U_(0x3) << RTC_MODE1_INTENSET_CMP_Pos)
+#define RTC_MODE1_INTENSET_CMP(value) (RTC_MODE1_INTENSET_CMP_Msk & ((value) << RTC_MODE1_INTENSET_CMP_Pos))
+#define RTC_MODE1_INTENSET_TAMPER_Pos 14           /**< \brief (RTC_MODE1_INTENSET) Tamper Enable */
+#define RTC_MODE1_INTENSET_TAMPER   (_U_(0x1) << RTC_MODE1_INTENSET_TAMPER_Pos)
+#define RTC_MODE1_INTENSET_OVF_Pos  15           /**< \brief (RTC_MODE1_INTENSET) Overflow Interrupt Enable */
+#define RTC_MODE1_INTENSET_OVF      (_U_(0x1) << RTC_MODE1_INTENSET_OVF_Pos)
+#define RTC_MODE1_INTENSET_MASK     _U_(0xC3FF)  /**< \brief (RTC_MODE1_INTENSET) MASK Register */
+
+/* -------- RTC_MODE2_INTENSET : (RTC Offset: 0x0A) (R/W 16) MODE2 MODE2 Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0 Enable         */
+    uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1 Enable         */
+    uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2 Enable         */
+    uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3 Enable         */
+    uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4 Enable         */
+    uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5 Enable         */
+    uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6 Enable         */
+    uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7 Enable         */
+    uint16_t ALARM0:1;         /*!< bit:      8  Alarm 0 Interrupt Enable           */
+    uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    uint16_t TAMPER:1;         /*!< bit:     14  Tamper Enable                      */
+    uint16_t OVF:1;            /*!< bit:     15  Overflow Interrupt Enable          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x Enable         */
+    uint16_t ALARM:1;          /*!< bit:      8  Alarm x Interrupt Enable           */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_INTENSET_OFFSET   0x0A         /**< \brief (RTC_MODE2_INTENSET offset) MODE2 Interrupt Enable Set */
+#define RTC_MODE2_INTENSET_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE2_INTENSET reset_value) MODE2 Interrupt Enable Set */
+
+#define RTC_MODE2_INTENSET_PER0_Pos 0            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 0 Enable */
+#define RTC_MODE2_INTENSET_PER0     (_U_(1) << RTC_MODE2_INTENSET_PER0_Pos)
+#define RTC_MODE2_INTENSET_PER1_Pos 1            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 1 Enable */
+#define RTC_MODE2_INTENSET_PER1     (_U_(1) << RTC_MODE2_INTENSET_PER1_Pos)
+#define RTC_MODE2_INTENSET_PER2_Pos 2            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 2 Enable */
+#define RTC_MODE2_INTENSET_PER2     (_U_(1) << RTC_MODE2_INTENSET_PER2_Pos)
+#define RTC_MODE2_INTENSET_PER3_Pos 3            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 3 Enable */
+#define RTC_MODE2_INTENSET_PER3     (_U_(1) << RTC_MODE2_INTENSET_PER3_Pos)
+#define RTC_MODE2_INTENSET_PER4_Pos 4            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 4 Enable */
+#define RTC_MODE2_INTENSET_PER4     (_U_(1) << RTC_MODE2_INTENSET_PER4_Pos)
+#define RTC_MODE2_INTENSET_PER5_Pos 5            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 5 Enable */
+#define RTC_MODE2_INTENSET_PER5     (_U_(1) << RTC_MODE2_INTENSET_PER5_Pos)
+#define RTC_MODE2_INTENSET_PER6_Pos 6            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 6 Enable */
+#define RTC_MODE2_INTENSET_PER6     (_U_(1) << RTC_MODE2_INTENSET_PER6_Pos)
+#define RTC_MODE2_INTENSET_PER7_Pos 7            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval 7 Enable */
+#define RTC_MODE2_INTENSET_PER7     (_U_(1) << RTC_MODE2_INTENSET_PER7_Pos)
+#define RTC_MODE2_INTENSET_PER_Pos  0            /**< \brief (RTC_MODE2_INTENSET) Periodic Interval x Enable */
+#define RTC_MODE2_INTENSET_PER_Msk  (_U_(0xFF) << RTC_MODE2_INTENSET_PER_Pos)
+#define RTC_MODE2_INTENSET_PER(value) (RTC_MODE2_INTENSET_PER_Msk & ((value) << RTC_MODE2_INTENSET_PER_Pos))
+#define RTC_MODE2_INTENSET_ALARM0_Pos 8            /**< \brief (RTC_MODE2_INTENSET) Alarm 0 Interrupt Enable */
+#define RTC_MODE2_INTENSET_ALARM0   (_U_(1) << RTC_MODE2_INTENSET_ALARM0_Pos)
+#define RTC_MODE2_INTENSET_ALARM_Pos 8            /**< \brief (RTC_MODE2_INTENSET) Alarm x Interrupt Enable */
+#define RTC_MODE2_INTENSET_ALARM_Msk (_U_(0x1) << RTC_MODE2_INTENSET_ALARM_Pos)
+#define RTC_MODE2_INTENSET_ALARM(value) (RTC_MODE2_INTENSET_ALARM_Msk & ((value) << RTC_MODE2_INTENSET_ALARM_Pos))
+#define RTC_MODE2_INTENSET_TAMPER_Pos 14           /**< \brief (RTC_MODE2_INTENSET) Tamper Enable */
+#define RTC_MODE2_INTENSET_TAMPER   (_U_(0x1) << RTC_MODE2_INTENSET_TAMPER_Pos)
+#define RTC_MODE2_INTENSET_OVF_Pos  15           /**< \brief (RTC_MODE2_INTENSET) Overflow Interrupt Enable */
+#define RTC_MODE2_INTENSET_OVF      (_U_(0x1) << RTC_MODE2_INTENSET_OVF_Pos)
+#define RTC_MODE2_INTENSET_MASK     _U_(0xC1FF)  /**< \brief (RTC_MODE2_INTENSET) MASK Register */
+
+/* -------- RTC_MODE0_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE0 MODE0 Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0                */
+    __I uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1                */
+    __I uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2                */
+    __I uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3                */
+    __I uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4                */
+    __I uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5                */
+    __I uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6                */
+    __I uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7                */
+    __I uint16_t CMP0:1;           /*!< bit:      8  Compare 0                          */
+    __I uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    __I uint16_t TAMPER:1;         /*!< bit:     14  Tamper                             */
+    __I uint16_t OVF:1;            /*!< bit:     15  Overflow                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x                */
+    __I uint16_t CMP:1;            /*!< bit:      8  Compare x                          */
+    __I uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_INTFLAG_OFFSET    0x0C         /**< \brief (RTC_MODE0_INTFLAG offset) MODE0 Interrupt Flag Status and Clear */
+#define RTC_MODE0_INTFLAG_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE0_INTFLAG reset_value) MODE0 Interrupt Flag Status and Clear */
+
+#define RTC_MODE0_INTFLAG_PER0_Pos  0            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 0 */
+#define RTC_MODE0_INTFLAG_PER0      (_U_(1) << RTC_MODE0_INTFLAG_PER0_Pos)
+#define RTC_MODE0_INTFLAG_PER1_Pos  1            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 1 */
+#define RTC_MODE0_INTFLAG_PER1      (_U_(1) << RTC_MODE0_INTFLAG_PER1_Pos)
+#define RTC_MODE0_INTFLAG_PER2_Pos  2            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 2 */
+#define RTC_MODE0_INTFLAG_PER2      (_U_(1) << RTC_MODE0_INTFLAG_PER2_Pos)
+#define RTC_MODE0_INTFLAG_PER3_Pos  3            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 3 */
+#define RTC_MODE0_INTFLAG_PER3      (_U_(1) << RTC_MODE0_INTFLAG_PER3_Pos)
+#define RTC_MODE0_INTFLAG_PER4_Pos  4            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 4 */
+#define RTC_MODE0_INTFLAG_PER4      (_U_(1) << RTC_MODE0_INTFLAG_PER4_Pos)
+#define RTC_MODE0_INTFLAG_PER5_Pos  5            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 5 */
+#define RTC_MODE0_INTFLAG_PER5      (_U_(1) << RTC_MODE0_INTFLAG_PER5_Pos)
+#define RTC_MODE0_INTFLAG_PER6_Pos  6            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 6 */
+#define RTC_MODE0_INTFLAG_PER6      (_U_(1) << RTC_MODE0_INTFLAG_PER6_Pos)
+#define RTC_MODE0_INTFLAG_PER7_Pos  7            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval 7 */
+#define RTC_MODE0_INTFLAG_PER7      (_U_(1) << RTC_MODE0_INTFLAG_PER7_Pos)
+#define RTC_MODE0_INTFLAG_PER_Pos   0            /**< \brief (RTC_MODE0_INTFLAG) Periodic Interval x */
+#define RTC_MODE0_INTFLAG_PER_Msk   (_U_(0xFF) << RTC_MODE0_INTFLAG_PER_Pos)
+#define RTC_MODE0_INTFLAG_PER(value) (RTC_MODE0_INTFLAG_PER_Msk & ((value) << RTC_MODE0_INTFLAG_PER_Pos))
+#define RTC_MODE0_INTFLAG_CMP0_Pos  8            /**< \brief (RTC_MODE0_INTFLAG) Compare 0 */
+#define RTC_MODE0_INTFLAG_CMP0      (_U_(1) << RTC_MODE0_INTFLAG_CMP0_Pos)
+#define RTC_MODE0_INTFLAG_CMP_Pos   8            /**< \brief (RTC_MODE0_INTFLAG) Compare x */
+#define RTC_MODE0_INTFLAG_CMP_Msk   (_U_(0x1) << RTC_MODE0_INTFLAG_CMP_Pos)
+#define RTC_MODE0_INTFLAG_CMP(value) (RTC_MODE0_INTFLAG_CMP_Msk & ((value) << RTC_MODE0_INTFLAG_CMP_Pos))
+#define RTC_MODE0_INTFLAG_TAMPER_Pos 14           /**< \brief (RTC_MODE0_INTFLAG) Tamper */
+#define RTC_MODE0_INTFLAG_TAMPER    (_U_(0x1) << RTC_MODE0_INTFLAG_TAMPER_Pos)
+#define RTC_MODE0_INTFLAG_OVF_Pos   15           /**< \brief (RTC_MODE0_INTFLAG) Overflow */
+#define RTC_MODE0_INTFLAG_OVF       (_U_(0x1) << RTC_MODE0_INTFLAG_OVF_Pos)
+#define RTC_MODE0_INTFLAG_MASK      _U_(0xC1FF)  /**< \brief (RTC_MODE0_INTFLAG) MASK Register */
+
+/* -------- RTC_MODE1_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE1 MODE1 Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0                */
+    __I uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1                */
+    __I uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2                */
+    __I uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3                */
+    __I uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4                */
+    __I uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5                */
+    __I uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6                */
+    __I uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7                */
+    __I uint16_t CMP0:1;           /*!< bit:      8  Compare 0                          */
+    __I uint16_t CMP1:1;           /*!< bit:      9  Compare 1                          */
+    __I uint16_t :4;               /*!< bit: 10..13  Reserved                           */
+    __I uint16_t TAMPER:1;         /*!< bit:     14  Tamper                             */
+    __I uint16_t OVF:1;            /*!< bit:     15  Overflow                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x                */
+    __I uint16_t CMP:2;            /*!< bit:  8.. 9  Compare x                          */
+    __I uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_INTFLAG_OFFSET    0x0C         /**< \brief (RTC_MODE1_INTFLAG offset) MODE1 Interrupt Flag Status and Clear */
+#define RTC_MODE1_INTFLAG_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE1_INTFLAG reset_value) MODE1 Interrupt Flag Status and Clear */
+
+#define RTC_MODE1_INTFLAG_PER0_Pos  0            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 0 */
+#define RTC_MODE1_INTFLAG_PER0      (_U_(1) << RTC_MODE1_INTFLAG_PER0_Pos)
+#define RTC_MODE1_INTFLAG_PER1_Pos  1            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 1 */
+#define RTC_MODE1_INTFLAG_PER1      (_U_(1) << RTC_MODE1_INTFLAG_PER1_Pos)
+#define RTC_MODE1_INTFLAG_PER2_Pos  2            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 2 */
+#define RTC_MODE1_INTFLAG_PER2      (_U_(1) << RTC_MODE1_INTFLAG_PER2_Pos)
+#define RTC_MODE1_INTFLAG_PER3_Pos  3            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 3 */
+#define RTC_MODE1_INTFLAG_PER3      (_U_(1) << RTC_MODE1_INTFLAG_PER3_Pos)
+#define RTC_MODE1_INTFLAG_PER4_Pos  4            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 4 */
+#define RTC_MODE1_INTFLAG_PER4      (_U_(1) << RTC_MODE1_INTFLAG_PER4_Pos)
+#define RTC_MODE1_INTFLAG_PER5_Pos  5            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 5 */
+#define RTC_MODE1_INTFLAG_PER5      (_U_(1) << RTC_MODE1_INTFLAG_PER5_Pos)
+#define RTC_MODE1_INTFLAG_PER6_Pos  6            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 6 */
+#define RTC_MODE1_INTFLAG_PER6      (_U_(1) << RTC_MODE1_INTFLAG_PER6_Pos)
+#define RTC_MODE1_INTFLAG_PER7_Pos  7            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval 7 */
+#define RTC_MODE1_INTFLAG_PER7      (_U_(1) << RTC_MODE1_INTFLAG_PER7_Pos)
+#define RTC_MODE1_INTFLAG_PER_Pos   0            /**< \brief (RTC_MODE1_INTFLAG) Periodic Interval x */
+#define RTC_MODE1_INTFLAG_PER_Msk   (_U_(0xFF) << RTC_MODE1_INTFLAG_PER_Pos)
+#define RTC_MODE1_INTFLAG_PER(value) (RTC_MODE1_INTFLAG_PER_Msk & ((value) << RTC_MODE1_INTFLAG_PER_Pos))
+#define RTC_MODE1_INTFLAG_CMP0_Pos  8            /**< \brief (RTC_MODE1_INTFLAG) Compare 0 */
+#define RTC_MODE1_INTFLAG_CMP0      (_U_(1) << RTC_MODE1_INTFLAG_CMP0_Pos)
+#define RTC_MODE1_INTFLAG_CMP1_Pos  9            /**< \brief (RTC_MODE1_INTFLAG) Compare 1 */
+#define RTC_MODE1_INTFLAG_CMP1      (_U_(1) << RTC_MODE1_INTFLAG_CMP1_Pos)
+#define RTC_MODE1_INTFLAG_CMP_Pos   8            /**< \brief (RTC_MODE1_INTFLAG) Compare x */
+#define RTC_MODE1_INTFLAG_CMP_Msk   (_U_(0x3) << RTC_MODE1_INTFLAG_CMP_Pos)
+#define RTC_MODE1_INTFLAG_CMP(value) (RTC_MODE1_INTFLAG_CMP_Msk & ((value) << RTC_MODE1_INTFLAG_CMP_Pos))
+#define RTC_MODE1_INTFLAG_TAMPER_Pos 14           /**< \brief (RTC_MODE1_INTFLAG) Tamper */
+#define RTC_MODE1_INTFLAG_TAMPER    (_U_(0x1) << RTC_MODE1_INTFLAG_TAMPER_Pos)
+#define RTC_MODE1_INTFLAG_OVF_Pos   15           /**< \brief (RTC_MODE1_INTFLAG) Overflow */
+#define RTC_MODE1_INTFLAG_OVF       (_U_(0x1) << RTC_MODE1_INTFLAG_OVF_Pos)
+#define RTC_MODE1_INTFLAG_MASK      _U_(0xC3FF)  /**< \brief (RTC_MODE1_INTFLAG) MASK Register */
+
+/* -------- RTC_MODE2_INTFLAG : (RTC Offset: 0x0C) (R/W 16) MODE2 MODE2 Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint16_t PER0:1;           /*!< bit:      0  Periodic Interval 0                */
+    __I uint16_t PER1:1;           /*!< bit:      1  Periodic Interval 1                */
+    __I uint16_t PER2:1;           /*!< bit:      2  Periodic Interval 2                */
+    __I uint16_t PER3:1;           /*!< bit:      3  Periodic Interval 3                */
+    __I uint16_t PER4:1;           /*!< bit:      4  Periodic Interval 4                */
+    __I uint16_t PER5:1;           /*!< bit:      5  Periodic Interval 5                */
+    __I uint16_t PER6:1;           /*!< bit:      6  Periodic Interval 6                */
+    __I uint16_t PER7:1;           /*!< bit:      7  Periodic Interval 7                */
+    __I uint16_t ALARM0:1;         /*!< bit:      8  Alarm 0                            */
+    __I uint16_t :5;               /*!< bit:  9..13  Reserved                           */
+    __I uint16_t TAMPER:1;         /*!< bit:     14  Tamper                             */
+    __I uint16_t OVF:1;            /*!< bit:     15  Overflow                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint16_t PER:8;            /*!< bit:  0.. 7  Periodic Interval x                */
+    __I uint16_t ALARM:1;          /*!< bit:      8  Alarm x                            */
+    __I uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_INTFLAG_OFFSET    0x0C         /**< \brief (RTC_MODE2_INTFLAG offset) MODE2 Interrupt Flag Status and Clear */
+#define RTC_MODE2_INTFLAG_RESETVALUE _U_(0x0000)  /**< \brief (RTC_MODE2_INTFLAG reset_value) MODE2 Interrupt Flag Status and Clear */
+
+#define RTC_MODE2_INTFLAG_PER0_Pos  0            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 0 */
+#define RTC_MODE2_INTFLAG_PER0      (_U_(1) << RTC_MODE2_INTFLAG_PER0_Pos)
+#define RTC_MODE2_INTFLAG_PER1_Pos  1            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 1 */
+#define RTC_MODE2_INTFLAG_PER1      (_U_(1) << RTC_MODE2_INTFLAG_PER1_Pos)
+#define RTC_MODE2_INTFLAG_PER2_Pos  2            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 2 */
+#define RTC_MODE2_INTFLAG_PER2      (_U_(1) << RTC_MODE2_INTFLAG_PER2_Pos)
+#define RTC_MODE2_INTFLAG_PER3_Pos  3            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 3 */
+#define RTC_MODE2_INTFLAG_PER3      (_U_(1) << RTC_MODE2_INTFLAG_PER3_Pos)
+#define RTC_MODE2_INTFLAG_PER4_Pos  4            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 4 */
+#define RTC_MODE2_INTFLAG_PER4      (_U_(1) << RTC_MODE2_INTFLAG_PER4_Pos)
+#define RTC_MODE2_INTFLAG_PER5_Pos  5            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 5 */
+#define RTC_MODE2_INTFLAG_PER5      (_U_(1) << RTC_MODE2_INTFLAG_PER5_Pos)
+#define RTC_MODE2_INTFLAG_PER6_Pos  6            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 6 */
+#define RTC_MODE2_INTFLAG_PER6      (_U_(1) << RTC_MODE2_INTFLAG_PER6_Pos)
+#define RTC_MODE2_INTFLAG_PER7_Pos  7            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval 7 */
+#define RTC_MODE2_INTFLAG_PER7      (_U_(1) << RTC_MODE2_INTFLAG_PER7_Pos)
+#define RTC_MODE2_INTFLAG_PER_Pos   0            /**< \brief (RTC_MODE2_INTFLAG) Periodic Interval x */
+#define RTC_MODE2_INTFLAG_PER_Msk   (_U_(0xFF) << RTC_MODE2_INTFLAG_PER_Pos)
+#define RTC_MODE2_INTFLAG_PER(value) (RTC_MODE2_INTFLAG_PER_Msk & ((value) << RTC_MODE2_INTFLAG_PER_Pos))
+#define RTC_MODE2_INTFLAG_ALARM0_Pos 8            /**< \brief (RTC_MODE2_INTFLAG) Alarm 0 */
+#define RTC_MODE2_INTFLAG_ALARM0    (_U_(1) << RTC_MODE2_INTFLAG_ALARM0_Pos)
+#define RTC_MODE2_INTFLAG_ALARM_Pos 8            /**< \brief (RTC_MODE2_INTFLAG) Alarm x */
+#define RTC_MODE2_INTFLAG_ALARM_Msk (_U_(0x1) << RTC_MODE2_INTFLAG_ALARM_Pos)
+#define RTC_MODE2_INTFLAG_ALARM(value) (RTC_MODE2_INTFLAG_ALARM_Msk & ((value) << RTC_MODE2_INTFLAG_ALARM_Pos))
+#define RTC_MODE2_INTFLAG_TAMPER_Pos 14           /**< \brief (RTC_MODE2_INTFLAG) Tamper */
+#define RTC_MODE2_INTFLAG_TAMPER    (_U_(0x1) << RTC_MODE2_INTFLAG_TAMPER_Pos)
+#define RTC_MODE2_INTFLAG_OVF_Pos   15           /**< \brief (RTC_MODE2_INTFLAG) Overflow */
+#define RTC_MODE2_INTFLAG_OVF       (_U_(0x1) << RTC_MODE2_INTFLAG_OVF_Pos)
+#define RTC_MODE2_INTFLAG_MASK      _U_(0xC1FF)  /**< \brief (RTC_MODE2_INTFLAG) MASK Register */
+
+/* -------- RTC_DBGCTRL : (RTC Offset: 0x0E) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Run During Debug                   */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} RTC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_DBGCTRL_OFFSET          0x0E         /**< \brief (RTC_DBGCTRL offset) Debug Control */
+#define RTC_DBGCTRL_RESETVALUE      _U_(0x00)    /**< \brief (RTC_DBGCTRL reset_value) Debug Control */
+
+#define RTC_DBGCTRL_DBGRUN_Pos      0            /**< \brief (RTC_DBGCTRL) Run During Debug */
+#define RTC_DBGCTRL_DBGRUN          (_U_(0x1) << RTC_DBGCTRL_DBGRUN_Pos)
+#define RTC_DBGCTRL_MASK            _U_(0x01)    /**< \brief (RTC_DBGCTRL) MASK Register */
+
+/* -------- RTC_MODE0_SYNCBUSY : (RTC Offset: 0x10) (R/  32) MODE0 MODE0 Synchronization Busy Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Busy                */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Bit Busy                    */
+    uint32_t FREQCORR:1;       /*!< bit:      2  FREQCORR Register Busy             */
+    uint32_t COUNT:1;          /*!< bit:      3  COUNT Register Busy                */
+    uint32_t :1;               /*!< bit:      4  Reserved                           */
+    uint32_t COMP0:1;          /*!< bit:      5  COMP 0 Register Busy               */
+    uint32_t :9;               /*!< bit:  6..14  Reserved                           */
+    uint32_t COUNTSYNC:1;      /*!< bit:     15  Count Synchronization Enable Bit Busy */
+    uint32_t GP0:1;            /*!< bit:     16  General Purpose 0 Register Busy    */
+    uint32_t GP1:1;            /*!< bit:     17  General Purpose 1 Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :5;               /*!< bit:  0.. 4  Reserved                           */
+    uint32_t COMP:1;           /*!< bit:      5  COMP x Register Busy               */
+    uint32_t :10;              /*!< bit:  6..15  Reserved                           */
+    uint32_t GP:2;             /*!< bit: 16..17  General Purpose x Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_SYNCBUSY_OFFSET   0x10         /**< \brief (RTC_MODE0_SYNCBUSY offset) MODE0 Synchronization Busy Status */
+#define RTC_MODE0_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_SYNCBUSY reset_value) MODE0 Synchronization Busy Status */
+
+#define RTC_MODE0_SYNCBUSY_SWRST_Pos 0            /**< \brief (RTC_MODE0_SYNCBUSY) Software Reset Busy */
+#define RTC_MODE0_SYNCBUSY_SWRST    (_U_(0x1) << RTC_MODE0_SYNCBUSY_SWRST_Pos)
+#define RTC_MODE0_SYNCBUSY_ENABLE_Pos 1            /**< \brief (RTC_MODE0_SYNCBUSY) Enable Bit Busy */
+#define RTC_MODE0_SYNCBUSY_ENABLE   (_U_(0x1) << RTC_MODE0_SYNCBUSY_ENABLE_Pos)
+#define RTC_MODE0_SYNCBUSY_FREQCORR_Pos 2            /**< \brief (RTC_MODE0_SYNCBUSY) FREQCORR Register Busy */
+#define RTC_MODE0_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE0_SYNCBUSY_FREQCORR_Pos)
+#define RTC_MODE0_SYNCBUSY_COUNT_Pos 3            /**< \brief (RTC_MODE0_SYNCBUSY) COUNT Register Busy */
+#define RTC_MODE0_SYNCBUSY_COUNT    (_U_(0x1) << RTC_MODE0_SYNCBUSY_COUNT_Pos)
+#define RTC_MODE0_SYNCBUSY_COMP0_Pos 5            /**< \brief (RTC_MODE0_SYNCBUSY) COMP 0 Register Busy */
+#define RTC_MODE0_SYNCBUSY_COMP0    (_U_(1) << RTC_MODE0_SYNCBUSY_COMP0_Pos)
+#define RTC_MODE0_SYNCBUSY_COMP_Pos 5            /**< \brief (RTC_MODE0_SYNCBUSY) COMP x Register Busy */
+#define RTC_MODE0_SYNCBUSY_COMP_Msk (_U_(0x1) << RTC_MODE0_SYNCBUSY_COMP_Pos)
+#define RTC_MODE0_SYNCBUSY_COMP(value) (RTC_MODE0_SYNCBUSY_COMP_Msk & ((value) << RTC_MODE0_SYNCBUSY_COMP_Pos))
+#define RTC_MODE0_SYNCBUSY_COUNTSYNC_Pos 15           /**< \brief (RTC_MODE0_SYNCBUSY) Count Synchronization Enable Bit Busy */
+#define RTC_MODE0_SYNCBUSY_COUNTSYNC (_U_(0x1) << RTC_MODE0_SYNCBUSY_COUNTSYNC_Pos)
+#define RTC_MODE0_SYNCBUSY_GP0_Pos  16           /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 0 Register Busy */
+#define RTC_MODE0_SYNCBUSY_GP0      (_U_(1) << RTC_MODE0_SYNCBUSY_GP0_Pos)
+#define RTC_MODE0_SYNCBUSY_GP1_Pos  17           /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose 1 Register Busy */
+#define RTC_MODE0_SYNCBUSY_GP1      (_U_(1) << RTC_MODE0_SYNCBUSY_GP1_Pos)
+#define RTC_MODE0_SYNCBUSY_GP_Pos   16           /**< \brief (RTC_MODE0_SYNCBUSY) General Purpose x Register Busy */
+#define RTC_MODE0_SYNCBUSY_GP_Msk   (_U_(0x3) << RTC_MODE0_SYNCBUSY_GP_Pos)
+#define RTC_MODE0_SYNCBUSY_GP(value) (RTC_MODE0_SYNCBUSY_GP_Msk & ((value) << RTC_MODE0_SYNCBUSY_GP_Pos))
+#define RTC_MODE0_SYNCBUSY_MASK     _U_(0x0003802F) /**< \brief (RTC_MODE0_SYNCBUSY) MASK Register */
+
+/* -------- RTC_MODE1_SYNCBUSY : (RTC Offset: 0x10) (R/  32) MODE1 MODE1 Synchronization Busy Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Bit Busy            */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Bit Busy                    */
+    uint32_t FREQCORR:1;       /*!< bit:      2  FREQCORR Register Busy             */
+    uint32_t COUNT:1;          /*!< bit:      3  COUNT Register Busy                */
+    uint32_t PER:1;            /*!< bit:      4  PER Register Busy                  */
+    uint32_t COMP0:1;          /*!< bit:      5  COMP 0 Register Busy               */
+    uint32_t COMP1:1;          /*!< bit:      6  COMP 1 Register Busy               */
+    uint32_t :8;               /*!< bit:  7..14  Reserved                           */
+    uint32_t COUNTSYNC:1;      /*!< bit:     15  Count Synchronization Enable Bit Busy */
+    uint32_t GP0:1;            /*!< bit:     16  General Purpose 0 Register Busy    */
+    uint32_t GP1:1;            /*!< bit:     17  General Purpose 1 Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :5;               /*!< bit:  0.. 4  Reserved                           */
+    uint32_t COMP:2;           /*!< bit:  5.. 6  COMP x Register Busy               */
+    uint32_t :9;               /*!< bit:  7..15  Reserved                           */
+    uint32_t GP:2;             /*!< bit: 16..17  General Purpose x Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_SYNCBUSY_OFFSET   0x10         /**< \brief (RTC_MODE1_SYNCBUSY offset) MODE1 Synchronization Busy Status */
+#define RTC_MODE1_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_SYNCBUSY reset_value) MODE1 Synchronization Busy Status */
+
+#define RTC_MODE1_SYNCBUSY_SWRST_Pos 0            /**< \brief (RTC_MODE1_SYNCBUSY) Software Reset Bit Busy */
+#define RTC_MODE1_SYNCBUSY_SWRST    (_U_(0x1) << RTC_MODE1_SYNCBUSY_SWRST_Pos)
+#define RTC_MODE1_SYNCBUSY_ENABLE_Pos 1            /**< \brief (RTC_MODE1_SYNCBUSY) Enable Bit Busy */
+#define RTC_MODE1_SYNCBUSY_ENABLE   (_U_(0x1) << RTC_MODE1_SYNCBUSY_ENABLE_Pos)
+#define RTC_MODE1_SYNCBUSY_FREQCORR_Pos 2            /**< \brief (RTC_MODE1_SYNCBUSY) FREQCORR Register Busy */
+#define RTC_MODE1_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE1_SYNCBUSY_FREQCORR_Pos)
+#define RTC_MODE1_SYNCBUSY_COUNT_Pos 3            /**< \brief (RTC_MODE1_SYNCBUSY) COUNT Register Busy */
+#define RTC_MODE1_SYNCBUSY_COUNT    (_U_(0x1) << RTC_MODE1_SYNCBUSY_COUNT_Pos)
+#define RTC_MODE1_SYNCBUSY_PER_Pos  4            /**< \brief (RTC_MODE1_SYNCBUSY) PER Register Busy */
+#define RTC_MODE1_SYNCBUSY_PER      (_U_(0x1) << RTC_MODE1_SYNCBUSY_PER_Pos)
+#define RTC_MODE1_SYNCBUSY_COMP0_Pos 5            /**< \brief (RTC_MODE1_SYNCBUSY) COMP 0 Register Busy */
+#define RTC_MODE1_SYNCBUSY_COMP0    (_U_(1) << RTC_MODE1_SYNCBUSY_COMP0_Pos)
+#define RTC_MODE1_SYNCBUSY_COMP1_Pos 6            /**< \brief (RTC_MODE1_SYNCBUSY) COMP 1 Register Busy */
+#define RTC_MODE1_SYNCBUSY_COMP1    (_U_(1) << RTC_MODE1_SYNCBUSY_COMP1_Pos)
+#define RTC_MODE1_SYNCBUSY_COMP_Pos 5            /**< \brief (RTC_MODE1_SYNCBUSY) COMP x Register Busy */
+#define RTC_MODE1_SYNCBUSY_COMP_Msk (_U_(0x3) << RTC_MODE1_SYNCBUSY_COMP_Pos)
+#define RTC_MODE1_SYNCBUSY_COMP(value) (RTC_MODE1_SYNCBUSY_COMP_Msk & ((value) << RTC_MODE1_SYNCBUSY_COMP_Pos))
+#define RTC_MODE1_SYNCBUSY_COUNTSYNC_Pos 15           /**< \brief (RTC_MODE1_SYNCBUSY) Count Synchronization Enable Bit Busy */
+#define RTC_MODE1_SYNCBUSY_COUNTSYNC (_U_(0x1) << RTC_MODE1_SYNCBUSY_COUNTSYNC_Pos)
+#define RTC_MODE1_SYNCBUSY_GP0_Pos  16           /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 0 Register Busy */
+#define RTC_MODE1_SYNCBUSY_GP0      (_U_(1) << RTC_MODE1_SYNCBUSY_GP0_Pos)
+#define RTC_MODE1_SYNCBUSY_GP1_Pos  17           /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose 1 Register Busy */
+#define RTC_MODE1_SYNCBUSY_GP1      (_U_(1) << RTC_MODE1_SYNCBUSY_GP1_Pos)
+#define RTC_MODE1_SYNCBUSY_GP_Pos   16           /**< \brief (RTC_MODE1_SYNCBUSY) General Purpose x Register Busy */
+#define RTC_MODE1_SYNCBUSY_GP_Msk   (_U_(0x3) << RTC_MODE1_SYNCBUSY_GP_Pos)
+#define RTC_MODE1_SYNCBUSY_GP(value) (RTC_MODE1_SYNCBUSY_GP_Msk & ((value) << RTC_MODE1_SYNCBUSY_GP_Pos))
+#define RTC_MODE1_SYNCBUSY_MASK     _U_(0x0003807F) /**< \brief (RTC_MODE1_SYNCBUSY) MASK Register */
+
+/* -------- RTC_MODE2_SYNCBUSY : (RTC Offset: 0x10) (R/  32) MODE2 MODE2 Synchronization Busy Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Bit Busy            */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Bit Busy                    */
+    uint32_t FREQCORR:1;       /*!< bit:      2  FREQCORR Register Busy             */
+    uint32_t CLOCK:1;          /*!< bit:      3  CLOCK Register Busy                */
+    uint32_t :1;               /*!< bit:      4  Reserved                           */
+    uint32_t ALARM0:1;         /*!< bit:      5  ALARM 0 Register Busy              */
+    uint32_t :5;               /*!< bit:  6..10  Reserved                           */
+    uint32_t MASK0:1;          /*!< bit:     11  MASK 0 Register Busy               */
+    uint32_t :3;               /*!< bit: 12..14  Reserved                           */
+    uint32_t CLOCKSYNC:1;      /*!< bit:     15  Clock Synchronization Enable Bit Busy */
+    uint32_t GP0:1;            /*!< bit:     16  General Purpose 0 Register Busy    */
+    uint32_t GP1:1;            /*!< bit:     17  General Purpose 1 Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :5;               /*!< bit:  0.. 4  Reserved                           */
+    uint32_t ALARM:1;          /*!< bit:      5  ALARM x Register Busy              */
+    uint32_t :5;               /*!< bit:  6..10  Reserved                           */
+    uint32_t MASK:1;           /*!< bit:     11  MASK x Register Busy               */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t GP:2;             /*!< bit: 16..17  General Purpose x Register Busy    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_SYNCBUSY_OFFSET   0x10         /**< \brief (RTC_MODE2_SYNCBUSY offset) MODE2 Synchronization Busy Status */
+#define RTC_MODE2_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_SYNCBUSY reset_value) MODE2 Synchronization Busy Status */
+
+#define RTC_MODE2_SYNCBUSY_SWRST_Pos 0            /**< \brief (RTC_MODE2_SYNCBUSY) Software Reset Bit Busy */
+#define RTC_MODE2_SYNCBUSY_SWRST    (_U_(0x1) << RTC_MODE2_SYNCBUSY_SWRST_Pos)
+#define RTC_MODE2_SYNCBUSY_ENABLE_Pos 1            /**< \brief (RTC_MODE2_SYNCBUSY) Enable Bit Busy */
+#define RTC_MODE2_SYNCBUSY_ENABLE   (_U_(0x1) << RTC_MODE2_SYNCBUSY_ENABLE_Pos)
+#define RTC_MODE2_SYNCBUSY_FREQCORR_Pos 2            /**< \brief (RTC_MODE2_SYNCBUSY) FREQCORR Register Busy */
+#define RTC_MODE2_SYNCBUSY_FREQCORR (_U_(0x1) << RTC_MODE2_SYNCBUSY_FREQCORR_Pos)
+#define RTC_MODE2_SYNCBUSY_CLOCK_Pos 3            /**< \brief (RTC_MODE2_SYNCBUSY) CLOCK Register Busy */
+#define RTC_MODE2_SYNCBUSY_CLOCK    (_U_(0x1) << RTC_MODE2_SYNCBUSY_CLOCK_Pos)
+#define RTC_MODE2_SYNCBUSY_ALARM0_Pos 5            /**< \brief (RTC_MODE2_SYNCBUSY) ALARM 0 Register Busy */
+#define RTC_MODE2_SYNCBUSY_ALARM0   (_U_(1) << RTC_MODE2_SYNCBUSY_ALARM0_Pos)
+#define RTC_MODE2_SYNCBUSY_ALARM_Pos 5            /**< \brief (RTC_MODE2_SYNCBUSY) ALARM x Register Busy */
+#define RTC_MODE2_SYNCBUSY_ALARM_Msk (_U_(0x1) << RTC_MODE2_SYNCBUSY_ALARM_Pos)
+#define RTC_MODE2_SYNCBUSY_ALARM(value) (RTC_MODE2_SYNCBUSY_ALARM_Msk & ((value) << RTC_MODE2_SYNCBUSY_ALARM_Pos))
+#define RTC_MODE2_SYNCBUSY_MASK0_Pos 11           /**< \brief (RTC_MODE2_SYNCBUSY) MASK 0 Register Busy */
+#define RTC_MODE2_SYNCBUSY_MASK0    (_U_(1) << RTC_MODE2_SYNCBUSY_MASK0_Pos)
+#define RTC_MODE2_SYNCBUSY_MASK_Pos 11           /**< \brief (RTC_MODE2_SYNCBUSY) MASK x Register Busy */
+#define RTC_MODE2_SYNCBUSY_MASK_Msk (_U_(0x1) << RTC_MODE2_SYNCBUSY_MASK_Pos)
+#define RTC_MODE2_SYNCBUSY_MASK(value) (RTC_MODE2_SYNCBUSY_MASK_Msk & ((value) << RTC_MODE2_SYNCBUSY_MASK_Pos))
+#define RTC_MODE2_SYNCBUSY_CLOCKSYNC_Pos 15           /**< \brief (RTC_MODE2_SYNCBUSY) Clock Synchronization Enable Bit Busy */
+#define RTC_MODE2_SYNCBUSY_CLOCKSYNC (_U_(0x1) << RTC_MODE2_SYNCBUSY_CLOCKSYNC_Pos)
+#define RTC_MODE2_SYNCBUSY_GP0_Pos  16           /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 0 Register Busy */
+#define RTC_MODE2_SYNCBUSY_GP0      (_U_(1) << RTC_MODE2_SYNCBUSY_GP0_Pos)
+#define RTC_MODE2_SYNCBUSY_GP1_Pos  17           /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose 1 Register Busy */
+#define RTC_MODE2_SYNCBUSY_GP1      (_U_(1) << RTC_MODE2_SYNCBUSY_GP1_Pos)
+#define RTC_MODE2_SYNCBUSY_GP_Pos   16           /**< \brief (RTC_MODE2_SYNCBUSY) General Purpose x Register Busy */
+#define RTC_MODE2_SYNCBUSY_GP_Msk   (_U_(0x3) << RTC_MODE2_SYNCBUSY_GP_Pos)
+#define RTC_MODE2_SYNCBUSY_GP(value) (RTC_MODE2_SYNCBUSY_GP_Msk & ((value) << RTC_MODE2_SYNCBUSY_GP_Pos))
+#define RTC_MODE2_SYNCBUSY_MASK_    _U_(0x0003882F) /**< \brief (RTC_MODE2_SYNCBUSY) MASK Register */
+
+/* -------- RTC_FREQCORR : (RTC Offset: 0x14) (R/W  8) Frequency Correction -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  VALUE:7;          /*!< bit:  0.. 6  Correction Value                   */
+    uint8_t  SIGN:1;           /*!< bit:      7  Correction Sign                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} RTC_FREQCORR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_FREQCORR_OFFSET         0x14         /**< \brief (RTC_FREQCORR offset) Frequency Correction */
+#define RTC_FREQCORR_RESETVALUE     _U_(0x00)    /**< \brief (RTC_FREQCORR reset_value) Frequency Correction */
+
+#define RTC_FREQCORR_VALUE_Pos      0            /**< \brief (RTC_FREQCORR) Correction Value */
+#define RTC_FREQCORR_VALUE_Msk      (_U_(0x7F) << RTC_FREQCORR_VALUE_Pos)
+#define RTC_FREQCORR_VALUE(value)   (RTC_FREQCORR_VALUE_Msk & ((value) << RTC_FREQCORR_VALUE_Pos))
+#define RTC_FREQCORR_SIGN_Pos       7            /**< \brief (RTC_FREQCORR) Correction Sign */
+#define RTC_FREQCORR_SIGN           (_U_(0x1) << RTC_FREQCORR_SIGN_Pos)
+#define RTC_FREQCORR_MASK           _U_(0xFF)    /**< \brief (RTC_FREQCORR) MASK Register */
+
+/* -------- RTC_MODE0_COUNT : (RTC Offset: 0x18) (R/W 32) MODE0 MODE0 Counter Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t COUNT:32;         /*!< bit:  0..31  Counter Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_COUNT_OFFSET      0x18         /**< \brief (RTC_MODE0_COUNT offset) MODE0 Counter Value */
+#define RTC_MODE0_COUNT_RESETVALUE  _U_(0x00000000) /**< \brief (RTC_MODE0_COUNT reset_value) MODE0 Counter Value */
+
+#define RTC_MODE0_COUNT_COUNT_Pos   0            /**< \brief (RTC_MODE0_COUNT) Counter Value */
+#define RTC_MODE0_COUNT_COUNT_Msk   (_U_(0xFFFFFFFF) << RTC_MODE0_COUNT_COUNT_Pos)
+#define RTC_MODE0_COUNT_COUNT(value) (RTC_MODE0_COUNT_COUNT_Msk & ((value) << RTC_MODE0_COUNT_COUNT_Pos))
+#define RTC_MODE0_COUNT_MASK        _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_COUNT) MASK Register */
+
+/* -------- RTC_MODE1_COUNT : (RTC Offset: 0x18) (R/W 16) MODE1 MODE1 Counter Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t COUNT:16;         /*!< bit:  0..15  Counter Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_COUNT_OFFSET      0x18         /**< \brief (RTC_MODE1_COUNT offset) MODE1 Counter Value */
+#define RTC_MODE1_COUNT_RESETVALUE  _U_(0x0000)  /**< \brief (RTC_MODE1_COUNT reset_value) MODE1 Counter Value */
+
+#define RTC_MODE1_COUNT_COUNT_Pos   0            /**< \brief (RTC_MODE1_COUNT) Counter Value */
+#define RTC_MODE1_COUNT_COUNT_Msk   (_U_(0xFFFF) << RTC_MODE1_COUNT_COUNT_Pos)
+#define RTC_MODE1_COUNT_COUNT(value) (RTC_MODE1_COUNT_COUNT_Msk & ((value) << RTC_MODE1_COUNT_COUNT_Pos))
+#define RTC_MODE1_COUNT_MASK        _U_(0xFFFF)  /**< \brief (RTC_MODE1_COUNT) MASK Register */
+
+/* -------- RTC_MODE2_CLOCK : (RTC Offset: 0x18) (R/W 32) MODE2 MODE2 Clock Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SECOND:6;         /*!< bit:  0.. 5  Second                             */
+    uint32_t MINUTE:6;         /*!< bit:  6..11  Minute                             */
+    uint32_t HOUR:5;           /*!< bit: 12..16  Hour                               */
+    uint32_t DAY:5;            /*!< bit: 17..21  Day                                */
+    uint32_t MONTH:4;          /*!< bit: 22..25  Month                              */
+    uint32_t YEAR:6;           /*!< bit: 26..31  Year                               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_CLOCK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_CLOCK_OFFSET      0x18         /**< \brief (RTC_MODE2_CLOCK offset) MODE2 Clock Value */
+#define RTC_MODE2_CLOCK_RESETVALUE  _U_(0x00000000) /**< \brief (RTC_MODE2_CLOCK reset_value) MODE2 Clock Value */
+
+#define RTC_MODE2_CLOCK_SECOND_Pos  0            /**< \brief (RTC_MODE2_CLOCK) Second */
+#define RTC_MODE2_CLOCK_SECOND_Msk  (_U_(0x3F) << RTC_MODE2_CLOCK_SECOND_Pos)
+#define RTC_MODE2_CLOCK_SECOND(value) (RTC_MODE2_CLOCK_SECOND_Msk & ((value) << RTC_MODE2_CLOCK_SECOND_Pos))
+#define RTC_MODE2_CLOCK_MINUTE_Pos  6            /**< \brief (RTC_MODE2_CLOCK) Minute */
+#define RTC_MODE2_CLOCK_MINUTE_Msk  (_U_(0x3F) << RTC_MODE2_CLOCK_MINUTE_Pos)
+#define RTC_MODE2_CLOCK_MINUTE(value) (RTC_MODE2_CLOCK_MINUTE_Msk & ((value) << RTC_MODE2_CLOCK_MINUTE_Pos))
+#define RTC_MODE2_CLOCK_HOUR_Pos    12           /**< \brief (RTC_MODE2_CLOCK) Hour */
+#define RTC_MODE2_CLOCK_HOUR_Msk    (_U_(0x1F) << RTC_MODE2_CLOCK_HOUR_Pos)
+#define RTC_MODE2_CLOCK_HOUR(value) (RTC_MODE2_CLOCK_HOUR_Msk & ((value) << RTC_MODE2_CLOCK_HOUR_Pos))
+#define   RTC_MODE2_CLOCK_HOUR_AM_Val     _U_(0x0)   /**< \brief (RTC_MODE2_CLOCK) AM when CLKREP in 12-hour */
+#define   RTC_MODE2_CLOCK_HOUR_PM_Val     _U_(0x10)   /**< \brief (RTC_MODE2_CLOCK) PM when CLKREP in 12-hour */
+#define RTC_MODE2_CLOCK_HOUR_AM     (RTC_MODE2_CLOCK_HOUR_AM_Val   << RTC_MODE2_CLOCK_HOUR_Pos)
+#define RTC_MODE2_CLOCK_HOUR_PM     (RTC_MODE2_CLOCK_HOUR_PM_Val   << RTC_MODE2_CLOCK_HOUR_Pos)
+#define RTC_MODE2_CLOCK_DAY_Pos     17           /**< \brief (RTC_MODE2_CLOCK) Day */
+#define RTC_MODE2_CLOCK_DAY_Msk     (_U_(0x1F) << RTC_MODE2_CLOCK_DAY_Pos)
+#define RTC_MODE2_CLOCK_DAY(value)  (RTC_MODE2_CLOCK_DAY_Msk & ((value) << RTC_MODE2_CLOCK_DAY_Pos))
+#define RTC_MODE2_CLOCK_MONTH_Pos   22           /**< \brief (RTC_MODE2_CLOCK) Month */
+#define RTC_MODE2_CLOCK_MONTH_Msk   (_U_(0xF) << RTC_MODE2_CLOCK_MONTH_Pos)
+#define RTC_MODE2_CLOCK_MONTH(value) (RTC_MODE2_CLOCK_MONTH_Msk & ((value) << RTC_MODE2_CLOCK_MONTH_Pos))
+#define RTC_MODE2_CLOCK_YEAR_Pos    26           /**< \brief (RTC_MODE2_CLOCK) Year */
+#define RTC_MODE2_CLOCK_YEAR_Msk    (_U_(0x3F) << RTC_MODE2_CLOCK_YEAR_Pos)
+#define RTC_MODE2_CLOCK_YEAR(value) (RTC_MODE2_CLOCK_YEAR_Msk & ((value) << RTC_MODE2_CLOCK_YEAR_Pos))
+#define RTC_MODE2_CLOCK_MASK        _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_CLOCK) MASK Register */
+
+/* -------- RTC_MODE1_PER : (RTC Offset: 0x1C) (R/W 16) MODE1 MODE1 Counter Period -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PER:16;           /*!< bit:  0..15  Counter Period                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_PER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_PER_OFFSET        0x1C         /**< \brief (RTC_MODE1_PER offset) MODE1 Counter Period */
+#define RTC_MODE1_PER_RESETVALUE    _U_(0x0000)  /**< \brief (RTC_MODE1_PER reset_value) MODE1 Counter Period */
+
+#define RTC_MODE1_PER_PER_Pos       0            /**< \brief (RTC_MODE1_PER) Counter Period */
+#define RTC_MODE1_PER_PER_Msk       (_U_(0xFFFF) << RTC_MODE1_PER_PER_Pos)
+#define RTC_MODE1_PER_PER(value)    (RTC_MODE1_PER_PER_Msk & ((value) << RTC_MODE1_PER_PER_Pos))
+#define RTC_MODE1_PER_MASK          _U_(0xFFFF)  /**< \brief (RTC_MODE1_PER) MASK Register */
+
+/* -------- RTC_MODE0_COMP : (RTC Offset: 0x20) (R/W 32) MODE0 MODE0 Compare n Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t COMP:32;          /*!< bit:  0..31  Compare Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_COMP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_COMP_OFFSET       0x20         /**< \brief (RTC_MODE0_COMP offset) MODE0 Compare n Value */
+#define RTC_MODE0_COMP_RESETVALUE   _U_(0x00000000) /**< \brief (RTC_MODE0_COMP reset_value) MODE0 Compare n Value */
+
+#define RTC_MODE0_COMP_COMP_Pos     0            /**< \brief (RTC_MODE0_COMP) Compare Value */
+#define RTC_MODE0_COMP_COMP_Msk     (_U_(0xFFFFFFFF) << RTC_MODE0_COMP_COMP_Pos)
+#define RTC_MODE0_COMP_COMP(value)  (RTC_MODE0_COMP_COMP_Msk & ((value) << RTC_MODE0_COMP_COMP_Pos))
+#define RTC_MODE0_COMP_MASK         _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_COMP) MASK Register */
+
+/* -------- RTC_MODE1_COMP : (RTC Offset: 0x20) (R/W 16) MODE1 MODE1 Compare n Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t COMP:16;          /*!< bit:  0..15  Compare Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_COMP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_COMP_OFFSET       0x20         /**< \brief (RTC_MODE1_COMP offset) MODE1 Compare n Value */
+#define RTC_MODE1_COMP_RESETVALUE   _U_(0x0000)  /**< \brief (RTC_MODE1_COMP reset_value) MODE1 Compare n Value */
+
+#define RTC_MODE1_COMP_COMP_Pos     0            /**< \brief (RTC_MODE1_COMP) Compare Value */
+#define RTC_MODE1_COMP_COMP_Msk     (_U_(0xFFFF) << RTC_MODE1_COMP_COMP_Pos)
+#define RTC_MODE1_COMP_COMP(value)  (RTC_MODE1_COMP_COMP_Msk & ((value) << RTC_MODE1_COMP_COMP_Pos))
+#define RTC_MODE1_COMP_MASK         _U_(0xFFFF)  /**< \brief (RTC_MODE1_COMP) MASK Register */
+
+/* -------- RTC_MODE2_ALARM : (RTC Offset: 0x20) (R/W 32) MODE2 MODE2_ALARM Alarm n Value -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SECOND:6;         /*!< bit:  0.. 5  Second                             */
+    uint32_t MINUTE:6;         /*!< bit:  6..11  Minute                             */
+    uint32_t HOUR:5;           /*!< bit: 12..16  Hour                               */
+    uint32_t DAY:5;            /*!< bit: 17..21  Day                                */
+    uint32_t MONTH:4;          /*!< bit: 22..25  Month                              */
+    uint32_t YEAR:6;           /*!< bit: 26..31  Year                               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_ALARM_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_ALARM_OFFSET      0x20         /**< \brief (RTC_MODE2_ALARM offset) MODE2_ALARM Alarm n Value */
+#define RTC_MODE2_ALARM_RESETVALUE  _U_(0x00000000) /**< \brief (RTC_MODE2_ALARM reset_value) MODE2_ALARM Alarm n Value */
+
+#define RTC_MODE2_ALARM_SECOND_Pos  0            /**< \brief (RTC_MODE2_ALARM) Second */
+#define RTC_MODE2_ALARM_SECOND_Msk  (_U_(0x3F) << RTC_MODE2_ALARM_SECOND_Pos)
+#define RTC_MODE2_ALARM_SECOND(value) (RTC_MODE2_ALARM_SECOND_Msk & ((value) << RTC_MODE2_ALARM_SECOND_Pos))
+#define RTC_MODE2_ALARM_MINUTE_Pos  6            /**< \brief (RTC_MODE2_ALARM) Minute */
+#define RTC_MODE2_ALARM_MINUTE_Msk  (_U_(0x3F) << RTC_MODE2_ALARM_MINUTE_Pos)
+#define RTC_MODE2_ALARM_MINUTE(value) (RTC_MODE2_ALARM_MINUTE_Msk & ((value) << RTC_MODE2_ALARM_MINUTE_Pos))
+#define RTC_MODE2_ALARM_HOUR_Pos    12           /**< \brief (RTC_MODE2_ALARM) Hour */
+#define RTC_MODE2_ALARM_HOUR_Msk    (_U_(0x1F) << RTC_MODE2_ALARM_HOUR_Pos)
+#define RTC_MODE2_ALARM_HOUR(value) (RTC_MODE2_ALARM_HOUR_Msk & ((value) << RTC_MODE2_ALARM_HOUR_Pos))
+#define   RTC_MODE2_ALARM_HOUR_AM_Val     _U_(0x0)   /**< \brief (RTC_MODE2_ALARM) Morning hour */
+#define   RTC_MODE2_ALARM_HOUR_PM_Val     _U_(0x10)   /**< \brief (RTC_MODE2_ALARM) Afternoon hour */
+#define RTC_MODE2_ALARM_HOUR_AM     (RTC_MODE2_ALARM_HOUR_AM_Val   << RTC_MODE2_ALARM_HOUR_Pos)
+#define RTC_MODE2_ALARM_HOUR_PM     (RTC_MODE2_ALARM_HOUR_PM_Val   << RTC_MODE2_ALARM_HOUR_Pos)
+#define RTC_MODE2_ALARM_DAY_Pos     17           /**< \brief (RTC_MODE2_ALARM) Day */
+#define RTC_MODE2_ALARM_DAY_Msk     (_U_(0x1F) << RTC_MODE2_ALARM_DAY_Pos)
+#define RTC_MODE2_ALARM_DAY(value)  (RTC_MODE2_ALARM_DAY_Msk & ((value) << RTC_MODE2_ALARM_DAY_Pos))
+#define RTC_MODE2_ALARM_MONTH_Pos   22           /**< \brief (RTC_MODE2_ALARM) Month */
+#define RTC_MODE2_ALARM_MONTH_Msk   (_U_(0xF) << RTC_MODE2_ALARM_MONTH_Pos)
+#define RTC_MODE2_ALARM_MONTH(value) (RTC_MODE2_ALARM_MONTH_Msk & ((value) << RTC_MODE2_ALARM_MONTH_Pos))
+#define RTC_MODE2_ALARM_YEAR_Pos    26           /**< \brief (RTC_MODE2_ALARM) Year */
+#define RTC_MODE2_ALARM_YEAR_Msk    (_U_(0x3F) << RTC_MODE2_ALARM_YEAR_Pos)
+#define RTC_MODE2_ALARM_YEAR(value) (RTC_MODE2_ALARM_YEAR_Msk & ((value) << RTC_MODE2_ALARM_YEAR_Pos))
+#define RTC_MODE2_ALARM_MASK        _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_ALARM) MASK Register */
+
+/* -------- RTC_MODE2_MASK : (RTC Offset: 0x24) (R/W  8) MODE2 MODE2_ALARM Alarm n Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SEL:3;            /*!< bit:  0.. 2  Alarm Mask Selection               */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} RTC_MODE2_MASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_MASK_OFFSET       0x24         /**< \brief (RTC_MODE2_MASK offset) MODE2_ALARM Alarm n Mask */
+#define RTC_MODE2_MASK_RESETVALUE   _U_(0x00)    /**< \brief (RTC_MODE2_MASK reset_value) MODE2_ALARM Alarm n Mask */
+
+#define RTC_MODE2_MASK_SEL_Pos      0            /**< \brief (RTC_MODE2_MASK) Alarm Mask Selection */
+#define RTC_MODE2_MASK_SEL_Msk      (_U_(0x7) << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL(value)   (RTC_MODE2_MASK_SEL_Msk & ((value) << RTC_MODE2_MASK_SEL_Pos))
+#define   RTC_MODE2_MASK_SEL_OFF_Val      _U_(0x0)   /**< \brief (RTC_MODE2_MASK) Alarm Disabled */
+#define   RTC_MODE2_MASK_SEL_SS_Val       _U_(0x1)   /**< \brief (RTC_MODE2_MASK) Match seconds only */
+#define   RTC_MODE2_MASK_SEL_MMSS_Val     _U_(0x2)   /**< \brief (RTC_MODE2_MASK) Match seconds and minutes only */
+#define   RTC_MODE2_MASK_SEL_HHMMSS_Val   _U_(0x3)   /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, and hours only */
+#define   RTC_MODE2_MASK_SEL_DDHHMMSS_Val _U_(0x4)   /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, and days only */
+#define   RTC_MODE2_MASK_SEL_MMDDHHMMSS_Val _U_(0x5)   /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, days, and months only */
+#define   RTC_MODE2_MASK_SEL_YYMMDDHHMMSS_Val _U_(0x6)   /**< \brief (RTC_MODE2_MASK) Match seconds, minutes, hours, days, months, and years */
+#define RTC_MODE2_MASK_SEL_OFF      (RTC_MODE2_MASK_SEL_OFF_Val    << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_SS       (RTC_MODE2_MASK_SEL_SS_Val     << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_MMSS     (RTC_MODE2_MASK_SEL_MMSS_Val   << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_HHMMSS   (RTC_MODE2_MASK_SEL_HHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_DDHHMMSS (RTC_MODE2_MASK_SEL_DDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_MMDDHHMMSS (RTC_MODE2_MASK_SEL_MMDDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_SEL_YYMMDDHHMMSS (RTC_MODE2_MASK_SEL_YYMMDDHHMMSS_Val << RTC_MODE2_MASK_SEL_Pos)
+#define RTC_MODE2_MASK_MASK         _U_(0x07)    /**< \brief (RTC_MODE2_MASK) MASK Register */
+
+/* -------- RTC_GP : (RTC Offset: 0x40) (R/W 32) General Purpose -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t GP:32;            /*!< bit:  0..31  General Purpose                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_GP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_GP_OFFSET               0x40         /**< \brief (RTC_GP offset) General Purpose */
+#define RTC_GP_RESETVALUE           _U_(0x00000000) /**< \brief (RTC_GP reset_value) General Purpose */
+
+#define RTC_GP_GP_Pos               0            /**< \brief (RTC_GP) General Purpose */
+#define RTC_GP_GP_Msk               (_U_(0xFFFFFFFF) << RTC_GP_GP_Pos)
+#define RTC_GP_GP(value)            (RTC_GP_GP_Msk & ((value) << RTC_GP_GP_Pos))
+#define RTC_GP_MASK                 _U_(0xFFFFFFFF) /**< \brief (RTC_GP) MASK Register */
+
+/* -------- RTC_TAMPCTRL : (RTC Offset: 0x60) (R/W 32) Tamper Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t IN0ACT:2;         /*!< bit:  0.. 1  Tamper Input 0 Action              */
+    uint32_t IN1ACT:2;         /*!< bit:  2.. 3  Tamper Input 1 Action              */
+    uint32_t IN2ACT:2;         /*!< bit:  4.. 5  Tamper Input 2 Action              */
+    uint32_t IN3ACT:2;         /*!< bit:  6.. 7  Tamper Input 3 Action              */
+    uint32_t IN4ACT:2;         /*!< bit:  8.. 9  Tamper Input 4 Action              */
+    uint32_t :6;               /*!< bit: 10..15  Reserved                           */
+    uint32_t TAMLVL0:1;        /*!< bit:     16  Tamper Level Select 0              */
+    uint32_t TAMLVL1:1;        /*!< bit:     17  Tamper Level Select 1              */
+    uint32_t TAMLVL2:1;        /*!< bit:     18  Tamper Level Select 2              */
+    uint32_t TAMLVL3:1;        /*!< bit:     19  Tamper Level Select 3              */
+    uint32_t TAMLVL4:1;        /*!< bit:     20  Tamper Level Select 4              */
+    uint32_t :3;               /*!< bit: 21..23  Reserved                           */
+    uint32_t DEBNC0:1;         /*!< bit:     24  Debouncer Enable 0                 */
+    uint32_t DEBNC1:1;         /*!< bit:     25  Debouncer Enable 1                 */
+    uint32_t DEBNC2:1;         /*!< bit:     26  Debouncer Enable 2                 */
+    uint32_t DEBNC3:1;         /*!< bit:     27  Debouncer Enable 3                 */
+    uint32_t DEBNC4:1;         /*!< bit:     28  Debouncer Enable 4                 */
+    uint32_t :3;               /*!< bit: 29..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    uint32_t TAMLVL:5;         /*!< bit: 16..20  Tamper Level Select x              */
+    uint32_t :3;               /*!< bit: 21..23  Reserved                           */
+    uint32_t DEBNC:5;          /*!< bit: 24..28  Debouncer Enable x                 */
+    uint32_t :3;               /*!< bit: 29..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_TAMPCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_TAMPCTRL_OFFSET         0x60         /**< \brief (RTC_TAMPCTRL offset) Tamper Control */
+#define RTC_TAMPCTRL_RESETVALUE     _U_(0x00000000) /**< \brief (RTC_TAMPCTRL reset_value) Tamper Control */
+
+#define RTC_TAMPCTRL_IN0ACT_Pos     0            /**< \brief (RTC_TAMPCTRL) Tamper Input 0 Action */
+#define RTC_TAMPCTRL_IN0ACT_Msk     (_U_(0x3) << RTC_TAMPCTRL_IN0ACT_Pos)
+#define RTC_TAMPCTRL_IN0ACT(value)  (RTC_TAMPCTRL_IN0ACT_Msk & ((value) << RTC_TAMPCTRL_IN0ACT_Pos))
+#define   RTC_TAMPCTRL_IN0ACT_OFF_Val     _U_(0x0)   /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
+#define   RTC_TAMPCTRL_IN0ACT_WAKE_Val    _U_(0x1)   /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
+#define   RTC_TAMPCTRL_IN0ACT_CAPTURE_Val _U_(0x2)   /**< \brief (RTC_TAMPCTRL) Capture timestamp */
+#define   RTC_TAMPCTRL_IN0ACT_ACTL_Val    _U_(0x3)   /**< \brief (RTC_TAMPCTRL) Compare IN0 to OUT */
+#define RTC_TAMPCTRL_IN0ACT_OFF     (RTC_TAMPCTRL_IN0ACT_OFF_Val   << RTC_TAMPCTRL_IN0ACT_Pos)
+#define RTC_TAMPCTRL_IN0ACT_WAKE    (RTC_TAMPCTRL_IN0ACT_WAKE_Val  << RTC_TAMPCTRL_IN0ACT_Pos)
+#define RTC_TAMPCTRL_IN0ACT_CAPTURE (RTC_TAMPCTRL_IN0ACT_CAPTURE_Val << RTC_TAMPCTRL_IN0ACT_Pos)
+#define RTC_TAMPCTRL_IN0ACT_ACTL    (RTC_TAMPCTRL_IN0ACT_ACTL_Val  << RTC_TAMPCTRL_IN0ACT_Pos)
+#define RTC_TAMPCTRL_IN1ACT_Pos     2            /**< \brief (RTC_TAMPCTRL) Tamper Input 1 Action */
+#define RTC_TAMPCTRL_IN1ACT_Msk     (_U_(0x3) << RTC_TAMPCTRL_IN1ACT_Pos)
+#define RTC_TAMPCTRL_IN1ACT(value)  (RTC_TAMPCTRL_IN1ACT_Msk & ((value) << RTC_TAMPCTRL_IN1ACT_Pos))
+#define   RTC_TAMPCTRL_IN1ACT_OFF_Val     _U_(0x0)   /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
+#define   RTC_TAMPCTRL_IN1ACT_WAKE_Val    _U_(0x1)   /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
+#define   RTC_TAMPCTRL_IN1ACT_CAPTURE_Val _U_(0x2)   /**< \brief (RTC_TAMPCTRL) Capture timestamp */
+#define   RTC_TAMPCTRL_IN1ACT_ACTL_Val    _U_(0x3)   /**< \brief (RTC_TAMPCTRL) Compare IN1 to OUT */
+#define RTC_TAMPCTRL_IN1ACT_OFF     (RTC_TAMPCTRL_IN1ACT_OFF_Val   << RTC_TAMPCTRL_IN1ACT_Pos)
+#define RTC_TAMPCTRL_IN1ACT_WAKE    (RTC_TAMPCTRL_IN1ACT_WAKE_Val  << RTC_TAMPCTRL_IN1ACT_Pos)
+#define RTC_TAMPCTRL_IN1ACT_CAPTURE (RTC_TAMPCTRL_IN1ACT_CAPTURE_Val << RTC_TAMPCTRL_IN1ACT_Pos)
+#define RTC_TAMPCTRL_IN1ACT_ACTL    (RTC_TAMPCTRL_IN1ACT_ACTL_Val  << RTC_TAMPCTRL_IN1ACT_Pos)
+#define RTC_TAMPCTRL_IN2ACT_Pos     4            /**< \brief (RTC_TAMPCTRL) Tamper Input 2 Action */
+#define RTC_TAMPCTRL_IN2ACT_Msk     (_U_(0x3) << RTC_TAMPCTRL_IN2ACT_Pos)
+#define RTC_TAMPCTRL_IN2ACT(value)  (RTC_TAMPCTRL_IN2ACT_Msk & ((value) << RTC_TAMPCTRL_IN2ACT_Pos))
+#define   RTC_TAMPCTRL_IN2ACT_OFF_Val     _U_(0x0)   /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
+#define   RTC_TAMPCTRL_IN2ACT_WAKE_Val    _U_(0x1)   /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
+#define   RTC_TAMPCTRL_IN2ACT_CAPTURE_Val _U_(0x2)   /**< \brief (RTC_TAMPCTRL) Capture timestamp */
+#define   RTC_TAMPCTRL_IN2ACT_ACTL_Val    _U_(0x3)   /**< \brief (RTC_TAMPCTRL) Compare IN2 to OUT */
+#define RTC_TAMPCTRL_IN2ACT_OFF     (RTC_TAMPCTRL_IN2ACT_OFF_Val   << RTC_TAMPCTRL_IN2ACT_Pos)
+#define RTC_TAMPCTRL_IN2ACT_WAKE    (RTC_TAMPCTRL_IN2ACT_WAKE_Val  << RTC_TAMPCTRL_IN2ACT_Pos)
+#define RTC_TAMPCTRL_IN2ACT_CAPTURE (RTC_TAMPCTRL_IN2ACT_CAPTURE_Val << RTC_TAMPCTRL_IN2ACT_Pos)
+#define RTC_TAMPCTRL_IN2ACT_ACTL    (RTC_TAMPCTRL_IN2ACT_ACTL_Val  << RTC_TAMPCTRL_IN2ACT_Pos)
+#define RTC_TAMPCTRL_IN3ACT_Pos     6            /**< \brief (RTC_TAMPCTRL) Tamper Input 3 Action */
+#define RTC_TAMPCTRL_IN3ACT_Msk     (_U_(0x3) << RTC_TAMPCTRL_IN3ACT_Pos)
+#define RTC_TAMPCTRL_IN3ACT(value)  (RTC_TAMPCTRL_IN3ACT_Msk & ((value) << RTC_TAMPCTRL_IN3ACT_Pos))
+#define   RTC_TAMPCTRL_IN3ACT_OFF_Val     _U_(0x0)   /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
+#define   RTC_TAMPCTRL_IN3ACT_WAKE_Val    _U_(0x1)   /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
+#define   RTC_TAMPCTRL_IN3ACT_CAPTURE_Val _U_(0x2)   /**< \brief (RTC_TAMPCTRL) Capture timestamp */
+#define   RTC_TAMPCTRL_IN3ACT_ACTL_Val    _U_(0x3)   /**< \brief (RTC_TAMPCTRL) Compare IN3 to OUT */
+#define RTC_TAMPCTRL_IN3ACT_OFF     (RTC_TAMPCTRL_IN3ACT_OFF_Val   << RTC_TAMPCTRL_IN3ACT_Pos)
+#define RTC_TAMPCTRL_IN3ACT_WAKE    (RTC_TAMPCTRL_IN3ACT_WAKE_Val  << RTC_TAMPCTRL_IN3ACT_Pos)
+#define RTC_TAMPCTRL_IN3ACT_CAPTURE (RTC_TAMPCTRL_IN3ACT_CAPTURE_Val << RTC_TAMPCTRL_IN3ACT_Pos)
+#define RTC_TAMPCTRL_IN3ACT_ACTL    (RTC_TAMPCTRL_IN3ACT_ACTL_Val  << RTC_TAMPCTRL_IN3ACT_Pos)
+#define RTC_TAMPCTRL_IN4ACT_Pos     8            /**< \brief (RTC_TAMPCTRL) Tamper Input 4 Action */
+#define RTC_TAMPCTRL_IN4ACT_Msk     (_U_(0x3) << RTC_TAMPCTRL_IN4ACT_Pos)
+#define RTC_TAMPCTRL_IN4ACT(value)  (RTC_TAMPCTRL_IN4ACT_Msk & ((value) << RTC_TAMPCTRL_IN4ACT_Pos))
+#define   RTC_TAMPCTRL_IN4ACT_OFF_Val     _U_(0x0)   /**< \brief (RTC_TAMPCTRL) Off (Disabled) */
+#define   RTC_TAMPCTRL_IN4ACT_WAKE_Val    _U_(0x1)   /**< \brief (RTC_TAMPCTRL) Wake without timestamp */
+#define   RTC_TAMPCTRL_IN4ACT_CAPTURE_Val _U_(0x2)   /**< \brief (RTC_TAMPCTRL) Capture timestamp */
+#define   RTC_TAMPCTRL_IN4ACT_ACTL_Val    _U_(0x3)   /**< \brief (RTC_TAMPCTRL) Compare IN4 to OUT */
+#define RTC_TAMPCTRL_IN4ACT_OFF     (RTC_TAMPCTRL_IN4ACT_OFF_Val   << RTC_TAMPCTRL_IN4ACT_Pos)
+#define RTC_TAMPCTRL_IN4ACT_WAKE    (RTC_TAMPCTRL_IN4ACT_WAKE_Val  << RTC_TAMPCTRL_IN4ACT_Pos)
+#define RTC_TAMPCTRL_IN4ACT_CAPTURE (RTC_TAMPCTRL_IN4ACT_CAPTURE_Val << RTC_TAMPCTRL_IN4ACT_Pos)
+#define RTC_TAMPCTRL_IN4ACT_ACTL    (RTC_TAMPCTRL_IN4ACT_ACTL_Val  << RTC_TAMPCTRL_IN4ACT_Pos)
+#define RTC_TAMPCTRL_TAMLVL0_Pos    16           /**< \brief (RTC_TAMPCTRL) Tamper Level Select 0 */
+#define RTC_TAMPCTRL_TAMLVL0        (_U_(1) << RTC_TAMPCTRL_TAMLVL0_Pos)
+#define RTC_TAMPCTRL_TAMLVL1_Pos    17           /**< \brief (RTC_TAMPCTRL) Tamper Level Select 1 */
+#define RTC_TAMPCTRL_TAMLVL1        (_U_(1) << RTC_TAMPCTRL_TAMLVL1_Pos)
+#define RTC_TAMPCTRL_TAMLVL2_Pos    18           /**< \brief (RTC_TAMPCTRL) Tamper Level Select 2 */
+#define RTC_TAMPCTRL_TAMLVL2        (_U_(1) << RTC_TAMPCTRL_TAMLVL2_Pos)
+#define RTC_TAMPCTRL_TAMLVL3_Pos    19           /**< \brief (RTC_TAMPCTRL) Tamper Level Select 3 */
+#define RTC_TAMPCTRL_TAMLVL3        (_U_(1) << RTC_TAMPCTRL_TAMLVL3_Pos)
+#define RTC_TAMPCTRL_TAMLVL4_Pos    20           /**< \brief (RTC_TAMPCTRL) Tamper Level Select 4 */
+#define RTC_TAMPCTRL_TAMLVL4        (_U_(1) << RTC_TAMPCTRL_TAMLVL4_Pos)
+#define RTC_TAMPCTRL_TAMLVL_Pos     16           /**< \brief (RTC_TAMPCTRL) Tamper Level Select x */
+#define RTC_TAMPCTRL_TAMLVL_Msk     (_U_(0x1F) << RTC_TAMPCTRL_TAMLVL_Pos)
+#define RTC_TAMPCTRL_TAMLVL(value)  (RTC_TAMPCTRL_TAMLVL_Msk & ((value) << RTC_TAMPCTRL_TAMLVL_Pos))
+#define RTC_TAMPCTRL_DEBNC0_Pos     24           /**< \brief (RTC_TAMPCTRL) Debouncer Enable 0 */
+#define RTC_TAMPCTRL_DEBNC0         (_U_(1) << RTC_TAMPCTRL_DEBNC0_Pos)
+#define RTC_TAMPCTRL_DEBNC1_Pos     25           /**< \brief (RTC_TAMPCTRL) Debouncer Enable 1 */
+#define RTC_TAMPCTRL_DEBNC1         (_U_(1) << RTC_TAMPCTRL_DEBNC1_Pos)
+#define RTC_TAMPCTRL_DEBNC2_Pos     26           /**< \brief (RTC_TAMPCTRL) Debouncer Enable 2 */
+#define RTC_TAMPCTRL_DEBNC2         (_U_(1) << RTC_TAMPCTRL_DEBNC2_Pos)
+#define RTC_TAMPCTRL_DEBNC3_Pos     27           /**< \brief (RTC_TAMPCTRL) Debouncer Enable 3 */
+#define RTC_TAMPCTRL_DEBNC3         (_U_(1) << RTC_TAMPCTRL_DEBNC3_Pos)
+#define RTC_TAMPCTRL_DEBNC4_Pos     28           /**< \brief (RTC_TAMPCTRL) Debouncer Enable 4 */
+#define RTC_TAMPCTRL_DEBNC4         (_U_(1) << RTC_TAMPCTRL_DEBNC4_Pos)
+#define RTC_TAMPCTRL_DEBNC_Pos      24           /**< \brief (RTC_TAMPCTRL) Debouncer Enable x */
+#define RTC_TAMPCTRL_DEBNC_Msk      (_U_(0x1F) << RTC_TAMPCTRL_DEBNC_Pos)
+#define RTC_TAMPCTRL_DEBNC(value)   (RTC_TAMPCTRL_DEBNC_Msk & ((value) << RTC_TAMPCTRL_DEBNC_Pos))
+#define RTC_TAMPCTRL_MASK           _U_(0x1F1F03FF) /**< \brief (RTC_TAMPCTRL) MASK Register */
+
+/* -------- RTC_MODE0_TIMESTAMP : (RTC Offset: 0x64) (R/  32) MODE0 MODE0 Timestamp -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t COUNT:32;         /*!< bit:  0..31  Count Timestamp Value              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE0_TIMESTAMP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE0_TIMESTAMP_OFFSET  0x64         /**< \brief (RTC_MODE0_TIMESTAMP offset) MODE0 Timestamp */
+#define RTC_MODE0_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE0_TIMESTAMP reset_value) MODE0 Timestamp */
+
+#define RTC_MODE0_TIMESTAMP_COUNT_Pos 0            /**< \brief (RTC_MODE0_TIMESTAMP) Count Timestamp Value */
+#define RTC_MODE0_TIMESTAMP_COUNT_Msk (_U_(0xFFFFFFFF) << RTC_MODE0_TIMESTAMP_COUNT_Pos)
+#define RTC_MODE0_TIMESTAMP_COUNT(value) (RTC_MODE0_TIMESTAMP_COUNT_Msk & ((value) << RTC_MODE0_TIMESTAMP_COUNT_Pos))
+#define RTC_MODE0_TIMESTAMP_MASK    _U_(0xFFFFFFFF) /**< \brief (RTC_MODE0_TIMESTAMP) MASK Register */
+
+/* -------- RTC_MODE1_TIMESTAMP : (RTC Offset: 0x64) (R/  32) MODE1 MODE1 Timestamp -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t COUNT:16;         /*!< bit:  0..15  Count Timestamp Value              */
+    uint32_t :16;              /*!< bit: 16..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE1_TIMESTAMP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE1_TIMESTAMP_OFFSET  0x64         /**< \brief (RTC_MODE1_TIMESTAMP offset) MODE1 Timestamp */
+#define RTC_MODE1_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE1_TIMESTAMP reset_value) MODE1 Timestamp */
+
+#define RTC_MODE1_TIMESTAMP_COUNT_Pos 0            /**< \brief (RTC_MODE1_TIMESTAMP) Count Timestamp Value */
+#define RTC_MODE1_TIMESTAMP_COUNT_Msk (_U_(0xFFFF) << RTC_MODE1_TIMESTAMP_COUNT_Pos)
+#define RTC_MODE1_TIMESTAMP_COUNT(value) (RTC_MODE1_TIMESTAMP_COUNT_Msk & ((value) << RTC_MODE1_TIMESTAMP_COUNT_Pos))
+#define RTC_MODE1_TIMESTAMP_MASK    _U_(0x0000FFFF) /**< \brief (RTC_MODE1_TIMESTAMP) MASK Register */
+
+/* -------- RTC_MODE2_TIMESTAMP : (RTC Offset: 0x64) (R/  32) MODE2 MODE2 Timestamp -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SECOND:6;         /*!< bit:  0.. 5  Second Timestamp Value             */
+    uint32_t MINUTE:6;         /*!< bit:  6..11  Minute Timestamp Value             */
+    uint32_t HOUR:5;           /*!< bit: 12..16  Hour Timestamp Value               */
+    uint32_t DAY:5;            /*!< bit: 17..21  Day Timestamp Value                */
+    uint32_t MONTH:4;          /*!< bit: 22..25  Month Timestamp Value              */
+    uint32_t YEAR:6;           /*!< bit: 26..31  Year Timestamp Value               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_MODE2_TIMESTAMP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_MODE2_TIMESTAMP_OFFSET  0x64         /**< \brief (RTC_MODE2_TIMESTAMP offset) MODE2 Timestamp */
+#define RTC_MODE2_TIMESTAMP_RESETVALUE _U_(0x00000000) /**< \brief (RTC_MODE2_TIMESTAMP reset_value) MODE2 Timestamp */
+
+#define RTC_MODE2_TIMESTAMP_SECOND_Pos 0            /**< \brief (RTC_MODE2_TIMESTAMP) Second Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_SECOND_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_SECOND_Pos)
+#define RTC_MODE2_TIMESTAMP_SECOND(value) (RTC_MODE2_TIMESTAMP_SECOND_Msk & ((value) << RTC_MODE2_TIMESTAMP_SECOND_Pos))
+#define RTC_MODE2_TIMESTAMP_MINUTE_Pos 6            /**< \brief (RTC_MODE2_TIMESTAMP) Minute Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_MINUTE_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_MINUTE_Pos)
+#define RTC_MODE2_TIMESTAMP_MINUTE(value) (RTC_MODE2_TIMESTAMP_MINUTE_Msk & ((value) << RTC_MODE2_TIMESTAMP_MINUTE_Pos))
+#define RTC_MODE2_TIMESTAMP_HOUR_Pos 12           /**< \brief (RTC_MODE2_TIMESTAMP) Hour Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_HOUR_Msk (_U_(0x1F) << RTC_MODE2_TIMESTAMP_HOUR_Pos)
+#define RTC_MODE2_TIMESTAMP_HOUR(value) (RTC_MODE2_TIMESTAMP_HOUR_Msk & ((value) << RTC_MODE2_TIMESTAMP_HOUR_Pos))
+#define   RTC_MODE2_TIMESTAMP_HOUR_AM_Val _U_(0x0)   /**< \brief (RTC_MODE2_TIMESTAMP) AM when CLKREP in 12-hour */
+#define   RTC_MODE2_TIMESTAMP_HOUR_PM_Val _U_(0x10)   /**< \brief (RTC_MODE2_TIMESTAMP) PM when CLKREP in 12-hour */
+#define RTC_MODE2_TIMESTAMP_HOUR_AM (RTC_MODE2_TIMESTAMP_HOUR_AM_Val << RTC_MODE2_TIMESTAMP_HOUR_Pos)
+#define RTC_MODE2_TIMESTAMP_HOUR_PM (RTC_MODE2_TIMESTAMP_HOUR_PM_Val << RTC_MODE2_TIMESTAMP_HOUR_Pos)
+#define RTC_MODE2_TIMESTAMP_DAY_Pos 17           /**< \brief (RTC_MODE2_TIMESTAMP) Day Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_DAY_Msk (_U_(0x1F) << RTC_MODE2_TIMESTAMP_DAY_Pos)
+#define RTC_MODE2_TIMESTAMP_DAY(value) (RTC_MODE2_TIMESTAMP_DAY_Msk & ((value) << RTC_MODE2_TIMESTAMP_DAY_Pos))
+#define RTC_MODE2_TIMESTAMP_MONTH_Pos 22           /**< \brief (RTC_MODE2_TIMESTAMP) Month Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_MONTH_Msk (_U_(0xF) << RTC_MODE2_TIMESTAMP_MONTH_Pos)
+#define RTC_MODE2_TIMESTAMP_MONTH(value) (RTC_MODE2_TIMESTAMP_MONTH_Msk & ((value) << RTC_MODE2_TIMESTAMP_MONTH_Pos))
+#define RTC_MODE2_TIMESTAMP_YEAR_Pos 26           /**< \brief (RTC_MODE2_TIMESTAMP) Year Timestamp Value */
+#define RTC_MODE2_TIMESTAMP_YEAR_Msk (_U_(0x3F) << RTC_MODE2_TIMESTAMP_YEAR_Pos)
+#define RTC_MODE2_TIMESTAMP_YEAR(value) (RTC_MODE2_TIMESTAMP_YEAR_Msk & ((value) << RTC_MODE2_TIMESTAMP_YEAR_Pos))
+#define RTC_MODE2_TIMESTAMP_MASK    _U_(0xFFFFFFFF) /**< \brief (RTC_MODE2_TIMESTAMP) MASK Register */
+
+/* -------- RTC_TAMPID : (RTC Offset: 0x68) (R/W 32) Tamper ID -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t TAMPID0:1;        /*!< bit:      0  Tamper Input 0 Detected            */
+    uint32_t TAMPID1:1;        /*!< bit:      1  Tamper Input 1 Detected            */
+    uint32_t TAMPID2:1;        /*!< bit:      2  Tamper Input 2 Detected            */
+    uint32_t TAMPID3:1;        /*!< bit:      3  Tamper Input 3 Detected            */
+    uint32_t TAMPID4:1;        /*!< bit:      4  Tamper Input 4 Detected            */
+    uint32_t :26;              /*!< bit:  5..30  Reserved                           */
+    uint32_t TAMPEVT:1;        /*!< bit:     31  Tamper Event Detected              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t TAMPID:5;         /*!< bit:  0.. 4  Tamper Input x Detected            */
+    uint32_t :27;              /*!< bit:  5..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_TAMPID_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_TAMPID_OFFSET           0x68         /**< \brief (RTC_TAMPID offset) Tamper ID */
+#define RTC_TAMPID_RESETVALUE       _U_(0x00000000) /**< \brief (RTC_TAMPID reset_value) Tamper ID */
+
+#define RTC_TAMPID_TAMPID0_Pos      0            /**< \brief (RTC_TAMPID) Tamper Input 0 Detected */
+#define RTC_TAMPID_TAMPID0          (_U_(1) << RTC_TAMPID_TAMPID0_Pos)
+#define RTC_TAMPID_TAMPID1_Pos      1            /**< \brief (RTC_TAMPID) Tamper Input 1 Detected */
+#define RTC_TAMPID_TAMPID1          (_U_(1) << RTC_TAMPID_TAMPID1_Pos)
+#define RTC_TAMPID_TAMPID2_Pos      2            /**< \brief (RTC_TAMPID) Tamper Input 2 Detected */
+#define RTC_TAMPID_TAMPID2          (_U_(1) << RTC_TAMPID_TAMPID2_Pos)
+#define RTC_TAMPID_TAMPID3_Pos      3            /**< \brief (RTC_TAMPID) Tamper Input 3 Detected */
+#define RTC_TAMPID_TAMPID3          (_U_(1) << RTC_TAMPID_TAMPID3_Pos)
+#define RTC_TAMPID_TAMPID4_Pos      4            /**< \brief (RTC_TAMPID) Tamper Input 4 Detected */
+#define RTC_TAMPID_TAMPID4          (_U_(1) << RTC_TAMPID_TAMPID4_Pos)
+#define RTC_TAMPID_TAMPID_Pos       0            /**< \brief (RTC_TAMPID) Tamper Input x Detected */
+#define RTC_TAMPID_TAMPID_Msk       (_U_(0x1F) << RTC_TAMPID_TAMPID_Pos)
+#define RTC_TAMPID_TAMPID(value)    (RTC_TAMPID_TAMPID_Msk & ((value) << RTC_TAMPID_TAMPID_Pos))
+#define RTC_TAMPID_TAMPEVT_Pos      31           /**< \brief (RTC_TAMPID) Tamper Event Detected */
+#define RTC_TAMPID_TAMPEVT          (_U_(0x1) << RTC_TAMPID_TAMPEVT_Pos)
+#define RTC_TAMPID_MASK             _U_(0x8000001F) /**< \brief (RTC_TAMPID) MASK Register */
+
+/* -------- RTC_BKUP : (RTC Offset: 0x80) (R/W 32) Backup -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BKUP:32;          /*!< bit:  0..31  Backup                             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} RTC_BKUP_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define RTC_BKUP_OFFSET             0x80         /**< \brief (RTC_BKUP offset) Backup */
+#define RTC_BKUP_RESETVALUE         _U_(0x00000000) /**< \brief (RTC_BKUP reset_value) Backup */
+
+#define RTC_BKUP_BKUP_Pos           0            /**< \brief (RTC_BKUP) Backup */
+#define RTC_BKUP_BKUP_Msk           (_U_(0xFFFFFFFF) << RTC_BKUP_BKUP_Pos)
+#define RTC_BKUP_BKUP(value)        (RTC_BKUP_BKUP_Msk & ((value) << RTC_BKUP_BKUP_Pos))
+#define RTC_BKUP_MASK               _U_(0xFFFFFFFF) /**< \brief (RTC_BKUP) MASK Register */
+
+/** \brief RtcMode2Alarm hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO RTC_MODE2_ALARM_Type      ALARM;       /**< \brief Offset: 0x00 (R/W 32) MODE2_ALARM Alarm n Value */
+  __IO RTC_MODE2_MASK_Type       MASK;        /**< \brief Offset: 0x04 (R/W  8) MODE2_ALARM Alarm n Mask */
+       RoReg8                    Reserved1[0x3];
+} RtcMode2Alarm;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief RTC_MODE0 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* 32-bit Counter with Single 32-bit Compare */
+  __IO RTC_MODE0_CTRLA_Type      CTRLA;       /**< \brief Offset: 0x00 (R/W 16) MODE0 Control A */
+  __IO RTC_MODE0_CTRLB_Type      CTRLB;       /**< \brief Offset: 0x02 (R/W 16) MODE0 Control B */
+  __IO RTC_MODE0_EVCTRL_Type     EVCTRL;      /**< \brief Offset: 0x04 (R/W 32) MODE0 Event Control */
+  __IO RTC_MODE0_INTENCLR_Type   INTENCLR;    /**< \brief Offset: 0x08 (R/W 16) MODE0 Interrupt Enable Clear */
+  __IO RTC_MODE0_INTENSET_Type   INTENSET;    /**< \brief Offset: 0x0A (R/W 16) MODE0 Interrupt Enable Set */
+  __IO RTC_MODE0_INTFLAG_Type    INTFLAG;     /**< \brief Offset: 0x0C (R/W 16) MODE0 Interrupt Flag Status and Clear */
+  __IO RTC_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x0E (R/W  8) Debug Control */
+       RoReg8                    Reserved1[0x1];
+  __I  RTC_MODE0_SYNCBUSY_Type   SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) MODE0 Synchronization Busy Status */
+  __IO RTC_FREQCORR_Type         FREQCORR;    /**< \brief Offset: 0x14 (R/W  8) Frequency Correction */
+       RoReg8                    Reserved2[0x3];
+  __IO RTC_MODE0_COUNT_Type      COUNT;       /**< \brief Offset: 0x18 (R/W 32) MODE0 Counter Value */
+       RoReg8                    Reserved3[0x4];
+  __IO RTC_MODE0_COMP_Type       COMP[1];     /**< \brief Offset: 0x20 (R/W 32) MODE0 Compare n Value */
+       RoReg8                    Reserved4[0x1C];
+  __IO RTC_GP_Type               GP[2];       /**< \brief Offset: 0x40 (R/W 32) General Purpose */
+       RoReg8                    Reserved5[0x18];
+  __IO RTC_TAMPCTRL_Type         TAMPCTRL;    /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
+  __I  RTC_MODE0_TIMESTAMP_Type  TIMESTAMP;   /**< \brief Offset: 0x64 (R/  32) MODE0 Timestamp */
+  __IO RTC_TAMPID_Type           TAMPID;      /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
+       RoReg8                    Reserved6[0x14];
+  __IO RTC_BKUP_Type             BKUP[8];     /**< \brief Offset: 0x80 (R/W 32) Backup */
+} RtcMode0;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief RTC_MODE1 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* 16-bit Counter with Two 16-bit Compares */
+  __IO RTC_MODE1_CTRLA_Type      CTRLA;       /**< \brief Offset: 0x00 (R/W 16) MODE1 Control A */
+  __IO RTC_MODE1_CTRLB_Type      CTRLB;       /**< \brief Offset: 0x02 (R/W 16) MODE1 Control B */
+  __IO RTC_MODE1_EVCTRL_Type     EVCTRL;      /**< \brief Offset: 0x04 (R/W 32) MODE1 Event Control */
+  __IO RTC_MODE1_INTENCLR_Type   INTENCLR;    /**< \brief Offset: 0x08 (R/W 16) MODE1 Interrupt Enable Clear */
+  __IO RTC_MODE1_INTENSET_Type   INTENSET;    /**< \brief Offset: 0x0A (R/W 16) MODE1 Interrupt Enable Set */
+  __IO RTC_MODE1_INTFLAG_Type    INTFLAG;     /**< \brief Offset: 0x0C (R/W 16) MODE1 Interrupt Flag Status and Clear */
+  __IO RTC_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x0E (R/W  8) Debug Control */
+       RoReg8                    Reserved1[0x1];
+  __I  RTC_MODE1_SYNCBUSY_Type   SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) MODE1 Synchronization Busy Status */
+  __IO RTC_FREQCORR_Type         FREQCORR;    /**< \brief Offset: 0x14 (R/W  8) Frequency Correction */
+       RoReg8                    Reserved2[0x3];
+  __IO RTC_MODE1_COUNT_Type      COUNT;       /**< \brief Offset: 0x18 (R/W 16) MODE1 Counter Value */
+       RoReg8                    Reserved3[0x2];
+  __IO RTC_MODE1_PER_Type        PER;         /**< \brief Offset: 0x1C (R/W 16) MODE1 Counter Period */
+       RoReg8                    Reserved4[0x2];
+  __IO RTC_MODE1_COMP_Type       COMP[2];     /**< \brief Offset: 0x20 (R/W 16) MODE1 Compare n Value */
+       RoReg8                    Reserved5[0x1C];
+  __IO RTC_GP_Type               GP[2];       /**< \brief Offset: 0x40 (R/W 32) General Purpose */
+       RoReg8                    Reserved6[0x18];
+  __IO RTC_TAMPCTRL_Type         TAMPCTRL;    /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
+  __I  RTC_MODE1_TIMESTAMP_Type  TIMESTAMP;   /**< \brief Offset: 0x64 (R/  32) MODE1 Timestamp */
+  __IO RTC_TAMPID_Type           TAMPID;      /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
+       RoReg8                    Reserved7[0x14];
+  __IO RTC_BKUP_Type             BKUP[8];     /**< \brief Offset: 0x80 (R/W 32) Backup */
+} RtcMode1;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief RTC_MODE2 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* Clock/Calendar with Alarm */
+  __IO RTC_MODE2_CTRLA_Type      CTRLA;       /**< \brief Offset: 0x00 (R/W 16) MODE2 Control A */
+  __IO RTC_MODE2_CTRLB_Type      CTRLB;       /**< \brief Offset: 0x02 (R/W 16) MODE2 Control B */
+  __IO RTC_MODE2_EVCTRL_Type     EVCTRL;      /**< \brief Offset: 0x04 (R/W 32) MODE2 Event Control */
+  __IO RTC_MODE2_INTENCLR_Type   INTENCLR;    /**< \brief Offset: 0x08 (R/W 16) MODE2 Interrupt Enable Clear */
+  __IO RTC_MODE2_INTENSET_Type   INTENSET;    /**< \brief Offset: 0x0A (R/W 16) MODE2 Interrupt Enable Set */
+  __IO RTC_MODE2_INTFLAG_Type    INTFLAG;     /**< \brief Offset: 0x0C (R/W 16) MODE2 Interrupt Flag Status and Clear */
+  __IO RTC_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x0E (R/W  8) Debug Control */
+       RoReg8                    Reserved1[0x1];
+  __I  RTC_MODE2_SYNCBUSY_Type   SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) MODE2 Synchronization Busy Status */
+  __IO RTC_FREQCORR_Type         FREQCORR;    /**< \brief Offset: 0x14 (R/W  8) Frequency Correction */
+       RoReg8                    Reserved2[0x3];
+  __IO RTC_MODE2_CLOCK_Type      CLOCK;       /**< \brief Offset: 0x18 (R/W 32) MODE2 Clock Value */
+       RoReg8                    Reserved3[0x4];
+       RtcMode2Alarm             Mode2Alarm[1]; /**< \brief Offset: 0x20 RtcMode2Alarm groups [ALARM_NUM] */
+       RoReg8                    Reserved4[0x18];
+  __IO RTC_GP_Type               GP[2];       /**< \brief Offset: 0x40 (R/W 32) General Purpose */
+       RoReg8                    Reserved5[0x18];
+  __IO RTC_TAMPCTRL_Type         TAMPCTRL;    /**< \brief Offset: 0x60 (R/W 32) Tamper Control */
+  __I  RTC_MODE2_TIMESTAMP_Type  TIMESTAMP;   /**< \brief Offset: 0x64 (R/  32) MODE2 Timestamp */
+  __IO RTC_TAMPID_Type           TAMPID;      /**< \brief Offset: 0x68 (R/W 32) Tamper ID */
+       RoReg8                    Reserved6[0x14];
+  __IO RTC_BKUP_Type             BKUP[8];     /**< \brief Offset: 0x80 (R/W 32) Backup */
+} RtcMode2;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+       RtcMode0                  MODE0;       /**< \brief Offset: 0x00 32-bit Counter with Single 32-bit Compare */
+       RtcMode1                  MODE1;       /**< \brief Offset: 0x00 16-bit Counter with Two 16-bit Compares */
+       RtcMode2                  MODE2;       /**< \brief Offset: 0x00 Clock/Calendar with Alarm */
+} Rtc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_RTC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/sercom.h b/watch-library/hardware/include/component/sercom.h
new file mode 100644
index 00000000..3f052044
--- /dev/null
+++ b/watch-library/hardware/include/component/sercom.h
@@ -0,0 +1,1501 @@
+/**
+ * \file
+ *
+ * \brief Component description for SERCOM
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM_COMPONENT_
+#define _SAML22_SERCOM_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR SERCOM */
+/* ========================================================================== */
+/** \addtogroup SAML22_SERCOM Serial Communication Interface */
+/*@{*/
+
+#define SERCOM_U2201
+#define REV_SERCOM                  0x400
+
+/* -------- SERCOM_I2CM_CTRLA : (SERCOM Offset: 0x00) (R/W 32) I2CM I2CM Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t MODE:3;           /*!< bit:  2.. 4  Operating Mode                     */
+    uint32_t :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      7  Run in Standby                     */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t PINOUT:1;         /*!< bit:     16  Pin Usage                          */
+    uint32_t :3;               /*!< bit: 17..19  Reserved                           */
+    uint32_t SDAHOLD:2;        /*!< bit: 20..21  SDA Hold Time                      */
+    uint32_t MEXTTOEN:1;       /*!< bit:     22  Master SCL Low Extend Timeout      */
+    uint32_t SEXTTOEN:1;       /*!< bit:     23  Slave SCL Low Extend Timeout       */
+    uint32_t SPEED:2;          /*!< bit: 24..25  Transfer Speed                     */
+    uint32_t :1;               /*!< bit:     26  Reserved                           */
+    uint32_t SCLSM:1;          /*!< bit:     27  SCL Clock Stretch Mode             */
+    uint32_t INACTOUT:2;       /*!< bit: 28..29  Inactive Time-Out                  */
+    uint32_t LOWTOUTEN:1;      /*!< bit:     30  SCL Low Timeout Enable             */
+    uint32_t :1;               /*!< bit:     31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_CTRLA_OFFSET    0x00         /**< \brief (SERCOM_I2CM_CTRLA offset) I2CM Control A */
+#define SERCOM_I2CM_CTRLA_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CM_CTRLA reset_value) I2CM Control A */
+
+#define SERCOM_I2CM_CTRLA_SWRST_Pos 0            /**< \brief (SERCOM_I2CM_CTRLA) Software Reset */
+#define SERCOM_I2CM_CTRLA_SWRST     (_U_(0x1) << SERCOM_I2CM_CTRLA_SWRST_Pos)
+#define SERCOM_I2CM_CTRLA_ENABLE_Pos 1            /**< \brief (SERCOM_I2CM_CTRLA) Enable */
+#define SERCOM_I2CM_CTRLA_ENABLE    (_U_(0x1) << SERCOM_I2CM_CTRLA_ENABLE_Pos)
+#define SERCOM_I2CM_CTRLA_MODE_Pos  2            /**< \brief (SERCOM_I2CM_CTRLA) Operating Mode */
+#define SERCOM_I2CM_CTRLA_MODE_Msk  (_U_(0x7) << SERCOM_I2CM_CTRLA_MODE_Pos)
+#define SERCOM_I2CM_CTRLA_MODE(value) (SERCOM_I2CM_CTRLA_MODE_Msk & ((value) << SERCOM_I2CM_CTRLA_MODE_Pos))
+#define SERCOM_I2CM_CTRLA_RUNSTDBY_Pos 7            /**< \brief (SERCOM_I2CM_CTRLA) Run in Standby */
+#define SERCOM_I2CM_CTRLA_RUNSTDBY  (_U_(0x1) << SERCOM_I2CM_CTRLA_RUNSTDBY_Pos)
+#define SERCOM_I2CM_CTRLA_PINOUT_Pos 16           /**< \brief (SERCOM_I2CM_CTRLA) Pin Usage */
+#define SERCOM_I2CM_CTRLA_PINOUT    (_U_(0x1) << SERCOM_I2CM_CTRLA_PINOUT_Pos)
+#define SERCOM_I2CM_CTRLA_SDAHOLD_Pos 20           /**< \brief (SERCOM_I2CM_CTRLA) SDA Hold Time */
+#define SERCOM_I2CM_CTRLA_SDAHOLD_Msk (_U_(0x3) << SERCOM_I2CM_CTRLA_SDAHOLD_Pos)
+#define SERCOM_I2CM_CTRLA_SDAHOLD(value) (SERCOM_I2CM_CTRLA_SDAHOLD_Msk & ((value) << SERCOM_I2CM_CTRLA_SDAHOLD_Pos))
+#define SERCOM_I2CM_CTRLA_MEXTTOEN_Pos 22           /**< \brief (SERCOM_I2CM_CTRLA) Master SCL Low Extend Timeout */
+#define SERCOM_I2CM_CTRLA_MEXTTOEN  (_U_(0x1) << SERCOM_I2CM_CTRLA_MEXTTOEN_Pos)
+#define SERCOM_I2CM_CTRLA_SEXTTOEN_Pos 23           /**< \brief (SERCOM_I2CM_CTRLA) Slave SCL Low Extend Timeout */
+#define SERCOM_I2CM_CTRLA_SEXTTOEN  (_U_(0x1) << SERCOM_I2CM_CTRLA_SEXTTOEN_Pos)
+#define SERCOM_I2CM_CTRLA_SPEED_Pos 24           /**< \brief (SERCOM_I2CM_CTRLA) Transfer Speed */
+#define SERCOM_I2CM_CTRLA_SPEED_Msk (_U_(0x3) << SERCOM_I2CM_CTRLA_SPEED_Pos)
+#define SERCOM_I2CM_CTRLA_SPEED(value) (SERCOM_I2CM_CTRLA_SPEED_Msk & ((value) << SERCOM_I2CM_CTRLA_SPEED_Pos))
+#define SERCOM_I2CM_CTRLA_SCLSM_Pos 27           /**< \brief (SERCOM_I2CM_CTRLA) SCL Clock Stretch Mode */
+#define SERCOM_I2CM_CTRLA_SCLSM     (_U_(0x1) << SERCOM_I2CM_CTRLA_SCLSM_Pos)
+#define SERCOM_I2CM_CTRLA_INACTOUT_Pos 28           /**< \brief (SERCOM_I2CM_CTRLA) Inactive Time-Out */
+#define SERCOM_I2CM_CTRLA_INACTOUT_Msk (_U_(0x3) << SERCOM_I2CM_CTRLA_INACTOUT_Pos)
+#define SERCOM_I2CM_CTRLA_INACTOUT(value) (SERCOM_I2CM_CTRLA_INACTOUT_Msk & ((value) << SERCOM_I2CM_CTRLA_INACTOUT_Pos))
+#define SERCOM_I2CM_CTRLA_LOWTOUTEN_Pos 30           /**< \brief (SERCOM_I2CM_CTRLA) SCL Low Timeout Enable */
+#define SERCOM_I2CM_CTRLA_LOWTOUTEN (_U_(0x1) << SERCOM_I2CM_CTRLA_LOWTOUTEN_Pos)
+#define SERCOM_I2CM_CTRLA_MASK      _U_(0x7BF1009F) /**< \brief (SERCOM_I2CM_CTRLA) MASK Register */
+
+/* -------- SERCOM_I2CS_CTRLA : (SERCOM Offset: 0x00) (R/W 32) I2CS I2CS Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t MODE:3;           /*!< bit:  2.. 4  Operating Mode                     */
+    uint32_t :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      7  Run during Standby                 */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t PINOUT:1;         /*!< bit:     16  Pin Usage                          */
+    uint32_t :3;               /*!< bit: 17..19  Reserved                           */
+    uint32_t SDAHOLD:2;        /*!< bit: 20..21  SDA Hold Time                      */
+    uint32_t :1;               /*!< bit:     22  Reserved                           */
+    uint32_t SEXTTOEN:1;       /*!< bit:     23  Slave SCL Low Extend Timeout       */
+    uint32_t SPEED:2;          /*!< bit: 24..25  Transfer Speed                     */
+    uint32_t :1;               /*!< bit:     26  Reserved                           */
+    uint32_t SCLSM:1;          /*!< bit:     27  SCL Clock Stretch Mode             */
+    uint32_t :2;               /*!< bit: 28..29  Reserved                           */
+    uint32_t LOWTOUTEN:1;      /*!< bit:     30  SCL Low Timeout Enable             */
+    uint32_t :1;               /*!< bit:     31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CS_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_CTRLA_OFFSET    0x00         /**< \brief (SERCOM_I2CS_CTRLA offset) I2CS Control A */
+#define SERCOM_I2CS_CTRLA_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CS_CTRLA reset_value) I2CS Control A */
+
+#define SERCOM_I2CS_CTRLA_SWRST_Pos 0            /**< \brief (SERCOM_I2CS_CTRLA) Software Reset */
+#define SERCOM_I2CS_CTRLA_SWRST     (_U_(0x1) << SERCOM_I2CS_CTRLA_SWRST_Pos)
+#define SERCOM_I2CS_CTRLA_ENABLE_Pos 1            /**< \brief (SERCOM_I2CS_CTRLA) Enable */
+#define SERCOM_I2CS_CTRLA_ENABLE    (_U_(0x1) << SERCOM_I2CS_CTRLA_ENABLE_Pos)
+#define SERCOM_I2CS_CTRLA_MODE_Pos  2            /**< \brief (SERCOM_I2CS_CTRLA) Operating Mode */
+#define SERCOM_I2CS_CTRLA_MODE_Msk  (_U_(0x7) << SERCOM_I2CS_CTRLA_MODE_Pos)
+#define SERCOM_I2CS_CTRLA_MODE(value) (SERCOM_I2CS_CTRLA_MODE_Msk & ((value) << SERCOM_I2CS_CTRLA_MODE_Pos))
+#define SERCOM_I2CS_CTRLA_RUNSTDBY_Pos 7            /**< \brief (SERCOM_I2CS_CTRLA) Run during Standby */
+#define SERCOM_I2CS_CTRLA_RUNSTDBY  (_U_(0x1) << SERCOM_I2CS_CTRLA_RUNSTDBY_Pos)
+#define SERCOM_I2CS_CTRLA_PINOUT_Pos 16           /**< \brief (SERCOM_I2CS_CTRLA) Pin Usage */
+#define SERCOM_I2CS_CTRLA_PINOUT    (_U_(0x1) << SERCOM_I2CS_CTRLA_PINOUT_Pos)
+#define SERCOM_I2CS_CTRLA_SDAHOLD_Pos 20           /**< \brief (SERCOM_I2CS_CTRLA) SDA Hold Time */
+#define SERCOM_I2CS_CTRLA_SDAHOLD_Msk (_U_(0x3) << SERCOM_I2CS_CTRLA_SDAHOLD_Pos)
+#define SERCOM_I2CS_CTRLA_SDAHOLD(value) (SERCOM_I2CS_CTRLA_SDAHOLD_Msk & ((value) << SERCOM_I2CS_CTRLA_SDAHOLD_Pos))
+#define SERCOM_I2CS_CTRLA_SEXTTOEN_Pos 23           /**< \brief (SERCOM_I2CS_CTRLA) Slave SCL Low Extend Timeout */
+#define SERCOM_I2CS_CTRLA_SEXTTOEN  (_U_(0x1) << SERCOM_I2CS_CTRLA_SEXTTOEN_Pos)
+#define SERCOM_I2CS_CTRLA_SPEED_Pos 24           /**< \brief (SERCOM_I2CS_CTRLA) Transfer Speed */
+#define SERCOM_I2CS_CTRLA_SPEED_Msk (_U_(0x3) << SERCOM_I2CS_CTRLA_SPEED_Pos)
+#define SERCOM_I2CS_CTRLA_SPEED(value) (SERCOM_I2CS_CTRLA_SPEED_Msk & ((value) << SERCOM_I2CS_CTRLA_SPEED_Pos))
+#define SERCOM_I2CS_CTRLA_SCLSM_Pos 27           /**< \brief (SERCOM_I2CS_CTRLA) SCL Clock Stretch Mode */
+#define SERCOM_I2CS_CTRLA_SCLSM     (_U_(0x1) << SERCOM_I2CS_CTRLA_SCLSM_Pos)
+#define SERCOM_I2CS_CTRLA_LOWTOUTEN_Pos 30           /**< \brief (SERCOM_I2CS_CTRLA) SCL Low Timeout Enable */
+#define SERCOM_I2CS_CTRLA_LOWTOUTEN (_U_(0x1) << SERCOM_I2CS_CTRLA_LOWTOUTEN_Pos)
+#define SERCOM_I2CS_CTRLA_MASK      _U_(0x4BB1009F) /**< \brief (SERCOM_I2CS_CTRLA) MASK Register */
+
+/* -------- SERCOM_SPI_CTRLA : (SERCOM Offset: 0x00) (R/W 32) SPI SPI Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t MODE:3;           /*!< bit:  2.. 4  Operating Mode                     */
+    uint32_t :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      7  Run during Standby                 */
+    uint32_t IBON:1;           /*!< bit:      8  Immediate Buffer Overflow Notification */
+    uint32_t :7;               /*!< bit:  9..15  Reserved                           */
+    uint32_t DOPO:2;           /*!< bit: 16..17  Data Out Pinout                    */
+    uint32_t :2;               /*!< bit: 18..19  Reserved                           */
+    uint32_t DIPO:2;           /*!< bit: 20..21  Data In Pinout                     */
+    uint32_t :2;               /*!< bit: 22..23  Reserved                           */
+    uint32_t FORM:4;           /*!< bit: 24..27  Frame Format                       */
+    uint32_t CPHA:1;           /*!< bit:     28  Clock Phase                        */
+    uint32_t CPOL:1;           /*!< bit:     29  Clock Polarity                     */
+    uint32_t DORD:1;           /*!< bit:     30  Data Order                         */
+    uint32_t :1;               /*!< bit:     31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_CTRLA_OFFSET     0x00         /**< \brief (SERCOM_SPI_CTRLA offset) SPI Control A */
+#define SERCOM_SPI_CTRLA_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_SPI_CTRLA reset_value) SPI Control A */
+
+#define SERCOM_SPI_CTRLA_SWRST_Pos  0            /**< \brief (SERCOM_SPI_CTRLA) Software Reset */
+#define SERCOM_SPI_CTRLA_SWRST      (_U_(0x1) << SERCOM_SPI_CTRLA_SWRST_Pos)
+#define SERCOM_SPI_CTRLA_ENABLE_Pos 1            /**< \brief (SERCOM_SPI_CTRLA) Enable */
+#define SERCOM_SPI_CTRLA_ENABLE     (_U_(0x1) << SERCOM_SPI_CTRLA_ENABLE_Pos)
+#define SERCOM_SPI_CTRLA_MODE_Pos   2            /**< \brief (SERCOM_SPI_CTRLA) Operating Mode */
+#define SERCOM_SPI_CTRLA_MODE_Msk   (_U_(0x7) << SERCOM_SPI_CTRLA_MODE_Pos)
+#define SERCOM_SPI_CTRLA_MODE(value) (SERCOM_SPI_CTRLA_MODE_Msk & ((value) << SERCOM_SPI_CTRLA_MODE_Pos))
+#define SERCOM_SPI_CTRLA_RUNSTDBY_Pos 7            /**< \brief (SERCOM_SPI_CTRLA) Run during Standby */
+#define SERCOM_SPI_CTRLA_RUNSTDBY   (_U_(0x1) << SERCOM_SPI_CTRLA_RUNSTDBY_Pos)
+#define SERCOM_SPI_CTRLA_IBON_Pos   8            /**< \brief (SERCOM_SPI_CTRLA) Immediate Buffer Overflow Notification */
+#define SERCOM_SPI_CTRLA_IBON       (_U_(0x1) << SERCOM_SPI_CTRLA_IBON_Pos)
+#define SERCOM_SPI_CTRLA_DOPO_Pos   16           /**< \brief (SERCOM_SPI_CTRLA) Data Out Pinout */
+#define SERCOM_SPI_CTRLA_DOPO_Msk   (_U_(0x3) << SERCOM_SPI_CTRLA_DOPO_Pos)
+#define SERCOM_SPI_CTRLA_DOPO(value) (SERCOM_SPI_CTRLA_DOPO_Msk & ((value) << SERCOM_SPI_CTRLA_DOPO_Pos))
+#define SERCOM_SPI_CTRLA_DIPO_Pos   20           /**< \brief (SERCOM_SPI_CTRLA) Data In Pinout */
+#define SERCOM_SPI_CTRLA_DIPO_Msk   (_U_(0x3) << SERCOM_SPI_CTRLA_DIPO_Pos)
+#define SERCOM_SPI_CTRLA_DIPO(value) (SERCOM_SPI_CTRLA_DIPO_Msk & ((value) << SERCOM_SPI_CTRLA_DIPO_Pos))
+#define SERCOM_SPI_CTRLA_FORM_Pos   24           /**< \brief (SERCOM_SPI_CTRLA) Frame Format */
+#define SERCOM_SPI_CTRLA_FORM_Msk   (_U_(0xF) << SERCOM_SPI_CTRLA_FORM_Pos)
+#define SERCOM_SPI_CTRLA_FORM(value) (SERCOM_SPI_CTRLA_FORM_Msk & ((value) << SERCOM_SPI_CTRLA_FORM_Pos))
+#define SERCOM_SPI_CTRLA_CPHA_Pos   28           /**< \brief (SERCOM_SPI_CTRLA) Clock Phase */
+#define SERCOM_SPI_CTRLA_CPHA       (_U_(0x1) << SERCOM_SPI_CTRLA_CPHA_Pos)
+#define SERCOM_SPI_CTRLA_CPOL_Pos   29           /**< \brief (SERCOM_SPI_CTRLA) Clock Polarity */
+#define SERCOM_SPI_CTRLA_CPOL       (_U_(0x1) << SERCOM_SPI_CTRLA_CPOL_Pos)
+#define SERCOM_SPI_CTRLA_DORD_Pos   30           /**< \brief (SERCOM_SPI_CTRLA) Data Order */
+#define SERCOM_SPI_CTRLA_DORD       (_U_(0x1) << SERCOM_SPI_CTRLA_DORD_Pos)
+#define SERCOM_SPI_CTRLA_MASK       _U_(0x7F33019F) /**< \brief (SERCOM_SPI_CTRLA) MASK Register */
+
+/* -------- SERCOM_USART_CTRLA : (SERCOM Offset: 0x00) (R/W 32) USART USART Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t MODE:3;           /*!< bit:  2.. 4  Operating Mode                     */
+    uint32_t :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      7  Run during Standby                 */
+    uint32_t IBON:1;           /*!< bit:      8  Immediate Buffer Overflow Notification */
+    uint32_t TXINV:1;          /*!< bit:      9  Transmit Data Invert               */
+    uint32_t RXINV:1;          /*!< bit:     10  Receive Data Invert                */
+    uint32_t :2;               /*!< bit: 11..12  Reserved                           */
+    uint32_t SAMPR:3;          /*!< bit: 13..15  Sample                             */
+    uint32_t TXPO:2;           /*!< bit: 16..17  Transmit Data Pinout               */
+    uint32_t :2;               /*!< bit: 18..19  Reserved                           */
+    uint32_t RXPO:2;           /*!< bit: 20..21  Receive Data Pinout                */
+    uint32_t SAMPA:2;          /*!< bit: 22..23  Sample Adjustment                  */
+    uint32_t FORM:4;           /*!< bit: 24..27  Frame Format                       */
+    uint32_t CMODE:1;          /*!< bit:     28  Communication Mode                 */
+    uint32_t CPOL:1;           /*!< bit:     29  Clock Polarity                     */
+    uint32_t DORD:1;           /*!< bit:     30  Data Order                         */
+    uint32_t :1;               /*!< bit:     31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_CTRLA_OFFSET   0x00         /**< \brief (SERCOM_USART_CTRLA offset) USART Control A */
+#define SERCOM_USART_CTRLA_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_USART_CTRLA reset_value) USART Control A */
+
+#define SERCOM_USART_CTRLA_SWRST_Pos 0            /**< \brief (SERCOM_USART_CTRLA) Software Reset */
+#define SERCOM_USART_CTRLA_SWRST    (_U_(0x1) << SERCOM_USART_CTRLA_SWRST_Pos)
+#define SERCOM_USART_CTRLA_ENABLE_Pos 1            /**< \brief (SERCOM_USART_CTRLA) Enable */
+#define SERCOM_USART_CTRLA_ENABLE   (_U_(0x1) << SERCOM_USART_CTRLA_ENABLE_Pos)
+#define SERCOM_USART_CTRLA_MODE_Pos 2            /**< \brief (SERCOM_USART_CTRLA) Operating Mode */
+#define SERCOM_USART_CTRLA_MODE_Msk (_U_(0x7) << SERCOM_USART_CTRLA_MODE_Pos)
+#define SERCOM_USART_CTRLA_MODE(value) (SERCOM_USART_CTRLA_MODE_Msk & ((value) << SERCOM_USART_CTRLA_MODE_Pos))
+#define SERCOM_USART_CTRLA_RUNSTDBY_Pos 7            /**< \brief (SERCOM_USART_CTRLA) Run during Standby */
+#define SERCOM_USART_CTRLA_RUNSTDBY (_U_(0x1) << SERCOM_USART_CTRLA_RUNSTDBY_Pos)
+#define SERCOM_USART_CTRLA_IBON_Pos 8            /**< \brief (SERCOM_USART_CTRLA) Immediate Buffer Overflow Notification */
+#define SERCOM_USART_CTRLA_IBON     (_U_(0x1) << SERCOM_USART_CTRLA_IBON_Pos)
+#define SERCOM_USART_CTRLA_TXINV_Pos 9            /**< \brief (SERCOM_USART_CTRLA) Transmit Data Invert */
+#define SERCOM_USART_CTRLA_TXINV    (_U_(0x1) << SERCOM_USART_CTRLA_TXINV_Pos)
+#define SERCOM_USART_CTRLA_RXINV_Pos 10           /**< \brief (SERCOM_USART_CTRLA) Receive Data Invert */
+#define SERCOM_USART_CTRLA_RXINV    (_U_(0x1) << SERCOM_USART_CTRLA_RXINV_Pos)
+#define SERCOM_USART_CTRLA_SAMPR_Pos 13           /**< \brief (SERCOM_USART_CTRLA) Sample */
+#define SERCOM_USART_CTRLA_SAMPR_Msk (_U_(0x7) << SERCOM_USART_CTRLA_SAMPR_Pos)
+#define SERCOM_USART_CTRLA_SAMPR(value) (SERCOM_USART_CTRLA_SAMPR_Msk & ((value) << SERCOM_USART_CTRLA_SAMPR_Pos))
+#define SERCOM_USART_CTRLA_TXPO_Pos 16           /**< \brief (SERCOM_USART_CTRLA) Transmit Data Pinout */
+#define SERCOM_USART_CTRLA_TXPO_Msk (_U_(0x3) << SERCOM_USART_CTRLA_TXPO_Pos)
+#define SERCOM_USART_CTRLA_TXPO(value) (SERCOM_USART_CTRLA_TXPO_Msk & ((value) << SERCOM_USART_CTRLA_TXPO_Pos))
+#define SERCOM_USART_CTRLA_RXPO_Pos 20           /**< \brief (SERCOM_USART_CTRLA) Receive Data Pinout */
+#define SERCOM_USART_CTRLA_RXPO_Msk (_U_(0x3) << SERCOM_USART_CTRLA_RXPO_Pos)
+#define SERCOM_USART_CTRLA_RXPO(value) (SERCOM_USART_CTRLA_RXPO_Msk & ((value) << SERCOM_USART_CTRLA_RXPO_Pos))
+#define SERCOM_USART_CTRLA_SAMPA_Pos 22           /**< \brief (SERCOM_USART_CTRLA) Sample Adjustment */
+#define SERCOM_USART_CTRLA_SAMPA_Msk (_U_(0x3) << SERCOM_USART_CTRLA_SAMPA_Pos)
+#define SERCOM_USART_CTRLA_SAMPA(value) (SERCOM_USART_CTRLA_SAMPA_Msk & ((value) << SERCOM_USART_CTRLA_SAMPA_Pos))
+#define SERCOM_USART_CTRLA_FORM_Pos 24           /**< \brief (SERCOM_USART_CTRLA) Frame Format */
+#define SERCOM_USART_CTRLA_FORM_Msk (_U_(0xF) << SERCOM_USART_CTRLA_FORM_Pos)
+#define SERCOM_USART_CTRLA_FORM(value) (SERCOM_USART_CTRLA_FORM_Msk & ((value) << SERCOM_USART_CTRLA_FORM_Pos))
+#define SERCOM_USART_CTRLA_CMODE_Pos 28           /**< \brief (SERCOM_USART_CTRLA) Communication Mode */
+#define SERCOM_USART_CTRLA_CMODE    (_U_(0x1) << SERCOM_USART_CTRLA_CMODE_Pos)
+#define SERCOM_USART_CTRLA_CPOL_Pos 29           /**< \brief (SERCOM_USART_CTRLA) Clock Polarity */
+#define SERCOM_USART_CTRLA_CPOL     (_U_(0x1) << SERCOM_USART_CTRLA_CPOL_Pos)
+#define SERCOM_USART_CTRLA_DORD_Pos 30           /**< \brief (SERCOM_USART_CTRLA) Data Order */
+#define SERCOM_USART_CTRLA_DORD     (_U_(0x1) << SERCOM_USART_CTRLA_DORD_Pos)
+#define SERCOM_USART_CTRLA_MASK     _U_(0x7FF3E79F) /**< \brief (SERCOM_USART_CTRLA) MASK Register */
+
+/* -------- SERCOM_I2CM_CTRLB : (SERCOM Offset: 0x04) (R/W 32) I2CM I2CM Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint32_t SMEN:1;           /*!< bit:      8  Smart Mode Enable                  */
+    uint32_t QCEN:1;           /*!< bit:      9  Quick Command Enable               */
+    uint32_t :6;               /*!< bit: 10..15  Reserved                           */
+    uint32_t CMD:2;            /*!< bit: 16..17  Command                            */
+    uint32_t ACKACT:1;         /*!< bit:     18  Acknowledge Action                 */
+    uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_CTRLB_OFFSET    0x04         /**< \brief (SERCOM_I2CM_CTRLB offset) I2CM Control B */
+#define SERCOM_I2CM_CTRLB_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CM_CTRLB reset_value) I2CM Control B */
+
+#define SERCOM_I2CM_CTRLB_SMEN_Pos  8            /**< \brief (SERCOM_I2CM_CTRLB) Smart Mode Enable */
+#define SERCOM_I2CM_CTRLB_SMEN      (_U_(0x1) << SERCOM_I2CM_CTRLB_SMEN_Pos)
+#define SERCOM_I2CM_CTRLB_QCEN_Pos  9            /**< \brief (SERCOM_I2CM_CTRLB) Quick Command Enable */
+#define SERCOM_I2CM_CTRLB_QCEN      (_U_(0x1) << SERCOM_I2CM_CTRLB_QCEN_Pos)
+#define SERCOM_I2CM_CTRLB_CMD_Pos   16           /**< \brief (SERCOM_I2CM_CTRLB) Command */
+#define SERCOM_I2CM_CTRLB_CMD_Msk   (_U_(0x3) << SERCOM_I2CM_CTRLB_CMD_Pos)
+#define SERCOM_I2CM_CTRLB_CMD(value) (SERCOM_I2CM_CTRLB_CMD_Msk & ((value) << SERCOM_I2CM_CTRLB_CMD_Pos))
+#define SERCOM_I2CM_CTRLB_ACKACT_Pos 18           /**< \brief (SERCOM_I2CM_CTRLB) Acknowledge Action */
+#define SERCOM_I2CM_CTRLB_ACKACT    (_U_(0x1) << SERCOM_I2CM_CTRLB_ACKACT_Pos)
+#define SERCOM_I2CM_CTRLB_MASK      _U_(0x00070300) /**< \brief (SERCOM_I2CM_CTRLB) MASK Register */
+
+/* -------- SERCOM_I2CS_CTRLB : (SERCOM Offset: 0x04) (R/W 32) I2CS I2CS Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint32_t SMEN:1;           /*!< bit:      8  Smart Mode Enable                  */
+    uint32_t GCMD:1;           /*!< bit:      9  PMBus Group Command                */
+    uint32_t AACKEN:1;         /*!< bit:     10  Automatic Address Acknowledge      */
+    uint32_t :3;               /*!< bit: 11..13  Reserved                           */
+    uint32_t AMODE:2;          /*!< bit: 14..15  Address Mode                       */
+    uint32_t CMD:2;            /*!< bit: 16..17  Command                            */
+    uint32_t ACKACT:1;         /*!< bit:     18  Acknowledge Action                 */
+    uint32_t :13;              /*!< bit: 19..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CS_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_CTRLB_OFFSET    0x04         /**< \brief (SERCOM_I2CS_CTRLB offset) I2CS Control B */
+#define SERCOM_I2CS_CTRLB_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CS_CTRLB reset_value) I2CS Control B */
+
+#define SERCOM_I2CS_CTRLB_SMEN_Pos  8            /**< \brief (SERCOM_I2CS_CTRLB) Smart Mode Enable */
+#define SERCOM_I2CS_CTRLB_SMEN      (_U_(0x1) << SERCOM_I2CS_CTRLB_SMEN_Pos)
+#define SERCOM_I2CS_CTRLB_GCMD_Pos  9            /**< \brief (SERCOM_I2CS_CTRLB) PMBus Group Command */
+#define SERCOM_I2CS_CTRLB_GCMD      (_U_(0x1) << SERCOM_I2CS_CTRLB_GCMD_Pos)
+#define SERCOM_I2CS_CTRLB_AACKEN_Pos 10           /**< \brief (SERCOM_I2CS_CTRLB) Automatic Address Acknowledge */
+#define SERCOM_I2CS_CTRLB_AACKEN    (_U_(0x1) << SERCOM_I2CS_CTRLB_AACKEN_Pos)
+#define SERCOM_I2CS_CTRLB_AMODE_Pos 14           /**< \brief (SERCOM_I2CS_CTRLB) Address Mode */
+#define SERCOM_I2CS_CTRLB_AMODE_Msk (_U_(0x3) << SERCOM_I2CS_CTRLB_AMODE_Pos)
+#define SERCOM_I2CS_CTRLB_AMODE(value) (SERCOM_I2CS_CTRLB_AMODE_Msk & ((value) << SERCOM_I2CS_CTRLB_AMODE_Pos))
+#define SERCOM_I2CS_CTRLB_CMD_Pos   16           /**< \brief (SERCOM_I2CS_CTRLB) Command */
+#define SERCOM_I2CS_CTRLB_CMD_Msk   (_U_(0x3) << SERCOM_I2CS_CTRLB_CMD_Pos)
+#define SERCOM_I2CS_CTRLB_CMD(value) (SERCOM_I2CS_CTRLB_CMD_Msk & ((value) << SERCOM_I2CS_CTRLB_CMD_Pos))
+#define SERCOM_I2CS_CTRLB_ACKACT_Pos 18           /**< \brief (SERCOM_I2CS_CTRLB) Acknowledge Action */
+#define SERCOM_I2CS_CTRLB_ACKACT    (_U_(0x1) << SERCOM_I2CS_CTRLB_ACKACT_Pos)
+#define SERCOM_I2CS_CTRLB_MASK      _U_(0x0007C700) /**< \brief (SERCOM_I2CS_CTRLB) MASK Register */
+
+/* -------- SERCOM_SPI_CTRLB : (SERCOM Offset: 0x04) (R/W 32) SPI SPI Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CHSIZE:3;         /*!< bit:  0.. 2  Character Size                     */
+    uint32_t :3;               /*!< bit:  3.. 5  Reserved                           */
+    uint32_t PLOADEN:1;        /*!< bit:      6  Data Preload Enable                */
+    uint32_t :2;               /*!< bit:  7.. 8  Reserved                           */
+    uint32_t SSDE:1;           /*!< bit:      9  Slave Select Low Detect Enable     */
+    uint32_t :3;               /*!< bit: 10..12  Reserved                           */
+    uint32_t MSSEN:1;          /*!< bit:     13  Master Slave Select Enable         */
+    uint32_t AMODE:2;          /*!< bit: 14..15  Address Mode                       */
+    uint32_t :1;               /*!< bit:     16  Reserved                           */
+    uint32_t RXEN:1;           /*!< bit:     17  Receiver Enable                    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_CTRLB_OFFSET     0x04         /**< \brief (SERCOM_SPI_CTRLB offset) SPI Control B */
+#define SERCOM_SPI_CTRLB_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_SPI_CTRLB reset_value) SPI Control B */
+
+#define SERCOM_SPI_CTRLB_CHSIZE_Pos 0            /**< \brief (SERCOM_SPI_CTRLB) Character Size */
+#define SERCOM_SPI_CTRLB_CHSIZE_Msk (_U_(0x7) << SERCOM_SPI_CTRLB_CHSIZE_Pos)
+#define SERCOM_SPI_CTRLB_CHSIZE(value) (SERCOM_SPI_CTRLB_CHSIZE_Msk & ((value) << SERCOM_SPI_CTRLB_CHSIZE_Pos))
+#define SERCOM_SPI_CTRLB_PLOADEN_Pos 6            /**< \brief (SERCOM_SPI_CTRLB) Data Preload Enable */
+#define SERCOM_SPI_CTRLB_PLOADEN    (_U_(0x1) << SERCOM_SPI_CTRLB_PLOADEN_Pos)
+#define SERCOM_SPI_CTRLB_SSDE_Pos   9            /**< \brief (SERCOM_SPI_CTRLB) Slave Select Low Detect Enable */
+#define SERCOM_SPI_CTRLB_SSDE       (_U_(0x1) << SERCOM_SPI_CTRLB_SSDE_Pos)
+#define SERCOM_SPI_CTRLB_MSSEN_Pos  13           /**< \brief (SERCOM_SPI_CTRLB) Master Slave Select Enable */
+#define SERCOM_SPI_CTRLB_MSSEN      (_U_(0x1) << SERCOM_SPI_CTRLB_MSSEN_Pos)
+#define SERCOM_SPI_CTRLB_AMODE_Pos  14           /**< \brief (SERCOM_SPI_CTRLB) Address Mode */
+#define SERCOM_SPI_CTRLB_AMODE_Msk  (_U_(0x3) << SERCOM_SPI_CTRLB_AMODE_Pos)
+#define SERCOM_SPI_CTRLB_AMODE(value) (SERCOM_SPI_CTRLB_AMODE_Msk & ((value) << SERCOM_SPI_CTRLB_AMODE_Pos))
+#define SERCOM_SPI_CTRLB_RXEN_Pos   17           /**< \brief (SERCOM_SPI_CTRLB) Receiver Enable */
+#define SERCOM_SPI_CTRLB_RXEN       (_U_(0x1) << SERCOM_SPI_CTRLB_RXEN_Pos)
+#define SERCOM_SPI_CTRLB_MASK       _U_(0x0002E247) /**< \brief (SERCOM_SPI_CTRLB) MASK Register */
+
+/* -------- SERCOM_USART_CTRLB : (SERCOM Offset: 0x04) (R/W 32) USART USART Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CHSIZE:3;         /*!< bit:  0.. 2  Character Size                     */
+    uint32_t :3;               /*!< bit:  3.. 5  Reserved                           */
+    uint32_t SBMODE:1;         /*!< bit:      6  Stop Bit Mode                      */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t COLDEN:1;         /*!< bit:      8  Collision Detection Enable         */
+    uint32_t SFDE:1;           /*!< bit:      9  Start of Frame Detection Enable    */
+    uint32_t ENC:1;            /*!< bit:     10  Encoding Format                    */
+    uint32_t :2;               /*!< bit: 11..12  Reserved                           */
+    uint32_t PMODE:1;          /*!< bit:     13  Parity Mode                        */
+    uint32_t :2;               /*!< bit: 14..15  Reserved                           */
+    uint32_t TXEN:1;           /*!< bit:     16  Transmitter Enable                 */
+    uint32_t RXEN:1;           /*!< bit:     17  Receiver Enable                    */
+    uint32_t :14;              /*!< bit: 18..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_CTRLB_OFFSET   0x04         /**< \brief (SERCOM_USART_CTRLB offset) USART Control B */
+#define SERCOM_USART_CTRLB_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_USART_CTRLB reset_value) USART Control B */
+
+#define SERCOM_USART_CTRLB_CHSIZE_Pos 0            /**< \brief (SERCOM_USART_CTRLB) Character Size */
+#define SERCOM_USART_CTRLB_CHSIZE_Msk (_U_(0x7) << SERCOM_USART_CTRLB_CHSIZE_Pos)
+#define SERCOM_USART_CTRLB_CHSIZE(value) (SERCOM_USART_CTRLB_CHSIZE_Msk & ((value) << SERCOM_USART_CTRLB_CHSIZE_Pos))
+#define SERCOM_USART_CTRLB_SBMODE_Pos 6            /**< \brief (SERCOM_USART_CTRLB) Stop Bit Mode */
+#define SERCOM_USART_CTRLB_SBMODE   (_U_(0x1) << SERCOM_USART_CTRLB_SBMODE_Pos)
+#define SERCOM_USART_CTRLB_COLDEN_Pos 8            /**< \brief (SERCOM_USART_CTRLB) Collision Detection Enable */
+#define SERCOM_USART_CTRLB_COLDEN   (_U_(0x1) << SERCOM_USART_CTRLB_COLDEN_Pos)
+#define SERCOM_USART_CTRLB_SFDE_Pos 9            /**< \brief (SERCOM_USART_CTRLB) Start of Frame Detection Enable */
+#define SERCOM_USART_CTRLB_SFDE     (_U_(0x1) << SERCOM_USART_CTRLB_SFDE_Pos)
+#define SERCOM_USART_CTRLB_ENC_Pos  10           /**< \brief (SERCOM_USART_CTRLB) Encoding Format */
+#define SERCOM_USART_CTRLB_ENC      (_U_(0x1) << SERCOM_USART_CTRLB_ENC_Pos)
+#define SERCOM_USART_CTRLB_PMODE_Pos 13           /**< \brief (SERCOM_USART_CTRLB) Parity Mode */
+#define SERCOM_USART_CTRLB_PMODE    (_U_(0x1) << SERCOM_USART_CTRLB_PMODE_Pos)
+#define SERCOM_USART_CTRLB_TXEN_Pos 16           /**< \brief (SERCOM_USART_CTRLB) Transmitter Enable */
+#define SERCOM_USART_CTRLB_TXEN     (_U_(0x1) << SERCOM_USART_CTRLB_TXEN_Pos)
+#define SERCOM_USART_CTRLB_RXEN_Pos 17           /**< \brief (SERCOM_USART_CTRLB) Receiver Enable */
+#define SERCOM_USART_CTRLB_RXEN     (_U_(0x1) << SERCOM_USART_CTRLB_RXEN_Pos)
+#define SERCOM_USART_CTRLB_MASK     _U_(0x00032747) /**< \brief (SERCOM_USART_CTRLB) MASK Register */
+
+/* -------- SERCOM_USART_CTRLC : (SERCOM Offset: 0x08) (R/W 32) USART USART Control C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t GTIME:3;          /*!< bit:  0.. 2  Guard Time                         */
+    uint32_t :13;              /*!< bit:  3..15  Reserved                           */
+    uint32_t INACK:1;          /*!< bit:     16  Inhibit Not Acknowledge            */
+    uint32_t DSNACK:1;         /*!< bit:     17  Disable Successive NACK            */
+    uint32_t :2;               /*!< bit: 18..19  Reserved                           */
+    uint32_t MAXITER:3;        /*!< bit: 20..22  Maximum Iterations                 */
+    uint32_t :9;               /*!< bit: 23..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_CTRLC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_CTRLC_OFFSET   0x08         /**< \brief (SERCOM_USART_CTRLC offset) USART Control C */
+#define SERCOM_USART_CTRLC_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_USART_CTRLC reset_value) USART Control C */
+
+#define SERCOM_USART_CTRLC_GTIME_Pos 0            /**< \brief (SERCOM_USART_CTRLC) Guard Time */
+#define SERCOM_USART_CTRLC_GTIME_Msk (_U_(0x7) << SERCOM_USART_CTRLC_GTIME_Pos)
+#define SERCOM_USART_CTRLC_GTIME(value) (SERCOM_USART_CTRLC_GTIME_Msk & ((value) << SERCOM_USART_CTRLC_GTIME_Pos))
+#define SERCOM_USART_CTRLC_INACK_Pos 16           /**< \brief (SERCOM_USART_CTRLC) Inhibit Not Acknowledge */
+#define SERCOM_USART_CTRLC_INACK    (_U_(0x1) << SERCOM_USART_CTRLC_INACK_Pos)
+#define SERCOM_USART_CTRLC_DSNACK_Pos 17           /**< \brief (SERCOM_USART_CTRLC) Disable Successive NACK */
+#define SERCOM_USART_CTRLC_DSNACK   (_U_(0x1) << SERCOM_USART_CTRLC_DSNACK_Pos)
+#define SERCOM_USART_CTRLC_MAXITER_Pos 20           /**< \brief (SERCOM_USART_CTRLC) Maximum Iterations */
+#define SERCOM_USART_CTRLC_MAXITER_Msk (_U_(0x7) << SERCOM_USART_CTRLC_MAXITER_Pos)
+#define SERCOM_USART_CTRLC_MAXITER(value) (SERCOM_USART_CTRLC_MAXITER_Msk & ((value) << SERCOM_USART_CTRLC_MAXITER_Pos))
+#define SERCOM_USART_CTRLC_MASK     _U_(0x00730007) /**< \brief (SERCOM_USART_CTRLC) MASK Register */
+
+/* -------- SERCOM_I2CM_BAUD : (SERCOM Offset: 0x0C) (R/W 32) I2CM I2CM Baud Rate -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BAUD:8;           /*!< bit:  0.. 7  Baud Rate Value                    */
+    uint32_t BAUDLOW:8;        /*!< bit:  8..15  Baud Rate Value Low                */
+    uint32_t HSBAUD:8;         /*!< bit: 16..23  High Speed Baud Rate Value         */
+    uint32_t HSBAUDLOW:8;      /*!< bit: 24..31  High Speed Baud Rate Value Low     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_BAUD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_BAUD_OFFSET     0x0C         /**< \brief (SERCOM_I2CM_BAUD offset) I2CM Baud Rate */
+#define SERCOM_I2CM_BAUD_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CM_BAUD reset_value) I2CM Baud Rate */
+
+#define SERCOM_I2CM_BAUD_BAUD_Pos   0            /**< \brief (SERCOM_I2CM_BAUD) Baud Rate Value */
+#define SERCOM_I2CM_BAUD_BAUD_Msk   (_U_(0xFF) << SERCOM_I2CM_BAUD_BAUD_Pos)
+#define SERCOM_I2CM_BAUD_BAUD(value) (SERCOM_I2CM_BAUD_BAUD_Msk & ((value) << SERCOM_I2CM_BAUD_BAUD_Pos))
+#define SERCOM_I2CM_BAUD_BAUDLOW_Pos 8            /**< \brief (SERCOM_I2CM_BAUD) Baud Rate Value Low */
+#define SERCOM_I2CM_BAUD_BAUDLOW_Msk (_U_(0xFF) << SERCOM_I2CM_BAUD_BAUDLOW_Pos)
+#define SERCOM_I2CM_BAUD_BAUDLOW(value) (SERCOM_I2CM_BAUD_BAUDLOW_Msk & ((value) << SERCOM_I2CM_BAUD_BAUDLOW_Pos))
+#define SERCOM_I2CM_BAUD_HSBAUD_Pos 16           /**< \brief (SERCOM_I2CM_BAUD) High Speed Baud Rate Value */
+#define SERCOM_I2CM_BAUD_HSBAUD_Msk (_U_(0xFF) << SERCOM_I2CM_BAUD_HSBAUD_Pos)
+#define SERCOM_I2CM_BAUD_HSBAUD(value) (SERCOM_I2CM_BAUD_HSBAUD_Msk & ((value) << SERCOM_I2CM_BAUD_HSBAUD_Pos))
+#define SERCOM_I2CM_BAUD_HSBAUDLOW_Pos 24           /**< \brief (SERCOM_I2CM_BAUD) High Speed Baud Rate Value Low */
+#define SERCOM_I2CM_BAUD_HSBAUDLOW_Msk (_U_(0xFF) << SERCOM_I2CM_BAUD_HSBAUDLOW_Pos)
+#define SERCOM_I2CM_BAUD_HSBAUDLOW(value) (SERCOM_I2CM_BAUD_HSBAUDLOW_Msk & ((value) << SERCOM_I2CM_BAUD_HSBAUDLOW_Pos))
+#define SERCOM_I2CM_BAUD_MASK       _U_(0xFFFFFFFF) /**< \brief (SERCOM_I2CM_BAUD) MASK Register */
+
+/* -------- SERCOM_SPI_BAUD : (SERCOM Offset: 0x0C) (R/W  8) SPI SPI Baud Rate -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  BAUD:8;           /*!< bit:  0.. 7  Baud Rate Value                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_SPI_BAUD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_BAUD_OFFSET      0x0C         /**< \brief (SERCOM_SPI_BAUD offset) SPI Baud Rate */
+#define SERCOM_SPI_BAUD_RESETVALUE  _U_(0x00)    /**< \brief (SERCOM_SPI_BAUD reset_value) SPI Baud Rate */
+
+#define SERCOM_SPI_BAUD_BAUD_Pos    0            /**< \brief (SERCOM_SPI_BAUD) Baud Rate Value */
+#define SERCOM_SPI_BAUD_BAUD_Msk    (_U_(0xFF) << SERCOM_SPI_BAUD_BAUD_Pos)
+#define SERCOM_SPI_BAUD_BAUD(value) (SERCOM_SPI_BAUD_BAUD_Msk & ((value) << SERCOM_SPI_BAUD_BAUD_Pos))
+#define SERCOM_SPI_BAUD_MASK        _U_(0xFF)    /**< \brief (SERCOM_SPI_BAUD) MASK Register */
+
+/* -------- SERCOM_USART_BAUD : (SERCOM Offset: 0x0C) (R/W 16) USART USART Baud Rate -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BAUD:16;          /*!< bit:  0..15  Baud Rate Value                    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct { // FRAC mode
+    uint16_t BAUD:13;          /*!< bit:  0..12  Baud Rate Value                    */
+    uint16_t FP:3;             /*!< bit: 13..15  Fractional Part                    */
+  } FRAC;                      /*!< Structure used for FRAC                         */
+  struct { // FRACFP mode
+    uint16_t BAUD:13;          /*!< bit:  0..12  Baud Rate Value                    */
+    uint16_t FP:3;             /*!< bit: 13..15  Fractional Part                    */
+  } FRACFP;                    /*!< Structure used for FRACFP                       */
+  struct { // USARTFP mode
+    uint16_t BAUD:16;          /*!< bit:  0..15  Baud Rate Value                    */
+  } USARTFP;                   /*!< Structure used for USARTFP                      */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_BAUD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_BAUD_OFFSET    0x0C         /**< \brief (SERCOM_USART_BAUD offset) USART Baud Rate */
+#define SERCOM_USART_BAUD_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_USART_BAUD reset_value) USART Baud Rate */
+
+#define SERCOM_USART_BAUD_BAUD_Pos  0            /**< \brief (SERCOM_USART_BAUD) Baud Rate Value */
+#define SERCOM_USART_BAUD_BAUD_Msk  (_U_(0xFFFF) << SERCOM_USART_BAUD_BAUD_Pos)
+#define SERCOM_USART_BAUD_BAUD(value) (SERCOM_USART_BAUD_BAUD_Msk & ((value) << SERCOM_USART_BAUD_BAUD_Pos))
+#define SERCOM_USART_BAUD_MASK      _U_(0xFFFF)  /**< \brief (SERCOM_USART_BAUD) MASK Register */
+
+// FRAC mode
+#define SERCOM_USART_BAUD_FRAC_BAUD_Pos 0            /**< \brief (SERCOM_USART_BAUD_FRAC) Baud Rate Value */
+#define SERCOM_USART_BAUD_FRAC_BAUD_Msk (_U_(0x1FFF) << SERCOM_USART_BAUD_FRAC_BAUD_Pos)
+#define SERCOM_USART_BAUD_FRAC_BAUD(value) (SERCOM_USART_BAUD_FRAC_BAUD_Msk & ((value) << SERCOM_USART_BAUD_FRAC_BAUD_Pos))
+#define SERCOM_USART_BAUD_FRAC_FP_Pos 13           /**< \brief (SERCOM_USART_BAUD_FRAC) Fractional Part */
+#define SERCOM_USART_BAUD_FRAC_FP_Msk (_U_(0x7) << SERCOM_USART_BAUD_FRAC_FP_Pos)
+#define SERCOM_USART_BAUD_FRAC_FP(value) (SERCOM_USART_BAUD_FRAC_FP_Msk & ((value) << SERCOM_USART_BAUD_FRAC_FP_Pos))
+#define SERCOM_USART_BAUD_FRAC_MASK _U_(0xFFFF)  /**< \brief (SERCOM_USART_BAUD_FRAC) MASK Register */
+
+// FRACFP mode
+#define SERCOM_USART_BAUD_FRACFP_BAUD_Pos 0            /**< \brief (SERCOM_USART_BAUD_FRACFP) Baud Rate Value */
+#define SERCOM_USART_BAUD_FRACFP_BAUD_Msk (_U_(0x1FFF) << SERCOM_USART_BAUD_FRACFP_BAUD_Pos)
+#define SERCOM_USART_BAUD_FRACFP_BAUD(value) (SERCOM_USART_BAUD_FRACFP_BAUD_Msk & ((value) << SERCOM_USART_BAUD_FRACFP_BAUD_Pos))
+#define SERCOM_USART_BAUD_FRACFP_FP_Pos 13           /**< \brief (SERCOM_USART_BAUD_FRACFP) Fractional Part */
+#define SERCOM_USART_BAUD_FRACFP_FP_Msk (_U_(0x7) << SERCOM_USART_BAUD_FRACFP_FP_Pos)
+#define SERCOM_USART_BAUD_FRACFP_FP(value) (SERCOM_USART_BAUD_FRACFP_FP_Msk & ((value) << SERCOM_USART_BAUD_FRACFP_FP_Pos))
+#define SERCOM_USART_BAUD_FRACFP_MASK _U_(0xFFFF)  /**< \brief (SERCOM_USART_BAUD_FRACFP) MASK Register */
+
+// USARTFP mode
+#define SERCOM_USART_BAUD_USARTFP_BAUD_Pos 0            /**< \brief (SERCOM_USART_BAUD_USARTFP) Baud Rate Value */
+#define SERCOM_USART_BAUD_USARTFP_BAUD_Msk (_U_(0xFFFF) << SERCOM_USART_BAUD_USARTFP_BAUD_Pos)
+#define SERCOM_USART_BAUD_USARTFP_BAUD(value) (SERCOM_USART_BAUD_USARTFP_BAUD_Msk & ((value) << SERCOM_USART_BAUD_USARTFP_BAUD_Pos))
+#define SERCOM_USART_BAUD_USARTFP_MASK _U_(0xFFFF)  /**< \brief (SERCOM_USART_BAUD_USARTFP) MASK Register */
+
+/* -------- SERCOM_USART_RXPL : (SERCOM Offset: 0x0E) (R/W  8) USART USART Receive Pulse Length -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  RXPL:8;           /*!< bit:  0.. 7  Receive Pulse Length               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_RXPL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_RXPL_OFFSET    0x0E         /**< \brief (SERCOM_USART_RXPL offset) USART Receive Pulse Length */
+#define SERCOM_USART_RXPL_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_RXPL reset_value) USART Receive Pulse Length */
+
+#define SERCOM_USART_RXPL_RXPL_Pos  0            /**< \brief (SERCOM_USART_RXPL) Receive Pulse Length */
+#define SERCOM_USART_RXPL_RXPL_Msk  (_U_(0xFF) << SERCOM_USART_RXPL_RXPL_Pos)
+#define SERCOM_USART_RXPL_RXPL(value) (SERCOM_USART_RXPL_RXPL_Msk & ((value) << SERCOM_USART_RXPL_RXPL_Pos))
+#define SERCOM_USART_RXPL_MASK      _U_(0xFF)    /**< \brief (SERCOM_USART_RXPL) MASK Register */
+
+/* -------- SERCOM_I2CM_INTENCLR : (SERCOM Offset: 0x14) (R/W  8) I2CM I2CM Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  MB:1;             /*!< bit:      0  Master On Bus Interrupt Disable    */
+    uint8_t  SB:1;             /*!< bit:      1  Slave On Bus Interrupt Disable     */
+    uint8_t  :5;               /*!< bit:  2.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Disable   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CM_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_INTENCLR_OFFSET 0x14         /**< \brief (SERCOM_I2CM_INTENCLR offset) I2CM Interrupt Enable Clear */
+#define SERCOM_I2CM_INTENCLR_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CM_INTENCLR reset_value) I2CM Interrupt Enable Clear */
+
+#define SERCOM_I2CM_INTENCLR_MB_Pos 0            /**< \brief (SERCOM_I2CM_INTENCLR) Master On Bus Interrupt Disable */
+#define SERCOM_I2CM_INTENCLR_MB     (_U_(0x1) << SERCOM_I2CM_INTENCLR_MB_Pos)
+#define SERCOM_I2CM_INTENCLR_SB_Pos 1            /**< \brief (SERCOM_I2CM_INTENCLR) Slave On Bus Interrupt Disable */
+#define SERCOM_I2CM_INTENCLR_SB     (_U_(0x1) << SERCOM_I2CM_INTENCLR_SB_Pos)
+#define SERCOM_I2CM_INTENCLR_ERROR_Pos 7            /**< \brief (SERCOM_I2CM_INTENCLR) Combined Error Interrupt Disable */
+#define SERCOM_I2CM_INTENCLR_ERROR  (_U_(0x1) << SERCOM_I2CM_INTENCLR_ERROR_Pos)
+#define SERCOM_I2CM_INTENCLR_MASK   _U_(0x83)    /**< \brief (SERCOM_I2CM_INTENCLR) MASK Register */
+
+/* -------- SERCOM_I2CS_INTENCLR : (SERCOM Offset: 0x14) (R/W  8) I2CS I2CS Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PREC:1;           /*!< bit:      0  Stop Received Interrupt Disable    */
+    uint8_t  AMATCH:1;         /*!< bit:      1  Address Match Interrupt Disable    */
+    uint8_t  DRDY:1;           /*!< bit:      2  Data Interrupt Disable             */
+    uint8_t  :4;               /*!< bit:  3.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Disable   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CS_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_INTENCLR_OFFSET 0x14         /**< \brief (SERCOM_I2CS_INTENCLR offset) I2CS Interrupt Enable Clear */
+#define SERCOM_I2CS_INTENCLR_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CS_INTENCLR reset_value) I2CS Interrupt Enable Clear */
+
+#define SERCOM_I2CS_INTENCLR_PREC_Pos 0            /**< \brief (SERCOM_I2CS_INTENCLR) Stop Received Interrupt Disable */
+#define SERCOM_I2CS_INTENCLR_PREC   (_U_(0x1) << SERCOM_I2CS_INTENCLR_PREC_Pos)
+#define SERCOM_I2CS_INTENCLR_AMATCH_Pos 1            /**< \brief (SERCOM_I2CS_INTENCLR) Address Match Interrupt Disable */
+#define SERCOM_I2CS_INTENCLR_AMATCH (_U_(0x1) << SERCOM_I2CS_INTENCLR_AMATCH_Pos)
+#define SERCOM_I2CS_INTENCLR_DRDY_Pos 2            /**< \brief (SERCOM_I2CS_INTENCLR) Data Interrupt Disable */
+#define SERCOM_I2CS_INTENCLR_DRDY   (_U_(0x1) << SERCOM_I2CS_INTENCLR_DRDY_Pos)
+#define SERCOM_I2CS_INTENCLR_ERROR_Pos 7            /**< \brief (SERCOM_I2CS_INTENCLR) Combined Error Interrupt Disable */
+#define SERCOM_I2CS_INTENCLR_ERROR  (_U_(0x1) << SERCOM_I2CS_INTENCLR_ERROR_Pos)
+#define SERCOM_I2CS_INTENCLR_MASK   _U_(0x87)    /**< \brief (SERCOM_I2CS_INTENCLR) MASK Register */
+
+/* -------- SERCOM_SPI_INTENCLR : (SERCOM Offset: 0x14) (R/W  8) SPI SPI Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt Disable */
+    uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt Disable */
+    uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt Disable */
+    uint8_t  SSL:1;            /*!< bit:      3  Slave Select Low Interrupt Disable */
+    uint8_t  :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Disable   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_SPI_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_INTENCLR_OFFSET  0x14         /**< \brief (SERCOM_SPI_INTENCLR offset) SPI Interrupt Enable Clear */
+#define SERCOM_SPI_INTENCLR_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_SPI_INTENCLR reset_value) SPI Interrupt Enable Clear */
+
+#define SERCOM_SPI_INTENCLR_DRE_Pos 0            /**< \brief (SERCOM_SPI_INTENCLR) Data Register Empty Interrupt Disable */
+#define SERCOM_SPI_INTENCLR_DRE     (_U_(0x1) << SERCOM_SPI_INTENCLR_DRE_Pos)
+#define SERCOM_SPI_INTENCLR_TXC_Pos 1            /**< \brief (SERCOM_SPI_INTENCLR) Transmit Complete Interrupt Disable */
+#define SERCOM_SPI_INTENCLR_TXC     (_U_(0x1) << SERCOM_SPI_INTENCLR_TXC_Pos)
+#define SERCOM_SPI_INTENCLR_RXC_Pos 2            /**< \brief (SERCOM_SPI_INTENCLR) Receive Complete Interrupt Disable */
+#define SERCOM_SPI_INTENCLR_RXC     (_U_(0x1) << SERCOM_SPI_INTENCLR_RXC_Pos)
+#define SERCOM_SPI_INTENCLR_SSL_Pos 3            /**< \brief (SERCOM_SPI_INTENCLR) Slave Select Low Interrupt Disable */
+#define SERCOM_SPI_INTENCLR_SSL     (_U_(0x1) << SERCOM_SPI_INTENCLR_SSL_Pos)
+#define SERCOM_SPI_INTENCLR_ERROR_Pos 7            /**< \brief (SERCOM_SPI_INTENCLR) Combined Error Interrupt Disable */
+#define SERCOM_SPI_INTENCLR_ERROR   (_U_(0x1) << SERCOM_SPI_INTENCLR_ERROR_Pos)
+#define SERCOM_SPI_INTENCLR_MASK    _U_(0x8F)    /**< \brief (SERCOM_SPI_INTENCLR) MASK Register */
+
+/* -------- SERCOM_USART_INTENCLR : (SERCOM Offset: 0x14) (R/W  8) USART USART Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt Disable */
+    uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt Disable */
+    uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt Disable */
+    uint8_t  RXS:1;            /*!< bit:      3  Receive Start Interrupt Disable    */
+    uint8_t  CTSIC:1;          /*!< bit:      4  Clear To Send Input Change Interrupt Disable */
+    uint8_t  RXBRK:1;          /*!< bit:      5  Break Received Interrupt Disable   */
+    uint8_t  :1;               /*!< bit:      6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Disable   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_INTENCLR_OFFSET 0x14         /**< \brief (SERCOM_USART_INTENCLR offset) USART Interrupt Enable Clear */
+#define SERCOM_USART_INTENCLR_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_INTENCLR reset_value) USART Interrupt Enable Clear */
+
+#define SERCOM_USART_INTENCLR_DRE_Pos 0            /**< \brief (SERCOM_USART_INTENCLR) Data Register Empty Interrupt Disable */
+#define SERCOM_USART_INTENCLR_DRE   (_U_(0x1) << SERCOM_USART_INTENCLR_DRE_Pos)
+#define SERCOM_USART_INTENCLR_TXC_Pos 1            /**< \brief (SERCOM_USART_INTENCLR) Transmit Complete Interrupt Disable */
+#define SERCOM_USART_INTENCLR_TXC   (_U_(0x1) << SERCOM_USART_INTENCLR_TXC_Pos)
+#define SERCOM_USART_INTENCLR_RXC_Pos 2            /**< \brief (SERCOM_USART_INTENCLR) Receive Complete Interrupt Disable */
+#define SERCOM_USART_INTENCLR_RXC   (_U_(0x1) << SERCOM_USART_INTENCLR_RXC_Pos)
+#define SERCOM_USART_INTENCLR_RXS_Pos 3            /**< \brief (SERCOM_USART_INTENCLR) Receive Start Interrupt Disable */
+#define SERCOM_USART_INTENCLR_RXS   (_U_(0x1) << SERCOM_USART_INTENCLR_RXS_Pos)
+#define SERCOM_USART_INTENCLR_CTSIC_Pos 4            /**< \brief (SERCOM_USART_INTENCLR) Clear To Send Input Change Interrupt Disable */
+#define SERCOM_USART_INTENCLR_CTSIC (_U_(0x1) << SERCOM_USART_INTENCLR_CTSIC_Pos)
+#define SERCOM_USART_INTENCLR_RXBRK_Pos 5            /**< \brief (SERCOM_USART_INTENCLR) Break Received Interrupt Disable */
+#define SERCOM_USART_INTENCLR_RXBRK (_U_(0x1) << SERCOM_USART_INTENCLR_RXBRK_Pos)
+#define SERCOM_USART_INTENCLR_ERROR_Pos 7            /**< \brief (SERCOM_USART_INTENCLR) Combined Error Interrupt Disable */
+#define SERCOM_USART_INTENCLR_ERROR (_U_(0x1) << SERCOM_USART_INTENCLR_ERROR_Pos)
+#define SERCOM_USART_INTENCLR_MASK  _U_(0xBF)    /**< \brief (SERCOM_USART_INTENCLR) MASK Register */
+
+/* -------- SERCOM_I2CM_INTENSET : (SERCOM Offset: 0x16) (R/W  8) I2CM I2CM Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  MB:1;             /*!< bit:      0  Master On Bus Interrupt Enable     */
+    uint8_t  SB:1;             /*!< bit:      1  Slave On Bus Interrupt Enable      */
+    uint8_t  :5;               /*!< bit:  2.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Enable    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CM_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_INTENSET_OFFSET 0x16         /**< \brief (SERCOM_I2CM_INTENSET offset) I2CM Interrupt Enable Set */
+#define SERCOM_I2CM_INTENSET_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CM_INTENSET reset_value) I2CM Interrupt Enable Set */
+
+#define SERCOM_I2CM_INTENSET_MB_Pos 0            /**< \brief (SERCOM_I2CM_INTENSET) Master On Bus Interrupt Enable */
+#define SERCOM_I2CM_INTENSET_MB     (_U_(0x1) << SERCOM_I2CM_INTENSET_MB_Pos)
+#define SERCOM_I2CM_INTENSET_SB_Pos 1            /**< \brief (SERCOM_I2CM_INTENSET) Slave On Bus Interrupt Enable */
+#define SERCOM_I2CM_INTENSET_SB     (_U_(0x1) << SERCOM_I2CM_INTENSET_SB_Pos)
+#define SERCOM_I2CM_INTENSET_ERROR_Pos 7            /**< \brief (SERCOM_I2CM_INTENSET) Combined Error Interrupt Enable */
+#define SERCOM_I2CM_INTENSET_ERROR  (_U_(0x1) << SERCOM_I2CM_INTENSET_ERROR_Pos)
+#define SERCOM_I2CM_INTENSET_MASK   _U_(0x83)    /**< \brief (SERCOM_I2CM_INTENSET) MASK Register */
+
+/* -------- SERCOM_I2CS_INTENSET : (SERCOM Offset: 0x16) (R/W  8) I2CS I2CS Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PREC:1;           /*!< bit:      0  Stop Received Interrupt Enable     */
+    uint8_t  AMATCH:1;         /*!< bit:      1  Address Match Interrupt Enable     */
+    uint8_t  DRDY:1;           /*!< bit:      2  Data Interrupt Enable              */
+    uint8_t  :4;               /*!< bit:  3.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Enable    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CS_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_INTENSET_OFFSET 0x16         /**< \brief (SERCOM_I2CS_INTENSET offset) I2CS Interrupt Enable Set */
+#define SERCOM_I2CS_INTENSET_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CS_INTENSET reset_value) I2CS Interrupt Enable Set */
+
+#define SERCOM_I2CS_INTENSET_PREC_Pos 0            /**< \brief (SERCOM_I2CS_INTENSET) Stop Received Interrupt Enable */
+#define SERCOM_I2CS_INTENSET_PREC   (_U_(0x1) << SERCOM_I2CS_INTENSET_PREC_Pos)
+#define SERCOM_I2CS_INTENSET_AMATCH_Pos 1            /**< \brief (SERCOM_I2CS_INTENSET) Address Match Interrupt Enable */
+#define SERCOM_I2CS_INTENSET_AMATCH (_U_(0x1) << SERCOM_I2CS_INTENSET_AMATCH_Pos)
+#define SERCOM_I2CS_INTENSET_DRDY_Pos 2            /**< \brief (SERCOM_I2CS_INTENSET) Data Interrupt Enable */
+#define SERCOM_I2CS_INTENSET_DRDY   (_U_(0x1) << SERCOM_I2CS_INTENSET_DRDY_Pos)
+#define SERCOM_I2CS_INTENSET_ERROR_Pos 7            /**< \brief (SERCOM_I2CS_INTENSET) Combined Error Interrupt Enable */
+#define SERCOM_I2CS_INTENSET_ERROR  (_U_(0x1) << SERCOM_I2CS_INTENSET_ERROR_Pos)
+#define SERCOM_I2CS_INTENSET_MASK   _U_(0x87)    /**< \brief (SERCOM_I2CS_INTENSET) MASK Register */
+
+/* -------- SERCOM_SPI_INTENSET : (SERCOM Offset: 0x16) (R/W  8) SPI SPI Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt Enable */
+    uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt Enable */
+    uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt Enable  */
+    uint8_t  SSL:1;            /*!< bit:      3  Slave Select Low Interrupt Enable  */
+    uint8_t  :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Enable    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_SPI_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_INTENSET_OFFSET  0x16         /**< \brief (SERCOM_SPI_INTENSET offset) SPI Interrupt Enable Set */
+#define SERCOM_SPI_INTENSET_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_SPI_INTENSET reset_value) SPI Interrupt Enable Set */
+
+#define SERCOM_SPI_INTENSET_DRE_Pos 0            /**< \brief (SERCOM_SPI_INTENSET) Data Register Empty Interrupt Enable */
+#define SERCOM_SPI_INTENSET_DRE     (_U_(0x1) << SERCOM_SPI_INTENSET_DRE_Pos)
+#define SERCOM_SPI_INTENSET_TXC_Pos 1            /**< \brief (SERCOM_SPI_INTENSET) Transmit Complete Interrupt Enable */
+#define SERCOM_SPI_INTENSET_TXC     (_U_(0x1) << SERCOM_SPI_INTENSET_TXC_Pos)
+#define SERCOM_SPI_INTENSET_RXC_Pos 2            /**< \brief (SERCOM_SPI_INTENSET) Receive Complete Interrupt Enable */
+#define SERCOM_SPI_INTENSET_RXC     (_U_(0x1) << SERCOM_SPI_INTENSET_RXC_Pos)
+#define SERCOM_SPI_INTENSET_SSL_Pos 3            /**< \brief (SERCOM_SPI_INTENSET) Slave Select Low Interrupt Enable */
+#define SERCOM_SPI_INTENSET_SSL     (_U_(0x1) << SERCOM_SPI_INTENSET_SSL_Pos)
+#define SERCOM_SPI_INTENSET_ERROR_Pos 7            /**< \brief (SERCOM_SPI_INTENSET) Combined Error Interrupt Enable */
+#define SERCOM_SPI_INTENSET_ERROR   (_U_(0x1) << SERCOM_SPI_INTENSET_ERROR_Pos)
+#define SERCOM_SPI_INTENSET_MASK    _U_(0x8F)    /**< \brief (SERCOM_SPI_INTENSET) MASK Register */
+
+/* -------- SERCOM_USART_INTENSET : (SERCOM Offset: 0x16) (R/W  8) USART USART Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt Enable */
+    uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt Enable */
+    uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt Enable  */
+    uint8_t  RXS:1;            /*!< bit:      3  Receive Start Interrupt Enable     */
+    uint8_t  CTSIC:1;          /*!< bit:      4  Clear To Send Input Change Interrupt Enable */
+    uint8_t  RXBRK:1;          /*!< bit:      5  Break Received Interrupt Enable    */
+    uint8_t  :1;               /*!< bit:      6  Reserved                           */
+    uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt Enable    */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_INTENSET_OFFSET 0x16         /**< \brief (SERCOM_USART_INTENSET offset) USART Interrupt Enable Set */
+#define SERCOM_USART_INTENSET_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_INTENSET reset_value) USART Interrupt Enable Set */
+
+#define SERCOM_USART_INTENSET_DRE_Pos 0            /**< \brief (SERCOM_USART_INTENSET) Data Register Empty Interrupt Enable */
+#define SERCOM_USART_INTENSET_DRE   (_U_(0x1) << SERCOM_USART_INTENSET_DRE_Pos)
+#define SERCOM_USART_INTENSET_TXC_Pos 1            /**< \brief (SERCOM_USART_INTENSET) Transmit Complete Interrupt Enable */
+#define SERCOM_USART_INTENSET_TXC   (_U_(0x1) << SERCOM_USART_INTENSET_TXC_Pos)
+#define SERCOM_USART_INTENSET_RXC_Pos 2            /**< \brief (SERCOM_USART_INTENSET) Receive Complete Interrupt Enable */
+#define SERCOM_USART_INTENSET_RXC   (_U_(0x1) << SERCOM_USART_INTENSET_RXC_Pos)
+#define SERCOM_USART_INTENSET_RXS_Pos 3            /**< \brief (SERCOM_USART_INTENSET) Receive Start Interrupt Enable */
+#define SERCOM_USART_INTENSET_RXS   (_U_(0x1) << SERCOM_USART_INTENSET_RXS_Pos)
+#define SERCOM_USART_INTENSET_CTSIC_Pos 4            /**< \brief (SERCOM_USART_INTENSET) Clear To Send Input Change Interrupt Enable */
+#define SERCOM_USART_INTENSET_CTSIC (_U_(0x1) << SERCOM_USART_INTENSET_CTSIC_Pos)
+#define SERCOM_USART_INTENSET_RXBRK_Pos 5            /**< \brief (SERCOM_USART_INTENSET) Break Received Interrupt Enable */
+#define SERCOM_USART_INTENSET_RXBRK (_U_(0x1) << SERCOM_USART_INTENSET_RXBRK_Pos)
+#define SERCOM_USART_INTENSET_ERROR_Pos 7            /**< \brief (SERCOM_USART_INTENSET) Combined Error Interrupt Enable */
+#define SERCOM_USART_INTENSET_ERROR (_U_(0x1) << SERCOM_USART_INTENSET_ERROR_Pos)
+#define SERCOM_USART_INTENSET_MASK  _U_(0xBF)    /**< \brief (SERCOM_USART_INTENSET) MASK Register */
+
+/* -------- SERCOM_I2CM_INTFLAG : (SERCOM Offset: 0x18) (R/W  8) I2CM I2CM Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  MB:1;             /*!< bit:      0  Master On Bus Interrupt            */
+    __I uint8_t  SB:1;             /*!< bit:      1  Slave On Bus Interrupt             */
+    __I uint8_t  :5;               /*!< bit:  2.. 6  Reserved                           */
+    __I uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CM_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_INTFLAG_OFFSET  0x18         /**< \brief (SERCOM_I2CM_INTFLAG offset) I2CM Interrupt Flag Status and Clear */
+#define SERCOM_I2CM_INTFLAG_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CM_INTFLAG reset_value) I2CM Interrupt Flag Status and Clear */
+
+#define SERCOM_I2CM_INTFLAG_MB_Pos  0            /**< \brief (SERCOM_I2CM_INTFLAG) Master On Bus Interrupt */
+#define SERCOM_I2CM_INTFLAG_MB      (_U_(0x1) << SERCOM_I2CM_INTFLAG_MB_Pos)
+#define SERCOM_I2CM_INTFLAG_SB_Pos  1            /**< \brief (SERCOM_I2CM_INTFLAG) Slave On Bus Interrupt */
+#define SERCOM_I2CM_INTFLAG_SB      (_U_(0x1) << SERCOM_I2CM_INTFLAG_SB_Pos)
+#define SERCOM_I2CM_INTFLAG_ERROR_Pos 7            /**< \brief (SERCOM_I2CM_INTFLAG) Combined Error Interrupt */
+#define SERCOM_I2CM_INTFLAG_ERROR   (_U_(0x1) << SERCOM_I2CM_INTFLAG_ERROR_Pos)
+#define SERCOM_I2CM_INTFLAG_MASK    _U_(0x83)    /**< \brief (SERCOM_I2CM_INTFLAG) MASK Register */
+
+/* -------- SERCOM_I2CS_INTFLAG : (SERCOM Offset: 0x18) (R/W  8) I2CS I2CS Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  PREC:1;           /*!< bit:      0  Stop Received Interrupt            */
+    __I uint8_t  AMATCH:1;         /*!< bit:      1  Address Match Interrupt            */
+    __I uint8_t  DRDY:1;           /*!< bit:      2  Data Interrupt                     */
+    __I uint8_t  :4;               /*!< bit:  3.. 6  Reserved                           */
+    __I uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CS_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_INTFLAG_OFFSET  0x18         /**< \brief (SERCOM_I2CS_INTFLAG offset) I2CS Interrupt Flag Status and Clear */
+#define SERCOM_I2CS_INTFLAG_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CS_INTFLAG reset_value) I2CS Interrupt Flag Status and Clear */
+
+#define SERCOM_I2CS_INTFLAG_PREC_Pos 0            /**< \brief (SERCOM_I2CS_INTFLAG) Stop Received Interrupt */
+#define SERCOM_I2CS_INTFLAG_PREC    (_U_(0x1) << SERCOM_I2CS_INTFLAG_PREC_Pos)
+#define SERCOM_I2CS_INTFLAG_AMATCH_Pos 1            /**< \brief (SERCOM_I2CS_INTFLAG) Address Match Interrupt */
+#define SERCOM_I2CS_INTFLAG_AMATCH  (_U_(0x1) << SERCOM_I2CS_INTFLAG_AMATCH_Pos)
+#define SERCOM_I2CS_INTFLAG_DRDY_Pos 2            /**< \brief (SERCOM_I2CS_INTFLAG) Data Interrupt */
+#define SERCOM_I2CS_INTFLAG_DRDY    (_U_(0x1) << SERCOM_I2CS_INTFLAG_DRDY_Pos)
+#define SERCOM_I2CS_INTFLAG_ERROR_Pos 7            /**< \brief (SERCOM_I2CS_INTFLAG) Combined Error Interrupt */
+#define SERCOM_I2CS_INTFLAG_ERROR   (_U_(0x1) << SERCOM_I2CS_INTFLAG_ERROR_Pos)
+#define SERCOM_I2CS_INTFLAG_MASK    _U_(0x87)    /**< \brief (SERCOM_I2CS_INTFLAG) MASK Register */
+
+/* -------- SERCOM_SPI_INTFLAG : (SERCOM Offset: 0x18) (R/W  8) SPI SPI Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt      */
+    __I uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt        */
+    __I uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt         */
+    __I uint8_t  SSL:1;            /*!< bit:      3  Slave Select Low Interrupt Flag    */
+    __I uint8_t  :3;               /*!< bit:  4.. 6  Reserved                           */
+    __I uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_SPI_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_INTFLAG_OFFSET   0x18         /**< \brief (SERCOM_SPI_INTFLAG offset) SPI Interrupt Flag Status and Clear */
+#define SERCOM_SPI_INTFLAG_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_SPI_INTFLAG reset_value) SPI Interrupt Flag Status and Clear */
+
+#define SERCOM_SPI_INTFLAG_DRE_Pos  0            /**< \brief (SERCOM_SPI_INTFLAG) Data Register Empty Interrupt */
+#define SERCOM_SPI_INTFLAG_DRE      (_U_(0x1) << SERCOM_SPI_INTFLAG_DRE_Pos)
+#define SERCOM_SPI_INTFLAG_TXC_Pos  1            /**< \brief (SERCOM_SPI_INTFLAG) Transmit Complete Interrupt */
+#define SERCOM_SPI_INTFLAG_TXC      (_U_(0x1) << SERCOM_SPI_INTFLAG_TXC_Pos)
+#define SERCOM_SPI_INTFLAG_RXC_Pos  2            /**< \brief (SERCOM_SPI_INTFLAG) Receive Complete Interrupt */
+#define SERCOM_SPI_INTFLAG_RXC      (_U_(0x1) << SERCOM_SPI_INTFLAG_RXC_Pos)
+#define SERCOM_SPI_INTFLAG_SSL_Pos  3            /**< \brief (SERCOM_SPI_INTFLAG) Slave Select Low Interrupt Flag */
+#define SERCOM_SPI_INTFLAG_SSL      (_U_(0x1) << SERCOM_SPI_INTFLAG_SSL_Pos)
+#define SERCOM_SPI_INTFLAG_ERROR_Pos 7            /**< \brief (SERCOM_SPI_INTFLAG) Combined Error Interrupt */
+#define SERCOM_SPI_INTFLAG_ERROR    (_U_(0x1) << SERCOM_SPI_INTFLAG_ERROR_Pos)
+#define SERCOM_SPI_INTFLAG_MASK     _U_(0x8F)    /**< \brief (SERCOM_SPI_INTFLAG) MASK Register */
+
+/* -------- SERCOM_USART_INTFLAG : (SERCOM Offset: 0x18) (R/W  8) USART USART Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  DRE:1;            /*!< bit:      0  Data Register Empty Interrupt      */
+    __I uint8_t  TXC:1;            /*!< bit:      1  Transmit Complete Interrupt        */
+    __I uint8_t  RXC:1;            /*!< bit:      2  Receive Complete Interrupt         */
+    __I uint8_t  RXS:1;            /*!< bit:      3  Receive Start Interrupt            */
+    __I uint8_t  CTSIC:1;          /*!< bit:      4  Clear To Send Input Change Interrupt */
+    __I uint8_t  RXBRK:1;          /*!< bit:      5  Break Received Interrupt           */
+    __I uint8_t  :1;               /*!< bit:      6  Reserved                           */
+    __I uint8_t  ERROR:1;          /*!< bit:      7  Combined Error Interrupt           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_INTFLAG_OFFSET 0x18         /**< \brief (SERCOM_USART_INTFLAG offset) USART Interrupt Flag Status and Clear */
+#define SERCOM_USART_INTFLAG_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_INTFLAG reset_value) USART Interrupt Flag Status and Clear */
+
+#define SERCOM_USART_INTFLAG_DRE_Pos 0            /**< \brief (SERCOM_USART_INTFLAG) Data Register Empty Interrupt */
+#define SERCOM_USART_INTFLAG_DRE    (_U_(0x1) << SERCOM_USART_INTFLAG_DRE_Pos)
+#define SERCOM_USART_INTFLAG_TXC_Pos 1            /**< \brief (SERCOM_USART_INTFLAG) Transmit Complete Interrupt */
+#define SERCOM_USART_INTFLAG_TXC    (_U_(0x1) << SERCOM_USART_INTFLAG_TXC_Pos)
+#define SERCOM_USART_INTFLAG_RXC_Pos 2            /**< \brief (SERCOM_USART_INTFLAG) Receive Complete Interrupt */
+#define SERCOM_USART_INTFLAG_RXC    (_U_(0x1) << SERCOM_USART_INTFLAG_RXC_Pos)
+#define SERCOM_USART_INTFLAG_RXS_Pos 3            /**< \brief (SERCOM_USART_INTFLAG) Receive Start Interrupt */
+#define SERCOM_USART_INTFLAG_RXS    (_U_(0x1) << SERCOM_USART_INTFLAG_RXS_Pos)
+#define SERCOM_USART_INTFLAG_CTSIC_Pos 4            /**< \brief (SERCOM_USART_INTFLAG) Clear To Send Input Change Interrupt */
+#define SERCOM_USART_INTFLAG_CTSIC  (_U_(0x1) << SERCOM_USART_INTFLAG_CTSIC_Pos)
+#define SERCOM_USART_INTFLAG_RXBRK_Pos 5            /**< \brief (SERCOM_USART_INTFLAG) Break Received Interrupt */
+#define SERCOM_USART_INTFLAG_RXBRK  (_U_(0x1) << SERCOM_USART_INTFLAG_RXBRK_Pos)
+#define SERCOM_USART_INTFLAG_ERROR_Pos 7            /**< \brief (SERCOM_USART_INTFLAG) Combined Error Interrupt */
+#define SERCOM_USART_INTFLAG_ERROR  (_U_(0x1) << SERCOM_USART_INTFLAG_ERROR_Pos)
+#define SERCOM_USART_INTFLAG_MASK   _U_(0xBF)    /**< \brief (SERCOM_USART_INTFLAG) MASK Register */
+
+/* -------- SERCOM_I2CM_STATUS : (SERCOM Offset: 0x1A) (R/W 16) I2CM I2CM Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BUSERR:1;         /*!< bit:      0  Bus Error                          */
+    uint16_t ARBLOST:1;        /*!< bit:      1  Arbitration Lost                   */
+    uint16_t RXNACK:1;         /*!< bit:      2  Received Not Acknowledge           */
+    uint16_t :1;               /*!< bit:      3  Reserved                           */
+    uint16_t BUSSTATE:2;       /*!< bit:  4.. 5  Bus State                          */
+    uint16_t LOWTOUT:1;        /*!< bit:      6  SCL Low Timeout                    */
+    uint16_t CLKHOLD:1;        /*!< bit:      7  Clock Hold                         */
+    uint16_t MEXTTOUT:1;       /*!< bit:      8  Master SCL Low Extend Timeout      */
+    uint16_t SEXTTOUT:1;       /*!< bit:      9  Slave SCL Low Extend Timeout       */
+    uint16_t LENERR:1;         /*!< bit:     10  Length Error                       */
+    uint16_t :5;               /*!< bit: 11..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_STATUS_OFFSET   0x1A         /**< \brief (SERCOM_I2CM_STATUS offset) I2CM Status */
+#define SERCOM_I2CM_STATUS_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_I2CM_STATUS reset_value) I2CM Status */
+
+#define SERCOM_I2CM_STATUS_BUSERR_Pos 0            /**< \brief (SERCOM_I2CM_STATUS) Bus Error */
+#define SERCOM_I2CM_STATUS_BUSERR   (_U_(0x1) << SERCOM_I2CM_STATUS_BUSERR_Pos)
+#define SERCOM_I2CM_STATUS_ARBLOST_Pos 1            /**< \brief (SERCOM_I2CM_STATUS) Arbitration Lost */
+#define SERCOM_I2CM_STATUS_ARBLOST  (_U_(0x1) << SERCOM_I2CM_STATUS_ARBLOST_Pos)
+#define SERCOM_I2CM_STATUS_RXNACK_Pos 2            /**< \brief (SERCOM_I2CM_STATUS) Received Not Acknowledge */
+#define SERCOM_I2CM_STATUS_RXNACK   (_U_(0x1) << SERCOM_I2CM_STATUS_RXNACK_Pos)
+#define SERCOM_I2CM_STATUS_BUSSTATE_Pos 4            /**< \brief (SERCOM_I2CM_STATUS) Bus State */
+#define SERCOM_I2CM_STATUS_BUSSTATE_Msk (_U_(0x3) << SERCOM_I2CM_STATUS_BUSSTATE_Pos)
+#define SERCOM_I2CM_STATUS_BUSSTATE(value) (SERCOM_I2CM_STATUS_BUSSTATE_Msk & ((value) << SERCOM_I2CM_STATUS_BUSSTATE_Pos))
+#define SERCOM_I2CM_STATUS_LOWTOUT_Pos 6            /**< \brief (SERCOM_I2CM_STATUS) SCL Low Timeout */
+#define SERCOM_I2CM_STATUS_LOWTOUT  (_U_(0x1) << SERCOM_I2CM_STATUS_LOWTOUT_Pos)
+#define SERCOM_I2CM_STATUS_CLKHOLD_Pos 7            /**< \brief (SERCOM_I2CM_STATUS) Clock Hold */
+#define SERCOM_I2CM_STATUS_CLKHOLD  (_U_(0x1) << SERCOM_I2CM_STATUS_CLKHOLD_Pos)
+#define SERCOM_I2CM_STATUS_MEXTTOUT_Pos 8            /**< \brief (SERCOM_I2CM_STATUS) Master SCL Low Extend Timeout */
+#define SERCOM_I2CM_STATUS_MEXTTOUT (_U_(0x1) << SERCOM_I2CM_STATUS_MEXTTOUT_Pos)
+#define SERCOM_I2CM_STATUS_SEXTTOUT_Pos 9            /**< \brief (SERCOM_I2CM_STATUS) Slave SCL Low Extend Timeout */
+#define SERCOM_I2CM_STATUS_SEXTTOUT (_U_(0x1) << SERCOM_I2CM_STATUS_SEXTTOUT_Pos)
+#define SERCOM_I2CM_STATUS_LENERR_Pos 10           /**< \brief (SERCOM_I2CM_STATUS) Length Error */
+#define SERCOM_I2CM_STATUS_LENERR   (_U_(0x1) << SERCOM_I2CM_STATUS_LENERR_Pos)
+#define SERCOM_I2CM_STATUS_MASK     _U_(0x07F7)  /**< \brief (SERCOM_I2CM_STATUS) MASK Register */
+
+/* -------- SERCOM_I2CS_STATUS : (SERCOM Offset: 0x1A) (R/W 16) I2CS I2CS Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BUSERR:1;         /*!< bit:      0  Bus Error                          */
+    uint16_t COLL:1;           /*!< bit:      1  Transmit Collision                 */
+    uint16_t RXNACK:1;         /*!< bit:      2  Received Not Acknowledge           */
+    uint16_t DIR:1;            /*!< bit:      3  Read/Write Direction               */
+    uint16_t SR:1;             /*!< bit:      4  Repeated Start                     */
+    uint16_t :1;               /*!< bit:      5  Reserved                           */
+    uint16_t LOWTOUT:1;        /*!< bit:      6  SCL Low Timeout                    */
+    uint16_t CLKHOLD:1;        /*!< bit:      7  Clock Hold                         */
+    uint16_t :1;               /*!< bit:      8  Reserved                           */
+    uint16_t SEXTTOUT:1;       /*!< bit:      9  Slave SCL Low Extend Timeout       */
+    uint16_t HS:1;             /*!< bit:     10  High Speed                         */
+    uint16_t :5;               /*!< bit: 11..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CS_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_STATUS_OFFSET   0x1A         /**< \brief (SERCOM_I2CS_STATUS offset) I2CS Status */
+#define SERCOM_I2CS_STATUS_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_I2CS_STATUS reset_value) I2CS Status */
+
+#define SERCOM_I2CS_STATUS_BUSERR_Pos 0            /**< \brief (SERCOM_I2CS_STATUS) Bus Error */
+#define SERCOM_I2CS_STATUS_BUSERR   (_U_(0x1) << SERCOM_I2CS_STATUS_BUSERR_Pos)
+#define SERCOM_I2CS_STATUS_COLL_Pos 1            /**< \brief (SERCOM_I2CS_STATUS) Transmit Collision */
+#define SERCOM_I2CS_STATUS_COLL     (_U_(0x1) << SERCOM_I2CS_STATUS_COLL_Pos)
+#define SERCOM_I2CS_STATUS_RXNACK_Pos 2            /**< \brief (SERCOM_I2CS_STATUS) Received Not Acknowledge */
+#define SERCOM_I2CS_STATUS_RXNACK   (_U_(0x1) << SERCOM_I2CS_STATUS_RXNACK_Pos)
+#define SERCOM_I2CS_STATUS_DIR_Pos  3            /**< \brief (SERCOM_I2CS_STATUS) Read/Write Direction */
+#define SERCOM_I2CS_STATUS_DIR      (_U_(0x1) << SERCOM_I2CS_STATUS_DIR_Pos)
+#define SERCOM_I2CS_STATUS_SR_Pos   4            /**< \brief (SERCOM_I2CS_STATUS) Repeated Start */
+#define SERCOM_I2CS_STATUS_SR       (_U_(0x1) << SERCOM_I2CS_STATUS_SR_Pos)
+#define SERCOM_I2CS_STATUS_LOWTOUT_Pos 6            /**< \brief (SERCOM_I2CS_STATUS) SCL Low Timeout */
+#define SERCOM_I2CS_STATUS_LOWTOUT  (_U_(0x1) << SERCOM_I2CS_STATUS_LOWTOUT_Pos)
+#define SERCOM_I2CS_STATUS_CLKHOLD_Pos 7            /**< \brief (SERCOM_I2CS_STATUS) Clock Hold */
+#define SERCOM_I2CS_STATUS_CLKHOLD  (_U_(0x1) << SERCOM_I2CS_STATUS_CLKHOLD_Pos)
+#define SERCOM_I2CS_STATUS_SEXTTOUT_Pos 9            /**< \brief (SERCOM_I2CS_STATUS) Slave SCL Low Extend Timeout */
+#define SERCOM_I2CS_STATUS_SEXTTOUT (_U_(0x1) << SERCOM_I2CS_STATUS_SEXTTOUT_Pos)
+#define SERCOM_I2CS_STATUS_HS_Pos   10           /**< \brief (SERCOM_I2CS_STATUS) High Speed */
+#define SERCOM_I2CS_STATUS_HS       (_U_(0x1) << SERCOM_I2CS_STATUS_HS_Pos)
+#define SERCOM_I2CS_STATUS_MASK     _U_(0x06DF)  /**< \brief (SERCOM_I2CS_STATUS) MASK Register */
+
+/* -------- SERCOM_SPI_STATUS : (SERCOM Offset: 0x1A) (R/W 16) SPI SPI Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint16_t BUFOVF:1;         /*!< bit:      2  Buffer Overflow                    */
+    uint16_t :13;              /*!< bit:  3..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_STATUS_OFFSET    0x1A         /**< \brief (SERCOM_SPI_STATUS offset) SPI Status */
+#define SERCOM_SPI_STATUS_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_SPI_STATUS reset_value) SPI Status */
+
+#define SERCOM_SPI_STATUS_BUFOVF_Pos 2            /**< \brief (SERCOM_SPI_STATUS) Buffer Overflow */
+#define SERCOM_SPI_STATUS_BUFOVF    (_U_(0x1) << SERCOM_SPI_STATUS_BUFOVF_Pos)
+#define SERCOM_SPI_STATUS_MASK      _U_(0x0004)  /**< \brief (SERCOM_SPI_STATUS) MASK Register */
+
+/* -------- SERCOM_USART_STATUS : (SERCOM Offset: 0x1A) (R/W 16) USART USART Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PERR:1;           /*!< bit:      0  Parity Error                       */
+    uint16_t FERR:1;           /*!< bit:      1  Frame Error                        */
+    uint16_t BUFOVF:1;         /*!< bit:      2  Buffer Overflow                    */
+    uint16_t CTS:1;            /*!< bit:      3  Clear To Send                      */
+    uint16_t ISF:1;            /*!< bit:      4  Inconsistent Sync Field            */
+    uint16_t COLL:1;           /*!< bit:      5  Collision Detected                 */
+    uint16_t TXE:1;            /*!< bit:      6  Transmitter Empty                  */
+    uint16_t ITER:1;           /*!< bit:      7  Maximum Number of Repetitions Reached */
+    uint16_t :8;               /*!< bit:  8..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_STATUS_OFFSET  0x1A         /**< \brief (SERCOM_USART_STATUS offset) USART Status */
+#define SERCOM_USART_STATUS_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_USART_STATUS reset_value) USART Status */
+
+#define SERCOM_USART_STATUS_PERR_Pos 0            /**< \brief (SERCOM_USART_STATUS) Parity Error */
+#define SERCOM_USART_STATUS_PERR    (_U_(0x1) << SERCOM_USART_STATUS_PERR_Pos)
+#define SERCOM_USART_STATUS_FERR_Pos 1            /**< \brief (SERCOM_USART_STATUS) Frame Error */
+#define SERCOM_USART_STATUS_FERR    (_U_(0x1) << SERCOM_USART_STATUS_FERR_Pos)
+#define SERCOM_USART_STATUS_BUFOVF_Pos 2            /**< \brief (SERCOM_USART_STATUS) Buffer Overflow */
+#define SERCOM_USART_STATUS_BUFOVF  (_U_(0x1) << SERCOM_USART_STATUS_BUFOVF_Pos)
+#define SERCOM_USART_STATUS_CTS_Pos 3            /**< \brief (SERCOM_USART_STATUS) Clear To Send */
+#define SERCOM_USART_STATUS_CTS     (_U_(0x1) << SERCOM_USART_STATUS_CTS_Pos)
+#define SERCOM_USART_STATUS_ISF_Pos 4            /**< \brief (SERCOM_USART_STATUS) Inconsistent Sync Field */
+#define SERCOM_USART_STATUS_ISF     (_U_(0x1) << SERCOM_USART_STATUS_ISF_Pos)
+#define SERCOM_USART_STATUS_COLL_Pos 5            /**< \brief (SERCOM_USART_STATUS) Collision Detected */
+#define SERCOM_USART_STATUS_COLL    (_U_(0x1) << SERCOM_USART_STATUS_COLL_Pos)
+#define SERCOM_USART_STATUS_TXE_Pos 6            /**< \brief (SERCOM_USART_STATUS) Transmitter Empty */
+#define SERCOM_USART_STATUS_TXE     (_U_(0x1) << SERCOM_USART_STATUS_TXE_Pos)
+#define SERCOM_USART_STATUS_ITER_Pos 7            /**< \brief (SERCOM_USART_STATUS) Maximum Number of Repetitions Reached */
+#define SERCOM_USART_STATUS_ITER    (_U_(0x1) << SERCOM_USART_STATUS_ITER_Pos)
+#define SERCOM_USART_STATUS_MASK    _U_(0x00FF)  /**< \brief (SERCOM_USART_STATUS) MASK Register */
+
+/* -------- SERCOM_I2CM_SYNCBUSY : (SERCOM Offset: 0x1C) (R/  32) I2CM I2CM Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint32_t ENABLE:1;         /*!< bit:      1  SERCOM Enable Synchronization Busy */
+    uint32_t SYSOP:1;          /*!< bit:      2  System Operation Synchronization Busy */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_SYNCBUSY_OFFSET 0x1C         /**< \brief (SERCOM_I2CM_SYNCBUSY offset) I2CM Synchronization Busy */
+#define SERCOM_I2CM_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CM_SYNCBUSY reset_value) I2CM Synchronization Busy */
+
+#define SERCOM_I2CM_SYNCBUSY_SWRST_Pos 0            /**< \brief (SERCOM_I2CM_SYNCBUSY) Software Reset Synchronization Busy */
+#define SERCOM_I2CM_SYNCBUSY_SWRST  (_U_(0x1) << SERCOM_I2CM_SYNCBUSY_SWRST_Pos)
+#define SERCOM_I2CM_SYNCBUSY_ENABLE_Pos 1            /**< \brief (SERCOM_I2CM_SYNCBUSY) SERCOM Enable Synchronization Busy */
+#define SERCOM_I2CM_SYNCBUSY_ENABLE (_U_(0x1) << SERCOM_I2CM_SYNCBUSY_ENABLE_Pos)
+#define SERCOM_I2CM_SYNCBUSY_SYSOP_Pos 2            /**< \brief (SERCOM_I2CM_SYNCBUSY) System Operation Synchronization Busy */
+#define SERCOM_I2CM_SYNCBUSY_SYSOP  (_U_(0x1) << SERCOM_I2CM_SYNCBUSY_SYSOP_Pos)
+#define SERCOM_I2CM_SYNCBUSY_MASK   _U_(0x00000007) /**< \brief (SERCOM_I2CM_SYNCBUSY) MASK Register */
+
+/* -------- SERCOM_I2CS_SYNCBUSY : (SERCOM Offset: 0x1C) (R/  32) I2CS I2CS Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint32_t ENABLE:1;         /*!< bit:      1  SERCOM Enable Synchronization Busy */
+    uint32_t :30;              /*!< bit:  2..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CS_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_SYNCBUSY_OFFSET 0x1C         /**< \brief (SERCOM_I2CS_SYNCBUSY offset) I2CS Synchronization Busy */
+#define SERCOM_I2CS_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CS_SYNCBUSY reset_value) I2CS Synchronization Busy */
+
+#define SERCOM_I2CS_SYNCBUSY_SWRST_Pos 0            /**< \brief (SERCOM_I2CS_SYNCBUSY) Software Reset Synchronization Busy */
+#define SERCOM_I2CS_SYNCBUSY_SWRST  (_U_(0x1) << SERCOM_I2CS_SYNCBUSY_SWRST_Pos)
+#define SERCOM_I2CS_SYNCBUSY_ENABLE_Pos 1            /**< \brief (SERCOM_I2CS_SYNCBUSY) SERCOM Enable Synchronization Busy */
+#define SERCOM_I2CS_SYNCBUSY_ENABLE (_U_(0x1) << SERCOM_I2CS_SYNCBUSY_ENABLE_Pos)
+#define SERCOM_I2CS_SYNCBUSY_MASK   _U_(0x00000003) /**< \brief (SERCOM_I2CS_SYNCBUSY) MASK Register */
+
+/* -------- SERCOM_SPI_SYNCBUSY : (SERCOM Offset: 0x1C) (R/  32) SPI SPI Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint32_t ENABLE:1;         /*!< bit:      1  SERCOM Enable Synchronization Busy */
+    uint32_t CTRLB:1;          /*!< bit:      2  CTRLB Synchronization Busy         */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_SYNCBUSY_OFFSET  0x1C         /**< \brief (SERCOM_SPI_SYNCBUSY offset) SPI Synchronization Busy */
+#define SERCOM_SPI_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_SPI_SYNCBUSY reset_value) SPI Synchronization Busy */
+
+#define SERCOM_SPI_SYNCBUSY_SWRST_Pos 0            /**< \brief (SERCOM_SPI_SYNCBUSY) Software Reset Synchronization Busy */
+#define SERCOM_SPI_SYNCBUSY_SWRST   (_U_(0x1) << SERCOM_SPI_SYNCBUSY_SWRST_Pos)
+#define SERCOM_SPI_SYNCBUSY_ENABLE_Pos 1            /**< \brief (SERCOM_SPI_SYNCBUSY) SERCOM Enable Synchronization Busy */
+#define SERCOM_SPI_SYNCBUSY_ENABLE  (_U_(0x1) << SERCOM_SPI_SYNCBUSY_ENABLE_Pos)
+#define SERCOM_SPI_SYNCBUSY_CTRLB_Pos 2            /**< \brief (SERCOM_SPI_SYNCBUSY) CTRLB Synchronization Busy */
+#define SERCOM_SPI_SYNCBUSY_CTRLB   (_U_(0x1) << SERCOM_SPI_SYNCBUSY_CTRLB_Pos)
+#define SERCOM_SPI_SYNCBUSY_MASK    _U_(0x00000007) /**< \brief (SERCOM_SPI_SYNCBUSY) MASK Register */
+
+/* -------- SERCOM_USART_SYNCBUSY : (SERCOM Offset: 0x1C) (R/  32) USART USART Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint32_t ENABLE:1;         /*!< bit:      1  SERCOM Enable Synchronization Busy */
+    uint32_t CTRLB:1;          /*!< bit:      2  CTRLB Synchronization Busy         */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_SYNCBUSY_OFFSET 0x1C         /**< \brief (SERCOM_USART_SYNCBUSY offset) USART Synchronization Busy */
+#define SERCOM_USART_SYNCBUSY_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_USART_SYNCBUSY reset_value) USART Synchronization Busy */
+
+#define SERCOM_USART_SYNCBUSY_SWRST_Pos 0            /**< \brief (SERCOM_USART_SYNCBUSY) Software Reset Synchronization Busy */
+#define SERCOM_USART_SYNCBUSY_SWRST (_U_(0x1) << SERCOM_USART_SYNCBUSY_SWRST_Pos)
+#define SERCOM_USART_SYNCBUSY_ENABLE_Pos 1            /**< \brief (SERCOM_USART_SYNCBUSY) SERCOM Enable Synchronization Busy */
+#define SERCOM_USART_SYNCBUSY_ENABLE (_U_(0x1) << SERCOM_USART_SYNCBUSY_ENABLE_Pos)
+#define SERCOM_USART_SYNCBUSY_CTRLB_Pos 2            /**< \brief (SERCOM_USART_SYNCBUSY) CTRLB Synchronization Busy */
+#define SERCOM_USART_SYNCBUSY_CTRLB (_U_(0x1) << SERCOM_USART_SYNCBUSY_CTRLB_Pos)
+#define SERCOM_USART_SYNCBUSY_MASK  _U_(0x00000007) /**< \brief (SERCOM_USART_SYNCBUSY) MASK Register */
+
+/* -------- SERCOM_USART_RXERRCNT : (SERCOM Offset: 0x20) (R/   8) USART USART Receive Error Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_RXERRCNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_RXERRCNT_OFFSET 0x20         /**< \brief (SERCOM_USART_RXERRCNT offset) USART Receive Error Count */
+#define SERCOM_USART_RXERRCNT_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_RXERRCNT reset_value) USART Receive Error Count */
+#define SERCOM_USART_RXERRCNT_MASK  _U_(0xFF)    /**< \brief (SERCOM_USART_RXERRCNT) MASK Register */
+
+/* -------- SERCOM_I2CM_ADDR : (SERCOM Offset: 0x24) (R/W 32) I2CM I2CM Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t ADDR:11;          /*!< bit:  0..10  Address Value                      */
+    uint32_t :2;               /*!< bit: 11..12  Reserved                           */
+    uint32_t LENEN:1;          /*!< bit:     13  Length Enable                      */
+    uint32_t HS:1;             /*!< bit:     14  High Speed Mode                    */
+    uint32_t TENBITEN:1;       /*!< bit:     15  Ten Bit Addressing Enable          */
+    uint32_t LEN:8;            /*!< bit: 16..23  Length                             */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CM_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_ADDR_OFFSET     0x24         /**< \brief (SERCOM_I2CM_ADDR offset) I2CM Address */
+#define SERCOM_I2CM_ADDR_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CM_ADDR reset_value) I2CM Address */
+
+#define SERCOM_I2CM_ADDR_ADDR_Pos   0            /**< \brief (SERCOM_I2CM_ADDR) Address Value */
+#define SERCOM_I2CM_ADDR_ADDR_Msk   (_U_(0x7FF) << SERCOM_I2CM_ADDR_ADDR_Pos)
+#define SERCOM_I2CM_ADDR_ADDR(value) (SERCOM_I2CM_ADDR_ADDR_Msk & ((value) << SERCOM_I2CM_ADDR_ADDR_Pos))
+#define SERCOM_I2CM_ADDR_LENEN_Pos  13           /**< \brief (SERCOM_I2CM_ADDR) Length Enable */
+#define SERCOM_I2CM_ADDR_LENEN      (_U_(0x1) << SERCOM_I2CM_ADDR_LENEN_Pos)
+#define SERCOM_I2CM_ADDR_HS_Pos     14           /**< \brief (SERCOM_I2CM_ADDR) High Speed Mode */
+#define SERCOM_I2CM_ADDR_HS         (_U_(0x1) << SERCOM_I2CM_ADDR_HS_Pos)
+#define SERCOM_I2CM_ADDR_TENBITEN_Pos 15           /**< \brief (SERCOM_I2CM_ADDR) Ten Bit Addressing Enable */
+#define SERCOM_I2CM_ADDR_TENBITEN   (_U_(0x1) << SERCOM_I2CM_ADDR_TENBITEN_Pos)
+#define SERCOM_I2CM_ADDR_LEN_Pos    16           /**< \brief (SERCOM_I2CM_ADDR) Length */
+#define SERCOM_I2CM_ADDR_LEN_Msk    (_U_(0xFF) << SERCOM_I2CM_ADDR_LEN_Pos)
+#define SERCOM_I2CM_ADDR_LEN(value) (SERCOM_I2CM_ADDR_LEN_Msk & ((value) << SERCOM_I2CM_ADDR_LEN_Pos))
+#define SERCOM_I2CM_ADDR_MASK       _U_(0x00FFE7FF) /**< \brief (SERCOM_I2CM_ADDR) MASK Register */
+
+/* -------- SERCOM_I2CS_ADDR : (SERCOM Offset: 0x24) (R/W 32) I2CS I2CS Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t GENCEN:1;         /*!< bit:      0  General Call Address Enable        */
+    uint32_t ADDR:10;          /*!< bit:  1..10  Address Value                      */
+    uint32_t :4;               /*!< bit: 11..14  Reserved                           */
+    uint32_t TENBITEN:1;       /*!< bit:     15  Ten Bit Addressing Enable          */
+    uint32_t :1;               /*!< bit:     16  Reserved                           */
+    uint32_t ADDRMASK:10;      /*!< bit: 17..26  Address Mask                       */
+    uint32_t :5;               /*!< bit: 27..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_I2CS_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_ADDR_OFFSET     0x24         /**< \brief (SERCOM_I2CS_ADDR offset) I2CS Address */
+#define SERCOM_I2CS_ADDR_RESETVALUE _U_(0x00000000) /**< \brief (SERCOM_I2CS_ADDR reset_value) I2CS Address */
+
+#define SERCOM_I2CS_ADDR_GENCEN_Pos 0            /**< \brief (SERCOM_I2CS_ADDR) General Call Address Enable */
+#define SERCOM_I2CS_ADDR_GENCEN     (_U_(0x1) << SERCOM_I2CS_ADDR_GENCEN_Pos)
+#define SERCOM_I2CS_ADDR_ADDR_Pos   1            /**< \brief (SERCOM_I2CS_ADDR) Address Value */
+#define SERCOM_I2CS_ADDR_ADDR_Msk   (_U_(0x3FF) << SERCOM_I2CS_ADDR_ADDR_Pos)
+#define SERCOM_I2CS_ADDR_ADDR(value) (SERCOM_I2CS_ADDR_ADDR_Msk & ((value) << SERCOM_I2CS_ADDR_ADDR_Pos))
+#define SERCOM_I2CS_ADDR_TENBITEN_Pos 15           /**< \brief (SERCOM_I2CS_ADDR) Ten Bit Addressing Enable */
+#define SERCOM_I2CS_ADDR_TENBITEN   (_U_(0x1) << SERCOM_I2CS_ADDR_TENBITEN_Pos)
+#define SERCOM_I2CS_ADDR_ADDRMASK_Pos 17           /**< \brief (SERCOM_I2CS_ADDR) Address Mask */
+#define SERCOM_I2CS_ADDR_ADDRMASK_Msk (_U_(0x3FF) << SERCOM_I2CS_ADDR_ADDRMASK_Pos)
+#define SERCOM_I2CS_ADDR_ADDRMASK(value) (SERCOM_I2CS_ADDR_ADDRMASK_Msk & ((value) << SERCOM_I2CS_ADDR_ADDRMASK_Pos))
+#define SERCOM_I2CS_ADDR_MASK       _U_(0x07FE87FF) /**< \brief (SERCOM_I2CS_ADDR) MASK Register */
+
+/* -------- SERCOM_SPI_ADDR : (SERCOM Offset: 0x24) (R/W 32) SPI SPI Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t ADDR:8;           /*!< bit:  0.. 7  Address Value                      */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t ADDRMASK:8;       /*!< bit: 16..23  Address Mask                       */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_ADDR_OFFSET      0x24         /**< \brief (SERCOM_SPI_ADDR offset) SPI Address */
+#define SERCOM_SPI_ADDR_RESETVALUE  _U_(0x00000000) /**< \brief (SERCOM_SPI_ADDR reset_value) SPI Address */
+
+#define SERCOM_SPI_ADDR_ADDR_Pos    0            /**< \brief (SERCOM_SPI_ADDR) Address Value */
+#define SERCOM_SPI_ADDR_ADDR_Msk    (_U_(0xFF) << SERCOM_SPI_ADDR_ADDR_Pos)
+#define SERCOM_SPI_ADDR_ADDR(value) (SERCOM_SPI_ADDR_ADDR_Msk & ((value) << SERCOM_SPI_ADDR_ADDR_Pos))
+#define SERCOM_SPI_ADDR_ADDRMASK_Pos 16           /**< \brief (SERCOM_SPI_ADDR) Address Mask */
+#define SERCOM_SPI_ADDR_ADDRMASK_Msk (_U_(0xFF) << SERCOM_SPI_ADDR_ADDRMASK_Pos)
+#define SERCOM_SPI_ADDR_ADDRMASK(value) (SERCOM_SPI_ADDR_ADDRMASK_Msk & ((value) << SERCOM_SPI_ADDR_ADDRMASK_Pos))
+#define SERCOM_SPI_ADDR_MASK        _U_(0x00FF00FF) /**< \brief (SERCOM_SPI_ADDR) MASK Register */
+
+/* -------- SERCOM_I2CM_DATA : (SERCOM Offset: 0x28) (R/W  8) I2CM I2CM Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DATA:8;           /*!< bit:  0.. 7  Data Value                         */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CM_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_DATA_OFFSET     0x28         /**< \brief (SERCOM_I2CM_DATA offset) I2CM Data */
+#define SERCOM_I2CM_DATA_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CM_DATA reset_value) I2CM Data */
+
+#define SERCOM_I2CM_DATA_DATA_Pos   0            /**< \brief (SERCOM_I2CM_DATA) Data Value */
+#define SERCOM_I2CM_DATA_DATA_Msk   (_U_(0xFF) << SERCOM_I2CM_DATA_DATA_Pos)
+#define SERCOM_I2CM_DATA_DATA(value) (SERCOM_I2CM_DATA_DATA_Msk & ((value) << SERCOM_I2CM_DATA_DATA_Pos))
+#define SERCOM_I2CM_DATA_MASK       _U_(0xFF)    /**< \brief (SERCOM_I2CM_DATA) MASK Register */
+
+/* -------- SERCOM_I2CS_DATA : (SERCOM Offset: 0x28) (R/W  8) I2CS I2CS Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DATA:8;           /*!< bit:  0.. 7  Data Value                         */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CS_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CS_DATA_OFFSET     0x28         /**< \brief (SERCOM_I2CS_DATA offset) I2CS Data */
+#define SERCOM_I2CS_DATA_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CS_DATA reset_value) I2CS Data */
+
+#define SERCOM_I2CS_DATA_DATA_Pos   0            /**< \brief (SERCOM_I2CS_DATA) Data Value */
+#define SERCOM_I2CS_DATA_DATA_Msk   (_U_(0xFF) << SERCOM_I2CS_DATA_DATA_Pos)
+#define SERCOM_I2CS_DATA_DATA(value) (SERCOM_I2CS_DATA_DATA_Msk & ((value) << SERCOM_I2CS_DATA_DATA_Pos))
+#define SERCOM_I2CS_DATA_MASK       _U_(0xFF)    /**< \brief (SERCOM_I2CS_DATA) MASK Register */
+
+/* -------- SERCOM_SPI_DATA : (SERCOM Offset: 0x28) (R/W 32) SPI SPI Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DATA:9;           /*!< bit:  0.. 8  Data Value                         */
+    uint32_t :23;              /*!< bit:  9..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SERCOM_SPI_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_DATA_OFFSET      0x28         /**< \brief (SERCOM_SPI_DATA offset) SPI Data */
+#define SERCOM_SPI_DATA_RESETVALUE  _U_(0x00000000) /**< \brief (SERCOM_SPI_DATA reset_value) SPI Data */
+
+#define SERCOM_SPI_DATA_DATA_Pos    0            /**< \brief (SERCOM_SPI_DATA) Data Value */
+#define SERCOM_SPI_DATA_DATA_Msk    (_U_(0x1FF) << SERCOM_SPI_DATA_DATA_Pos)
+#define SERCOM_SPI_DATA_DATA(value) (SERCOM_SPI_DATA_DATA_Msk & ((value) << SERCOM_SPI_DATA_DATA_Pos))
+#define SERCOM_SPI_DATA_MASK        _U_(0x000001FF) /**< \brief (SERCOM_SPI_DATA) MASK Register */
+
+/* -------- SERCOM_USART_DATA : (SERCOM Offset: 0x28) (R/W 16) USART USART Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t DATA:9;           /*!< bit:  0.. 8  Data Value                         */
+    uint16_t :7;               /*!< bit:  9..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SERCOM_USART_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_DATA_OFFSET    0x28         /**< \brief (SERCOM_USART_DATA offset) USART Data */
+#define SERCOM_USART_DATA_RESETVALUE _U_(0x0000)  /**< \brief (SERCOM_USART_DATA reset_value) USART Data */
+
+#define SERCOM_USART_DATA_DATA_Pos  0            /**< \brief (SERCOM_USART_DATA) Data Value */
+#define SERCOM_USART_DATA_DATA_Msk  (_U_(0x1FF) << SERCOM_USART_DATA_DATA_Pos)
+#define SERCOM_USART_DATA_DATA(value) (SERCOM_USART_DATA_DATA_Msk & ((value) << SERCOM_USART_DATA_DATA_Pos))
+#define SERCOM_USART_DATA_MASK      _U_(0x01FF)  /**< \brief (SERCOM_USART_DATA) MASK Register */
+
+/* -------- SERCOM_I2CM_DBGCTRL : (SERCOM Offset: 0x30) (R/W  8) I2CM I2CM Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGSTOP:1;        /*!< bit:      0  Debug Mode                         */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_I2CM_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_I2CM_DBGCTRL_OFFSET  0x30         /**< \brief (SERCOM_I2CM_DBGCTRL offset) I2CM Debug Control */
+#define SERCOM_I2CM_DBGCTRL_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_I2CM_DBGCTRL reset_value) I2CM Debug Control */
+
+#define SERCOM_I2CM_DBGCTRL_DBGSTOP_Pos 0            /**< \brief (SERCOM_I2CM_DBGCTRL) Debug Mode */
+#define SERCOM_I2CM_DBGCTRL_DBGSTOP (_U_(0x1) << SERCOM_I2CM_DBGCTRL_DBGSTOP_Pos)
+#define SERCOM_I2CM_DBGCTRL_MASK    _U_(0x01)    /**< \brief (SERCOM_I2CM_DBGCTRL) MASK Register */
+
+/* -------- SERCOM_SPI_DBGCTRL : (SERCOM Offset: 0x30) (R/W  8) SPI SPI Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGSTOP:1;        /*!< bit:      0  Debug Mode                         */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_SPI_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_SPI_DBGCTRL_OFFSET   0x30         /**< \brief (SERCOM_SPI_DBGCTRL offset) SPI Debug Control */
+#define SERCOM_SPI_DBGCTRL_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_SPI_DBGCTRL reset_value) SPI Debug Control */
+
+#define SERCOM_SPI_DBGCTRL_DBGSTOP_Pos 0            /**< \brief (SERCOM_SPI_DBGCTRL) Debug Mode */
+#define SERCOM_SPI_DBGCTRL_DBGSTOP  (_U_(0x1) << SERCOM_SPI_DBGCTRL_DBGSTOP_Pos)
+#define SERCOM_SPI_DBGCTRL_MASK     _U_(0x01)    /**< \brief (SERCOM_SPI_DBGCTRL) MASK Register */
+
+/* -------- SERCOM_USART_DBGCTRL : (SERCOM Offset: 0x30) (R/W  8) USART USART Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGSTOP:1;        /*!< bit:      0  Debug Mode                         */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SERCOM_USART_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SERCOM_USART_DBGCTRL_OFFSET 0x30         /**< \brief (SERCOM_USART_DBGCTRL offset) USART Debug Control */
+#define SERCOM_USART_DBGCTRL_RESETVALUE _U_(0x00)    /**< \brief (SERCOM_USART_DBGCTRL reset_value) USART Debug Control */
+
+#define SERCOM_USART_DBGCTRL_DBGSTOP_Pos 0            /**< \brief (SERCOM_USART_DBGCTRL) Debug Mode */
+#define SERCOM_USART_DBGCTRL_DBGSTOP (_U_(0x1) << SERCOM_USART_DBGCTRL_DBGSTOP_Pos)
+#define SERCOM_USART_DBGCTRL_MASK   _U_(0x01)    /**< \brief (SERCOM_USART_DBGCTRL) MASK Register */
+
+/** \brief SERCOM_I2CM hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* I2C Master Mode */
+  __IO SERCOM_I2CM_CTRLA_Type    CTRLA;       /**< \brief Offset: 0x00 (R/W 32) I2CM Control A */
+  __IO SERCOM_I2CM_CTRLB_Type    CTRLB;       /**< \brief Offset: 0x04 (R/W 32) I2CM Control B */
+       RoReg8                    Reserved1[0x4];
+  __IO SERCOM_I2CM_BAUD_Type     BAUD;        /**< \brief Offset: 0x0C (R/W 32) I2CM Baud Rate */
+       RoReg8                    Reserved2[0x4];
+  __IO SERCOM_I2CM_INTENCLR_Type INTENCLR;    /**< \brief Offset: 0x14 (R/W  8) I2CM Interrupt Enable Clear */
+       RoReg8                    Reserved3[0x1];
+  __IO SERCOM_I2CM_INTENSET_Type INTENSET;    /**< \brief Offset: 0x16 (R/W  8) I2CM Interrupt Enable Set */
+       RoReg8                    Reserved4[0x1];
+  __IO SERCOM_I2CM_INTFLAG_Type  INTFLAG;     /**< \brief Offset: 0x18 (R/W  8) I2CM Interrupt Flag Status and Clear */
+       RoReg8                    Reserved5[0x1];
+  __IO SERCOM_I2CM_STATUS_Type   STATUS;      /**< \brief Offset: 0x1A (R/W 16) I2CM Status */
+  __I  SERCOM_I2CM_SYNCBUSY_Type SYNCBUSY;    /**< \brief Offset: 0x1C (R/  32) I2CM Synchronization Busy */
+       RoReg8                    Reserved6[0x4];
+  __IO SERCOM_I2CM_ADDR_Type     ADDR;        /**< \brief Offset: 0x24 (R/W 32) I2CM Address */
+  __IO SERCOM_I2CM_DATA_Type     DATA;        /**< \brief Offset: 0x28 (R/W  8) I2CM Data */
+       RoReg8                    Reserved7[0x7];
+  __IO SERCOM_I2CM_DBGCTRL_Type  DBGCTRL;     /**< \brief Offset: 0x30 (R/W  8) I2CM Debug Control */
+} SercomI2cm;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief SERCOM_I2CS hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* I2C Slave Mode */
+  __IO SERCOM_I2CS_CTRLA_Type    CTRLA;       /**< \brief Offset: 0x00 (R/W 32) I2CS Control A */
+  __IO SERCOM_I2CS_CTRLB_Type    CTRLB;       /**< \brief Offset: 0x04 (R/W 32) I2CS Control B */
+       RoReg8                    Reserved1[0xC];
+  __IO SERCOM_I2CS_INTENCLR_Type INTENCLR;    /**< \brief Offset: 0x14 (R/W  8) I2CS Interrupt Enable Clear */
+       RoReg8                    Reserved2[0x1];
+  __IO SERCOM_I2CS_INTENSET_Type INTENSET;    /**< \brief Offset: 0x16 (R/W  8) I2CS Interrupt Enable Set */
+       RoReg8                    Reserved3[0x1];
+  __IO SERCOM_I2CS_INTFLAG_Type  INTFLAG;     /**< \brief Offset: 0x18 (R/W  8) I2CS Interrupt Flag Status and Clear */
+       RoReg8                    Reserved4[0x1];
+  __IO SERCOM_I2CS_STATUS_Type   STATUS;      /**< \brief Offset: 0x1A (R/W 16) I2CS Status */
+  __I  SERCOM_I2CS_SYNCBUSY_Type SYNCBUSY;    /**< \brief Offset: 0x1C (R/  32) I2CS Synchronization Busy */
+       RoReg8                    Reserved5[0x4];
+  __IO SERCOM_I2CS_ADDR_Type     ADDR;        /**< \brief Offset: 0x24 (R/W 32) I2CS Address */
+  __IO SERCOM_I2CS_DATA_Type     DATA;        /**< \brief Offset: 0x28 (R/W  8) I2CS Data */
+} SercomI2cs;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief SERCOM_SPI hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* SPI Mode */
+  __IO SERCOM_SPI_CTRLA_Type     CTRLA;       /**< \brief Offset: 0x00 (R/W 32) SPI Control A */
+  __IO SERCOM_SPI_CTRLB_Type     CTRLB;       /**< \brief Offset: 0x04 (R/W 32) SPI Control B */
+       RoReg8                    Reserved1[0x4];
+  __IO SERCOM_SPI_BAUD_Type      BAUD;        /**< \brief Offset: 0x0C (R/W  8) SPI Baud Rate */
+       RoReg8                    Reserved2[0x7];
+  __IO SERCOM_SPI_INTENCLR_Type  INTENCLR;    /**< \brief Offset: 0x14 (R/W  8) SPI Interrupt Enable Clear */
+       RoReg8                    Reserved3[0x1];
+  __IO SERCOM_SPI_INTENSET_Type  INTENSET;    /**< \brief Offset: 0x16 (R/W  8) SPI Interrupt Enable Set */
+       RoReg8                    Reserved4[0x1];
+  __IO SERCOM_SPI_INTFLAG_Type   INTFLAG;     /**< \brief Offset: 0x18 (R/W  8) SPI Interrupt Flag Status and Clear */
+       RoReg8                    Reserved5[0x1];
+  __IO SERCOM_SPI_STATUS_Type    STATUS;      /**< \brief Offset: 0x1A (R/W 16) SPI Status */
+  __I  SERCOM_SPI_SYNCBUSY_Type  SYNCBUSY;    /**< \brief Offset: 0x1C (R/  32) SPI Synchronization Busy */
+       RoReg8                    Reserved6[0x4];
+  __IO SERCOM_SPI_ADDR_Type      ADDR;        /**< \brief Offset: 0x24 (R/W 32) SPI Address */
+  __IO SERCOM_SPI_DATA_Type      DATA;        /**< \brief Offset: 0x28 (R/W 32) SPI Data */
+       RoReg8                    Reserved7[0x4];
+  __IO SERCOM_SPI_DBGCTRL_Type   DBGCTRL;     /**< \brief Offset: 0x30 (R/W  8) SPI Debug Control */
+} SercomSpi;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief SERCOM_USART hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* USART Mode */
+  __IO SERCOM_USART_CTRLA_Type   CTRLA;       /**< \brief Offset: 0x00 (R/W 32) USART Control A */
+  __IO SERCOM_USART_CTRLB_Type   CTRLB;       /**< \brief Offset: 0x04 (R/W 32) USART Control B */
+  __IO SERCOM_USART_CTRLC_Type   CTRLC;       /**< \brief Offset: 0x08 (R/W 32) USART Control C */
+  __IO SERCOM_USART_BAUD_Type    BAUD;        /**< \brief Offset: 0x0C (R/W 16) USART Baud Rate */
+  __IO SERCOM_USART_RXPL_Type    RXPL;        /**< \brief Offset: 0x0E (R/W  8) USART Receive Pulse Length */
+       RoReg8                    Reserved1[0x5];
+  __IO SERCOM_USART_INTENCLR_Type INTENCLR;    /**< \brief Offset: 0x14 (R/W  8) USART Interrupt Enable Clear */
+       RoReg8                    Reserved2[0x1];
+  __IO SERCOM_USART_INTENSET_Type INTENSET;    /**< \brief Offset: 0x16 (R/W  8) USART Interrupt Enable Set */
+       RoReg8                    Reserved3[0x1];
+  __IO SERCOM_USART_INTFLAG_Type INTFLAG;     /**< \brief Offset: 0x18 (R/W  8) USART Interrupt Flag Status and Clear */
+       RoReg8                    Reserved4[0x1];
+  __IO SERCOM_USART_STATUS_Type  STATUS;      /**< \brief Offset: 0x1A (R/W 16) USART Status */
+  __I  SERCOM_USART_SYNCBUSY_Type SYNCBUSY;    /**< \brief Offset: 0x1C (R/  32) USART Synchronization Busy */
+  __I  SERCOM_USART_RXERRCNT_Type RXERRCNT;    /**< \brief Offset: 0x20 (R/   8) USART Receive Error Count */
+       RoReg8                    Reserved5[0x7];
+  __IO SERCOM_USART_DATA_Type    DATA;        /**< \brief Offset: 0x28 (R/W 16) USART Data */
+       RoReg8                    Reserved6[0x6];
+  __IO SERCOM_USART_DBGCTRL_Type DBGCTRL;     /**< \brief Offset: 0x30 (R/W  8) USART Debug Control */
+} SercomUsart;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+       SercomI2cm                I2CM;        /**< \brief Offset: 0x00 I2C Master Mode */
+       SercomI2cs                I2CS;        /**< \brief Offset: 0x00 I2C Slave Mode */
+       SercomSpi                 SPI;         /**< \brief Offset: 0x00 SPI Mode */
+       SercomUsart               USART;       /**< \brief Offset: 0x00 USART Mode */
+} Sercom;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_SERCOM_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/slcd.h b/watch-library/hardware/include/component/slcd.h
new file mode 100644
index 00000000..01a409ee
--- /dev/null
+++ b/watch-library/hardware/include/component/slcd.h
@@ -0,0 +1,1173 @@
+/**
+ * \file
+ *
+ * \brief Component description for SLCD
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SLCD_COMPONENT_
+#define _SAML22_SLCD_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR SLCD */
+/* ========================================================================== */
+/** \addtogroup SAML22_SLCD Segment Liquid Crystal Display Controller */
+/*@{*/
+
+#define SLCD_U2264
+#define REV_SLCD                    0x100
+
+/* -------- SLCD_CTRLA : (SLCD Offset: 0x00) (R/W 32) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t DUTY:3;           /*!< bit:  2.. 4  Duty Ratio                         */
+    uint32_t WMOD:1;           /*!< bit:      5  Waveform Mode                      */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t PRESC:2;          /*!< bit:  8.. 9  Clock Prescaler                    */
+    uint32_t :2;               /*!< bit: 10..11  Reserved                           */
+    uint32_t CKDIV:3;          /*!< bit: 12..14  Clock Divider                      */
+    uint32_t :1;               /*!< bit:     15  Reserved                           */
+    uint32_t BIAS:2;           /*!< bit: 16..17  Bias Setting                       */
+    uint32_t :1;               /*!< bit:     18  Reserved                           */
+    uint32_t XVLCD:1;          /*!< bit:     19  External VLCD                      */
+    uint32_t PRF:2;            /*!< bit: 20..21  Power Refresh Frequency            */
+    uint32_t DMFCS:2;          /*!< bit: 22..23  Display Memory Update Frame Counter Selection */
+    uint32_t RRF:3;            /*!< bit: 24..26  Reference Refresh Frequency        */
+    uint32_t :5;               /*!< bit: 27..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CTRLA_OFFSET           0x00         /**< \brief (SLCD_CTRLA offset) Control A */
+#define SLCD_CTRLA_RESETVALUE       _U_(0x03D80000) /**< \brief (SLCD_CTRLA reset_value) Control A */
+
+#define SLCD_CTRLA_SWRST_Pos        0            /**< \brief (SLCD_CTRLA) Software Reset */
+#define SLCD_CTRLA_SWRST            (_U_(0x1) << SLCD_CTRLA_SWRST_Pos)
+#define SLCD_CTRLA_ENABLE_Pos       1            /**< \brief (SLCD_CTRLA) Enable */
+#define SLCD_CTRLA_ENABLE           (_U_(0x1) << SLCD_CTRLA_ENABLE_Pos)
+#define SLCD_CTRLA_DUTY_Pos         2            /**< \brief (SLCD_CTRLA) Duty Ratio */
+#define SLCD_CTRLA_DUTY_Msk         (_U_(0x7) << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY(value)      (SLCD_CTRLA_DUTY_Msk & ((value) << SLCD_CTRLA_DUTY_Pos))
+#define   SLCD_CTRLA_DUTY_STATIC_Val      _U_(0x0)   /**< \brief (SLCD_CTRLA) Static duty */
+#define   SLCD_CTRLA_DUTY_HALF_Val        _U_(0x1)   /**< \brief (SLCD_CTRLA) 1/2 duty */
+#define   SLCD_CTRLA_DUTY_THIRD_Val       _U_(0x2)   /**< \brief (SLCD_CTRLA) 1/3 duty */
+#define   SLCD_CTRLA_DUTY_FOURTH_Val      _U_(0x3)   /**< \brief (SLCD_CTRLA) 1/4 duty */
+#define   SLCD_CTRLA_DUTY_SIXTH_Val       _U_(0x4)   /**< \brief (SLCD_CTRLA) 1/6 duty */
+#define   SLCD_CTRLA_DUTY_EIGHT_Val       _U_(0x5)   /**< \brief (SLCD_CTRLA) 1/8 duty */
+#define SLCD_CTRLA_DUTY_STATIC      (SLCD_CTRLA_DUTY_STATIC_Val    << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY_HALF        (SLCD_CTRLA_DUTY_HALF_Val      << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY_THIRD       (SLCD_CTRLA_DUTY_THIRD_Val     << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY_FOURTH      (SLCD_CTRLA_DUTY_FOURTH_Val    << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY_SIXTH       (SLCD_CTRLA_DUTY_SIXTH_Val     << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_DUTY_EIGHT       (SLCD_CTRLA_DUTY_EIGHT_Val     << SLCD_CTRLA_DUTY_Pos)
+#define SLCD_CTRLA_WMOD_Pos         5            /**< \brief (SLCD_CTRLA) Waveform Mode */
+#define SLCD_CTRLA_WMOD             (_U_(0x1) << SLCD_CTRLA_WMOD_Pos)
+#define   SLCD_CTRLA_WMOD_LP_Val          _U_(0x0)   /**< \brief (SLCD_CTRLA) Low Power Waveform Mode */
+#define   SLCD_CTRLA_WMOD_STD_Val         _U_(0x1)   /**< \brief (SLCD_CTRLA) Standard Waveform Mode */
+#define SLCD_CTRLA_WMOD_LP          (SLCD_CTRLA_WMOD_LP_Val        << SLCD_CTRLA_WMOD_Pos)
+#define SLCD_CTRLA_WMOD_STD         (SLCD_CTRLA_WMOD_STD_Val       << SLCD_CTRLA_WMOD_Pos)
+#define SLCD_CTRLA_RUNSTDBY_Pos     6            /**< \brief (SLCD_CTRLA) Run in Standby */
+#define SLCD_CTRLA_RUNSTDBY         (_U_(0x1) << SLCD_CTRLA_RUNSTDBY_Pos)
+#define SLCD_CTRLA_PRESC_Pos        8            /**< \brief (SLCD_CTRLA) Clock Prescaler */
+#define SLCD_CTRLA_PRESC_Msk        (_U_(0x3) << SLCD_CTRLA_PRESC_Pos)
+#define SLCD_CTRLA_PRESC(value)     (SLCD_CTRLA_PRESC_Msk & ((value) << SLCD_CTRLA_PRESC_Pos))
+#define   SLCD_CTRLA_PRESC_PRESC16_Val    _U_(0x0)   /**< \brief (SLCD_CTRLA) 16 */
+#define   SLCD_CTRLA_PRESC_PRESC32_Val    _U_(0x1)   /**< \brief (SLCD_CTRLA) 32 */
+#define   SLCD_CTRLA_PRESC_PRESC64_Val    _U_(0x2)   /**< \brief (SLCD_CTRLA) 64 */
+#define   SLCD_CTRLA_PRESC_PRESC128_Val   _U_(0x3)   /**< \brief (SLCD_CTRLA) 128 */
+#define SLCD_CTRLA_PRESC_PRESC16    (SLCD_CTRLA_PRESC_PRESC16_Val  << SLCD_CTRLA_PRESC_Pos)
+#define SLCD_CTRLA_PRESC_PRESC32    (SLCD_CTRLA_PRESC_PRESC32_Val  << SLCD_CTRLA_PRESC_Pos)
+#define SLCD_CTRLA_PRESC_PRESC64    (SLCD_CTRLA_PRESC_PRESC64_Val  << SLCD_CTRLA_PRESC_Pos)
+#define SLCD_CTRLA_PRESC_PRESC128   (SLCD_CTRLA_PRESC_PRESC128_Val << SLCD_CTRLA_PRESC_Pos)
+#define SLCD_CTRLA_CKDIV_Pos        12           /**< \brief (SLCD_CTRLA) Clock Divider */
+#define SLCD_CTRLA_CKDIV_Msk        (_U_(0x7) << SLCD_CTRLA_CKDIV_Pos)
+#define SLCD_CTRLA_CKDIV(value)     (SLCD_CTRLA_CKDIV_Msk & ((value) << SLCD_CTRLA_CKDIV_Pos))
+#define SLCD_CTRLA_BIAS_Pos         16           /**< \brief (SLCD_CTRLA) Bias Setting */
+#define SLCD_CTRLA_BIAS_Msk         (_U_(0x3) << SLCD_CTRLA_BIAS_Pos)
+#define SLCD_CTRLA_BIAS(value)      (SLCD_CTRLA_BIAS_Msk & ((value) << SLCD_CTRLA_BIAS_Pos))
+#define   SLCD_CTRLA_BIAS_STATIC_Val      _U_(0x0)   /**< \brief (SLCD_CTRLA) Static */
+#define   SLCD_CTRLA_BIAS_HALF_Val        _U_(0x1)   /**< \brief (SLCD_CTRLA) 1/2 bias */
+#define   SLCD_CTRLA_BIAS_THIRD_Val       _U_(0x2)   /**< \brief (SLCD_CTRLA) 1/3 bias */
+#define   SLCD_CTRLA_BIAS_FOURTH_Val      _U_(0x3)   /**< \brief (SLCD_CTRLA) 1/4 bias */
+#define SLCD_CTRLA_BIAS_STATIC      (SLCD_CTRLA_BIAS_STATIC_Val    << SLCD_CTRLA_BIAS_Pos)
+#define SLCD_CTRLA_BIAS_HALF        (SLCD_CTRLA_BIAS_HALF_Val      << SLCD_CTRLA_BIAS_Pos)
+#define SLCD_CTRLA_BIAS_THIRD       (SLCD_CTRLA_BIAS_THIRD_Val     << SLCD_CTRLA_BIAS_Pos)
+#define SLCD_CTRLA_BIAS_FOURTH      (SLCD_CTRLA_BIAS_FOURTH_Val    << SLCD_CTRLA_BIAS_Pos)
+#define SLCD_CTRLA_XVLCD_Pos        19           /**< \brief (SLCD_CTRLA) External VLCD */
+#define SLCD_CTRLA_XVLCD            (_U_(0x1) << SLCD_CTRLA_XVLCD_Pos)
+#define SLCD_CTRLA_PRF_Pos          20           /**< \brief (SLCD_CTRLA) Power Refresh Frequency */
+#define SLCD_CTRLA_PRF_Msk          (_U_(0x3) << SLCD_CTRLA_PRF_Pos)
+#define SLCD_CTRLA_PRF(value)       (SLCD_CTRLA_PRF_Msk & ((value) << SLCD_CTRLA_PRF_Pos))
+#define   SLCD_CTRLA_PRF_PR2000_Val       _U_(0x0)   /**< \brief (SLCD_CTRLA) 2kHz */
+#define   SLCD_CTRLA_PRF_PR1000_Val       _U_(0x1)   /**< \brief (SLCD_CTRLA) 1kHz */
+#define   SLCD_CTRLA_PRF_PR500_Val        _U_(0x2)   /**< \brief (SLCD_CTRLA) 500Hz */
+#define   SLCD_CTRLA_PRF_PR250_Val        _U_(0x3)   /**< \brief (SLCD_CTRLA) 250Hz */
+#define SLCD_CTRLA_PRF_PR2000       (SLCD_CTRLA_PRF_PR2000_Val     << SLCD_CTRLA_PRF_Pos)
+#define SLCD_CTRLA_PRF_PR1000       (SLCD_CTRLA_PRF_PR1000_Val     << SLCD_CTRLA_PRF_Pos)
+#define SLCD_CTRLA_PRF_PR500        (SLCD_CTRLA_PRF_PR500_Val      << SLCD_CTRLA_PRF_Pos)
+#define SLCD_CTRLA_PRF_PR250        (SLCD_CTRLA_PRF_PR250_Val      << SLCD_CTRLA_PRF_Pos)
+#define SLCD_CTRLA_DMFCS_Pos        22           /**< \brief (SLCD_CTRLA) Display Memory Update Frame Counter Selection */
+#define SLCD_CTRLA_DMFCS_Msk        (_U_(0x3) << SLCD_CTRLA_DMFCS_Pos)
+#define SLCD_CTRLA_DMFCS(value)     (SLCD_CTRLA_DMFCS_Msk & ((value) << SLCD_CTRLA_DMFCS_Pos))
+#define   SLCD_CTRLA_DMFCS_FC0_Val        _U_(0x0)   /**< \brief (SLCD_CTRLA) Frame Counter 0 */
+#define   SLCD_CTRLA_DMFCS_FC1_Val        _U_(0x1)   /**< \brief (SLCD_CTRLA) Frame Counter 1 */
+#define   SLCD_CTRLA_DMFCS_FC2_Val        _U_(0x2)   /**< \brief (SLCD_CTRLA) Frame Counter 2 */
+#define   SLCD_CTRLA_DMFCS_NFC_Val        _U_(0x3)   /**< \brief (SLCD_CTRLA) Frame Counter event to DMU is forced to 0 */
+#define SLCD_CTRLA_DMFCS_FC0        (SLCD_CTRLA_DMFCS_FC0_Val      << SLCD_CTRLA_DMFCS_Pos)
+#define SLCD_CTRLA_DMFCS_FC1        (SLCD_CTRLA_DMFCS_FC1_Val      << SLCD_CTRLA_DMFCS_Pos)
+#define SLCD_CTRLA_DMFCS_FC2        (SLCD_CTRLA_DMFCS_FC2_Val      << SLCD_CTRLA_DMFCS_Pos)
+#define SLCD_CTRLA_DMFCS_NFC        (SLCD_CTRLA_DMFCS_NFC_Val      << SLCD_CTRLA_DMFCS_Pos)
+#define SLCD_CTRLA_RRF_Pos          24           /**< \brief (SLCD_CTRLA) Reference Refresh Frequency */
+#define SLCD_CTRLA_RRF_Msk          (_U_(0x7) << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF(value)       (SLCD_CTRLA_RRF_Msk & ((value) << SLCD_CTRLA_RRF_Pos))
+#define   SLCD_CTRLA_RRF_RR2000_Val       _U_(0x0)   /**< \brief (SLCD_CTRLA) 2kHz */
+#define   SLCD_CTRLA_RRF_RR1000_Val       _U_(0x1)   /**< \brief (SLCD_CTRLA) 1kHz */
+#define   SLCD_CTRLA_RRF_RR500_Val        _U_(0x2)   /**< \brief (SLCD_CTRLA) 500Hz */
+#define   SLCD_CTRLA_RRF_RR250_Val        _U_(0x3)   /**< \brief (SLCD_CTRLA) 250Hz */
+#define   SLCD_CTRLA_RRF_RR125_Val        _U_(0x4)   /**< \brief (SLCD_CTRLA) 125Hz */
+#define   SLCD_CTRLA_RRF_RR62_Val         _U_(0x5)   /**< \brief (SLCD_CTRLA) 62.5Hz */
+#define SLCD_CTRLA_RRF_RR2000       (SLCD_CTRLA_RRF_RR2000_Val     << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF_RR1000       (SLCD_CTRLA_RRF_RR1000_Val     << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF_RR500        (SLCD_CTRLA_RRF_RR500_Val      << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF_RR250        (SLCD_CTRLA_RRF_RR250_Val      << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF_RR125        (SLCD_CTRLA_RRF_RR125_Val      << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_RRF_RR62         (SLCD_CTRLA_RRF_RR62_Val       << SLCD_CTRLA_RRF_Pos)
+#define SLCD_CTRLA_MASK             _U_(0x07FB737F) /**< \brief (SLCD_CTRLA) MASK Register */
+
+/* -------- SLCD_CTRLB : (SLCD Offset: 0x04) (R/W 16) Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t BBD:4;            /*!< bit:  0.. 3  Bias Buffer Enable Duration        */
+    uint16_t :3;               /*!< bit:  4.. 6  Reserved                           */
+    uint16_t BBEN:1;           /*!< bit:      7  Bias Buffer Enable                 */
+    uint16_t LRD:4;            /*!< bit:  8..11  Low Resistance Enable Duration     */
+    uint16_t :3;               /*!< bit: 12..14  Reserved                           */
+    uint16_t LREN:1;           /*!< bit:     15  Low Resistance Enable              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SLCD_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CTRLB_OFFSET           0x04         /**< \brief (SLCD_CTRLB offset) Control B */
+#define SLCD_CTRLB_RESETVALUE       _U_(0x0000)  /**< \brief (SLCD_CTRLB reset_value) Control B */
+
+#define SLCD_CTRLB_BBD_Pos          0            /**< \brief (SLCD_CTRLB) Bias Buffer Enable Duration */
+#define SLCD_CTRLB_BBD_Msk          (_U_(0xF) << SLCD_CTRLB_BBD_Pos)
+#define SLCD_CTRLB_BBD(value)       (SLCD_CTRLB_BBD_Msk & ((value) << SLCD_CTRLB_BBD_Pos))
+#define SLCD_CTRLB_BBEN_Pos         7            /**< \brief (SLCD_CTRLB) Bias Buffer Enable */
+#define SLCD_CTRLB_BBEN             (_U_(0x1) << SLCD_CTRLB_BBEN_Pos)
+#define SLCD_CTRLB_LRD_Pos          8            /**< \brief (SLCD_CTRLB) Low Resistance Enable Duration */
+#define SLCD_CTRLB_LRD_Msk          (_U_(0xF) << SLCD_CTRLB_LRD_Pos)
+#define SLCD_CTRLB_LRD(value)       (SLCD_CTRLB_LRD_Msk & ((value) << SLCD_CTRLB_LRD_Pos))
+#define SLCD_CTRLB_LREN_Pos         15           /**< \brief (SLCD_CTRLB) Low Resistance Enable */
+#define SLCD_CTRLB_LREN             (_U_(0x1) << SLCD_CTRLB_LREN_Pos)
+#define SLCD_CTRLB_MASK             _U_(0x8F8F)  /**< \brief (SLCD_CTRLB) MASK Register */
+
+/* -------- SLCD_CTRLC : (SLCD Offset: 0x06) (R/W 16) Control C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t CLEAR:1;          /*!< bit:      0  Clear Display Memory               */
+    uint16_t LOCK:1;           /*!< bit:      1  Lock Shadow Memory                 */
+    uint16_t ABMEN:1;          /*!< bit:      2  Automated Bit Mapping Enable       */
+    uint16_t ACMEN:1;          /*!< bit:      3  Automated Character Mapping Enable */
+    uint16_t CTST:4;           /*!< bit:  4.. 7  Contrast Adjustment                */
+    uint16_t LPPM:2;           /*!< bit:  8.. 9  LCD Power Macro Power mode         */
+    uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SLCD_CTRLC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CTRLC_OFFSET           0x06         /**< \brief (SLCD_CTRLC offset) Control C */
+#define SLCD_CTRLC_RESETVALUE       _U_(0x0000)  /**< \brief (SLCD_CTRLC reset_value) Control C */
+
+#define SLCD_CTRLC_CLEAR_Pos        0            /**< \brief (SLCD_CTRLC) Clear Display Memory */
+#define SLCD_CTRLC_CLEAR            (_U_(0x1) << SLCD_CTRLC_CLEAR_Pos)
+#define SLCD_CTRLC_LOCK_Pos         1            /**< \brief (SLCD_CTRLC) Lock Shadow Memory */
+#define SLCD_CTRLC_LOCK             (_U_(0x1) << SLCD_CTRLC_LOCK_Pos)
+#define SLCD_CTRLC_ABMEN_Pos        2            /**< \brief (SLCD_CTRLC) Automated Bit Mapping Enable */
+#define SLCD_CTRLC_ABMEN            (_U_(0x1) << SLCD_CTRLC_ABMEN_Pos)
+#define SLCD_CTRLC_ACMEN_Pos        3            /**< \brief (SLCD_CTRLC) Automated Character Mapping Enable */
+#define SLCD_CTRLC_ACMEN            (_U_(0x1) << SLCD_CTRLC_ACMEN_Pos)
+#define SLCD_CTRLC_CTST_Pos         4            /**< \brief (SLCD_CTRLC) Contrast Adjustment */
+#define SLCD_CTRLC_CTST_Msk         (_U_(0xF) << SLCD_CTRLC_CTST_Pos)
+#define SLCD_CTRLC_CTST(value)      (SLCD_CTRLC_CTST_Msk & ((value) << SLCD_CTRLC_CTST_Pos))
+#define SLCD_CTRLC_LPPM_Pos         8            /**< \brief (SLCD_CTRLC) LCD Power Macro Power mode */
+#define SLCD_CTRLC_LPPM_Msk         (_U_(0x3) << SLCD_CTRLC_LPPM_Pos)
+#define SLCD_CTRLC_LPPM(value)      (SLCD_CTRLC_LPPM_Msk & ((value) << SLCD_CTRLC_LPPM_Pos))
+#define   SLCD_CTRLC_LPPM_AUTO_Val        _U_(0x0)   /**< \brief (SLCD_CTRLC) LCD power automatically select regualation mode or pump mode */
+#define   SLCD_CTRLC_LPPM_STEPUP_Val      _U_(0x1)   /**< \brief (SLCD_CTRLC) LCD power use step-up pump loop only */
+#define   SLCD_CTRLC_LPPM_STEPDOWN_Val    _U_(0x2)   /**< \brief (SLCD_CTRLC) LCD power use step-down drop-out regulation loop only */
+#define SLCD_CTRLC_LPPM_AUTO        (SLCD_CTRLC_LPPM_AUTO_Val      << SLCD_CTRLC_LPPM_Pos)
+#define SLCD_CTRLC_LPPM_STEPUP      (SLCD_CTRLC_LPPM_STEPUP_Val    << SLCD_CTRLC_LPPM_Pos)
+#define SLCD_CTRLC_LPPM_STEPDOWN    (SLCD_CTRLC_LPPM_STEPDOWN_Val  << SLCD_CTRLC_LPPM_Pos)
+#define SLCD_CTRLC_MASK             _U_(0x03FF)  /**< \brief (SLCD_CTRLC) MASK Register */
+
+/* -------- SLCD_CTRLD : (SLCD Offset: 0x08) (R/W  8) Control D -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  BLANK:1;          /*!< bit:      0  Blank LCD                          */
+    uint8_t  BLINK:1;          /*!< bit:      1  Blinking Enable                    */
+    uint8_t  CSREN:1;          /*!< bit:      2  Circular Shift Register Enable     */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  FC0EN:1;          /*!< bit:      4  Frame Counter 0 Enable             */
+    uint8_t  FC1EN:1;          /*!< bit:      5  Frame Counter 1 Enable             */
+    uint8_t  FC2EN:1;          /*!< bit:      6  Frame Counter 2 Enable             */
+    uint8_t  DISPEN:1;         /*!< bit:      7  Display enable                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_CTRLD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CTRLD_OFFSET           0x08         /**< \brief (SLCD_CTRLD offset) Control D */
+#define SLCD_CTRLD_RESETVALUE       _U_(0x80)    /**< \brief (SLCD_CTRLD reset_value) Control D */
+
+#define SLCD_CTRLD_BLANK_Pos        0            /**< \brief (SLCD_CTRLD) Blank LCD */
+#define SLCD_CTRLD_BLANK            (_U_(0x1) << SLCD_CTRLD_BLANK_Pos)
+#define SLCD_CTRLD_BLINK_Pos        1            /**< \brief (SLCD_CTRLD) Blinking Enable */
+#define SLCD_CTRLD_BLINK            (_U_(0x1) << SLCD_CTRLD_BLINK_Pos)
+#define SLCD_CTRLD_CSREN_Pos        2            /**< \brief (SLCD_CTRLD) Circular Shift Register Enable */
+#define SLCD_CTRLD_CSREN            (_U_(0x1) << SLCD_CTRLD_CSREN_Pos)
+#define SLCD_CTRLD_FC0EN_Pos        4            /**< \brief (SLCD_CTRLD) Frame Counter 0 Enable */
+#define SLCD_CTRLD_FC0EN            (_U_(0x1) << SLCD_CTRLD_FC0EN_Pos)
+#define SLCD_CTRLD_FC1EN_Pos        5            /**< \brief (SLCD_CTRLD) Frame Counter 1 Enable */
+#define SLCD_CTRLD_FC1EN            (_U_(0x1) << SLCD_CTRLD_FC1EN_Pos)
+#define SLCD_CTRLD_FC2EN_Pos        6            /**< \brief (SLCD_CTRLD) Frame Counter 2 Enable */
+#define SLCD_CTRLD_FC2EN            (_U_(0x1) << SLCD_CTRLD_FC2EN_Pos)
+#define SLCD_CTRLD_DISPEN_Pos       7            /**< \brief (SLCD_CTRLD) Display enable */
+#define SLCD_CTRLD_DISPEN           (_U_(0x1) << SLCD_CTRLD_DISPEN_Pos)
+#define SLCD_CTRLD_MASK             _U_(0xF7)    /**< \brief (SLCD_CTRLD) MASK Register */
+
+/* -------- SLCD_EVCTRL : (SLCD Offset: 0x0C) (R/W  8) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FC0OEO:1;         /*!< bit:      0  Frame Counter 0 Overflow Event Output Enable */
+    uint8_t  FC1OEO:1;         /*!< bit:      1  Frame Counter 1 Overflow Event Output Enable */
+    uint8_t  FC2OEO:1;         /*!< bit:      2  Frame Counter 2 Overflow Event Output Enable */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_EVCTRL_OFFSET          0x0C         /**< \brief (SLCD_EVCTRL offset) Event Control */
+#define SLCD_EVCTRL_RESETVALUE      _U_(0x00)    /**< \brief (SLCD_EVCTRL reset_value) Event Control */
+
+#define SLCD_EVCTRL_FC0OEO_Pos      0            /**< \brief (SLCD_EVCTRL) Frame Counter 0 Overflow Event Output Enable */
+#define SLCD_EVCTRL_FC0OEO          (_U_(0x1) << SLCD_EVCTRL_FC0OEO_Pos)
+#define SLCD_EVCTRL_FC1OEO_Pos      1            /**< \brief (SLCD_EVCTRL) Frame Counter 1 Overflow Event Output Enable */
+#define SLCD_EVCTRL_FC1OEO          (_U_(0x1) << SLCD_EVCTRL_FC1OEO_Pos)
+#define SLCD_EVCTRL_FC2OEO_Pos      2            /**< \brief (SLCD_EVCTRL) Frame Counter 2 Overflow Event Output Enable */
+#define SLCD_EVCTRL_FC2OEO          (_U_(0x1) << SLCD_EVCTRL_FC2OEO_Pos)
+#define SLCD_EVCTRL_MASK            _U_(0x07)    /**< \brief (SLCD_EVCTRL) MASK Register */
+
+/* -------- SLCD_INTENCLR : (SLCD Offset: 0x0D) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FC0O:1;           /*!< bit:      0  Frame Counter 0 Overflow Interrupt Disable */
+    uint8_t  FC1O:1;           /*!< bit:      1  Frame Counter 1 Overflow Interrupt Disable */
+    uint8_t  FC2O:1;           /*!< bit:      2  Frame Counter 2 Overflow Interrupt Disable */
+    uint8_t  VLCDRT:1;         /*!< bit:      3  VLCD Ready Toggle Interrupt Disable */
+    uint8_t  VLCDST:1;         /*!< bit:      4  VLCD Status Toggle Interrupt Disable */
+    uint8_t  PRST:1;           /*!< bit:      5  Pump Run Status Toggle Interrupt Disable */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_INTENCLR_OFFSET        0x0D         /**< \brief (SLCD_INTENCLR offset) Interrupt Enable Clear */
+#define SLCD_INTENCLR_RESETVALUE    _U_(0x00)    /**< \brief (SLCD_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define SLCD_INTENCLR_FC0O_Pos      0            /**< \brief (SLCD_INTENCLR) Frame Counter 0 Overflow Interrupt Disable */
+#define SLCD_INTENCLR_FC0O          (_U_(0x1) << SLCD_INTENCLR_FC0O_Pos)
+#define SLCD_INTENCLR_FC1O_Pos      1            /**< \brief (SLCD_INTENCLR) Frame Counter 1 Overflow Interrupt Disable */
+#define SLCD_INTENCLR_FC1O          (_U_(0x1) << SLCD_INTENCLR_FC1O_Pos)
+#define SLCD_INTENCLR_FC2O_Pos      2            /**< \brief (SLCD_INTENCLR) Frame Counter 2 Overflow Interrupt Disable */
+#define SLCD_INTENCLR_FC2O          (_U_(0x1) << SLCD_INTENCLR_FC2O_Pos)
+#define SLCD_INTENCLR_VLCDRT_Pos    3            /**< \brief (SLCD_INTENCLR) VLCD Ready Toggle Interrupt Disable */
+#define SLCD_INTENCLR_VLCDRT        (_U_(0x1) << SLCD_INTENCLR_VLCDRT_Pos)
+#define SLCD_INTENCLR_VLCDST_Pos    4            /**< \brief (SLCD_INTENCLR) VLCD Status Toggle Interrupt Disable */
+#define SLCD_INTENCLR_VLCDST        (_U_(0x1) << SLCD_INTENCLR_VLCDST_Pos)
+#define SLCD_INTENCLR_PRST_Pos      5            /**< \brief (SLCD_INTENCLR) Pump Run Status Toggle Interrupt Disable */
+#define SLCD_INTENCLR_PRST          (_U_(0x1) << SLCD_INTENCLR_PRST_Pos)
+#define SLCD_INTENCLR_MASK          _U_(0x3F)    /**< \brief (SLCD_INTENCLR) MASK Register */
+
+/* -------- SLCD_INTENSET : (SLCD Offset: 0x0E) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FC0O:1;           /*!< bit:      0  Frame Counter 0 Overflow Interrupt Enable */
+    uint8_t  FC1O:1;           /*!< bit:      1  Frame Counter 1 Overflow Interrupt Enable */
+    uint8_t  FC2O:1;           /*!< bit:      2  Frame Counter 2 Overflow Interrupt Enable */
+    uint8_t  VLCDRT:1;         /*!< bit:      3  VLCD Ready Toggle Interrupt Enable */
+    uint8_t  VLCDST:1;         /*!< bit:      4  VLCD Status Toggle Interrupt Enable */
+    uint8_t  PRST:1;           /*!< bit:      5  Pump Run Status Toggle Interrupt Enable */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_INTENSET_OFFSET        0x0E         /**< \brief (SLCD_INTENSET offset) Interrupt Enable Set */
+#define SLCD_INTENSET_RESETVALUE    _U_(0x00)    /**< \brief (SLCD_INTENSET reset_value) Interrupt Enable Set */
+
+#define SLCD_INTENSET_FC0O_Pos      0            /**< \brief (SLCD_INTENSET) Frame Counter 0 Overflow Interrupt Enable */
+#define SLCD_INTENSET_FC0O          (_U_(0x1) << SLCD_INTENSET_FC0O_Pos)
+#define SLCD_INTENSET_FC1O_Pos      1            /**< \brief (SLCD_INTENSET) Frame Counter 1 Overflow Interrupt Enable */
+#define SLCD_INTENSET_FC1O          (_U_(0x1) << SLCD_INTENSET_FC1O_Pos)
+#define SLCD_INTENSET_FC2O_Pos      2            /**< \brief (SLCD_INTENSET) Frame Counter 2 Overflow Interrupt Enable */
+#define SLCD_INTENSET_FC2O          (_U_(0x1) << SLCD_INTENSET_FC2O_Pos)
+#define SLCD_INTENSET_VLCDRT_Pos    3            /**< \brief (SLCD_INTENSET) VLCD Ready Toggle Interrupt Enable */
+#define SLCD_INTENSET_VLCDRT        (_U_(0x1) << SLCD_INTENSET_VLCDRT_Pos)
+#define SLCD_INTENSET_VLCDST_Pos    4            /**< \brief (SLCD_INTENSET) VLCD Status Toggle Interrupt Enable */
+#define SLCD_INTENSET_VLCDST        (_U_(0x1) << SLCD_INTENSET_VLCDST_Pos)
+#define SLCD_INTENSET_PRST_Pos      5            /**< \brief (SLCD_INTENSET) Pump Run Status Toggle Interrupt Enable */
+#define SLCD_INTENSET_PRST          (_U_(0x1) << SLCD_INTENSET_PRST_Pos)
+#define SLCD_INTENSET_MASK          _U_(0x3F)    /**< \brief (SLCD_INTENSET) MASK Register */
+
+/* -------- SLCD_INTFLAG : (SLCD Offset: 0x0F) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  FC0O:1;           /*!< bit:      0  Frame Counter 0 Overflow           */
+    __I uint8_t  FC1O:1;           /*!< bit:      1  Frame Counter 1 Overflow           */
+    __I uint8_t  FC2O:1;           /*!< bit:      2  Frame Counter 2 Overflow           */
+    __I uint8_t  VLCDRT:1;         /*!< bit:      3  VLCD Ready Toggle                  */
+    __I uint8_t  VLCDST:1;         /*!< bit:      4  VLCD Status Toggle                 */
+    __I uint8_t  PRST:1;           /*!< bit:      5  Pump Run Status Toggle             */
+    __I uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_INTFLAG_OFFSET         0x0F         /**< \brief (SLCD_INTFLAG offset) Interrupt Flag Status and Clear */
+#define SLCD_INTFLAG_RESETVALUE     _U_(0x00)    /**< \brief (SLCD_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define SLCD_INTFLAG_FC0O_Pos       0            /**< \brief (SLCD_INTFLAG) Frame Counter 0 Overflow */
+#define SLCD_INTFLAG_FC0O           (_U_(0x1) << SLCD_INTFLAG_FC0O_Pos)
+#define SLCD_INTFLAG_FC1O_Pos       1            /**< \brief (SLCD_INTFLAG) Frame Counter 1 Overflow */
+#define SLCD_INTFLAG_FC1O           (_U_(0x1) << SLCD_INTFLAG_FC1O_Pos)
+#define SLCD_INTFLAG_FC2O_Pos       2            /**< \brief (SLCD_INTFLAG) Frame Counter 2 Overflow */
+#define SLCD_INTFLAG_FC2O           (_U_(0x1) << SLCD_INTFLAG_FC2O_Pos)
+#define SLCD_INTFLAG_VLCDRT_Pos     3            /**< \brief (SLCD_INTFLAG) VLCD Ready Toggle */
+#define SLCD_INTFLAG_VLCDRT         (_U_(0x1) << SLCD_INTFLAG_VLCDRT_Pos)
+#define SLCD_INTFLAG_VLCDST_Pos     4            /**< \brief (SLCD_INTFLAG) VLCD Status Toggle */
+#define SLCD_INTFLAG_VLCDST         (_U_(0x1) << SLCD_INTFLAG_VLCDST_Pos)
+#define SLCD_INTFLAG_PRST_Pos       5            /**< \brief (SLCD_INTFLAG) Pump Run Status Toggle */
+#define SLCD_INTFLAG_PRST           (_U_(0x1) << SLCD_INTFLAG_PRST_Pos)
+#define SLCD_INTFLAG_MASK           _U_(0x3F)    /**< \brief (SLCD_INTFLAG) MASK Register */
+
+/* -------- SLCD_STATUS : (SLCD Offset: 0x10) (R/   8) Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  VLCDR:1;          /*!< bit:      0  VLCD Ready                         */
+    uint8_t  PRUN:1;           /*!< bit:      1  LCD Charge Pump is Running         */
+    uint8_t  VLCDS:1;          /*!< bit:      2  VLCD Status                        */
+    uint8_t  CMWRBUSY:1;       /*!< bit:      3  Character mapping write busy       */
+    uint8_t  ACMBUSY:1;        /*!< bit:      4  ACM state machine busy             */
+    uint8_t  ABMBUSY:1;        /*!< bit:      5  ABM state machine busy             */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_STATUS_OFFSET          0x10         /**< \brief (SLCD_STATUS offset) Status */
+#define SLCD_STATUS_RESETVALUE      _U_(0x00)    /**< \brief (SLCD_STATUS reset_value) Status */
+
+#define SLCD_STATUS_VLCDR_Pos       0            /**< \brief (SLCD_STATUS) VLCD Ready */
+#define SLCD_STATUS_VLCDR           (_U_(0x1) << SLCD_STATUS_VLCDR_Pos)
+#define SLCD_STATUS_PRUN_Pos        1            /**< \brief (SLCD_STATUS) LCD Charge Pump is Running */
+#define SLCD_STATUS_PRUN            (_U_(0x1) << SLCD_STATUS_PRUN_Pos)
+#define SLCD_STATUS_VLCDS_Pos       2            /**< \brief (SLCD_STATUS) VLCD Status */
+#define SLCD_STATUS_VLCDS           (_U_(0x1) << SLCD_STATUS_VLCDS_Pos)
+#define SLCD_STATUS_CMWRBUSY_Pos    3            /**< \brief (SLCD_STATUS) Character mapping write busy */
+#define SLCD_STATUS_CMWRBUSY        (_U_(0x1) << SLCD_STATUS_CMWRBUSY_Pos)
+#define SLCD_STATUS_ACMBUSY_Pos     4            /**< \brief (SLCD_STATUS) ACM state machine busy */
+#define SLCD_STATUS_ACMBUSY         (_U_(0x1) << SLCD_STATUS_ACMBUSY_Pos)
+#define SLCD_STATUS_ABMBUSY_Pos     5            /**< \brief (SLCD_STATUS) ABM state machine busy */
+#define SLCD_STATUS_ABMBUSY         (_U_(0x1) << SLCD_STATUS_ABMBUSY_Pos)
+#define SLCD_STATUS_MASK            _U_(0x3F)    /**< \brief (SLCD_STATUS) MASK Register */
+
+/* -------- SLCD_SYNCBUSY : (SLCD Offset: 0x14) (R/  32) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t CTRLD:1;          /*!< bit:      2  Control D                          */
+    uint32_t :29;              /*!< bit:  3..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SYNCBUSY_OFFSET        0x14         /**< \brief (SLCD_SYNCBUSY offset) Synchronization Busy */
+#define SLCD_SYNCBUSY_RESETVALUE    _U_(0x00000000) /**< \brief (SLCD_SYNCBUSY reset_value) Synchronization Busy */
+
+#define SLCD_SYNCBUSY_SWRST_Pos     0            /**< \brief (SLCD_SYNCBUSY) Software Reset */
+#define SLCD_SYNCBUSY_SWRST         (_U_(0x1) << SLCD_SYNCBUSY_SWRST_Pos)
+#define SLCD_SYNCBUSY_ENABLE_Pos    1            /**< \brief (SLCD_SYNCBUSY) Enable */
+#define SLCD_SYNCBUSY_ENABLE        (_U_(0x1) << SLCD_SYNCBUSY_ENABLE_Pos)
+#define SLCD_SYNCBUSY_CTRLD_Pos     2            /**< \brief (SLCD_SYNCBUSY) Control D */
+#define SLCD_SYNCBUSY_CTRLD         (_U_(0x1) << SLCD_SYNCBUSY_CTRLD_Pos)
+#define SLCD_SYNCBUSY_MASK          _U_(0x00000007) /**< \brief (SLCD_SYNCBUSY) MASK Register */
+
+/* -------- SLCD_FC0 : (SLCD Offset: 0x18) (R/W  8) Frame Counter 0 Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  OVF:5;            /*!< bit:  0.. 4  Frame Counter Overflow Value       */
+    uint8_t  :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint8_t  PB:1;             /*!< bit:      7  Prescaler Bypass                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_FC0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_FC0_OFFSET             0x18         /**< \brief (SLCD_FC0 offset) Frame Counter 0 Configuration */
+#define SLCD_FC0_RESETVALUE         _U_(0x00)    /**< \brief (SLCD_FC0 reset_value) Frame Counter 0 Configuration */
+
+#define SLCD_FC0_OVF_Pos            0            /**< \brief (SLCD_FC0) Frame Counter Overflow Value */
+#define SLCD_FC0_OVF_Msk            (_U_(0x1F) << SLCD_FC0_OVF_Pos)
+#define SLCD_FC0_OVF(value)         (SLCD_FC0_OVF_Msk & ((value) << SLCD_FC0_OVF_Pos))
+#define SLCD_FC0_PB_Pos             7            /**< \brief (SLCD_FC0) Prescaler Bypass */
+#define SLCD_FC0_PB                 (_U_(0x1) << SLCD_FC0_PB_Pos)
+#define SLCD_FC0_MASK               _U_(0x9F)    /**< \brief (SLCD_FC0) MASK Register */
+
+/* -------- SLCD_FC1 : (SLCD Offset: 0x19) (R/W  8) Frame Counter 1 Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  OVF:5;            /*!< bit:  0.. 4  Frame Counter Overflow Value       */
+    uint8_t  :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint8_t  PB:1;             /*!< bit:      7  Prescaler Bypass                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_FC1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_FC1_OFFSET             0x19         /**< \brief (SLCD_FC1 offset) Frame Counter 1 Configuration */
+#define SLCD_FC1_RESETVALUE         _U_(0x00)    /**< \brief (SLCD_FC1 reset_value) Frame Counter 1 Configuration */
+
+#define SLCD_FC1_OVF_Pos            0            /**< \brief (SLCD_FC1) Frame Counter Overflow Value */
+#define SLCD_FC1_OVF_Msk            (_U_(0x1F) << SLCD_FC1_OVF_Pos)
+#define SLCD_FC1_OVF(value)         (SLCD_FC1_OVF_Msk & ((value) << SLCD_FC1_OVF_Pos))
+#define SLCD_FC1_PB_Pos             7            /**< \brief (SLCD_FC1) Prescaler Bypass */
+#define SLCD_FC1_PB                 (_U_(0x1) << SLCD_FC1_PB_Pos)
+#define SLCD_FC1_MASK               _U_(0x9F)    /**< \brief (SLCD_FC1) MASK Register */
+
+/* -------- SLCD_FC2 : (SLCD Offset: 0x1A) (R/W  8) Frame Counter 2 Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  OVF:5;            /*!< bit:  0.. 4  Frame Counter Overflow Value       */
+    uint8_t  :2;               /*!< bit:  5.. 6  Reserved                           */
+    uint8_t  PB:1;             /*!< bit:      7  Prescaler Bypass                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_FC2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_FC2_OFFSET             0x1A         /**< \brief (SLCD_FC2 offset) Frame Counter 2 Configuration */
+#define SLCD_FC2_RESETVALUE         _U_(0x00)    /**< \brief (SLCD_FC2 reset_value) Frame Counter 2 Configuration */
+
+#define SLCD_FC2_OVF_Pos            0            /**< \brief (SLCD_FC2) Frame Counter Overflow Value */
+#define SLCD_FC2_OVF_Msk            (_U_(0x1F) << SLCD_FC2_OVF_Pos)
+#define SLCD_FC2_OVF(value)         (SLCD_FC2_OVF_Msk & ((value) << SLCD_FC2_OVF_Pos))
+#define SLCD_FC2_PB_Pos             7            /**< \brief (SLCD_FC2) Prescaler Bypass */
+#define SLCD_FC2_PB                 (_U_(0x1) << SLCD_FC2_PB_Pos)
+#define SLCD_FC2_MASK               _U_(0x9F)    /**< \brief (SLCD_FC2) MASK Register */
+
+/* -------- SLCD_LPENL : (SLCD Offset: 0x1C) (R/W 32) LCD Pin Enable Low -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t LPEN:32;          /*!< bit:  0..31  LCD Pin Enable                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_LPENL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_LPENL_OFFSET           0x1C         /**< \brief (SLCD_LPENL offset) LCD Pin Enable Low */
+#define SLCD_LPENL_RESETVALUE       _U_(0x00000000) /**< \brief (SLCD_LPENL reset_value) LCD Pin Enable Low */
+
+#define SLCD_LPENL_LPEN_Pos         0            /**< \brief (SLCD_LPENL) LCD Pin Enable */
+#define SLCD_LPENL_LPEN_Msk         (_U_(0xFFFFFFFF) << SLCD_LPENL_LPEN_Pos)
+#define SLCD_LPENL_LPEN(value)      (SLCD_LPENL_LPEN_Msk & ((value) << SLCD_LPENL_LPEN_Pos))
+#define SLCD_LPENL_MASK             _U_(0xFFFFFFFF) /**< \brief (SLCD_LPENL) MASK Register */
+
+/* -------- SLCD_LPENH : (SLCD Offset: 0x20) (R/W 32) LCD Pin Enable High -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t LPEN:20;          /*!< bit:  0..19  LCD Pin Enable                     */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_LPENH_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_LPENH_OFFSET           0x20         /**< \brief (SLCD_LPENH offset) LCD Pin Enable High */
+#define SLCD_LPENH_RESETVALUE       _U_(0x00000000) /**< \brief (SLCD_LPENH reset_value) LCD Pin Enable High */
+
+#define SLCD_LPENH_LPEN_Pos         0            /**< \brief (SLCD_LPENH) LCD Pin Enable */
+#define SLCD_LPENH_LPEN_Msk         (_U_(0xFFFFF) << SLCD_LPENH_LPEN_Pos)
+#define SLCD_LPENH_LPEN(value)      (SLCD_LPENH_LPEN_Msk & ((value) << SLCD_LPENH_LPEN_Pos))
+#define SLCD_LPENH_MASK             _U_(0x000FFFFF) /**< \brief (SLCD_LPENH) MASK Register */
+
+/* -------- SLCD_SDATAL0 : (SLCD Offset: 0x24) (R/W 32) Segments Data Low for COM0 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL0_OFFSET         0x24         /**< \brief (SLCD_SDATAL0 offset) Segments Data Low for COM0 Line */
+#define SLCD_SDATAL0_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL0 reset_value) Segments Data Low for COM0 Line */
+
+#define SLCD_SDATAL0_SDATA_Pos      0            /**< \brief (SLCD_SDATAL0) Segments Data */
+#define SLCD_SDATAL0_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL0_SDATA_Pos)
+#define SLCD_SDATAL0_SDATA(value)   (SLCD_SDATAL0_SDATA_Msk & ((value) << SLCD_SDATAL0_SDATA_Pos))
+#define SLCD_SDATAL0_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL0) MASK Register */
+
+/* -------- SLCD_SDATAH0 : (SLCD Offset: 0x28) (R/W 32) Segments Data High for COM0 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:12;         /*!< bit:  0..11  Segments Data                      */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH0_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH0_OFFSET         0x28         /**< \brief (SLCD_SDATAH0 offset) Segments Data High for COM0 Line */
+#define SLCD_SDATAH0_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH0 reset_value) Segments Data High for COM0 Line */
+
+#define SLCD_SDATAH0_SDATA_Pos      0            /**< \brief (SLCD_SDATAH0) Segments Data */
+#define SLCD_SDATAH0_SDATA_Msk      (_U_(0xFFF) << SLCD_SDATAH0_SDATA_Pos)
+#define SLCD_SDATAH0_SDATA(value)   (SLCD_SDATAH0_SDATA_Msk & ((value) << SLCD_SDATAH0_SDATA_Pos))
+#define SLCD_SDATAH0_MASK           _U_(0x00000FFF) /**< \brief (SLCD_SDATAH0) MASK Register */
+
+/* -------- SLCD_SDATAL1 : (SLCD Offset: 0x2C) (R/W 32) Segments Data Low for COM1 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL1_OFFSET         0x2C         /**< \brief (SLCD_SDATAL1 offset) Segments Data Low for COM1 Line */
+#define SLCD_SDATAL1_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL1 reset_value) Segments Data Low for COM1 Line */
+
+#define SLCD_SDATAL1_SDATA_Pos      0            /**< \brief (SLCD_SDATAL1) Segments Data */
+#define SLCD_SDATAL1_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL1_SDATA_Pos)
+#define SLCD_SDATAL1_SDATA(value)   (SLCD_SDATAL1_SDATA_Msk & ((value) << SLCD_SDATAL1_SDATA_Pos))
+#define SLCD_SDATAL1_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL1) MASK Register */
+
+/* -------- SLCD_SDATAH1 : (SLCD Offset: 0x30) (R/W 32) Segments Data High for COM1 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:12;         /*!< bit:  0..11  Segments Data                      */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH1_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH1_OFFSET         0x30         /**< \brief (SLCD_SDATAH1 offset) Segments Data High for COM1 Line */
+#define SLCD_SDATAH1_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH1 reset_value) Segments Data High for COM1 Line */
+
+#define SLCD_SDATAH1_SDATA_Pos      0            /**< \brief (SLCD_SDATAH1) Segments Data */
+#define SLCD_SDATAH1_SDATA_Msk      (_U_(0xFFF) << SLCD_SDATAH1_SDATA_Pos)
+#define SLCD_SDATAH1_SDATA(value)   (SLCD_SDATAH1_SDATA_Msk & ((value) << SLCD_SDATAH1_SDATA_Pos))
+#define SLCD_SDATAH1_MASK           _U_(0x00000FFF) /**< \brief (SLCD_SDATAH1) MASK Register */
+
+/* -------- SLCD_SDATAL2 : (SLCD Offset: 0x34) (R/W 32) Segments Data Low for COM2 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL2_OFFSET         0x34         /**< \brief (SLCD_SDATAL2 offset) Segments Data Low for COM2 Line */
+#define SLCD_SDATAL2_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL2 reset_value) Segments Data Low for COM2 Line */
+
+#define SLCD_SDATAL2_SDATA_Pos      0            /**< \brief (SLCD_SDATAL2) Segments Data */
+#define SLCD_SDATAL2_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL2_SDATA_Pos)
+#define SLCD_SDATAL2_SDATA(value)   (SLCD_SDATAL2_SDATA_Msk & ((value) << SLCD_SDATAL2_SDATA_Pos))
+#define SLCD_SDATAL2_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL2) MASK Register */
+
+/* -------- SLCD_SDATAH2 : (SLCD Offset: 0x38) (R/W 32) Segments Data High for COM2 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:12;         /*!< bit:  0..11  Segments Data                      */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH2_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH2_OFFSET         0x38         /**< \brief (SLCD_SDATAH2 offset) Segments Data High for COM2 Line */
+#define SLCD_SDATAH2_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH2 reset_value) Segments Data High for COM2 Line */
+
+#define SLCD_SDATAH2_SDATA_Pos      0            /**< \brief (SLCD_SDATAH2) Segments Data */
+#define SLCD_SDATAH2_SDATA_Msk      (_U_(0xFFF) << SLCD_SDATAH2_SDATA_Pos)
+#define SLCD_SDATAH2_SDATA(value)   (SLCD_SDATAH2_SDATA_Msk & ((value) << SLCD_SDATAH2_SDATA_Pos))
+#define SLCD_SDATAH2_MASK           _U_(0x00000FFF) /**< \brief (SLCD_SDATAH2) MASK Register */
+
+/* -------- SLCD_SDATAL3 : (SLCD Offset: 0x3C) (R/W 32) Segments Data Low for COM3 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL3_OFFSET         0x3C         /**< \brief (SLCD_SDATAL3 offset) Segments Data Low for COM3 Line */
+#define SLCD_SDATAL3_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL3 reset_value) Segments Data Low for COM3 Line */
+
+#define SLCD_SDATAL3_SDATA_Pos      0            /**< \brief (SLCD_SDATAL3) Segments Data */
+#define SLCD_SDATAL3_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL3_SDATA_Pos)
+#define SLCD_SDATAL3_SDATA(value)   (SLCD_SDATAL3_SDATA_Msk & ((value) << SLCD_SDATAL3_SDATA_Pos))
+#define SLCD_SDATAL3_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL3) MASK Register */
+
+/* -------- SLCD_SDATAH3 : (SLCD Offset: 0x40) (R/W 32) Segments Data High for COM3 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:12;         /*!< bit:  0..11  Segments Data                      */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH3_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH3_OFFSET         0x40         /**< \brief (SLCD_SDATAH3 offset) Segments Data High for COM3 Line */
+#define SLCD_SDATAH3_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH3 reset_value) Segments Data High for COM3 Line */
+
+#define SLCD_SDATAH3_SDATA_Pos      0            /**< \brief (SLCD_SDATAH3) Segments Data */
+#define SLCD_SDATAH3_SDATA_Msk      (_U_(0xFFF) << SLCD_SDATAH3_SDATA_Pos)
+#define SLCD_SDATAH3_SDATA(value)   (SLCD_SDATAH3_SDATA_Msk & ((value) << SLCD_SDATAH3_SDATA_Pos))
+#define SLCD_SDATAH3_MASK           _U_(0x00000FFF) /**< \brief (SLCD_SDATAH3) MASK Register */
+
+/* -------- SLCD_SDATAL4 : (SLCD Offset: 0x44) (R/W 32) Segments Data Low for COM4 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL4_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL4_OFFSET         0x44         /**< \brief (SLCD_SDATAL4 offset) Segments Data Low for COM4 Line */
+#define SLCD_SDATAL4_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL4 reset_value) Segments Data Low for COM4 Line */
+
+#define SLCD_SDATAL4_SDATA_Pos      0            /**< \brief (SLCD_SDATAL4) Segments Data */
+#define SLCD_SDATAL4_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL4_SDATA_Pos)
+#define SLCD_SDATAL4_SDATA(value)   (SLCD_SDATAL4_SDATA_Msk & ((value) << SLCD_SDATAL4_SDATA_Pos))
+#define SLCD_SDATAL4_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL4) MASK Register */
+
+/* -------- SLCD_SDATAH4 : (SLCD Offset: 0x48) (R/W 32) Segments Data High for COM4 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:10;         /*!< bit:  0.. 9  Segments Data                      */
+    uint32_t :22;              /*!< bit: 10..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH4_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH4_OFFSET         0x48         /**< \brief (SLCD_SDATAH4 offset) Segments Data High for COM4 Line */
+#define SLCD_SDATAH4_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH4 reset_value) Segments Data High for COM4 Line */
+
+#define SLCD_SDATAH4_SDATA_Pos      0            /**< \brief (SLCD_SDATAH4) Segments Data */
+#define SLCD_SDATAH4_SDATA_Msk      (_U_(0x3FF) << SLCD_SDATAH4_SDATA_Pos)
+#define SLCD_SDATAH4_SDATA(value)   (SLCD_SDATAH4_SDATA_Msk & ((value) << SLCD_SDATAH4_SDATA_Pos))
+#define SLCD_SDATAH4_MASK           _U_(0x000003FF) /**< \brief (SLCD_SDATAH4) MASK Register */
+
+/* -------- SLCD_SDATAL5 : (SLCD Offset: 0x4C) (R/W 32) Segments Data Low for COM5 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL5_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL5_OFFSET         0x4C         /**< \brief (SLCD_SDATAL5 offset) Segments Data Low for COM5 Line */
+#define SLCD_SDATAL5_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL5 reset_value) Segments Data Low for COM5 Line */
+
+#define SLCD_SDATAL5_SDATA_Pos      0            /**< \brief (SLCD_SDATAL5) Segments Data */
+#define SLCD_SDATAL5_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL5_SDATA_Pos)
+#define SLCD_SDATAL5_SDATA(value)   (SLCD_SDATAL5_SDATA_Msk & ((value) << SLCD_SDATAL5_SDATA_Pos))
+#define SLCD_SDATAL5_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL5) MASK Register */
+
+/* -------- SLCD_SDATAH5 : (SLCD Offset: 0x50) (R/W 32) Segments Data High for COM5 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:10;         /*!< bit:  0.. 9  Segments Data                      */
+    uint32_t :22;              /*!< bit: 10..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH5_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH5_OFFSET         0x50         /**< \brief (SLCD_SDATAH5 offset) Segments Data High for COM5 Line */
+#define SLCD_SDATAH5_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH5 reset_value) Segments Data High for COM5 Line */
+
+#define SLCD_SDATAH5_SDATA_Pos      0            /**< \brief (SLCD_SDATAH5) Segments Data */
+#define SLCD_SDATAH5_SDATA_Msk      (_U_(0x3FF) << SLCD_SDATAH5_SDATA_Pos)
+#define SLCD_SDATAH5_SDATA(value)   (SLCD_SDATAH5_SDATA_Msk & ((value) << SLCD_SDATAH5_SDATA_Pos))
+#define SLCD_SDATAH5_MASK           _U_(0x000003FF) /**< \brief (SLCD_SDATAH5) MASK Register */
+
+/* -------- SLCD_SDATAL6 : (SLCD Offset: 0x54) (R/W 32) Segments Data Low for COM6 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL6_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL6_OFFSET         0x54         /**< \brief (SLCD_SDATAL6 offset) Segments Data Low for COM6 Line */
+#define SLCD_SDATAL6_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL6 reset_value) Segments Data Low for COM6 Line */
+
+#define SLCD_SDATAL6_SDATA_Pos      0            /**< \brief (SLCD_SDATAL6) Segments Data */
+#define SLCD_SDATAL6_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL6_SDATA_Pos)
+#define SLCD_SDATAL6_SDATA(value)   (SLCD_SDATAL6_SDATA_Msk & ((value) << SLCD_SDATAL6_SDATA_Pos))
+#define SLCD_SDATAL6_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL6) MASK Register */
+
+/* -------- SLCD_SDATAH6 : (SLCD Offset: 0x58) (R/W 32) Segments Data High for COM6 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:8;          /*!< bit:  0.. 7  Segments Data                      */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH6_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH6_OFFSET         0x58         /**< \brief (SLCD_SDATAH6 offset) Segments Data High for COM6 Line */
+#define SLCD_SDATAH6_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH6 reset_value) Segments Data High for COM6 Line */
+
+#define SLCD_SDATAH6_SDATA_Pos      0            /**< \brief (SLCD_SDATAH6) Segments Data */
+#define SLCD_SDATAH6_SDATA_Msk      (_U_(0xFF) << SLCD_SDATAH6_SDATA_Pos)
+#define SLCD_SDATAH6_SDATA(value)   (SLCD_SDATAH6_SDATA_Msk & ((value) << SLCD_SDATAH6_SDATA_Pos))
+#define SLCD_SDATAH6_MASK           _U_(0x000000FF) /**< \brief (SLCD_SDATAH6) MASK Register */
+
+/* -------- SLCD_SDATAL7 : (SLCD Offset: 0x5C) (R/W 32) Segments Data Low for COM7 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:32;         /*!< bit:  0..31  Segments Data                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAL7_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAL7_OFFSET         0x5C         /**< \brief (SLCD_SDATAL7 offset) Segments Data Low for COM7 Line */
+#define SLCD_SDATAL7_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAL7 reset_value) Segments Data Low for COM7 Line */
+
+#define SLCD_SDATAL7_SDATA_Pos      0            /**< \brief (SLCD_SDATAL7) Segments Data */
+#define SLCD_SDATAL7_SDATA_Msk      (_U_(0xFFFFFFFF) << SLCD_SDATAL7_SDATA_Pos)
+#define SLCD_SDATAL7_SDATA(value)   (SLCD_SDATAL7_SDATA_Msk & ((value) << SLCD_SDATAL7_SDATA_Pos))
+#define SLCD_SDATAL7_MASK           _U_(0xFFFFFFFF) /**< \brief (SLCD_SDATAL7) MASK Register */
+
+/* -------- SLCD_SDATAH7 : (SLCD Offset: 0x60) (R/W 32) Segments Data High for COM7 Line -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:8;          /*!< bit:  0.. 7  Segments Data                      */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_SDATAH7_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_SDATAH7_OFFSET         0x60         /**< \brief (SLCD_SDATAH7 offset) Segments Data High for COM7 Line */
+#define SLCD_SDATAH7_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_SDATAH7 reset_value) Segments Data High for COM7 Line */
+
+#define SLCD_SDATAH7_SDATA_Pos      0            /**< \brief (SLCD_SDATAH7) Segments Data */
+#define SLCD_SDATAH7_SDATA_Msk      (_U_(0xFF) << SLCD_SDATAH7_SDATA_Pos)
+#define SLCD_SDATAH7_SDATA(value)   (SLCD_SDATAH7_SDATA_Msk & ((value) << SLCD_SDATAH7_SDATA_Pos))
+#define SLCD_SDATAH7_MASK           _U_(0x000000FF) /**< \brief (SLCD_SDATAH7) MASK Register */
+
+/* -------- SLCD_ISDATA : (SLCD Offset: 0x64) ( /W 32) Indirect Segments Data Access -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:8;          /*!< bit:  0.. 7  Segments Data                      */
+    uint32_t SDMASK:8;         /*!< bit:  8..15  Segments Data Mask                 */
+    uint32_t OFF:6;            /*!< bit: 16..21  Byte Offset                        */
+    uint32_t :10;              /*!< bit: 22..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_ISDATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_ISDATA_OFFSET          0x64         /**< \brief (SLCD_ISDATA offset) Indirect Segments Data Access */
+#define SLCD_ISDATA_RESETVALUE      _U_(0x00000000) /**< \brief (SLCD_ISDATA reset_value) Indirect Segments Data Access */
+
+#define SLCD_ISDATA_SDATA_Pos       0            /**< \brief (SLCD_ISDATA) Segments Data */
+#define SLCD_ISDATA_SDATA_Msk       (_U_(0xFF) << SLCD_ISDATA_SDATA_Pos)
+#define SLCD_ISDATA_SDATA(value)    (SLCD_ISDATA_SDATA_Msk & ((value) << SLCD_ISDATA_SDATA_Pos))
+#define SLCD_ISDATA_SDMASK_Pos      8            /**< \brief (SLCD_ISDATA) Segments Data Mask */
+#define SLCD_ISDATA_SDMASK_Msk      (_U_(0xFF) << SLCD_ISDATA_SDMASK_Pos)
+#define SLCD_ISDATA_SDMASK(value)   (SLCD_ISDATA_SDMASK_Msk & ((value) << SLCD_ISDATA_SDMASK_Pos))
+#define SLCD_ISDATA_OFF_Pos         16           /**< \brief (SLCD_ISDATA) Byte Offset */
+#define SLCD_ISDATA_OFF_Msk         (_U_(0x3F) << SLCD_ISDATA_OFF_Pos)
+#define SLCD_ISDATA_OFF(value)      (SLCD_ISDATA_OFF_Msk & ((value) << SLCD_ISDATA_OFF_Pos))
+#define SLCD_ISDATA_MASK            _U_(0x003FFFFF) /**< \brief (SLCD_ISDATA) MASK Register */
+
+/* -------- SLCD_BCFG : (SLCD Offset: 0x68) (R/W 32) Blink Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t MODE:1;           /*!< bit:      0  Blinking Mode                      */
+    uint32_t FCS:2;            /*!< bit:  1.. 2  Frame Counter Selection            */
+    uint32_t :5;               /*!< bit:  3.. 7  Reserved                           */
+    uint32_t BSS0:8;           /*!< bit:  8..15  Blink Segment Selection 0          */
+    uint32_t BSS1:8;           /*!< bit: 16..23  Blink Segment Selection 1          */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_BCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_BCFG_OFFSET            0x68         /**< \brief (SLCD_BCFG offset) Blink Configuration */
+#define SLCD_BCFG_RESETVALUE        _U_(0x00000000) /**< \brief (SLCD_BCFG reset_value) Blink Configuration */
+
+#define SLCD_BCFG_MODE_Pos          0            /**< \brief (SLCD_BCFG) Blinking Mode */
+#define SLCD_BCFG_MODE              (_U_(0x1) << SLCD_BCFG_MODE_Pos)
+#define   SLCD_BCFG_MODE_BLINKALL_Val     _U_(0x0)   /**< \brief (SLCD_BCFG) Blink all segments */
+#define   SLCD_BCFG_MODE_BLINKSEL_Val     _U_(0x1)   /**< \brief (SLCD_BCFG) Blink selected segments */
+#define SLCD_BCFG_MODE_BLINKALL     (SLCD_BCFG_MODE_BLINKALL_Val   << SLCD_BCFG_MODE_Pos)
+#define SLCD_BCFG_MODE_BLINKSEL     (SLCD_BCFG_MODE_BLINKSEL_Val   << SLCD_BCFG_MODE_Pos)
+#define SLCD_BCFG_FCS_Pos           1            /**< \brief (SLCD_BCFG) Frame Counter Selection */
+#define SLCD_BCFG_FCS_Msk           (_U_(0x3) << SLCD_BCFG_FCS_Pos)
+#define SLCD_BCFG_FCS(value)        (SLCD_BCFG_FCS_Msk & ((value) << SLCD_BCFG_FCS_Pos))
+#define   SLCD_BCFG_FCS_FC0_Val           _U_(0x0)   /**< \brief (SLCD_BCFG) Frame Counter 0 */
+#define   SLCD_BCFG_FCS_FC1_Val           _U_(0x1)   /**< \brief (SLCD_BCFG) Frame Counter 1 */
+#define   SLCD_BCFG_FCS_FC2_Val           _U_(0x2)   /**< \brief (SLCD_BCFG) Frame Counter 2 */
+#define SLCD_BCFG_FCS_FC0           (SLCD_BCFG_FCS_FC0_Val         << SLCD_BCFG_FCS_Pos)
+#define SLCD_BCFG_FCS_FC1           (SLCD_BCFG_FCS_FC1_Val         << SLCD_BCFG_FCS_Pos)
+#define SLCD_BCFG_FCS_FC2           (SLCD_BCFG_FCS_FC2_Val         << SLCD_BCFG_FCS_Pos)
+#define SLCD_BCFG_BSS0_Pos          8            /**< \brief (SLCD_BCFG) Blink Segment Selection 0 */
+#define SLCD_BCFG_BSS0_Msk          (_U_(0xFF) << SLCD_BCFG_BSS0_Pos)
+#define SLCD_BCFG_BSS0(value)       (SLCD_BCFG_BSS0_Msk & ((value) << SLCD_BCFG_BSS0_Pos))
+#define SLCD_BCFG_BSS1_Pos          16           /**< \brief (SLCD_BCFG) Blink Segment Selection 1 */
+#define SLCD_BCFG_BSS1_Msk          (_U_(0xFF) << SLCD_BCFG_BSS1_Pos)
+#define SLCD_BCFG_BSS1(value)       (SLCD_BCFG_BSS1_Msk & ((value) << SLCD_BCFG_BSS1_Pos))
+#define SLCD_BCFG_MASK              _U_(0x00FFFF07) /**< \brief (SLCD_BCFG) MASK Register */
+
+/* -------- SLCD_CSRCFG : (SLCD Offset: 0x6C) (R/W 32) Circular Shift Register Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DIR:1;            /*!< bit:      0  Direction                          */
+    uint32_t FCS:2;            /*!< bit:  1.. 2  Frame Counter Selection            */
+    uint32_t :1;               /*!< bit:      3  Reserved                           */
+    uint32_t SIZE:4;           /*!< bit:  4.. 7  Circular Shift Register Size       */
+    uint32_t DATA:16;          /*!< bit:  8..23  Circular Shift Register Value      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_CSRCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CSRCFG_OFFSET          0x6C         /**< \brief (SLCD_CSRCFG offset) Circular Shift Register Configuration */
+#define SLCD_CSRCFG_RESETVALUE      _U_(0x00000000) /**< \brief (SLCD_CSRCFG reset_value) Circular Shift Register Configuration */
+
+#define SLCD_CSRCFG_DIR_Pos         0            /**< \brief (SLCD_CSRCFG) Direction */
+#define SLCD_CSRCFG_DIR             (_U_(0x1) << SLCD_CSRCFG_DIR_Pos)
+#define SLCD_CSRCFG_FCS_Pos         1            /**< \brief (SLCD_CSRCFG) Frame Counter Selection */
+#define SLCD_CSRCFG_FCS_Msk         (_U_(0x3) << SLCD_CSRCFG_FCS_Pos)
+#define SLCD_CSRCFG_FCS(value)      (SLCD_CSRCFG_FCS_Msk & ((value) << SLCD_CSRCFG_FCS_Pos))
+#define   SLCD_CSRCFG_FCS_FC0_Val         _U_(0x0)   /**< \brief (SLCD_CSRCFG) Frame Counter 0 */
+#define   SLCD_CSRCFG_FCS_FC1_Val         _U_(0x1)   /**< \brief (SLCD_CSRCFG) Frame Counter 1 */
+#define   SLCD_CSRCFG_FCS_FC2_Val         _U_(0x2)   /**< \brief (SLCD_CSRCFG) Frame Counter 2 */
+#define SLCD_CSRCFG_FCS_FC0         (SLCD_CSRCFG_FCS_FC0_Val       << SLCD_CSRCFG_FCS_Pos)
+#define SLCD_CSRCFG_FCS_FC1         (SLCD_CSRCFG_FCS_FC1_Val       << SLCD_CSRCFG_FCS_Pos)
+#define SLCD_CSRCFG_FCS_FC2         (SLCD_CSRCFG_FCS_FC2_Val       << SLCD_CSRCFG_FCS_Pos)
+#define SLCD_CSRCFG_SIZE_Pos        4            /**< \brief (SLCD_CSRCFG) Circular Shift Register Size */
+#define SLCD_CSRCFG_SIZE_Msk        (_U_(0xF) << SLCD_CSRCFG_SIZE_Pos)
+#define SLCD_CSRCFG_SIZE(value)     (SLCD_CSRCFG_SIZE_Msk & ((value) << SLCD_CSRCFG_SIZE_Pos))
+#define SLCD_CSRCFG_DATA_Pos        8            /**< \brief (SLCD_CSRCFG) Circular Shift Register Value */
+#define SLCD_CSRCFG_DATA_Msk        (_U_(0xFFFF) << SLCD_CSRCFG_DATA_Pos)
+#define SLCD_CSRCFG_DATA(value)     (SLCD_CSRCFG_DATA_Msk & ((value) << SLCD_CSRCFG_DATA_Pos))
+#define SLCD_CSRCFG_MASK            _U_(0x00FFFFF7) /**< \brief (SLCD_CSRCFG) MASK Register */
+
+/* -------- SLCD_CMCFG : (SLCD Offset: 0x70) (R/W  8) Character Mapping Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  NSEG:3;           /*!< bit:  0.. 2  Number of SEG lines                */
+    uint8_t  DEC:1;            /*!< bit:      3  Decrement SEG Line Index           */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_CMCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CMCFG_OFFSET           0x70         /**< \brief (SLCD_CMCFG offset) Character Mapping Configuration */
+#define SLCD_CMCFG_RESETVALUE       _U_(0x00)    /**< \brief (SLCD_CMCFG reset_value) Character Mapping Configuration */
+
+#define SLCD_CMCFG_NSEG_Pos         0            /**< \brief (SLCD_CMCFG) Number of SEG lines */
+#define SLCD_CMCFG_NSEG_Msk         (_U_(0x7) << SLCD_CMCFG_NSEG_Pos)
+#define SLCD_CMCFG_NSEG(value)      (SLCD_CMCFG_NSEG_Msk & ((value) << SLCD_CMCFG_NSEG_Pos))
+#define SLCD_CMCFG_DEC_Pos          3            /**< \brief (SLCD_CMCFG) Decrement SEG Line Index */
+#define SLCD_CMCFG_DEC              (_U_(0x1) << SLCD_CMCFG_DEC_Pos)
+#define SLCD_CMCFG_MASK             _U_(0x0F)    /**< \brief (SLCD_CMCFG) MASK Register */
+
+/* -------- SLCD_ACMCFG : (SLCD Offset: 0x74) (R/W 32) Automated Character Mapping Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t NCOM:3;           /*!< bit:  0.. 2  COM Lines per Row                  */
+    uint32_t :1;               /*!< bit:      3  Reserved                           */
+    uint32_t NDIG:4;           /*!< bit:  4.. 7  Number of Digit                    */
+    uint32_t STEPS:8;          /*!< bit:  8..15  Scrolling Steps                    */
+    uint32_t NDROW:6;          /*!< bit: 16..21  Number of Digit per Row            */
+    uint32_t :1;               /*!< bit:     22  Reserved                           */
+    uint32_t MODE:1;           /*!< bit:     23  Mode                               */
+    uint32_t STSEG:6;          /*!< bit: 24..29  Start SEG Line                     */
+    uint32_t FCS:2;            /*!< bit: 30..31  Frame Counter Selection            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_ACMCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_ACMCFG_OFFSET          0x74         /**< \brief (SLCD_ACMCFG offset) Automated Character Mapping Configuration */
+#define SLCD_ACMCFG_RESETVALUE      _U_(0x00000000) /**< \brief (SLCD_ACMCFG reset_value) Automated Character Mapping Configuration */
+
+#define SLCD_ACMCFG_NCOM_Pos        0            /**< \brief (SLCD_ACMCFG) COM Lines per Row */
+#define SLCD_ACMCFG_NCOM_Msk        (_U_(0x7) << SLCD_ACMCFG_NCOM_Pos)
+#define SLCD_ACMCFG_NCOM(value)     (SLCD_ACMCFG_NCOM_Msk & ((value) << SLCD_ACMCFG_NCOM_Pos))
+#define SLCD_ACMCFG_NDIG_Pos        4            /**< \brief (SLCD_ACMCFG) Number of Digit */
+#define SLCD_ACMCFG_NDIG_Msk        (_U_(0xF) << SLCD_ACMCFG_NDIG_Pos)
+#define SLCD_ACMCFG_NDIG(value)     (SLCD_ACMCFG_NDIG_Msk & ((value) << SLCD_ACMCFG_NDIG_Pos))
+#define SLCD_ACMCFG_STEPS_Pos       8            /**< \brief (SLCD_ACMCFG) Scrolling Steps */
+#define SLCD_ACMCFG_STEPS_Msk       (_U_(0xFF) << SLCD_ACMCFG_STEPS_Pos)
+#define SLCD_ACMCFG_STEPS(value)    (SLCD_ACMCFG_STEPS_Msk & ((value) << SLCD_ACMCFG_STEPS_Pos))
+#define SLCD_ACMCFG_NDROW_Pos       16           /**< \brief (SLCD_ACMCFG) Number of Digit per Row */
+#define SLCD_ACMCFG_NDROW_Msk       (_U_(0x3F) << SLCD_ACMCFG_NDROW_Pos)
+#define SLCD_ACMCFG_NDROW(value)    (SLCD_ACMCFG_NDROW_Msk & ((value) << SLCD_ACMCFG_NDROW_Pos))
+#define SLCD_ACMCFG_MODE_Pos        23           /**< \brief (SLCD_ACMCFG) Mode */
+#define SLCD_ACMCFG_MODE            (_U_(0x1) << SLCD_ACMCFG_MODE_Pos)
+#define   SLCD_ACMCFG_MODE_SEQ_Val        _U_(0x0)   /**< \brief (SLCD_ACMCFG) Sequential Display Mode */
+#define   SLCD_ACMCFG_MODE_SCROLL_Val     _U_(0x1)   /**< \brief (SLCD_ACMCFG) Scrolling Display Mode */
+#define SLCD_ACMCFG_MODE_SEQ        (SLCD_ACMCFG_MODE_SEQ_Val      << SLCD_ACMCFG_MODE_Pos)
+#define SLCD_ACMCFG_MODE_SCROLL     (SLCD_ACMCFG_MODE_SCROLL_Val   << SLCD_ACMCFG_MODE_Pos)
+#define SLCD_ACMCFG_STSEG_Pos       24           /**< \brief (SLCD_ACMCFG) Start SEG Line */
+#define SLCD_ACMCFG_STSEG_Msk       (_U_(0x3F) << SLCD_ACMCFG_STSEG_Pos)
+#define SLCD_ACMCFG_STSEG(value)    (SLCD_ACMCFG_STSEG_Msk & ((value) << SLCD_ACMCFG_STSEG_Pos))
+#define SLCD_ACMCFG_FCS_Pos         30           /**< \brief (SLCD_ACMCFG) Frame Counter Selection */
+#define SLCD_ACMCFG_FCS_Msk         (_U_(0x3) << SLCD_ACMCFG_FCS_Pos)
+#define SLCD_ACMCFG_FCS(value)      (SLCD_ACMCFG_FCS_Msk & ((value) << SLCD_ACMCFG_FCS_Pos))
+#define   SLCD_ACMCFG_FCS_FC0_Val         _U_(0x0)   /**< \brief (SLCD_ACMCFG) Frame Counter 0 */
+#define   SLCD_ACMCFG_FCS_FC1_Val         _U_(0x1)   /**< \brief (SLCD_ACMCFG) Frame Counter 1 */
+#define   SLCD_ACMCFG_FCS_FC2_Val         _U_(0x2)   /**< \brief (SLCD_ACMCFG) Frame Counter 2 */
+#define SLCD_ACMCFG_FCS_FC0         (SLCD_ACMCFG_FCS_FC0_Val       << SLCD_ACMCFG_FCS_Pos)
+#define SLCD_ACMCFG_FCS_FC1         (SLCD_ACMCFG_FCS_FC1_Val       << SLCD_ACMCFG_FCS_Pos)
+#define SLCD_ACMCFG_FCS_FC2         (SLCD_ACMCFG_FCS_FC2_Val       << SLCD_ACMCFG_FCS_Pos)
+#define SLCD_ACMCFG_MASK            _U_(0xFFBFFFF7) /**< \brief (SLCD_ACMCFG) MASK Register */
+
+/* -------- SLCD_ABMCFG : (SLCD Offset: 0x78) (R/W  8) Automated Bit Mapping Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FCS:2;            /*!< bit:  0.. 1  Frame Counter Selection            */
+    uint8_t  SIZE:6;           /*!< bit:  2.. 7  Size                               */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} SLCD_ABMCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_ABMCFG_OFFSET          0x78         /**< \brief (SLCD_ABMCFG offset) Automated Bit Mapping Configuration */
+#define SLCD_ABMCFG_RESETVALUE      _U_(0x00)    /**< \brief (SLCD_ABMCFG reset_value) Automated Bit Mapping Configuration */
+
+#define SLCD_ABMCFG_FCS_Pos         0            /**< \brief (SLCD_ABMCFG) Frame Counter Selection */
+#define SLCD_ABMCFG_FCS_Msk         (_U_(0x3) << SLCD_ABMCFG_FCS_Pos)
+#define SLCD_ABMCFG_FCS(value)      (SLCD_ABMCFG_FCS_Msk & ((value) << SLCD_ABMCFG_FCS_Pos))
+#define   SLCD_ABMCFG_FCS_FC0_Val         _U_(0x0)   /**< \brief (SLCD_ABMCFG) Frame Counter 0 */
+#define   SLCD_ABMCFG_FCS_FC1_Val         _U_(0x1)   /**< \brief (SLCD_ABMCFG) Frame Counter 1 */
+#define   SLCD_ABMCFG_FCS_FC2_Val         _U_(0x2)   /**< \brief (SLCD_ABMCFG) Frame Counter 2 */
+#define SLCD_ABMCFG_FCS_FC0         (SLCD_ABMCFG_FCS_FC0_Val       << SLCD_ABMCFG_FCS_Pos)
+#define SLCD_ABMCFG_FCS_FC1         (SLCD_ABMCFG_FCS_FC1_Val       << SLCD_ABMCFG_FCS_Pos)
+#define SLCD_ABMCFG_FCS_FC2         (SLCD_ABMCFG_FCS_FC2_Val       << SLCD_ABMCFG_FCS_Pos)
+#define SLCD_ABMCFG_SIZE_Pos        2            /**< \brief (SLCD_ABMCFG) Size */
+#define SLCD_ABMCFG_SIZE_Msk        (_U_(0x3F) << SLCD_ABMCFG_SIZE_Pos)
+#define SLCD_ABMCFG_SIZE(value)     (SLCD_ABMCFG_SIZE_Msk & ((value) << SLCD_ABMCFG_SIZE_Pos))
+#define SLCD_ABMCFG_MASK            _U_(0xFF)    /**< \brief (SLCD_ABMCFG) MASK Register */
+
+/* -------- SLCD_CMDATA : (SLCD Offset: 0x7C) ( /W 32) Character Mapping Segments Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDATA:24;         /*!< bit:  0..23  Segments Data                      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_CMDATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CMDATA_OFFSET          0x7C         /**< \brief (SLCD_CMDATA offset) Character Mapping Segments Data */
+#define SLCD_CMDATA_RESETVALUE      _U_(0x00000000) /**< \brief (SLCD_CMDATA reset_value) Character Mapping Segments Data */
+
+#define SLCD_CMDATA_SDATA_Pos       0            /**< \brief (SLCD_CMDATA) Segments Data */
+#define SLCD_CMDATA_SDATA_Msk       (_U_(0xFFFFFF) << SLCD_CMDATA_SDATA_Pos)
+#define SLCD_CMDATA_SDATA(value)    (SLCD_CMDATA_SDATA_Msk & ((value) << SLCD_CMDATA_SDATA_Pos))
+#define SLCD_CMDATA_MASK            _U_(0x00FFFFFF) /**< \brief (SLCD_CMDATA) MASK Register */
+
+/* -------- SLCD_CMDMASK : (SLCD Offset: 0x80) (R/W 32) Character Mapping Segments Data Mask -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SDMASK:24;        /*!< bit:  0..23  Segments Data Mask                 */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SLCD_CMDMASK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CMDMASK_OFFSET         0x80         /**< \brief (SLCD_CMDMASK offset) Character Mapping Segments Data Mask */
+#define SLCD_CMDMASK_RESETVALUE     _U_(0x00000000) /**< \brief (SLCD_CMDMASK reset_value) Character Mapping Segments Data Mask */
+
+#define SLCD_CMDMASK_SDMASK_Pos     0            /**< \brief (SLCD_CMDMASK) Segments Data Mask */
+#define SLCD_CMDMASK_SDMASK_Msk     (_U_(0xFFFFFF) << SLCD_CMDMASK_SDMASK_Pos)
+#define SLCD_CMDMASK_SDMASK(value)  (SLCD_CMDMASK_SDMASK_Msk & ((value) << SLCD_CMDMASK_SDMASK_Pos))
+#define SLCD_CMDMASK_MASK           _U_(0x00FFFFFF) /**< \brief (SLCD_CMDMASK) MASK Register */
+
+/* -------- SLCD_CMINDEX : (SLCD Offset: 0x84) (R/W 16) Character Mapping SEG/COM Index -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SINDEX:6;         /*!< bit:  0.. 5  SEG Line Index                     */
+    uint16_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint16_t CINDEX:3;         /*!< bit:  8..10  COM Line Index                     */
+    uint16_t :5;               /*!< bit: 11..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} SLCD_CMINDEX_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SLCD_CMINDEX_OFFSET         0x84         /**< \brief (SLCD_CMINDEX offset) Character Mapping SEG/COM Index */
+#define SLCD_CMINDEX_RESETVALUE     _U_(0x0000)  /**< \brief (SLCD_CMINDEX reset_value) Character Mapping SEG/COM Index */
+
+#define SLCD_CMINDEX_SINDEX_Pos     0            /**< \brief (SLCD_CMINDEX) SEG Line Index */
+#define SLCD_CMINDEX_SINDEX_Msk     (_U_(0x3F) << SLCD_CMINDEX_SINDEX_Pos)
+#define SLCD_CMINDEX_SINDEX(value)  (SLCD_CMINDEX_SINDEX_Msk & ((value) << SLCD_CMINDEX_SINDEX_Pos))
+#define SLCD_CMINDEX_CINDEX_Pos     8            /**< \brief (SLCD_CMINDEX) COM Line Index */
+#define SLCD_CMINDEX_CINDEX_Msk     (_U_(0x7) << SLCD_CMINDEX_CINDEX_Pos)
+#define SLCD_CMINDEX_CINDEX(value)  (SLCD_CMINDEX_CINDEX_Msk & ((value) << SLCD_CMINDEX_CINDEX_Pos))
+#define SLCD_CMINDEX_MASK           _U_(0x073F)  /**< \brief (SLCD_CMINDEX) MASK Register */
+
+/** \brief SLCD hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO SLCD_CTRLA_Type           CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO SLCD_CTRLB_Type           CTRLB;       /**< \brief Offset: 0x04 (R/W 16) Control B */
+  __IO SLCD_CTRLC_Type           CTRLC;       /**< \brief Offset: 0x06 (R/W 16) Control C */
+  __IO SLCD_CTRLD_Type           CTRLD;       /**< \brief Offset: 0x08 (R/W  8) Control D */
+       RoReg8                    Reserved1[0x3];
+  __IO SLCD_EVCTRL_Type          EVCTRL;      /**< \brief Offset: 0x0C (R/W  8) Event Control */
+  __IO SLCD_INTENCLR_Type        INTENCLR;    /**< \brief Offset: 0x0D (R/W  8) Interrupt Enable Clear */
+  __IO SLCD_INTENSET_Type        INTENSET;    /**< \brief Offset: 0x0E (R/W  8) Interrupt Enable Set */
+  __IO SLCD_INTFLAG_Type         INTFLAG;     /**< \brief Offset: 0x0F (R/W  8) Interrupt Flag Status and Clear */
+  __I  SLCD_STATUS_Type          STATUS;      /**< \brief Offset: 0x10 (R/   8) Status */
+       RoReg8                    Reserved2[0x3];
+  __I  SLCD_SYNCBUSY_Type        SYNCBUSY;    /**< \brief Offset: 0x14 (R/  32) Synchronization Busy */
+  __IO SLCD_FC0_Type             FC0;         /**< \brief Offset: 0x18 (R/W  8) Frame Counter 0 Configuration */
+  __IO SLCD_FC1_Type             FC1;         /**< \brief Offset: 0x19 (R/W  8) Frame Counter 1 Configuration */
+  __IO SLCD_FC2_Type             FC2;         /**< \brief Offset: 0x1A (R/W  8) Frame Counter 2 Configuration */
+       RoReg8                    Reserved3[0x1];
+  __IO SLCD_LPENL_Type           LPENL;       /**< \brief Offset: 0x1C (R/W 32) LCD Pin Enable Low */
+  __IO SLCD_LPENH_Type           LPENH;       /**< \brief Offset: 0x20 (R/W 32) LCD Pin Enable High */
+  __IO SLCD_SDATAL0_Type         SDATAL0;     /**< \brief Offset: 0x24 (R/W 32) Segments Data Low for COM0 Line */
+  __IO SLCD_SDATAH0_Type         SDATAH0;     /**< \brief Offset: 0x28 (R/W 32) Segments Data High for COM0 Line */
+  __IO SLCD_SDATAL1_Type         SDATAL1;     /**< \brief Offset: 0x2C (R/W 32) Segments Data Low for COM1 Line */
+  __IO SLCD_SDATAH1_Type         SDATAH1;     /**< \brief Offset: 0x30 (R/W 32) Segments Data High for COM1 Line */
+  __IO SLCD_SDATAL2_Type         SDATAL2;     /**< \brief Offset: 0x34 (R/W 32) Segments Data Low for COM2 Line */
+  __IO SLCD_SDATAH2_Type         SDATAH2;     /**< \brief Offset: 0x38 (R/W 32) Segments Data High for COM2 Line */
+  __IO SLCD_SDATAL3_Type         SDATAL3;     /**< \brief Offset: 0x3C (R/W 32) Segments Data Low for COM3 Line */
+  __IO SLCD_SDATAH3_Type         SDATAH3;     /**< \brief Offset: 0x40 (R/W 32) Segments Data High for COM3 Line */
+  __IO SLCD_SDATAL4_Type         SDATAL4;     /**< \brief Offset: 0x44 (R/W 32) Segments Data Low for COM4 Line */
+  __IO SLCD_SDATAH4_Type         SDATAH4;     /**< \brief Offset: 0x48 (R/W 32) Segments Data High for COM4 Line */
+  __IO SLCD_SDATAL5_Type         SDATAL5;     /**< \brief Offset: 0x4C (R/W 32) Segments Data Low for COM5 Line */
+  __IO SLCD_SDATAH5_Type         SDATAH5;     /**< \brief Offset: 0x50 (R/W 32) Segments Data High for COM5 Line */
+  __IO SLCD_SDATAL6_Type         SDATAL6;     /**< \brief Offset: 0x54 (R/W 32) Segments Data Low for COM6 Line */
+  __IO SLCD_SDATAH6_Type         SDATAH6;     /**< \brief Offset: 0x58 (R/W 32) Segments Data High for COM6 Line */
+  __IO SLCD_SDATAL7_Type         SDATAL7;     /**< \brief Offset: 0x5C (R/W 32) Segments Data Low for COM7 Line */
+  __IO SLCD_SDATAH7_Type         SDATAH7;     /**< \brief Offset: 0x60 (R/W 32) Segments Data High for COM7 Line */
+  __O  SLCD_ISDATA_Type          ISDATA;      /**< \brief Offset: 0x64 ( /W 32) Indirect Segments Data Access */
+  __IO SLCD_BCFG_Type            BCFG;        /**< \brief Offset: 0x68 (R/W 32) Blink Configuration */
+  __IO SLCD_CSRCFG_Type          CSRCFG;      /**< \brief Offset: 0x6C (R/W 32) Circular Shift Register Configuration */
+  __IO SLCD_CMCFG_Type           CMCFG;       /**< \brief Offset: 0x70 (R/W  8) Character Mapping Configuration */
+       RoReg8                    Reserved4[0x3];
+  __IO SLCD_ACMCFG_Type          ACMCFG;      /**< \brief Offset: 0x74 (R/W 32) Automated Character Mapping Configuration */
+  __IO SLCD_ABMCFG_Type          ABMCFG;      /**< \brief Offset: 0x78 (R/W  8) Automated Bit Mapping Configuration */
+       RoReg8                    Reserved5[0x3];
+  __O  SLCD_CMDATA_Type          CMDATA;      /**< \brief Offset: 0x7C ( /W 32) Character Mapping Segments Data */
+  __IO SLCD_CMDMASK_Type         CMDMASK;     /**< \brief Offset: 0x80 (R/W 32) Character Mapping Segments Data Mask */
+  __IO SLCD_CMINDEX_Type         CMINDEX;     /**< \brief Offset: 0x84 (R/W 16) Character Mapping SEG/COM Index */
+} Slcd;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_SLCD_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/supc.h b/watch-library/hardware/include/component/supc.h
new file mode 100644
index 00000000..1c8c80cb
--- /dev/null
+++ b/watch-library/hardware/include/component/supc.h
@@ -0,0 +1,603 @@
+/**
+ * \file
+ *
+ * \brief Component description for SUPC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SUPC_COMPONENT_
+#define _SAML22_SUPC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR SUPC */
+/* ========================================================================== */
+/** \addtogroup SAML22_SUPC Supply Controller */
+/*@{*/
+
+#define SUPC_U2117
+#define REV_SUPC                    0x300
+
+/* -------- SUPC_INTENCLR : (SUPC Offset: 0x00) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BOD33RDY:1;       /*!< bit:      0  BOD33 Ready                        */
+    uint32_t BOD33DET:1;       /*!< bit:      1  BOD33 Detection                    */
+    uint32_t B33SRDY:1;        /*!< bit:      2  BOD33 Synchronization Ready        */
+    uint32_t BOD12RDY:1;       /*!< bit:      3  BOD12 Ready                        */
+    uint32_t BOD12DET:1;       /*!< bit:      4  BOD12 Detection                    */
+    uint32_t B12SRDY:1;        /*!< bit:      5  BOD12 Synchronization Ready        */
+    uint32_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint32_t VREGRDY:1;        /*!< bit:      8  Voltage Regulator Ready            */
+    uint32_t APWSRDY:1;        /*!< bit:      9  Automatic Power Switch Ready       */
+    uint32_t VCORERDY:1;       /*!< bit:     10  VDDCORE Ready                      */
+    uint32_t :21;              /*!< bit: 11..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_INTENCLR_OFFSET        0x00         /**< \brief (SUPC_INTENCLR offset) Interrupt Enable Clear */
+#define SUPC_INTENCLR_RESETVALUE    _U_(0x00000000) /**< \brief (SUPC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define SUPC_INTENCLR_BOD33RDY_Pos  0            /**< \brief (SUPC_INTENCLR) BOD33 Ready */
+#define SUPC_INTENCLR_BOD33RDY      (_U_(0x1) << SUPC_INTENCLR_BOD33RDY_Pos)
+#define SUPC_INTENCLR_BOD33DET_Pos  1            /**< \brief (SUPC_INTENCLR) BOD33 Detection */
+#define SUPC_INTENCLR_BOD33DET      (_U_(0x1) << SUPC_INTENCLR_BOD33DET_Pos)
+#define SUPC_INTENCLR_B33SRDY_Pos   2            /**< \brief (SUPC_INTENCLR) BOD33 Synchronization Ready */
+#define SUPC_INTENCLR_B33SRDY       (_U_(0x1) << SUPC_INTENCLR_B33SRDY_Pos)
+#define SUPC_INTENCLR_BOD12RDY_Pos  3            /**< \brief (SUPC_INTENCLR) BOD12 Ready */
+#define SUPC_INTENCLR_BOD12RDY      (_U_(0x1) << SUPC_INTENCLR_BOD12RDY_Pos)
+#define SUPC_INTENCLR_BOD12DET_Pos  4            /**< \brief (SUPC_INTENCLR) BOD12 Detection */
+#define SUPC_INTENCLR_BOD12DET      (_U_(0x1) << SUPC_INTENCLR_BOD12DET_Pos)
+#define SUPC_INTENCLR_B12SRDY_Pos   5            /**< \brief (SUPC_INTENCLR) BOD12 Synchronization Ready */
+#define SUPC_INTENCLR_B12SRDY       (_U_(0x1) << SUPC_INTENCLR_B12SRDY_Pos)
+#define SUPC_INTENCLR_VREGRDY_Pos   8            /**< \brief (SUPC_INTENCLR) Voltage Regulator Ready */
+#define SUPC_INTENCLR_VREGRDY       (_U_(0x1) << SUPC_INTENCLR_VREGRDY_Pos)
+#define SUPC_INTENCLR_APWSRDY_Pos   9            /**< \brief (SUPC_INTENCLR) Automatic Power Switch Ready */
+#define SUPC_INTENCLR_APWSRDY       (_U_(0x1) << SUPC_INTENCLR_APWSRDY_Pos)
+#define SUPC_INTENCLR_VCORERDY_Pos  10           /**< \brief (SUPC_INTENCLR) VDDCORE Ready */
+#define SUPC_INTENCLR_VCORERDY      (_U_(0x1) << SUPC_INTENCLR_VCORERDY_Pos)
+#define SUPC_INTENCLR_MASK          _U_(0x0000073F) /**< \brief (SUPC_INTENCLR) MASK Register */
+
+/* -------- SUPC_INTENSET : (SUPC Offset: 0x04) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BOD33RDY:1;       /*!< bit:      0  BOD33 Ready                        */
+    uint32_t BOD33DET:1;       /*!< bit:      1  BOD33 Detection                    */
+    uint32_t B33SRDY:1;        /*!< bit:      2  BOD33 Synchronization Ready        */
+    uint32_t BOD12RDY:1;       /*!< bit:      3  BOD12 Ready                        */
+    uint32_t BOD12DET:1;       /*!< bit:      4  BOD12 Detection                    */
+    uint32_t B12SRDY:1;        /*!< bit:      5  BOD12 Synchronization Ready        */
+    uint32_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint32_t VREGRDY:1;        /*!< bit:      8  Voltage Regulator Ready            */
+    uint32_t APWSRDY:1;        /*!< bit:      9  Automatic Power Switch Ready       */
+    uint32_t VCORERDY:1;       /*!< bit:     10  VDDCORE Ready                      */
+    uint32_t :21;              /*!< bit: 11..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_INTENSET_OFFSET        0x04         /**< \brief (SUPC_INTENSET offset) Interrupt Enable Set */
+#define SUPC_INTENSET_RESETVALUE    _U_(0x00000000) /**< \brief (SUPC_INTENSET reset_value) Interrupt Enable Set */
+
+#define SUPC_INTENSET_BOD33RDY_Pos  0            /**< \brief (SUPC_INTENSET) BOD33 Ready */
+#define SUPC_INTENSET_BOD33RDY      (_U_(0x1) << SUPC_INTENSET_BOD33RDY_Pos)
+#define SUPC_INTENSET_BOD33DET_Pos  1            /**< \brief (SUPC_INTENSET) BOD33 Detection */
+#define SUPC_INTENSET_BOD33DET      (_U_(0x1) << SUPC_INTENSET_BOD33DET_Pos)
+#define SUPC_INTENSET_B33SRDY_Pos   2            /**< \brief (SUPC_INTENSET) BOD33 Synchronization Ready */
+#define SUPC_INTENSET_B33SRDY       (_U_(0x1) << SUPC_INTENSET_B33SRDY_Pos)
+#define SUPC_INTENSET_BOD12RDY_Pos  3            /**< \brief (SUPC_INTENSET) BOD12 Ready */
+#define SUPC_INTENSET_BOD12RDY      (_U_(0x1) << SUPC_INTENSET_BOD12RDY_Pos)
+#define SUPC_INTENSET_BOD12DET_Pos  4            /**< \brief (SUPC_INTENSET) BOD12 Detection */
+#define SUPC_INTENSET_BOD12DET      (_U_(0x1) << SUPC_INTENSET_BOD12DET_Pos)
+#define SUPC_INTENSET_B12SRDY_Pos   5            /**< \brief (SUPC_INTENSET) BOD12 Synchronization Ready */
+#define SUPC_INTENSET_B12SRDY       (_U_(0x1) << SUPC_INTENSET_B12SRDY_Pos)
+#define SUPC_INTENSET_VREGRDY_Pos   8            /**< \brief (SUPC_INTENSET) Voltage Regulator Ready */
+#define SUPC_INTENSET_VREGRDY       (_U_(0x1) << SUPC_INTENSET_VREGRDY_Pos)
+#define SUPC_INTENSET_APWSRDY_Pos   9            /**< \brief (SUPC_INTENSET) Automatic Power Switch Ready */
+#define SUPC_INTENSET_APWSRDY       (_U_(0x1) << SUPC_INTENSET_APWSRDY_Pos)
+#define SUPC_INTENSET_VCORERDY_Pos  10           /**< \brief (SUPC_INTENSET) VDDCORE Ready */
+#define SUPC_INTENSET_VCORERDY      (_U_(0x1) << SUPC_INTENSET_VCORERDY_Pos)
+#define SUPC_INTENSET_MASK          _U_(0x0000073F) /**< \brief (SUPC_INTENSET) MASK Register */
+
+/* -------- SUPC_INTFLAG : (SUPC Offset: 0x08) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t BOD33RDY:1;       /*!< bit:      0  BOD33 Ready                        */
+    __I uint32_t BOD33DET:1;       /*!< bit:      1  BOD33 Detection                    */
+    __I uint32_t B33SRDY:1;        /*!< bit:      2  BOD33 Synchronization Ready        */
+    __I uint32_t BOD12RDY:1;       /*!< bit:      3  BOD12 Ready                        */
+    __I uint32_t BOD12DET:1;       /*!< bit:      4  BOD12 Detection                    */
+    __I uint32_t B12SRDY:1;        /*!< bit:      5  BOD12 Synchronization Ready        */
+    __I uint32_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    __I uint32_t VREGRDY:1;        /*!< bit:      8  Voltage Regulator Ready            */
+    __I uint32_t APWSRDY:1;        /*!< bit:      9  Automatic Power Switch Ready       */
+    __I uint32_t VCORERDY:1;       /*!< bit:     10  VDDCORE Ready                      */
+    __I uint32_t :21;              /*!< bit: 11..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_INTFLAG_OFFSET         0x08         /**< \brief (SUPC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define SUPC_INTFLAG_RESETVALUE     _U_(0x00000000) /**< \brief (SUPC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define SUPC_INTFLAG_BOD33RDY_Pos   0            /**< \brief (SUPC_INTFLAG) BOD33 Ready */
+#define SUPC_INTFLAG_BOD33RDY       (_U_(0x1) << SUPC_INTFLAG_BOD33RDY_Pos)
+#define SUPC_INTFLAG_BOD33DET_Pos   1            /**< \brief (SUPC_INTFLAG) BOD33 Detection */
+#define SUPC_INTFLAG_BOD33DET       (_U_(0x1) << SUPC_INTFLAG_BOD33DET_Pos)
+#define SUPC_INTFLAG_B33SRDY_Pos    2            /**< \brief (SUPC_INTFLAG) BOD33 Synchronization Ready */
+#define SUPC_INTFLAG_B33SRDY        (_U_(0x1) << SUPC_INTFLAG_B33SRDY_Pos)
+#define SUPC_INTFLAG_BOD12RDY_Pos   3            /**< \brief (SUPC_INTFLAG) BOD12 Ready */
+#define SUPC_INTFLAG_BOD12RDY       (_U_(0x1) << SUPC_INTFLAG_BOD12RDY_Pos)
+#define SUPC_INTFLAG_BOD12DET_Pos   4            /**< \brief (SUPC_INTFLAG) BOD12 Detection */
+#define SUPC_INTFLAG_BOD12DET       (_U_(0x1) << SUPC_INTFLAG_BOD12DET_Pos)
+#define SUPC_INTFLAG_B12SRDY_Pos    5            /**< \brief (SUPC_INTFLAG) BOD12 Synchronization Ready */
+#define SUPC_INTFLAG_B12SRDY        (_U_(0x1) << SUPC_INTFLAG_B12SRDY_Pos)
+#define SUPC_INTFLAG_VREGRDY_Pos    8            /**< \brief (SUPC_INTFLAG) Voltage Regulator Ready */
+#define SUPC_INTFLAG_VREGRDY        (_U_(0x1) << SUPC_INTFLAG_VREGRDY_Pos)
+#define SUPC_INTFLAG_APWSRDY_Pos    9            /**< \brief (SUPC_INTFLAG) Automatic Power Switch Ready */
+#define SUPC_INTFLAG_APWSRDY        (_U_(0x1) << SUPC_INTFLAG_APWSRDY_Pos)
+#define SUPC_INTFLAG_VCORERDY_Pos   10           /**< \brief (SUPC_INTFLAG) VDDCORE Ready */
+#define SUPC_INTFLAG_VCORERDY       (_U_(0x1) << SUPC_INTFLAG_VCORERDY_Pos)
+#define SUPC_INTFLAG_MASK           _U_(0x0000073F) /**< \brief (SUPC_INTFLAG) MASK Register */
+
+/* -------- SUPC_STATUS : (SUPC Offset: 0x0C) (R/  32) Power and Clocks Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BOD33RDY:1;       /*!< bit:      0  BOD33 Ready                        */
+    uint32_t BOD33DET:1;       /*!< bit:      1  BOD33 Detection                    */
+    uint32_t B33SRDY:1;        /*!< bit:      2  BOD33 Synchronization Ready        */
+    uint32_t BOD12RDY:1;       /*!< bit:      3  BOD12 Ready                        */
+    uint32_t BOD12DET:1;       /*!< bit:      4  BOD12 Detection                    */
+    uint32_t B12SRDY:1;        /*!< bit:      5  BOD12 Synchronization Ready        */
+    uint32_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint32_t VREGRDY:1;        /*!< bit:      8  Voltage Regulator Ready            */
+    uint32_t APWSRDY:1;        /*!< bit:      9  Automatic Power Switch Ready       */
+    uint32_t VCORERDY:1;       /*!< bit:     10  VDDCORE Ready                      */
+    uint32_t BBPS:1;           /*!< bit:     11  Battery Backup Power Switch        */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_STATUS_OFFSET          0x0C         /**< \brief (SUPC_STATUS offset) Power and Clocks Status */
+#define SUPC_STATUS_RESETVALUE      _U_(0x00000000) /**< \brief (SUPC_STATUS reset_value) Power and Clocks Status */
+
+#define SUPC_STATUS_BOD33RDY_Pos    0            /**< \brief (SUPC_STATUS) BOD33 Ready */
+#define SUPC_STATUS_BOD33RDY        (_U_(0x1) << SUPC_STATUS_BOD33RDY_Pos)
+#define SUPC_STATUS_BOD33DET_Pos    1            /**< \brief (SUPC_STATUS) BOD33 Detection */
+#define SUPC_STATUS_BOD33DET        (_U_(0x1) << SUPC_STATUS_BOD33DET_Pos)
+#define SUPC_STATUS_B33SRDY_Pos     2            /**< \brief (SUPC_STATUS) BOD33 Synchronization Ready */
+#define SUPC_STATUS_B33SRDY         (_U_(0x1) << SUPC_STATUS_B33SRDY_Pos)
+#define SUPC_STATUS_BOD12RDY_Pos    3            /**< \brief (SUPC_STATUS) BOD12 Ready */
+#define SUPC_STATUS_BOD12RDY        (_U_(0x1) << SUPC_STATUS_BOD12RDY_Pos)
+#define SUPC_STATUS_BOD12DET_Pos    4            /**< \brief (SUPC_STATUS) BOD12 Detection */
+#define SUPC_STATUS_BOD12DET        (_U_(0x1) << SUPC_STATUS_BOD12DET_Pos)
+#define SUPC_STATUS_B12SRDY_Pos     5            /**< \brief (SUPC_STATUS) BOD12 Synchronization Ready */
+#define SUPC_STATUS_B12SRDY         (_U_(0x1) << SUPC_STATUS_B12SRDY_Pos)
+#define SUPC_STATUS_VREGRDY_Pos     8            /**< \brief (SUPC_STATUS) Voltage Regulator Ready */
+#define SUPC_STATUS_VREGRDY         (_U_(0x1) << SUPC_STATUS_VREGRDY_Pos)
+#define SUPC_STATUS_APWSRDY_Pos     9            /**< \brief (SUPC_STATUS) Automatic Power Switch Ready */
+#define SUPC_STATUS_APWSRDY         (_U_(0x1) << SUPC_STATUS_APWSRDY_Pos)
+#define SUPC_STATUS_VCORERDY_Pos    10           /**< \brief (SUPC_STATUS) VDDCORE Ready */
+#define SUPC_STATUS_VCORERDY        (_U_(0x1) << SUPC_STATUS_VCORERDY_Pos)
+#define SUPC_STATUS_BBPS_Pos        11           /**< \brief (SUPC_STATUS) Battery Backup Power Switch */
+#define SUPC_STATUS_BBPS            (_U_(0x1) << SUPC_STATUS_BBPS_Pos)
+#define SUPC_STATUS_MASK            _U_(0x00000F3F) /**< \brief (SUPC_STATUS) MASK Register */
+
+/* -------- SUPC_BOD33 : (SUPC Offset: 0x10) (R/W 32) BOD33 Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t HYST:1;           /*!< bit:      2  Hysteresis Enable                  */
+    uint32_t ACTION:2;         /*!< bit:  3.. 4  Action when Threshold Crossed      */
+    uint32_t STDBYCFG:1;       /*!< bit:      5  Configuration in Standby mode      */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint32_t RUNBKUP:1;        /*!< bit:      7  Configuration in Backup mode       */
+    uint32_t ACTCFG:1;         /*!< bit:      8  Configuration in Active mode       */
+    uint32_t :1;               /*!< bit:      9  Reserved                           */
+    uint32_t VMON:1;           /*!< bit:     10  Voltage Monitored in active and standby mode */
+    uint32_t :1;               /*!< bit:     11  Reserved                           */
+    uint32_t PSEL:4;           /*!< bit: 12..15  Prescaler Select                   */
+    uint32_t LEVEL:6;          /*!< bit: 16..21  Threshold Level for VDD            */
+    uint32_t :2;               /*!< bit: 22..23  Reserved                           */
+    uint32_t BKUPLEVEL:6;      /*!< bit: 24..29  Threshold Level in backup sleep mode or for VBAT */
+    uint32_t :2;               /*!< bit: 30..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_BOD33_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_BOD33_OFFSET           0x10         /**< \brief (SUPC_BOD33 offset) BOD33 Control */
+#define SUPC_BOD33_RESETVALUE       _U_(0x00000000) /**< \brief (SUPC_BOD33 reset_value) BOD33 Control */
+
+#define SUPC_BOD33_ENABLE_Pos       1            /**< \brief (SUPC_BOD33) Enable */
+#define SUPC_BOD33_ENABLE           (_U_(0x1) << SUPC_BOD33_ENABLE_Pos)
+#define SUPC_BOD33_HYST_Pos         2            /**< \brief (SUPC_BOD33) Hysteresis Enable */
+#define SUPC_BOD33_HYST             (_U_(0x1) << SUPC_BOD33_HYST_Pos)
+#define SUPC_BOD33_ACTION_Pos       3            /**< \brief (SUPC_BOD33) Action when Threshold Crossed */
+#define SUPC_BOD33_ACTION_Msk       (_U_(0x3) << SUPC_BOD33_ACTION_Pos)
+#define SUPC_BOD33_ACTION(value)    (SUPC_BOD33_ACTION_Msk & ((value) << SUPC_BOD33_ACTION_Pos))
+#define   SUPC_BOD33_ACTION_NONE_Val      _U_(0x0)   /**< \brief (SUPC_BOD33) No action */
+#define   SUPC_BOD33_ACTION_RESET_Val     _U_(0x1)   /**< \brief (SUPC_BOD33) The BOD33 generates a reset */
+#define   SUPC_BOD33_ACTION_INT_Val       _U_(0x2)   /**< \brief (SUPC_BOD33) The BOD33 generates an interrupt */
+#define   SUPC_BOD33_ACTION_BKUP_Val      _U_(0x3)   /**< \brief (SUPC_BOD33) The BOD33 puts the device in backup sleep mode if VMON=0 */
+#define SUPC_BOD33_ACTION_NONE      (SUPC_BOD33_ACTION_NONE_Val    << SUPC_BOD33_ACTION_Pos)
+#define SUPC_BOD33_ACTION_RESET     (SUPC_BOD33_ACTION_RESET_Val   << SUPC_BOD33_ACTION_Pos)
+#define SUPC_BOD33_ACTION_INT       (SUPC_BOD33_ACTION_INT_Val     << SUPC_BOD33_ACTION_Pos)
+#define SUPC_BOD33_ACTION_BKUP      (SUPC_BOD33_ACTION_BKUP_Val    << SUPC_BOD33_ACTION_Pos)
+#define SUPC_BOD33_STDBYCFG_Pos     5            /**< \brief (SUPC_BOD33) Configuration in Standby mode */
+#define SUPC_BOD33_STDBYCFG         (_U_(0x1) << SUPC_BOD33_STDBYCFG_Pos)
+#define SUPC_BOD33_RUNSTDBY_Pos     6            /**< \brief (SUPC_BOD33) Run during Standby */
+#define SUPC_BOD33_RUNSTDBY         (_U_(0x1) << SUPC_BOD33_RUNSTDBY_Pos)
+#define SUPC_BOD33_RUNBKUP_Pos      7            /**< \brief (SUPC_BOD33) Configuration in Backup mode */
+#define SUPC_BOD33_RUNBKUP          (_U_(0x1) << SUPC_BOD33_RUNBKUP_Pos)
+#define SUPC_BOD33_ACTCFG_Pos       8            /**< \brief (SUPC_BOD33) Configuration in Active mode */
+#define SUPC_BOD33_ACTCFG           (_U_(0x1) << SUPC_BOD33_ACTCFG_Pos)
+#define SUPC_BOD33_VMON_Pos         10           /**< \brief (SUPC_BOD33) Voltage Monitored in active and standby mode */
+#define SUPC_BOD33_VMON             (_U_(0x1) << SUPC_BOD33_VMON_Pos)
+#define SUPC_BOD33_PSEL_Pos         12           /**< \brief (SUPC_BOD33) Prescaler Select */
+#define SUPC_BOD33_PSEL_Msk         (_U_(0xF) << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL(value)      (SUPC_BOD33_PSEL_Msk & ((value) << SUPC_BOD33_PSEL_Pos))
+#define   SUPC_BOD33_PSEL_DIV2_Val        _U_(0x0)   /**< \brief (SUPC_BOD33) Divide clock by 2 */
+#define   SUPC_BOD33_PSEL_DIV4_Val        _U_(0x1)   /**< \brief (SUPC_BOD33) Divide clock by 4 */
+#define   SUPC_BOD33_PSEL_DIV8_Val        _U_(0x2)   /**< \brief (SUPC_BOD33) Divide clock by 8 */
+#define   SUPC_BOD33_PSEL_DIV16_Val       _U_(0x3)   /**< \brief (SUPC_BOD33) Divide clock by 16 */
+#define   SUPC_BOD33_PSEL_DIV32_Val       _U_(0x4)   /**< \brief (SUPC_BOD33) Divide clock by 32 */
+#define   SUPC_BOD33_PSEL_DIV64_Val       _U_(0x5)   /**< \brief (SUPC_BOD33) Divide clock by 64 */
+#define   SUPC_BOD33_PSEL_DIV128_Val      _U_(0x6)   /**< \brief (SUPC_BOD33) Divide clock by 128 */
+#define   SUPC_BOD33_PSEL_DIV256_Val      _U_(0x7)   /**< \brief (SUPC_BOD33) Divide clock by 256 */
+#define   SUPC_BOD33_PSEL_DIV512_Val      _U_(0x8)   /**< \brief (SUPC_BOD33) Divide clock by 512 */
+#define   SUPC_BOD33_PSEL_DIV1024_Val     _U_(0x9)   /**< \brief (SUPC_BOD33) Divide clock by 1024 */
+#define   SUPC_BOD33_PSEL_DIV2048_Val     _U_(0xA)   /**< \brief (SUPC_BOD33) Divide clock by 2048 */
+#define   SUPC_BOD33_PSEL_DIV4096_Val     _U_(0xB)   /**< \brief (SUPC_BOD33) Divide clock by 4096 */
+#define   SUPC_BOD33_PSEL_DIV8192_Val     _U_(0xC)   /**< \brief (SUPC_BOD33) Divide clock by 8192 */
+#define   SUPC_BOD33_PSEL_DIV16384_Val    _U_(0xD)   /**< \brief (SUPC_BOD33) Divide clock by 16384 */
+#define   SUPC_BOD33_PSEL_DIV32768_Val    _U_(0xE)   /**< \brief (SUPC_BOD33) Divide clock by 32768 */
+#define   SUPC_BOD33_PSEL_DIV65536_Val    _U_(0xF)   /**< \brief (SUPC_BOD33) Divide clock by 65536 */
+#define SUPC_BOD33_PSEL_DIV2        (SUPC_BOD33_PSEL_DIV2_Val      << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV4        (SUPC_BOD33_PSEL_DIV4_Val      << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV8        (SUPC_BOD33_PSEL_DIV8_Val      << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV16       (SUPC_BOD33_PSEL_DIV16_Val     << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV32       (SUPC_BOD33_PSEL_DIV32_Val     << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV64       (SUPC_BOD33_PSEL_DIV64_Val     << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV128      (SUPC_BOD33_PSEL_DIV128_Val    << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV256      (SUPC_BOD33_PSEL_DIV256_Val    << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV512      (SUPC_BOD33_PSEL_DIV512_Val    << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV1024     (SUPC_BOD33_PSEL_DIV1024_Val   << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV2048     (SUPC_BOD33_PSEL_DIV2048_Val   << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV4096     (SUPC_BOD33_PSEL_DIV4096_Val   << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV8192     (SUPC_BOD33_PSEL_DIV8192_Val   << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV16384    (SUPC_BOD33_PSEL_DIV16384_Val  << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV32768    (SUPC_BOD33_PSEL_DIV32768_Val  << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_PSEL_DIV65536    (SUPC_BOD33_PSEL_DIV65536_Val  << SUPC_BOD33_PSEL_Pos)
+#define SUPC_BOD33_LEVEL_Pos        16           /**< \brief (SUPC_BOD33) Threshold Level for VDD */
+#define SUPC_BOD33_LEVEL_Msk        (_U_(0x3F) << SUPC_BOD33_LEVEL_Pos)
+#define SUPC_BOD33_LEVEL(value)     (SUPC_BOD33_LEVEL_Msk & ((value) << SUPC_BOD33_LEVEL_Pos))
+#define SUPC_BOD33_BKUPLEVEL_Pos    24           /**< \brief (SUPC_BOD33) Threshold Level in backup sleep mode or for VBAT */
+#define SUPC_BOD33_BKUPLEVEL_Msk    (_U_(0x3F) << SUPC_BOD33_BKUPLEVEL_Pos)
+#define SUPC_BOD33_BKUPLEVEL(value) (SUPC_BOD33_BKUPLEVEL_Msk & ((value) << SUPC_BOD33_BKUPLEVEL_Pos))
+#define SUPC_BOD33_MASK             _U_(0x3F3FF5FE) /**< \brief (SUPC_BOD33) MASK Register */
+
+/* -------- SUPC_BOD12 : (SUPC Offset: 0x14) (R/W 32) BOD12 Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t HYST:1;           /*!< bit:      2  Hysteresis Enable                  */
+    uint32_t ACTION:2;         /*!< bit:  3.. 4  Action when Threshold Crossed      */
+    uint32_t STDBYCFG:1;       /*!< bit:      5  Configuration in Standby mode      */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t ACTCFG:1;         /*!< bit:      8  Configuration in Active mode       */
+    uint32_t :3;               /*!< bit:  9..11  Reserved                           */
+    uint32_t PSEL:4;           /*!< bit: 12..15  Prescaler Select                   */
+    uint32_t LEVEL:6;          /*!< bit: 16..21  Threshold Level                    */
+    uint32_t :10;              /*!< bit: 22..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_BOD12_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_BOD12_OFFSET           0x14         /**< \brief (SUPC_BOD12 offset) BOD12 Control */
+#define SUPC_BOD12_RESETVALUE       _U_(0x00000000) /**< \brief (SUPC_BOD12 reset_value) BOD12 Control */
+
+#define SUPC_BOD12_ENABLE_Pos       1            /**< \brief (SUPC_BOD12) Enable */
+#define SUPC_BOD12_ENABLE           (_U_(0x1) << SUPC_BOD12_ENABLE_Pos)
+#define SUPC_BOD12_HYST_Pos         2            /**< \brief (SUPC_BOD12) Hysteresis Enable */
+#define SUPC_BOD12_HYST             (_U_(0x1) << SUPC_BOD12_HYST_Pos)
+#define SUPC_BOD12_ACTION_Pos       3            /**< \brief (SUPC_BOD12) Action when Threshold Crossed */
+#define SUPC_BOD12_ACTION_Msk       (_U_(0x3) << SUPC_BOD12_ACTION_Pos)
+#define SUPC_BOD12_ACTION(value)    (SUPC_BOD12_ACTION_Msk & ((value) << SUPC_BOD12_ACTION_Pos))
+#define   SUPC_BOD12_ACTION_NONE_Val      _U_(0x0)   /**< \brief (SUPC_BOD12) No action */
+#define   SUPC_BOD12_ACTION_RESET_Val     _U_(0x1)   /**< \brief (SUPC_BOD12) The BOD12 generates a reset */
+#define   SUPC_BOD12_ACTION_INT_Val       _U_(0x2)   /**< \brief (SUPC_BOD12) The BOD12 generates an interrupt */
+#define SUPC_BOD12_ACTION_NONE      (SUPC_BOD12_ACTION_NONE_Val    << SUPC_BOD12_ACTION_Pos)
+#define SUPC_BOD12_ACTION_RESET     (SUPC_BOD12_ACTION_RESET_Val   << SUPC_BOD12_ACTION_Pos)
+#define SUPC_BOD12_ACTION_INT       (SUPC_BOD12_ACTION_INT_Val     << SUPC_BOD12_ACTION_Pos)
+#define SUPC_BOD12_STDBYCFG_Pos     5            /**< \brief (SUPC_BOD12) Configuration in Standby mode */
+#define SUPC_BOD12_STDBYCFG         (_U_(0x1) << SUPC_BOD12_STDBYCFG_Pos)
+#define SUPC_BOD12_RUNSTDBY_Pos     6            /**< \brief (SUPC_BOD12) Run during Standby */
+#define SUPC_BOD12_RUNSTDBY         (_U_(0x1) << SUPC_BOD12_RUNSTDBY_Pos)
+#define SUPC_BOD12_ACTCFG_Pos       8            /**< \brief (SUPC_BOD12) Configuration in Active mode */
+#define SUPC_BOD12_ACTCFG           (_U_(0x1) << SUPC_BOD12_ACTCFG_Pos)
+#define SUPC_BOD12_PSEL_Pos         12           /**< \brief (SUPC_BOD12) Prescaler Select */
+#define SUPC_BOD12_PSEL_Msk         (_U_(0xF) << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL(value)      (SUPC_BOD12_PSEL_Msk & ((value) << SUPC_BOD12_PSEL_Pos))
+#define   SUPC_BOD12_PSEL_DIV2_Val        _U_(0x0)   /**< \brief (SUPC_BOD12) Divide clock by 2 */
+#define   SUPC_BOD12_PSEL_DIV4_Val        _U_(0x1)   /**< \brief (SUPC_BOD12) Divide clock by 4 */
+#define   SUPC_BOD12_PSEL_DIV8_Val        _U_(0x2)   /**< \brief (SUPC_BOD12) Divide clock by 8 */
+#define   SUPC_BOD12_PSEL_DIV16_Val       _U_(0x3)   /**< \brief (SUPC_BOD12) Divide clock by 16 */
+#define   SUPC_BOD12_PSEL_DIV32_Val       _U_(0x4)   /**< \brief (SUPC_BOD12) Divide clock by 32 */
+#define   SUPC_BOD12_PSEL_DIV64_Val       _U_(0x5)   /**< \brief (SUPC_BOD12) Divide clock by 64 */
+#define   SUPC_BOD12_PSEL_DIV128_Val      _U_(0x6)   /**< \brief (SUPC_BOD12) Divide clock by 128 */
+#define   SUPC_BOD12_PSEL_DIV256_Val      _U_(0x7)   /**< \brief (SUPC_BOD12) Divide clock by 256 */
+#define   SUPC_BOD12_PSEL_DIV512_Val      _U_(0x8)   /**< \brief (SUPC_BOD12) Divide clock by 512 */
+#define   SUPC_BOD12_PSEL_DIV1024_Val     _U_(0x9)   /**< \brief (SUPC_BOD12) Divide clock by 1024 */
+#define   SUPC_BOD12_PSEL_DIV2048_Val     _U_(0xA)   /**< \brief (SUPC_BOD12) Divide clock by 2048 */
+#define   SUPC_BOD12_PSEL_DIV4096_Val     _U_(0xB)   /**< \brief (SUPC_BOD12) Divide clock by 4096 */
+#define   SUPC_BOD12_PSEL_DIV8192_Val     _U_(0xC)   /**< \brief (SUPC_BOD12) Divide clock by 8192 */
+#define   SUPC_BOD12_PSEL_DIV16384_Val    _U_(0xD)   /**< \brief (SUPC_BOD12) Divide clock by 16384 */
+#define   SUPC_BOD12_PSEL_DIV32768_Val    _U_(0xE)   /**< \brief (SUPC_BOD12) Divide clock by 32768 */
+#define   SUPC_BOD12_PSEL_DIV65536_Val    _U_(0xF)   /**< \brief (SUPC_BOD12) Divide clock by 65536 */
+#define SUPC_BOD12_PSEL_DIV2        (SUPC_BOD12_PSEL_DIV2_Val      << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV4        (SUPC_BOD12_PSEL_DIV4_Val      << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV8        (SUPC_BOD12_PSEL_DIV8_Val      << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV16       (SUPC_BOD12_PSEL_DIV16_Val     << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV32       (SUPC_BOD12_PSEL_DIV32_Val     << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV64       (SUPC_BOD12_PSEL_DIV64_Val     << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV128      (SUPC_BOD12_PSEL_DIV128_Val    << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV256      (SUPC_BOD12_PSEL_DIV256_Val    << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV512      (SUPC_BOD12_PSEL_DIV512_Val    << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV1024     (SUPC_BOD12_PSEL_DIV1024_Val   << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV2048     (SUPC_BOD12_PSEL_DIV2048_Val   << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV4096     (SUPC_BOD12_PSEL_DIV4096_Val   << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV8192     (SUPC_BOD12_PSEL_DIV8192_Val   << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV16384    (SUPC_BOD12_PSEL_DIV16384_Val  << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV32768    (SUPC_BOD12_PSEL_DIV32768_Val  << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_PSEL_DIV65536    (SUPC_BOD12_PSEL_DIV65536_Val  << SUPC_BOD12_PSEL_Pos)
+#define SUPC_BOD12_LEVEL_Pos        16           /**< \brief (SUPC_BOD12) Threshold Level */
+#define SUPC_BOD12_LEVEL_Msk        (_U_(0x3F) << SUPC_BOD12_LEVEL_Pos)
+#define SUPC_BOD12_LEVEL(value)     (SUPC_BOD12_LEVEL_Msk & ((value) << SUPC_BOD12_LEVEL_Pos))
+#define SUPC_BOD12_MASK             _U_(0x003FF17E) /**< \brief (SUPC_BOD12) MASK Register */
+
+/* -------- SUPC_VREG : (SUPC Offset: 0x18) (R/W 32) VREG Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t SEL:2;            /*!< bit:  2.. 3  Voltage Regulator Selection in active mode */
+    uint32_t :1;               /*!< bit:      4  Reserved                           */
+    uint32_t STDBYPL0:1;       /*!< bit:      5  Standby in PL0                     */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t LPEFF:1;          /*!< bit:      8  Low Power efficiency               */
+    uint32_t :7;               /*!< bit:  9..15  Reserved                           */
+    uint32_t VSVSTEP:4;        /*!< bit: 16..19  Voltage Scaling Voltage Step       */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t VSPER:8;          /*!< bit: 24..31  Voltage Scaling Period             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_VREG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_VREG_OFFSET            0x18         /**< \brief (SUPC_VREG offset) VREG Control */
+#define SUPC_VREG_RESETVALUE        _U_(0x00000000) /**< \brief (SUPC_VREG reset_value) VREG Control */
+
+#define SUPC_VREG_ENABLE_Pos        1            /**< \brief (SUPC_VREG) Enable */
+#define SUPC_VREG_ENABLE            (_U_(0x1) << SUPC_VREG_ENABLE_Pos)
+#define SUPC_VREG_SEL_Pos           2            /**< \brief (SUPC_VREG) Voltage Regulator Selection in active mode */
+#define SUPC_VREG_SEL_Msk           (_U_(0x3) << SUPC_VREG_SEL_Pos)
+#define SUPC_VREG_SEL(value)        (SUPC_VREG_SEL_Msk & ((value) << SUPC_VREG_SEL_Pos))
+#define   SUPC_VREG_SEL_LDO_Val           _U_(0x0)   /**< \brief (SUPC_VREG) LDO selection */
+#define   SUPC_VREG_SEL_BUCK_Val          _U_(0x1)   /**< \brief (SUPC_VREG) Buck selection */
+#define   SUPC_VREG_SEL_SCVREG_Val        _U_(0x2)   /**< \brief (SUPC_VREG) Switched Cap selection */
+#define SUPC_VREG_SEL_LDO           (SUPC_VREG_SEL_LDO_Val         << SUPC_VREG_SEL_Pos)
+#define SUPC_VREG_SEL_BUCK          (SUPC_VREG_SEL_BUCK_Val        << SUPC_VREG_SEL_Pos)
+#define SUPC_VREG_SEL_SCVREG        (SUPC_VREG_SEL_SCVREG_Val      << SUPC_VREG_SEL_Pos)
+#define SUPC_VREG_STDBYPL0_Pos      5            /**< \brief (SUPC_VREG) Standby in PL0 */
+#define SUPC_VREG_STDBYPL0          (_U_(0x1) << SUPC_VREG_STDBYPL0_Pos)
+#define SUPC_VREG_RUNSTDBY_Pos      6            /**< \brief (SUPC_VREG) Run during Standby */
+#define SUPC_VREG_RUNSTDBY          (_U_(0x1) << SUPC_VREG_RUNSTDBY_Pos)
+#define SUPC_VREG_LPEFF_Pos         8            /**< \brief (SUPC_VREG) Low Power efficiency */
+#define SUPC_VREG_LPEFF             (_U_(0x1) << SUPC_VREG_LPEFF_Pos)
+#define SUPC_VREG_VSVSTEP_Pos       16           /**< \brief (SUPC_VREG) Voltage Scaling Voltage Step */
+#define SUPC_VREG_VSVSTEP_Msk       (_U_(0xF) << SUPC_VREG_VSVSTEP_Pos)
+#define SUPC_VREG_VSVSTEP(value)    (SUPC_VREG_VSVSTEP_Msk & ((value) << SUPC_VREG_VSVSTEP_Pos))
+#define SUPC_VREG_VSPER_Pos         24           /**< \brief (SUPC_VREG) Voltage Scaling Period */
+#define SUPC_VREG_VSPER_Msk         (_U_(0xFF) << SUPC_VREG_VSPER_Pos)
+#define SUPC_VREG_VSPER(value)      (SUPC_VREG_VSPER_Msk & ((value) << SUPC_VREG_VSPER_Pos))
+#define SUPC_VREG_MASK              _U_(0xFF0F016E) /**< \brief (SUPC_VREG) MASK Register */
+
+/* -------- SUPC_VREF : (SUPC Offset: 0x1C) (R/W 32) VREF Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t TSEN:1;           /*!< bit:      1  Temperature Sensor Output Enable   */
+    uint32_t VREFOE:1;         /*!< bit:      2  Voltage Reference Output Enable    */
+    uint32_t TSSEL:1;          /*!< bit:      3  Temperature Sensor Selection       */
+    uint32_t :2;               /*!< bit:  4.. 5  Reserved                           */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint32_t ONDEMAND:1;       /*!< bit:      7  On Demand Contrl                   */
+    uint32_t :8;               /*!< bit:  8..15  Reserved                           */
+    uint32_t SEL:4;            /*!< bit: 16..19  Voltage Reference Selection        */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_VREF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_VREF_OFFSET            0x1C         /**< \brief (SUPC_VREF offset) VREF Control */
+#define SUPC_VREF_RESETVALUE        _U_(0x00000000) /**< \brief (SUPC_VREF reset_value) VREF Control */
+
+#define SUPC_VREF_TSEN_Pos          1            /**< \brief (SUPC_VREF) Temperature Sensor Output Enable */
+#define SUPC_VREF_TSEN              (_U_(0x1) << SUPC_VREF_TSEN_Pos)
+#define SUPC_VREF_VREFOE_Pos        2            /**< \brief (SUPC_VREF) Voltage Reference Output Enable */
+#define SUPC_VREF_VREFOE            (_U_(0x1) << SUPC_VREF_VREFOE_Pos)
+#define SUPC_VREF_TSSEL_Pos         3            /**< \brief (SUPC_VREF) Temperature Sensor Selection */
+#define SUPC_VREF_TSSEL             (_U_(0x1) << SUPC_VREF_TSSEL_Pos)
+#define SUPC_VREF_RUNSTDBY_Pos      6            /**< \brief (SUPC_VREF) Run during Standby */
+#define SUPC_VREF_RUNSTDBY          (_U_(0x1) << SUPC_VREF_RUNSTDBY_Pos)
+#define SUPC_VREF_ONDEMAND_Pos      7            /**< \brief (SUPC_VREF) On Demand Contrl */
+#define SUPC_VREF_ONDEMAND          (_U_(0x1) << SUPC_VREF_ONDEMAND_Pos)
+#define SUPC_VREF_SEL_Pos           16           /**< \brief (SUPC_VREF) Voltage Reference Selection */
+#define SUPC_VREF_SEL_Msk           (_U_(0xF) << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL(value)        (SUPC_VREF_SEL_Msk & ((value) << SUPC_VREF_SEL_Pos))
+#define   SUPC_VREF_SEL_1V0_Val           _U_(0x0)   /**< \brief (SUPC_VREF) 1.0V voltage reference typical value */
+#define   SUPC_VREF_SEL_1V1_Val           _U_(0x1)   /**< \brief (SUPC_VREF) 1.1V voltage reference typical value */
+#define   SUPC_VREF_SEL_1V2_Val           _U_(0x2)   /**< \brief (SUPC_VREF) 1.2V voltage reference typical value */
+#define   SUPC_VREF_SEL_1V25_Val          _U_(0x3)   /**< \brief (SUPC_VREF) 1.25V voltage reference typical value */
+#define   SUPC_VREF_SEL_2V0_Val           _U_(0x4)   /**< \brief (SUPC_VREF) 2.0V voltage reference typical value */
+#define   SUPC_VREF_SEL_2V2_Val           _U_(0x5)   /**< \brief (SUPC_VREF) 2.2V voltage reference typical value */
+#define   SUPC_VREF_SEL_2V4_Val           _U_(0x6)   /**< \brief (SUPC_VREF) 2.4V voltage reference typical value */
+#define   SUPC_VREF_SEL_2V5_Val           _U_(0x7)   /**< \brief (SUPC_VREF) 2.5V voltage reference typical value */
+#define SUPC_VREF_SEL_1V0           (SUPC_VREF_SEL_1V0_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_1V1           (SUPC_VREF_SEL_1V1_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_1V2           (SUPC_VREF_SEL_1V2_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_1V25          (SUPC_VREF_SEL_1V25_Val        << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_2V0           (SUPC_VREF_SEL_2V0_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_2V2           (SUPC_VREF_SEL_2V2_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_2V4           (SUPC_VREF_SEL_2V4_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_SEL_2V5           (SUPC_VREF_SEL_2V5_Val         << SUPC_VREF_SEL_Pos)
+#define SUPC_VREF_MASK              _U_(0x000F00CE) /**< \brief (SUPC_VREF) MASK Register */
+
+/* -------- SUPC_BBPS : (SUPC Offset: 0x20) (R/W 32) Battery Backup Power Switch -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CONF:2;           /*!< bit:  0.. 1  Battery Backup Configuration       */
+    uint32_t WAKEEN:1;         /*!< bit:      2  Wake Enable                        */
+    uint32_t PSOKEN:1;         /*!< bit:      3  Power Supply OK Enable             */
+    uint32_t :28;              /*!< bit:  4..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_BBPS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_BBPS_OFFSET            0x20         /**< \brief (SUPC_BBPS offset) Battery Backup Power Switch */
+#define SUPC_BBPS_RESETVALUE        _U_(0x00000000) /**< \brief (SUPC_BBPS reset_value) Battery Backup Power Switch */
+
+#define SUPC_BBPS_CONF_Pos          0            /**< \brief (SUPC_BBPS) Battery Backup Configuration */
+#define SUPC_BBPS_CONF_Msk          (_U_(0x3) << SUPC_BBPS_CONF_Pos)
+#define SUPC_BBPS_CONF(value)       (SUPC_BBPS_CONF_Msk & ((value) << SUPC_BBPS_CONF_Pos))
+#define   SUPC_BBPS_CONF_NONE_Val         _U_(0x0)   /**< \brief (SUPC_BBPS) The backup domain is always supplied by main power */
+#define   SUPC_BBPS_CONF_APWS_Val         _U_(0x1)   /**< \brief (SUPC_BBPS) The power switch is handled by the automatic power switch */
+#define   SUPC_BBPS_CONF_FORCED_Val       _U_(0x2)   /**< \brief (SUPC_BBPS) The backup domain is always supplied by battery backup power */
+#define   SUPC_BBPS_CONF_BOD33_Val        _U_(0x3)   /**< \brief (SUPC_BBPS) The power switch is handled by the BOD33 */
+#define SUPC_BBPS_CONF_NONE         (SUPC_BBPS_CONF_NONE_Val       << SUPC_BBPS_CONF_Pos)
+#define SUPC_BBPS_CONF_APWS         (SUPC_BBPS_CONF_APWS_Val       << SUPC_BBPS_CONF_Pos)
+#define SUPC_BBPS_CONF_FORCED       (SUPC_BBPS_CONF_FORCED_Val     << SUPC_BBPS_CONF_Pos)
+#define SUPC_BBPS_CONF_BOD33        (SUPC_BBPS_CONF_BOD33_Val      << SUPC_BBPS_CONF_Pos)
+#define SUPC_BBPS_WAKEEN_Pos        2            /**< \brief (SUPC_BBPS) Wake Enable */
+#define SUPC_BBPS_WAKEEN            (_U_(0x1) << SUPC_BBPS_WAKEEN_Pos)
+#define SUPC_BBPS_PSOKEN_Pos        3            /**< \brief (SUPC_BBPS) Power Supply OK Enable */
+#define SUPC_BBPS_PSOKEN            (_U_(0x1) << SUPC_BBPS_PSOKEN_Pos)
+#define SUPC_BBPS_MASK              _U_(0x0000000F) /**< \brief (SUPC_BBPS) MASK Register */
+
+/* -------- SUPC_BKOUT : (SUPC Offset: 0x24) (R/W 32) Backup Output Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EN:2;             /*!< bit:  0.. 1  Enable Output                      */
+    uint32_t :6;               /*!< bit:  2.. 7  Reserved                           */
+    uint32_t CLR:2;            /*!< bit:  8.. 9  Clear Output                       */
+    uint32_t :6;               /*!< bit: 10..15  Reserved                           */
+    uint32_t SET:2;            /*!< bit: 16..17  Set Output                         */
+    uint32_t :6;               /*!< bit: 18..23  Reserved                           */
+    uint32_t RTCTGL:2;         /*!< bit: 24..25  RTC Toggle Output                  */
+    uint32_t :6;               /*!< bit: 26..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_BKOUT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_BKOUT_OFFSET           0x24         /**< \brief (SUPC_BKOUT offset) Backup Output Control */
+#define SUPC_BKOUT_RESETVALUE       _U_(0x00000000) /**< \brief (SUPC_BKOUT reset_value) Backup Output Control */
+
+#define SUPC_BKOUT_EN_Pos           0            /**< \brief (SUPC_BKOUT) Enable Output */
+#define SUPC_BKOUT_EN_Msk           (_U_(0x3) << SUPC_BKOUT_EN_Pos)
+#define SUPC_BKOUT_EN(value)        (SUPC_BKOUT_EN_Msk & ((value) << SUPC_BKOUT_EN_Pos))
+#define SUPC_BKOUT_CLR_Pos          8            /**< \brief (SUPC_BKOUT) Clear Output */
+#define SUPC_BKOUT_CLR_Msk          (_U_(0x3) << SUPC_BKOUT_CLR_Pos)
+#define SUPC_BKOUT_CLR(value)       (SUPC_BKOUT_CLR_Msk & ((value) << SUPC_BKOUT_CLR_Pos))
+#define SUPC_BKOUT_SET_Pos          16           /**< \brief (SUPC_BKOUT) Set Output */
+#define SUPC_BKOUT_SET_Msk          (_U_(0x3) << SUPC_BKOUT_SET_Pos)
+#define SUPC_BKOUT_SET(value)       (SUPC_BKOUT_SET_Msk & ((value) << SUPC_BKOUT_SET_Pos))
+#define SUPC_BKOUT_RTCTGL_Pos       24           /**< \brief (SUPC_BKOUT) RTC Toggle Output */
+#define SUPC_BKOUT_RTCTGL_Msk       (_U_(0x3) << SUPC_BKOUT_RTCTGL_Pos)
+#define SUPC_BKOUT_RTCTGL(value)    (SUPC_BKOUT_RTCTGL_Msk & ((value) << SUPC_BKOUT_RTCTGL_Pos))
+#define SUPC_BKOUT_MASK             _U_(0x03030303) /**< \brief (SUPC_BKOUT) MASK Register */
+
+/* -------- SUPC_BKIN : (SUPC Offset: 0x28) (R/  32) Backup Input Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BKIN:8;           /*!< bit:  0.. 7  Backup Input Value                 */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} SUPC_BKIN_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define SUPC_BKIN_OFFSET            0x28         /**< \brief (SUPC_BKIN offset) Backup Input Control */
+#define SUPC_BKIN_RESETVALUE        _U_(0x00000000) /**< \brief (SUPC_BKIN reset_value) Backup Input Control */
+
+#define SUPC_BKIN_BKIN_Pos          0            /**< \brief (SUPC_BKIN) Backup Input Value */
+#define SUPC_BKIN_BKIN_Msk          (_U_(0xFF) << SUPC_BKIN_BKIN_Pos)
+#define SUPC_BKIN_BKIN(value)       (SUPC_BKIN_BKIN_Msk & ((value) << SUPC_BKIN_BKIN_Pos))
+#define SUPC_BKIN_MASK              _U_(0x000000FF) /**< \brief (SUPC_BKIN) MASK Register */
+
+/** \brief SUPC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO SUPC_INTENCLR_Type        INTENCLR;    /**< \brief Offset: 0x00 (R/W 32) Interrupt Enable Clear */
+  __IO SUPC_INTENSET_Type        INTENSET;    /**< \brief Offset: 0x04 (R/W 32) Interrupt Enable Set */
+  __IO SUPC_INTFLAG_Type         INTFLAG;     /**< \brief Offset: 0x08 (R/W 32) Interrupt Flag Status and Clear */
+  __I  SUPC_STATUS_Type          STATUS;      /**< \brief Offset: 0x0C (R/  32) Power and Clocks Status */
+  __IO SUPC_BOD33_Type           BOD33;       /**< \brief Offset: 0x10 (R/W 32) BOD33 Control */
+  __IO SUPC_BOD12_Type           BOD12;       /**< \brief Offset: 0x14 (R/W 32) BOD12 Control */
+  __IO SUPC_VREG_Type            VREG;        /**< \brief Offset: 0x18 (R/W 32) VREG Control */
+  __IO SUPC_VREF_Type            VREF;        /**< \brief Offset: 0x1C (R/W 32) VREF Control */
+  __IO SUPC_BBPS_Type            BBPS;        /**< \brief Offset: 0x20 (R/W 32) Battery Backup Power Switch */
+  __IO SUPC_BKOUT_Type           BKOUT;       /**< \brief Offset: 0x24 (R/W 32) Backup Output Control */
+  __I  SUPC_BKIN_Type            BKIN;        /**< \brief Offset: 0x28 (R/  32) Backup Input Control */
+} Supc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_SUPC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/tc.h b/watch-library/hardware/include/component/tc.h
new file mode 100644
index 00000000..4748ce29
--- /dev/null
+++ b/watch-library/hardware/include/component/tc.h
@@ -0,0 +1,829 @@
+/**
+ * \file
+ *
+ * \brief Component description for TC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TC_COMPONENT_
+#define _SAML22_TC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR TC */
+/* ========================================================================== */
+/** \addtogroup SAML22_TC Basic Timer Counter */
+/*@{*/
+
+#define TC_U2249
+#define REV_TC                      0x200
+
+/* -------- TC_CTRLA : (TC Offset: 0x00) (R/W 32) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t MODE:2;           /*!< bit:  2.. 3  Timer Counter Mode                 */
+    uint32_t PRESCSYNC:2;      /*!< bit:  4.. 5  Prescaler and Counter Synchronization */
+    uint32_t RUNSTDBY:1;       /*!< bit:      6  Run during Standby                 */
+    uint32_t ONDEMAND:1;       /*!< bit:      7  Clock On Demand                    */
+    uint32_t PRESCALER:3;      /*!< bit:  8..10  Prescaler                          */
+    uint32_t ALOCK:1;          /*!< bit:     11  Auto Lock                          */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t CAPTEN0:1;        /*!< bit:     16  Capture Channel 0 Enable           */
+    uint32_t CAPTEN1:1;        /*!< bit:     17  Capture Channel 1 Enable           */
+    uint32_t :2;               /*!< bit: 18..19  Reserved                           */
+    uint32_t COPEN0:1;         /*!< bit:     20  Capture On Pin 0 Enable            */
+    uint32_t COPEN1:1;         /*!< bit:     21  Capture On Pin 1 Enable            */
+    uint32_t :10;              /*!< bit: 22..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    uint32_t CAPTEN:2;         /*!< bit: 16..17  Capture Channel x Enable           */
+    uint32_t :2;               /*!< bit: 18..19  Reserved                           */
+    uint32_t COPEN:2;          /*!< bit: 20..21  Capture On Pin x Enable            */
+    uint32_t :10;              /*!< bit: 22..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TC_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_CTRLA_OFFSET             0x00         /**< \brief (TC_CTRLA offset) Control A */
+#define TC_CTRLA_RESETVALUE         _U_(0x00000000) /**< \brief (TC_CTRLA reset_value) Control A */
+
+#define TC_CTRLA_SWRST_Pos          0            /**< \brief (TC_CTRLA) Software Reset */
+#define TC_CTRLA_SWRST              (_U_(0x1) << TC_CTRLA_SWRST_Pos)
+#define TC_CTRLA_ENABLE_Pos         1            /**< \brief (TC_CTRLA) Enable */
+#define TC_CTRLA_ENABLE             (_U_(0x1) << TC_CTRLA_ENABLE_Pos)
+#define TC_CTRLA_MODE_Pos           2            /**< \brief (TC_CTRLA) Timer Counter Mode */
+#define TC_CTRLA_MODE_Msk           (_U_(0x3) << TC_CTRLA_MODE_Pos)
+#define TC_CTRLA_MODE(value)        (TC_CTRLA_MODE_Msk & ((value) << TC_CTRLA_MODE_Pos))
+#define   TC_CTRLA_MODE_COUNT16_Val       _U_(0x0)   /**< \brief (TC_CTRLA) Counter in 16-bit mode */
+#define   TC_CTRLA_MODE_COUNT8_Val        _U_(0x1)   /**< \brief (TC_CTRLA) Counter in 8-bit mode */
+#define   TC_CTRLA_MODE_COUNT32_Val       _U_(0x2)   /**< \brief (TC_CTRLA) Counter in 32-bit mode */
+#define TC_CTRLA_MODE_COUNT16       (TC_CTRLA_MODE_COUNT16_Val     << TC_CTRLA_MODE_Pos)
+#define TC_CTRLA_MODE_COUNT8        (TC_CTRLA_MODE_COUNT8_Val      << TC_CTRLA_MODE_Pos)
+#define TC_CTRLA_MODE_COUNT32       (TC_CTRLA_MODE_COUNT32_Val     << TC_CTRLA_MODE_Pos)
+#define TC_CTRLA_PRESCSYNC_Pos      4            /**< \brief (TC_CTRLA) Prescaler and Counter Synchronization */
+#define TC_CTRLA_PRESCSYNC_Msk      (_U_(0x3) << TC_CTRLA_PRESCSYNC_Pos)
+#define TC_CTRLA_PRESCSYNC(value)   (TC_CTRLA_PRESCSYNC_Msk & ((value) << TC_CTRLA_PRESCSYNC_Pos))
+#define   TC_CTRLA_PRESCSYNC_GCLK_Val     _U_(0x0)   /**< \brief (TC_CTRLA) Reload or reset the counter on next generic clock */
+#define   TC_CTRLA_PRESCSYNC_PRESC_Val    _U_(0x1)   /**< \brief (TC_CTRLA) Reload or reset the counter on next prescaler clock */
+#define   TC_CTRLA_PRESCSYNC_RESYNC_Val   _U_(0x2)   /**< \brief (TC_CTRLA) Reload or reset the counter on next generic clock and reset the prescaler counter */
+#define TC_CTRLA_PRESCSYNC_GCLK     (TC_CTRLA_PRESCSYNC_GCLK_Val   << TC_CTRLA_PRESCSYNC_Pos)
+#define TC_CTRLA_PRESCSYNC_PRESC    (TC_CTRLA_PRESCSYNC_PRESC_Val  << TC_CTRLA_PRESCSYNC_Pos)
+#define TC_CTRLA_PRESCSYNC_RESYNC   (TC_CTRLA_PRESCSYNC_RESYNC_Val << TC_CTRLA_PRESCSYNC_Pos)
+#define TC_CTRLA_RUNSTDBY_Pos       6            /**< \brief (TC_CTRLA) Run during Standby */
+#define TC_CTRLA_RUNSTDBY           (_U_(0x1) << TC_CTRLA_RUNSTDBY_Pos)
+#define TC_CTRLA_ONDEMAND_Pos       7            /**< \brief (TC_CTRLA) Clock On Demand */
+#define TC_CTRLA_ONDEMAND           (_U_(0x1) << TC_CTRLA_ONDEMAND_Pos)
+#define TC_CTRLA_PRESCALER_Pos      8            /**< \brief (TC_CTRLA) Prescaler */
+#define TC_CTRLA_PRESCALER_Msk      (_U_(0x7) << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER(value)   (TC_CTRLA_PRESCALER_Msk & ((value) << TC_CTRLA_PRESCALER_Pos))
+#define   TC_CTRLA_PRESCALER_DIV1_Val     _U_(0x0)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC */
+#define   TC_CTRLA_PRESCALER_DIV2_Val     _U_(0x1)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/2 */
+#define   TC_CTRLA_PRESCALER_DIV4_Val     _U_(0x2)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/4 */
+#define   TC_CTRLA_PRESCALER_DIV8_Val     _U_(0x3)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/8 */
+#define   TC_CTRLA_PRESCALER_DIV16_Val    _U_(0x4)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/16 */
+#define   TC_CTRLA_PRESCALER_DIV64_Val    _U_(0x5)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/64 */
+#define   TC_CTRLA_PRESCALER_DIV256_Val   _U_(0x6)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/256 */
+#define   TC_CTRLA_PRESCALER_DIV1024_Val  _U_(0x7)   /**< \brief (TC_CTRLA) Prescaler: GCLK_TC/1024 */
+#define TC_CTRLA_PRESCALER_DIV1     (TC_CTRLA_PRESCALER_DIV1_Val   << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV2     (TC_CTRLA_PRESCALER_DIV2_Val   << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV4     (TC_CTRLA_PRESCALER_DIV4_Val   << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV8     (TC_CTRLA_PRESCALER_DIV8_Val   << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV16    (TC_CTRLA_PRESCALER_DIV16_Val  << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV64    (TC_CTRLA_PRESCALER_DIV64_Val  << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV256   (TC_CTRLA_PRESCALER_DIV256_Val << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_PRESCALER_DIV1024  (TC_CTRLA_PRESCALER_DIV1024_Val << TC_CTRLA_PRESCALER_Pos)
+#define TC_CTRLA_ALOCK_Pos          11           /**< \brief (TC_CTRLA) Auto Lock */
+#define TC_CTRLA_ALOCK              (_U_(0x1) << TC_CTRLA_ALOCK_Pos)
+#define TC_CTRLA_CAPTEN0_Pos        16           /**< \brief (TC_CTRLA) Capture Channel 0 Enable */
+#define TC_CTRLA_CAPTEN0            (_U_(1) << TC_CTRLA_CAPTEN0_Pos)
+#define TC_CTRLA_CAPTEN1_Pos        17           /**< \brief (TC_CTRLA) Capture Channel 1 Enable */
+#define TC_CTRLA_CAPTEN1            (_U_(1) << TC_CTRLA_CAPTEN1_Pos)
+#define TC_CTRLA_CAPTEN_Pos         16           /**< \brief (TC_CTRLA) Capture Channel x Enable */
+#define TC_CTRLA_CAPTEN_Msk         (_U_(0x3) << TC_CTRLA_CAPTEN_Pos)
+#define TC_CTRLA_CAPTEN(value)      (TC_CTRLA_CAPTEN_Msk & ((value) << TC_CTRLA_CAPTEN_Pos))
+#define TC_CTRLA_COPEN0_Pos         20           /**< \brief (TC_CTRLA) Capture On Pin 0 Enable */
+#define TC_CTRLA_COPEN0             (_U_(1) << TC_CTRLA_COPEN0_Pos)
+#define TC_CTRLA_COPEN1_Pos         21           /**< \brief (TC_CTRLA) Capture On Pin 1 Enable */
+#define TC_CTRLA_COPEN1             (_U_(1) << TC_CTRLA_COPEN1_Pos)
+#define TC_CTRLA_COPEN_Pos          20           /**< \brief (TC_CTRLA) Capture On Pin x Enable */
+#define TC_CTRLA_COPEN_Msk          (_U_(0x3) << TC_CTRLA_COPEN_Pos)
+#define TC_CTRLA_COPEN(value)       (TC_CTRLA_COPEN_Msk & ((value) << TC_CTRLA_COPEN_Pos))
+#define TC_CTRLA_MASK               _U_(0x00330FFF) /**< \brief (TC_CTRLA) MASK Register */
+
+/* -------- TC_CTRLBCLR : (TC Offset: 0x04) (R/W  8) Control B Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DIR:1;            /*!< bit:      0  Counter Direction                  */
+    uint8_t  LUPD:1;           /*!< bit:      1  Lock Update                        */
+    uint8_t  ONESHOT:1;        /*!< bit:      2  One-Shot on Counter                */
+    uint8_t  :2;               /*!< bit:  3.. 4  Reserved                           */
+    uint8_t  CMD:3;            /*!< bit:  5.. 7  Command                            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_CTRLBCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_CTRLBCLR_OFFSET          0x04         /**< \brief (TC_CTRLBCLR offset) Control B Clear */
+#define TC_CTRLBCLR_RESETVALUE      _U_(0x00)    /**< \brief (TC_CTRLBCLR reset_value) Control B Clear */
+
+#define TC_CTRLBCLR_DIR_Pos         0            /**< \brief (TC_CTRLBCLR) Counter Direction */
+#define TC_CTRLBCLR_DIR             (_U_(0x1) << TC_CTRLBCLR_DIR_Pos)
+#define TC_CTRLBCLR_LUPD_Pos        1            /**< \brief (TC_CTRLBCLR) Lock Update */
+#define TC_CTRLBCLR_LUPD            (_U_(0x1) << TC_CTRLBCLR_LUPD_Pos)
+#define TC_CTRLBCLR_ONESHOT_Pos     2            /**< \brief (TC_CTRLBCLR) One-Shot on Counter */
+#define TC_CTRLBCLR_ONESHOT         (_U_(0x1) << TC_CTRLBCLR_ONESHOT_Pos)
+#define TC_CTRLBCLR_CMD_Pos         5            /**< \brief (TC_CTRLBCLR) Command */
+#define TC_CTRLBCLR_CMD_Msk         (_U_(0x7) << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD(value)      (TC_CTRLBCLR_CMD_Msk & ((value) << TC_CTRLBCLR_CMD_Pos))
+#define   TC_CTRLBCLR_CMD_NONE_Val        _U_(0x0)   /**< \brief (TC_CTRLBCLR) No action */
+#define   TC_CTRLBCLR_CMD_RETRIGGER_Val   _U_(0x1)   /**< \brief (TC_CTRLBCLR) Force a start, restart or retrigger */
+#define   TC_CTRLBCLR_CMD_STOP_Val        _U_(0x2)   /**< \brief (TC_CTRLBCLR) Force a stop */
+#define   TC_CTRLBCLR_CMD_UPDATE_Val      _U_(0x3)   /**< \brief (TC_CTRLBCLR) Force update of double-buffered register */
+#define   TC_CTRLBCLR_CMD_READSYNC_Val    _U_(0x4)   /**< \brief (TC_CTRLBCLR) Force a read synchronization of COUNT */
+#define   TC_CTRLBCLR_CMD_DMAOS_Val       _U_(0x5)   /**< \brief (TC_CTRLBCLR) One-shot DMA trigger */
+#define TC_CTRLBCLR_CMD_NONE        (TC_CTRLBCLR_CMD_NONE_Val      << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD_RETRIGGER   (TC_CTRLBCLR_CMD_RETRIGGER_Val << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD_STOP        (TC_CTRLBCLR_CMD_STOP_Val      << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD_UPDATE      (TC_CTRLBCLR_CMD_UPDATE_Val    << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD_READSYNC    (TC_CTRLBCLR_CMD_READSYNC_Val  << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_CMD_DMAOS       (TC_CTRLBCLR_CMD_DMAOS_Val     << TC_CTRLBCLR_CMD_Pos)
+#define TC_CTRLBCLR_MASK            _U_(0xE7)    /**< \brief (TC_CTRLBCLR) MASK Register */
+
+/* -------- TC_CTRLBSET : (TC Offset: 0x05) (R/W  8) Control B Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DIR:1;            /*!< bit:      0  Counter Direction                  */
+    uint8_t  LUPD:1;           /*!< bit:      1  Lock Update                        */
+    uint8_t  ONESHOT:1;        /*!< bit:      2  One-Shot on Counter                */
+    uint8_t  :2;               /*!< bit:  3.. 4  Reserved                           */
+    uint8_t  CMD:3;            /*!< bit:  5.. 7  Command                            */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_CTRLBSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_CTRLBSET_OFFSET          0x05         /**< \brief (TC_CTRLBSET offset) Control B Set */
+#define TC_CTRLBSET_RESETVALUE      _U_(0x00)    /**< \brief (TC_CTRLBSET reset_value) Control B Set */
+
+#define TC_CTRLBSET_DIR_Pos         0            /**< \brief (TC_CTRLBSET) Counter Direction */
+#define TC_CTRLBSET_DIR             (_U_(0x1) << TC_CTRLBSET_DIR_Pos)
+#define TC_CTRLBSET_LUPD_Pos        1            /**< \brief (TC_CTRLBSET) Lock Update */
+#define TC_CTRLBSET_LUPD            (_U_(0x1) << TC_CTRLBSET_LUPD_Pos)
+#define TC_CTRLBSET_ONESHOT_Pos     2            /**< \brief (TC_CTRLBSET) One-Shot on Counter */
+#define TC_CTRLBSET_ONESHOT         (_U_(0x1) << TC_CTRLBSET_ONESHOT_Pos)
+#define TC_CTRLBSET_CMD_Pos         5            /**< \brief (TC_CTRLBSET) Command */
+#define TC_CTRLBSET_CMD_Msk         (_U_(0x7) << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD(value)      (TC_CTRLBSET_CMD_Msk & ((value) << TC_CTRLBSET_CMD_Pos))
+#define   TC_CTRLBSET_CMD_NONE_Val        _U_(0x0)   /**< \brief (TC_CTRLBSET) No action */
+#define   TC_CTRLBSET_CMD_RETRIGGER_Val   _U_(0x1)   /**< \brief (TC_CTRLBSET) Force a start, restart or retrigger */
+#define   TC_CTRLBSET_CMD_STOP_Val        _U_(0x2)   /**< \brief (TC_CTRLBSET) Force a stop */
+#define   TC_CTRLBSET_CMD_UPDATE_Val      _U_(0x3)   /**< \brief (TC_CTRLBSET) Force update of double-buffered register */
+#define   TC_CTRLBSET_CMD_READSYNC_Val    _U_(0x4)   /**< \brief (TC_CTRLBSET) Force a read synchronization of COUNT */
+#define   TC_CTRLBSET_CMD_DMAOS_Val       _U_(0x5)   /**< \brief (TC_CTRLBSET) One-shot DMA trigger */
+#define TC_CTRLBSET_CMD_NONE        (TC_CTRLBSET_CMD_NONE_Val      << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD_RETRIGGER   (TC_CTRLBSET_CMD_RETRIGGER_Val << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD_STOP        (TC_CTRLBSET_CMD_STOP_Val      << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD_UPDATE      (TC_CTRLBSET_CMD_UPDATE_Val    << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD_READSYNC    (TC_CTRLBSET_CMD_READSYNC_Val  << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_CMD_DMAOS       (TC_CTRLBSET_CMD_DMAOS_Val     << TC_CTRLBSET_CMD_Pos)
+#define TC_CTRLBSET_MASK            _U_(0xE7)    /**< \brief (TC_CTRLBSET) MASK Register */
+
+/* -------- TC_EVCTRL : (TC Offset: 0x06) (R/W 16) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t EVACT:3;          /*!< bit:  0.. 2  Event Action                       */
+    uint16_t :1;               /*!< bit:      3  Reserved                           */
+    uint16_t TCINV:1;          /*!< bit:      4  TC Event Input Polarity            */
+    uint16_t TCEI:1;           /*!< bit:      5  TC Event Enable                    */
+    uint16_t :2;               /*!< bit:  6.. 7  Reserved                           */
+    uint16_t OVFEO:1;          /*!< bit:      8  Event Output Enable                */
+    uint16_t :3;               /*!< bit:  9..11  Reserved                           */
+    uint16_t MCEO0:1;          /*!< bit:     12  MC Event Output Enable 0           */
+    uint16_t MCEO1:1;          /*!< bit:     13  MC Event Output Enable 1           */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t :12;              /*!< bit:  0..11  Reserved                           */
+    uint16_t MCEO:2;           /*!< bit: 12..13  MC Event Output Enable x           */
+    uint16_t :2;               /*!< bit: 14..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_EVCTRL_OFFSET            0x06         /**< \brief (TC_EVCTRL offset) Event Control */
+#define TC_EVCTRL_RESETVALUE        _U_(0x0000)  /**< \brief (TC_EVCTRL reset_value) Event Control */
+
+#define TC_EVCTRL_EVACT_Pos         0            /**< \brief (TC_EVCTRL) Event Action */
+#define TC_EVCTRL_EVACT_Msk         (_U_(0x7) << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT(value)      (TC_EVCTRL_EVACT_Msk & ((value) << TC_EVCTRL_EVACT_Pos))
+#define   TC_EVCTRL_EVACT_OFF_Val         _U_(0x0)   /**< \brief (TC_EVCTRL) Event action disabled */
+#define   TC_EVCTRL_EVACT_RETRIGGER_Val   _U_(0x1)   /**< \brief (TC_EVCTRL) Start, restart or retrigger TC on event */
+#define   TC_EVCTRL_EVACT_COUNT_Val       _U_(0x2)   /**< \brief (TC_EVCTRL) Count on event */
+#define   TC_EVCTRL_EVACT_START_Val       _U_(0x3)   /**< \brief (TC_EVCTRL) Start TC on event */
+#define   TC_EVCTRL_EVACT_STAMP_Val       _U_(0x4)   /**< \brief (TC_EVCTRL) Time stamp capture */
+#define   TC_EVCTRL_EVACT_PPW_Val         _U_(0x5)   /**< \brief (TC_EVCTRL) Period catured in CC0, pulse width in CC1 */
+#define   TC_EVCTRL_EVACT_PWP_Val         _U_(0x6)   /**< \brief (TC_EVCTRL) Period catured in CC1, pulse width in CC0 */
+#define   TC_EVCTRL_EVACT_PW_Val          _U_(0x7)   /**< \brief (TC_EVCTRL) Pulse width capture */
+#define TC_EVCTRL_EVACT_OFF         (TC_EVCTRL_EVACT_OFF_Val       << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_RETRIGGER   (TC_EVCTRL_EVACT_RETRIGGER_Val << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_COUNT       (TC_EVCTRL_EVACT_COUNT_Val     << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_START       (TC_EVCTRL_EVACT_START_Val     << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_STAMP       (TC_EVCTRL_EVACT_STAMP_Val     << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_PPW         (TC_EVCTRL_EVACT_PPW_Val       << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_PWP         (TC_EVCTRL_EVACT_PWP_Val       << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_EVACT_PW          (TC_EVCTRL_EVACT_PW_Val        << TC_EVCTRL_EVACT_Pos)
+#define TC_EVCTRL_TCINV_Pos         4            /**< \brief (TC_EVCTRL) TC Event Input Polarity */
+#define TC_EVCTRL_TCINV             (_U_(0x1) << TC_EVCTRL_TCINV_Pos)
+#define TC_EVCTRL_TCEI_Pos          5            /**< \brief (TC_EVCTRL) TC Event Enable */
+#define TC_EVCTRL_TCEI              (_U_(0x1) << TC_EVCTRL_TCEI_Pos)
+#define TC_EVCTRL_OVFEO_Pos         8            /**< \brief (TC_EVCTRL) Event Output Enable */
+#define TC_EVCTRL_OVFEO             (_U_(0x1) << TC_EVCTRL_OVFEO_Pos)
+#define TC_EVCTRL_MCEO0_Pos         12           /**< \brief (TC_EVCTRL) MC Event Output Enable 0 */
+#define TC_EVCTRL_MCEO0             (_U_(1) << TC_EVCTRL_MCEO0_Pos)
+#define TC_EVCTRL_MCEO1_Pos         13           /**< \brief (TC_EVCTRL) MC Event Output Enable 1 */
+#define TC_EVCTRL_MCEO1             (_U_(1) << TC_EVCTRL_MCEO1_Pos)
+#define TC_EVCTRL_MCEO_Pos          12           /**< \brief (TC_EVCTRL) MC Event Output Enable x */
+#define TC_EVCTRL_MCEO_Msk          (_U_(0x3) << TC_EVCTRL_MCEO_Pos)
+#define TC_EVCTRL_MCEO(value)       (TC_EVCTRL_MCEO_Msk & ((value) << TC_EVCTRL_MCEO_Pos))
+#define TC_EVCTRL_MASK              _U_(0x3137)  /**< \brief (TC_EVCTRL) MASK Register */
+
+/* -------- TC_INTENCLR : (TC Offset: 0x08) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  OVF:1;            /*!< bit:      0  OVF Interrupt Disable              */
+    uint8_t  ERR:1;            /*!< bit:      1  ERR Interrupt Disable              */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  MC0:1;            /*!< bit:      4  MC Interrupt Disable 0             */
+    uint8_t  MC1:1;            /*!< bit:      5  MC Interrupt Disable 1             */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  MC:2;             /*!< bit:  4.. 5  MC Interrupt Disable x             */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_INTENCLR_OFFSET          0x08         /**< \brief (TC_INTENCLR offset) Interrupt Enable Clear */
+#define TC_INTENCLR_RESETVALUE      _U_(0x00)    /**< \brief (TC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define TC_INTENCLR_OVF_Pos         0            /**< \brief (TC_INTENCLR) OVF Interrupt Disable */
+#define TC_INTENCLR_OVF             (_U_(0x1) << TC_INTENCLR_OVF_Pos)
+#define TC_INTENCLR_ERR_Pos         1            /**< \brief (TC_INTENCLR) ERR Interrupt Disable */
+#define TC_INTENCLR_ERR             (_U_(0x1) << TC_INTENCLR_ERR_Pos)
+#define TC_INTENCLR_MC0_Pos         4            /**< \brief (TC_INTENCLR) MC Interrupt Disable 0 */
+#define TC_INTENCLR_MC0             (_U_(1) << TC_INTENCLR_MC0_Pos)
+#define TC_INTENCLR_MC1_Pos         5            /**< \brief (TC_INTENCLR) MC Interrupt Disable 1 */
+#define TC_INTENCLR_MC1             (_U_(1) << TC_INTENCLR_MC1_Pos)
+#define TC_INTENCLR_MC_Pos          4            /**< \brief (TC_INTENCLR) MC Interrupt Disable x */
+#define TC_INTENCLR_MC_Msk          (_U_(0x3) << TC_INTENCLR_MC_Pos)
+#define TC_INTENCLR_MC(value)       (TC_INTENCLR_MC_Msk & ((value) << TC_INTENCLR_MC_Pos))
+#define TC_INTENCLR_MASK            _U_(0x33)    /**< \brief (TC_INTENCLR) MASK Register */
+
+/* -------- TC_INTENSET : (TC Offset: 0x09) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  OVF:1;            /*!< bit:      0  OVF Interrupt Enable               */
+    uint8_t  ERR:1;            /*!< bit:      1  ERR Interrupt Enable               */
+    uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    uint8_t  MC0:1;            /*!< bit:      4  MC Interrupt Enable 0              */
+    uint8_t  MC1:1;            /*!< bit:      5  MC Interrupt Enable 1              */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  MC:2;             /*!< bit:  4.. 5  MC Interrupt Enable x              */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_INTENSET_OFFSET          0x09         /**< \brief (TC_INTENSET offset) Interrupt Enable Set */
+#define TC_INTENSET_RESETVALUE      _U_(0x00)    /**< \brief (TC_INTENSET reset_value) Interrupt Enable Set */
+
+#define TC_INTENSET_OVF_Pos         0            /**< \brief (TC_INTENSET) OVF Interrupt Enable */
+#define TC_INTENSET_OVF             (_U_(0x1) << TC_INTENSET_OVF_Pos)
+#define TC_INTENSET_ERR_Pos         1            /**< \brief (TC_INTENSET) ERR Interrupt Enable */
+#define TC_INTENSET_ERR             (_U_(0x1) << TC_INTENSET_ERR_Pos)
+#define TC_INTENSET_MC0_Pos         4            /**< \brief (TC_INTENSET) MC Interrupt Enable 0 */
+#define TC_INTENSET_MC0             (_U_(1) << TC_INTENSET_MC0_Pos)
+#define TC_INTENSET_MC1_Pos         5            /**< \brief (TC_INTENSET) MC Interrupt Enable 1 */
+#define TC_INTENSET_MC1             (_U_(1) << TC_INTENSET_MC1_Pos)
+#define TC_INTENSET_MC_Pos          4            /**< \brief (TC_INTENSET) MC Interrupt Enable x */
+#define TC_INTENSET_MC_Msk          (_U_(0x3) << TC_INTENSET_MC_Pos)
+#define TC_INTENSET_MC(value)       (TC_INTENSET_MC_Msk & ((value) << TC_INTENSET_MC_Pos))
+#define TC_INTENSET_MASK            _U_(0x33)    /**< \brief (TC_INTENSET) MASK Register */
+
+/* -------- TC_INTFLAG : (TC Offset: 0x0A) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  OVF:1;            /*!< bit:      0  OVF Interrupt Flag                 */
+    __I uint8_t  ERR:1;            /*!< bit:      1  ERR Interrupt Flag                 */
+    __I uint8_t  :2;               /*!< bit:  2.. 3  Reserved                           */
+    __I uint8_t  MC0:1;            /*!< bit:      4  MC Interrupt Flag 0                */
+    __I uint8_t  MC1:1;            /*!< bit:      5  MC Interrupt Flag 1                */
+    __I uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    __I uint8_t  MC:2;             /*!< bit:  4.. 5  MC Interrupt Flag x                */
+    __I uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_INTFLAG_OFFSET           0x0A         /**< \brief (TC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define TC_INTFLAG_RESETVALUE       _U_(0x00)    /**< \brief (TC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define TC_INTFLAG_OVF_Pos          0            /**< \brief (TC_INTFLAG) OVF Interrupt Flag */
+#define TC_INTFLAG_OVF              (_U_(0x1) << TC_INTFLAG_OVF_Pos)
+#define TC_INTFLAG_ERR_Pos          1            /**< \brief (TC_INTFLAG) ERR Interrupt Flag */
+#define TC_INTFLAG_ERR              (_U_(0x1) << TC_INTFLAG_ERR_Pos)
+#define TC_INTFLAG_MC0_Pos          4            /**< \brief (TC_INTFLAG) MC Interrupt Flag 0 */
+#define TC_INTFLAG_MC0              (_U_(1) << TC_INTFLAG_MC0_Pos)
+#define TC_INTFLAG_MC1_Pos          5            /**< \brief (TC_INTFLAG) MC Interrupt Flag 1 */
+#define TC_INTFLAG_MC1              (_U_(1) << TC_INTFLAG_MC1_Pos)
+#define TC_INTFLAG_MC_Pos           4            /**< \brief (TC_INTFLAG) MC Interrupt Flag x */
+#define TC_INTFLAG_MC_Msk           (_U_(0x3) << TC_INTFLAG_MC_Pos)
+#define TC_INTFLAG_MC(value)        (TC_INTFLAG_MC_Msk & ((value) << TC_INTFLAG_MC_Pos))
+#define TC_INTFLAG_MASK             _U_(0x33)    /**< \brief (TC_INTFLAG) MASK Register */
+
+/* -------- TC_STATUS : (TC Offset: 0x0B) (R/W  8) Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  STOP:1;           /*!< bit:      0  Stop Status Flag                   */
+    uint8_t  SLAVE:1;          /*!< bit:      1  Slave Status Flag                  */
+    uint8_t  :1;               /*!< bit:      2  Reserved                           */
+    uint8_t  PERBUFV:1;        /*!< bit:      3  Synchronization Busy Status        */
+    uint8_t  CCBUFV0:1;        /*!< bit:      4  Compare channel buffer 0 valid     */
+    uint8_t  CCBUFV1:1;        /*!< bit:      5  Compare channel buffer 1 valid     */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  CCBUFV:2;         /*!< bit:  4.. 5  Compare channel buffer x valid     */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_STATUS_OFFSET            0x0B         /**< \brief (TC_STATUS offset) Status */
+#define TC_STATUS_RESETVALUE        _U_(0x01)    /**< \brief (TC_STATUS reset_value) Status */
+
+#define TC_STATUS_STOP_Pos          0            /**< \brief (TC_STATUS) Stop Status Flag */
+#define TC_STATUS_STOP              (_U_(0x1) << TC_STATUS_STOP_Pos)
+#define TC_STATUS_SLAVE_Pos         1            /**< \brief (TC_STATUS) Slave Status Flag */
+#define TC_STATUS_SLAVE             (_U_(0x1) << TC_STATUS_SLAVE_Pos)
+#define TC_STATUS_PERBUFV_Pos       3            /**< \brief (TC_STATUS) Synchronization Busy Status */
+#define TC_STATUS_PERBUFV           (_U_(0x1) << TC_STATUS_PERBUFV_Pos)
+#define TC_STATUS_CCBUFV0_Pos       4            /**< \brief (TC_STATUS) Compare channel buffer 0 valid */
+#define TC_STATUS_CCBUFV0           (_U_(1) << TC_STATUS_CCBUFV0_Pos)
+#define TC_STATUS_CCBUFV1_Pos       5            /**< \brief (TC_STATUS) Compare channel buffer 1 valid */
+#define TC_STATUS_CCBUFV1           (_U_(1) << TC_STATUS_CCBUFV1_Pos)
+#define TC_STATUS_CCBUFV_Pos        4            /**< \brief (TC_STATUS) Compare channel buffer x valid */
+#define TC_STATUS_CCBUFV_Msk        (_U_(0x3) << TC_STATUS_CCBUFV_Pos)
+#define TC_STATUS_CCBUFV(value)     (TC_STATUS_CCBUFV_Msk & ((value) << TC_STATUS_CCBUFV_Pos))
+#define TC_STATUS_MASK              _U_(0x3B)    /**< \brief (TC_STATUS) MASK Register */
+
+/* -------- TC_WAVE : (TC Offset: 0x0C) (R/W  8) Waveform Generation Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  WAVEGEN:2;        /*!< bit:  0.. 1  Waveform Generation Mode           */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_WAVE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_WAVE_OFFSET              0x0C         /**< \brief (TC_WAVE offset) Waveform Generation Control */
+#define TC_WAVE_RESETVALUE          _U_(0x00)    /**< \brief (TC_WAVE reset_value) Waveform Generation Control */
+
+#define TC_WAVE_WAVEGEN_Pos         0            /**< \brief (TC_WAVE) Waveform Generation Mode */
+#define TC_WAVE_WAVEGEN_Msk         (_U_(0x3) << TC_WAVE_WAVEGEN_Pos)
+#define TC_WAVE_WAVEGEN(value)      (TC_WAVE_WAVEGEN_Msk & ((value) << TC_WAVE_WAVEGEN_Pos))
+#define   TC_WAVE_WAVEGEN_NFRQ_Val        _U_(0x0)   /**< \brief (TC_WAVE) Normal frequency */
+#define   TC_WAVE_WAVEGEN_MFRQ_Val        _U_(0x1)   /**< \brief (TC_WAVE) Match frequency */
+#define   TC_WAVE_WAVEGEN_NPWM_Val        _U_(0x2)   /**< \brief (TC_WAVE) Normal PWM */
+#define   TC_WAVE_WAVEGEN_MPWM_Val        _U_(0x3)   /**< \brief (TC_WAVE) Match PWM */
+#define TC_WAVE_WAVEGEN_NFRQ        (TC_WAVE_WAVEGEN_NFRQ_Val      << TC_WAVE_WAVEGEN_Pos)
+#define TC_WAVE_WAVEGEN_MFRQ        (TC_WAVE_WAVEGEN_MFRQ_Val      << TC_WAVE_WAVEGEN_Pos)
+#define TC_WAVE_WAVEGEN_NPWM        (TC_WAVE_WAVEGEN_NPWM_Val      << TC_WAVE_WAVEGEN_Pos)
+#define TC_WAVE_WAVEGEN_MPWM        (TC_WAVE_WAVEGEN_MPWM_Val      << TC_WAVE_WAVEGEN_Pos)
+#define TC_WAVE_MASK                _U_(0x03)    /**< \brief (TC_WAVE) MASK Register */
+
+/* -------- TC_DRVCTRL : (TC Offset: 0x0D) (R/W  8) Control C -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  INVEN0:1;         /*!< bit:      0  Output Waveform Invert Enable 0    */
+    uint8_t  INVEN1:1;         /*!< bit:      1  Output Waveform Invert Enable 1    */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  INVEN:2;          /*!< bit:  0.. 1  Output Waveform Invert Enable x    */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_DRVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_DRVCTRL_OFFSET           0x0D         /**< \brief (TC_DRVCTRL offset) Control C */
+#define TC_DRVCTRL_RESETVALUE       _U_(0x00)    /**< \brief (TC_DRVCTRL reset_value) Control C */
+
+#define TC_DRVCTRL_INVEN0_Pos       0            /**< \brief (TC_DRVCTRL) Output Waveform Invert Enable 0 */
+#define TC_DRVCTRL_INVEN0           (_U_(1) << TC_DRVCTRL_INVEN0_Pos)
+#define TC_DRVCTRL_INVEN1_Pos       1            /**< \brief (TC_DRVCTRL) Output Waveform Invert Enable 1 */
+#define TC_DRVCTRL_INVEN1           (_U_(1) << TC_DRVCTRL_INVEN1_Pos)
+#define TC_DRVCTRL_INVEN_Pos        0            /**< \brief (TC_DRVCTRL) Output Waveform Invert Enable x */
+#define TC_DRVCTRL_INVEN_Msk        (_U_(0x3) << TC_DRVCTRL_INVEN_Pos)
+#define TC_DRVCTRL_INVEN(value)     (TC_DRVCTRL_INVEN_Msk & ((value) << TC_DRVCTRL_INVEN_Pos))
+#define TC_DRVCTRL_MASK             _U_(0x03)    /**< \brief (TC_DRVCTRL) MASK Register */
+
+/* -------- TC_DBGCTRL : (TC Offset: 0x0F) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Run During Debug                   */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_DBGCTRL_OFFSET           0x0F         /**< \brief (TC_DBGCTRL offset) Debug Control */
+#define TC_DBGCTRL_RESETVALUE       _U_(0x00)    /**< \brief (TC_DBGCTRL reset_value) Debug Control */
+
+#define TC_DBGCTRL_DBGRUN_Pos       0            /**< \brief (TC_DBGCTRL) Run During Debug */
+#define TC_DBGCTRL_DBGRUN           (_U_(0x1) << TC_DBGCTRL_DBGRUN_Pos)
+#define TC_DBGCTRL_MASK             _U_(0x01)    /**< \brief (TC_DBGCTRL) MASK Register */
+
+/* -------- TC_SYNCBUSY : (TC Offset: 0x10) (R/  32) Synchronization Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  swrst                              */
+    uint32_t ENABLE:1;         /*!< bit:      1  enable                             */
+    uint32_t CTRLB:1;          /*!< bit:      2  CTRLB                              */
+    uint32_t STATUS:1;         /*!< bit:      3  STATUS                             */
+    uint32_t COUNT:1;          /*!< bit:      4  Counter                            */
+    uint32_t PER:1;            /*!< bit:      5  Period                             */
+    uint32_t CC0:1;            /*!< bit:      6  Compare Channel 0                  */
+    uint32_t CC1:1;            /*!< bit:      7  Compare Channel 1                  */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :6;               /*!< bit:  0.. 5  Reserved                           */
+    uint32_t CC:2;             /*!< bit:  6.. 7  Compare Channel x                  */
+    uint32_t :24;              /*!< bit:  8..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TC_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_SYNCBUSY_OFFSET          0x10         /**< \brief (TC_SYNCBUSY offset) Synchronization Status */
+#define TC_SYNCBUSY_RESETVALUE      _U_(0x00000000) /**< \brief (TC_SYNCBUSY reset_value) Synchronization Status */
+
+#define TC_SYNCBUSY_SWRST_Pos       0            /**< \brief (TC_SYNCBUSY) swrst */
+#define TC_SYNCBUSY_SWRST           (_U_(0x1) << TC_SYNCBUSY_SWRST_Pos)
+#define TC_SYNCBUSY_ENABLE_Pos      1            /**< \brief (TC_SYNCBUSY) enable */
+#define TC_SYNCBUSY_ENABLE          (_U_(0x1) << TC_SYNCBUSY_ENABLE_Pos)
+#define TC_SYNCBUSY_CTRLB_Pos       2            /**< \brief (TC_SYNCBUSY) CTRLB */
+#define TC_SYNCBUSY_CTRLB           (_U_(0x1) << TC_SYNCBUSY_CTRLB_Pos)
+#define TC_SYNCBUSY_STATUS_Pos      3            /**< \brief (TC_SYNCBUSY) STATUS */
+#define TC_SYNCBUSY_STATUS          (_U_(0x1) << TC_SYNCBUSY_STATUS_Pos)
+#define TC_SYNCBUSY_COUNT_Pos       4            /**< \brief (TC_SYNCBUSY) Counter */
+#define TC_SYNCBUSY_COUNT           (_U_(0x1) << TC_SYNCBUSY_COUNT_Pos)
+#define TC_SYNCBUSY_PER_Pos         5            /**< \brief (TC_SYNCBUSY) Period */
+#define TC_SYNCBUSY_PER             (_U_(0x1) << TC_SYNCBUSY_PER_Pos)
+#define TC_SYNCBUSY_CC0_Pos         6            /**< \brief (TC_SYNCBUSY) Compare Channel 0 */
+#define TC_SYNCBUSY_CC0             (_U_(1) << TC_SYNCBUSY_CC0_Pos)
+#define TC_SYNCBUSY_CC1_Pos         7            /**< \brief (TC_SYNCBUSY) Compare Channel 1 */
+#define TC_SYNCBUSY_CC1             (_U_(1) << TC_SYNCBUSY_CC1_Pos)
+#define TC_SYNCBUSY_CC_Pos          6            /**< \brief (TC_SYNCBUSY) Compare Channel x */
+#define TC_SYNCBUSY_CC_Msk          (_U_(0x3) << TC_SYNCBUSY_CC_Pos)
+#define TC_SYNCBUSY_CC(value)       (TC_SYNCBUSY_CC_Msk & ((value) << TC_SYNCBUSY_CC_Pos))
+#define TC_SYNCBUSY_MASK            _U_(0x000000FF) /**< \brief (TC_SYNCBUSY) MASK Register */
+
+/* -------- TC_COUNT16_COUNT : (TC Offset: 0x14) (R/W 16) COUNT16 COUNT16 Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t COUNT:16;         /*!< bit:  0..15  Counter Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TC_COUNT16_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT16_COUNT_OFFSET     0x14         /**< \brief (TC_COUNT16_COUNT offset) COUNT16 Count */
+#define TC_COUNT16_COUNT_RESETVALUE _U_(0x0000)  /**< \brief (TC_COUNT16_COUNT reset_value) COUNT16 Count */
+
+#define TC_COUNT16_COUNT_COUNT_Pos  0            /**< \brief (TC_COUNT16_COUNT) Counter Value */
+#define TC_COUNT16_COUNT_COUNT_Msk  (_U_(0xFFFF) << TC_COUNT16_COUNT_COUNT_Pos)
+#define TC_COUNT16_COUNT_COUNT(value) (TC_COUNT16_COUNT_COUNT_Msk & ((value) << TC_COUNT16_COUNT_COUNT_Pos))
+#define TC_COUNT16_COUNT_MASK       _U_(0xFFFF)  /**< \brief (TC_COUNT16_COUNT) MASK Register */
+
+/* -------- TC_COUNT32_COUNT : (TC Offset: 0x14) (R/W 32) COUNT32 COUNT32 Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t COUNT:32;         /*!< bit:  0..31  Counter Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TC_COUNT32_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT32_COUNT_OFFSET     0x14         /**< \brief (TC_COUNT32_COUNT offset) COUNT32 Count */
+#define TC_COUNT32_COUNT_RESETVALUE _U_(0x00000000) /**< \brief (TC_COUNT32_COUNT reset_value) COUNT32 Count */
+
+#define TC_COUNT32_COUNT_COUNT_Pos  0            /**< \brief (TC_COUNT32_COUNT) Counter Value */
+#define TC_COUNT32_COUNT_COUNT_Msk  (_U_(0xFFFFFFFF) << TC_COUNT32_COUNT_COUNT_Pos)
+#define TC_COUNT32_COUNT_COUNT(value) (TC_COUNT32_COUNT_COUNT_Msk & ((value) << TC_COUNT32_COUNT_COUNT_Pos))
+#define TC_COUNT32_COUNT_MASK       _U_(0xFFFFFFFF) /**< \brief (TC_COUNT32_COUNT) MASK Register */
+
+/* -------- TC_COUNT8_COUNT : (TC Offset: 0x14) (R/W  8) COUNT8 COUNT8 Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  COUNT:8;          /*!< bit:  0.. 7  Counter Value                      */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_COUNT8_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT8_COUNT_OFFSET      0x14         /**< \brief (TC_COUNT8_COUNT offset) COUNT8 Count */
+#define TC_COUNT8_COUNT_RESETVALUE  _U_(0x00)    /**< \brief (TC_COUNT8_COUNT reset_value) COUNT8 Count */
+
+#define TC_COUNT8_COUNT_COUNT_Pos   0            /**< \brief (TC_COUNT8_COUNT) Counter Value */
+#define TC_COUNT8_COUNT_COUNT_Msk   (_U_(0xFF) << TC_COUNT8_COUNT_COUNT_Pos)
+#define TC_COUNT8_COUNT_COUNT(value) (TC_COUNT8_COUNT_COUNT_Msk & ((value) << TC_COUNT8_COUNT_COUNT_Pos))
+#define TC_COUNT8_COUNT_MASK        _U_(0xFF)    /**< \brief (TC_COUNT8_COUNT) MASK Register */
+
+/* -------- TC_COUNT8_PER : (TC Offset: 0x1B) (R/W  8) COUNT8 COUNT8 Period -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PER:8;            /*!< bit:  0.. 7  Period Value                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_COUNT8_PER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT8_PER_OFFSET        0x1B         /**< \brief (TC_COUNT8_PER offset) COUNT8 Period */
+#define TC_COUNT8_PER_RESETVALUE    _U_(0xFF)    /**< \brief (TC_COUNT8_PER reset_value) COUNT8 Period */
+
+#define TC_COUNT8_PER_PER_Pos       0            /**< \brief (TC_COUNT8_PER) Period Value */
+#define TC_COUNT8_PER_PER_Msk       (_U_(0xFF) << TC_COUNT8_PER_PER_Pos)
+#define TC_COUNT8_PER_PER(value)    (TC_COUNT8_PER_PER_Msk & ((value) << TC_COUNT8_PER_PER_Pos))
+#define TC_COUNT8_PER_MASK          _U_(0xFF)    /**< \brief (TC_COUNT8_PER) MASK Register */
+
+/* -------- TC_COUNT16_CC : (TC Offset: 0x1C) (R/W 16) COUNT16 COUNT16 Compare and Capture -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t CC:16;            /*!< bit:  0..15  Counter/Compare Value              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TC_COUNT16_CC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT16_CC_OFFSET        0x1C         /**< \brief (TC_COUNT16_CC offset) COUNT16 Compare and Capture */
+#define TC_COUNT16_CC_RESETVALUE    _U_(0x0000)  /**< \brief (TC_COUNT16_CC reset_value) COUNT16 Compare and Capture */
+
+#define TC_COUNT16_CC_CC_Pos        0            /**< \brief (TC_COUNT16_CC) Counter/Compare Value */
+#define TC_COUNT16_CC_CC_Msk        (_U_(0xFFFF) << TC_COUNT16_CC_CC_Pos)
+#define TC_COUNT16_CC_CC(value)     (TC_COUNT16_CC_CC_Msk & ((value) << TC_COUNT16_CC_CC_Pos))
+#define TC_COUNT16_CC_MASK          _U_(0xFFFF)  /**< \brief (TC_COUNT16_CC) MASK Register */
+
+/* -------- TC_COUNT32_CC : (TC Offset: 0x1C) (R/W 32) COUNT32 COUNT32 Compare and Capture -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CC:32;            /*!< bit:  0..31  Counter/Compare Value              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TC_COUNT32_CC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT32_CC_OFFSET        0x1C         /**< \brief (TC_COUNT32_CC offset) COUNT32 Compare and Capture */
+#define TC_COUNT32_CC_RESETVALUE    _U_(0x00000000) /**< \brief (TC_COUNT32_CC reset_value) COUNT32 Compare and Capture */
+
+#define TC_COUNT32_CC_CC_Pos        0            /**< \brief (TC_COUNT32_CC) Counter/Compare Value */
+#define TC_COUNT32_CC_CC_Msk        (_U_(0xFFFFFFFF) << TC_COUNT32_CC_CC_Pos)
+#define TC_COUNT32_CC_CC(value)     (TC_COUNT32_CC_CC_Msk & ((value) << TC_COUNT32_CC_CC_Pos))
+#define TC_COUNT32_CC_MASK          _U_(0xFFFFFFFF) /**< \brief (TC_COUNT32_CC) MASK Register */
+
+/* -------- TC_COUNT8_CC : (TC Offset: 0x1C) (R/W  8) COUNT8 COUNT8 Compare and Capture -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CC:8;             /*!< bit:  0.. 7  Counter/Compare Value              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_COUNT8_CC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT8_CC_OFFSET         0x1C         /**< \brief (TC_COUNT8_CC offset) COUNT8 Compare and Capture */
+#define TC_COUNT8_CC_RESETVALUE     _U_(0x00)    /**< \brief (TC_COUNT8_CC reset_value) COUNT8 Compare and Capture */
+
+#define TC_COUNT8_CC_CC_Pos         0            /**< \brief (TC_COUNT8_CC) Counter/Compare Value */
+#define TC_COUNT8_CC_CC_Msk         (_U_(0xFF) << TC_COUNT8_CC_CC_Pos)
+#define TC_COUNT8_CC_CC(value)      (TC_COUNT8_CC_CC_Msk & ((value) << TC_COUNT8_CC_CC_Pos))
+#define TC_COUNT8_CC_MASK           _U_(0xFF)    /**< \brief (TC_COUNT8_CC) MASK Register */
+
+/* -------- TC_COUNT8_PERBUF : (TC Offset: 0x2F) (R/W  8) COUNT8 COUNT8 Period Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PERBUF:8;         /*!< bit:  0.. 7  Period Buffer Value                */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_COUNT8_PERBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT8_PERBUF_OFFSET     0x2F         /**< \brief (TC_COUNT8_PERBUF offset) COUNT8 Period Buffer */
+#define TC_COUNT8_PERBUF_RESETVALUE _U_(0xFF)    /**< \brief (TC_COUNT8_PERBUF reset_value) COUNT8 Period Buffer */
+
+#define TC_COUNT8_PERBUF_PERBUF_Pos 0            /**< \brief (TC_COUNT8_PERBUF) Period Buffer Value */
+#define TC_COUNT8_PERBUF_PERBUF_Msk (_U_(0xFF) << TC_COUNT8_PERBUF_PERBUF_Pos)
+#define TC_COUNT8_PERBUF_PERBUF(value) (TC_COUNT8_PERBUF_PERBUF_Msk & ((value) << TC_COUNT8_PERBUF_PERBUF_Pos))
+#define TC_COUNT8_PERBUF_MASK       _U_(0xFF)    /**< \brief (TC_COUNT8_PERBUF) MASK Register */
+
+/* -------- TC_COUNT16_CCBUF : (TC Offset: 0x30) (R/W 16) COUNT16 COUNT16 Compare and Capture Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t CCBUF:16;         /*!< bit:  0..15  Counter/Compare Buffer Value       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TC_COUNT16_CCBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT16_CCBUF_OFFSET     0x30         /**< \brief (TC_COUNT16_CCBUF offset) COUNT16 Compare and Capture Buffer */
+#define TC_COUNT16_CCBUF_RESETVALUE _U_(0x0000)  /**< \brief (TC_COUNT16_CCBUF reset_value) COUNT16 Compare and Capture Buffer */
+
+#define TC_COUNT16_CCBUF_CCBUF_Pos  0            /**< \brief (TC_COUNT16_CCBUF) Counter/Compare Buffer Value */
+#define TC_COUNT16_CCBUF_CCBUF_Msk  (_U_(0xFFFF) << TC_COUNT16_CCBUF_CCBUF_Pos)
+#define TC_COUNT16_CCBUF_CCBUF(value) (TC_COUNT16_CCBUF_CCBUF_Msk & ((value) << TC_COUNT16_CCBUF_CCBUF_Pos))
+#define TC_COUNT16_CCBUF_MASK       _U_(0xFFFF)  /**< \brief (TC_COUNT16_CCBUF) MASK Register */
+
+/* -------- TC_COUNT32_CCBUF : (TC Offset: 0x30) (R/W 32) COUNT32 COUNT32 Compare and Capture Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t CCBUF:32;         /*!< bit:  0..31  Counter/Compare Buffer Value       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TC_COUNT32_CCBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT32_CCBUF_OFFSET     0x30         /**< \brief (TC_COUNT32_CCBUF offset) COUNT32 Compare and Capture Buffer */
+#define TC_COUNT32_CCBUF_RESETVALUE _U_(0x00000000) /**< \brief (TC_COUNT32_CCBUF reset_value) COUNT32 Compare and Capture Buffer */
+
+#define TC_COUNT32_CCBUF_CCBUF_Pos  0            /**< \brief (TC_COUNT32_CCBUF) Counter/Compare Buffer Value */
+#define TC_COUNT32_CCBUF_CCBUF_Msk  (_U_(0xFFFFFFFF) << TC_COUNT32_CCBUF_CCBUF_Pos)
+#define TC_COUNT32_CCBUF_CCBUF(value) (TC_COUNT32_CCBUF_CCBUF_Msk & ((value) << TC_COUNT32_CCBUF_CCBUF_Pos))
+#define TC_COUNT32_CCBUF_MASK       _U_(0xFFFFFFFF) /**< \brief (TC_COUNT32_CCBUF) MASK Register */
+
+/* -------- TC_COUNT8_CCBUF : (TC Offset: 0x30) (R/W  8) COUNT8 COUNT8 Compare and Capture Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CCBUF:8;          /*!< bit:  0.. 7  Counter/Compare Buffer Value       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TC_COUNT8_CCBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TC_COUNT8_CCBUF_OFFSET      0x30         /**< \brief (TC_COUNT8_CCBUF offset) COUNT8 Compare and Capture Buffer */
+#define TC_COUNT8_CCBUF_RESETVALUE  _U_(0x00)    /**< \brief (TC_COUNT8_CCBUF reset_value) COUNT8 Compare and Capture Buffer */
+
+#define TC_COUNT8_CCBUF_CCBUF_Pos   0            /**< \brief (TC_COUNT8_CCBUF) Counter/Compare Buffer Value */
+#define TC_COUNT8_CCBUF_CCBUF_Msk   (_U_(0xFF) << TC_COUNT8_CCBUF_CCBUF_Pos)
+#define TC_COUNT8_CCBUF_CCBUF(value) (TC_COUNT8_CCBUF_CCBUF_Msk & ((value) << TC_COUNT8_CCBUF_CCBUF_Pos))
+#define TC_COUNT8_CCBUF_MASK        _U_(0xFF)    /**< \brief (TC_COUNT8_CCBUF) MASK Register */
+
+/** \brief TC_COUNT8 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* 8-bit Counter Mode */
+  __IO TC_CTRLA_Type             CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO TC_CTRLBCLR_Type          CTRLBCLR;    /**< \brief Offset: 0x04 (R/W  8) Control B Clear */
+  __IO TC_CTRLBSET_Type          CTRLBSET;    /**< \brief Offset: 0x05 (R/W  8) Control B Set */
+  __IO TC_EVCTRL_Type            EVCTRL;      /**< \brief Offset: 0x06 (R/W 16) Event Control */
+  __IO TC_INTENCLR_Type          INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt Enable Clear */
+  __IO TC_INTENSET_Type          INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt Enable Set */
+  __IO TC_INTFLAG_Type           INTFLAG;     /**< \brief Offset: 0x0A (R/W  8) Interrupt Flag Status and Clear */
+  __IO TC_STATUS_Type            STATUS;      /**< \brief Offset: 0x0B (R/W  8) Status */
+  __IO TC_WAVE_Type              WAVE;        /**< \brief Offset: 0x0C (R/W  8) Waveform Generation Control */
+  __IO TC_DRVCTRL_Type           DRVCTRL;     /**< \brief Offset: 0x0D (R/W  8) Control C */
+       RoReg8                    Reserved1[0x1];
+  __IO TC_DBGCTRL_Type           DBGCTRL;     /**< \brief Offset: 0x0F (R/W  8) Debug Control */
+  __I  TC_SYNCBUSY_Type          SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) Synchronization Status */
+  __IO TC_COUNT8_COUNT_Type      COUNT;       /**< \brief Offset: 0x14 (R/W  8) COUNT8 Count */
+       RoReg8                    Reserved2[0x6];
+  __IO TC_COUNT8_PER_Type        PER;         /**< \brief Offset: 0x1B (R/W  8) COUNT8 Period */
+  __IO TC_COUNT8_CC_Type         CC[2];       /**< \brief Offset: 0x1C (R/W  8) COUNT8 Compare and Capture */
+       RoReg8                    Reserved3[0x11];
+  __IO TC_COUNT8_PERBUF_Type     PERBUF;      /**< \brief Offset: 0x2F (R/W  8) COUNT8 Period Buffer */
+  __IO TC_COUNT8_CCBUF_Type      CCBUF[2];    /**< \brief Offset: 0x30 (R/W  8) COUNT8 Compare and Capture Buffer */
+} TcCount8;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief TC_COUNT16 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* 16-bit Counter Mode */
+  __IO TC_CTRLA_Type             CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO TC_CTRLBCLR_Type          CTRLBCLR;    /**< \brief Offset: 0x04 (R/W  8) Control B Clear */
+  __IO TC_CTRLBSET_Type          CTRLBSET;    /**< \brief Offset: 0x05 (R/W  8) Control B Set */
+  __IO TC_EVCTRL_Type            EVCTRL;      /**< \brief Offset: 0x06 (R/W 16) Event Control */
+  __IO TC_INTENCLR_Type          INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt Enable Clear */
+  __IO TC_INTENSET_Type          INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt Enable Set */
+  __IO TC_INTFLAG_Type           INTFLAG;     /**< \brief Offset: 0x0A (R/W  8) Interrupt Flag Status and Clear */
+  __IO TC_STATUS_Type            STATUS;      /**< \brief Offset: 0x0B (R/W  8) Status */
+  __IO TC_WAVE_Type              WAVE;        /**< \brief Offset: 0x0C (R/W  8) Waveform Generation Control */
+  __IO TC_DRVCTRL_Type           DRVCTRL;     /**< \brief Offset: 0x0D (R/W  8) Control C */
+       RoReg8                    Reserved1[0x1];
+  __IO TC_DBGCTRL_Type           DBGCTRL;     /**< \brief Offset: 0x0F (R/W  8) Debug Control */
+  __I  TC_SYNCBUSY_Type          SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) Synchronization Status */
+  __IO TC_COUNT16_COUNT_Type     COUNT;       /**< \brief Offset: 0x14 (R/W 16) COUNT16 Count */
+       RoReg8                    Reserved2[0x6];
+  __IO TC_COUNT16_CC_Type        CC[2];       /**< \brief Offset: 0x1C (R/W 16) COUNT16 Compare and Capture */
+       RoReg8                    Reserved3[0x10];
+  __IO TC_COUNT16_CCBUF_Type     CCBUF[2];    /**< \brief Offset: 0x30 (R/W 16) COUNT16 Compare and Capture Buffer */
+} TcCount16;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief TC_COUNT32 hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* 32-bit Counter Mode */
+  __IO TC_CTRLA_Type             CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO TC_CTRLBCLR_Type          CTRLBCLR;    /**< \brief Offset: 0x04 (R/W  8) Control B Clear */
+  __IO TC_CTRLBSET_Type          CTRLBSET;    /**< \brief Offset: 0x05 (R/W  8) Control B Set */
+  __IO TC_EVCTRL_Type            EVCTRL;      /**< \brief Offset: 0x06 (R/W 16) Event Control */
+  __IO TC_INTENCLR_Type          INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt Enable Clear */
+  __IO TC_INTENSET_Type          INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt Enable Set */
+  __IO TC_INTFLAG_Type           INTFLAG;     /**< \brief Offset: 0x0A (R/W  8) Interrupt Flag Status and Clear */
+  __IO TC_STATUS_Type            STATUS;      /**< \brief Offset: 0x0B (R/W  8) Status */
+  __IO TC_WAVE_Type              WAVE;        /**< \brief Offset: 0x0C (R/W  8) Waveform Generation Control */
+  __IO TC_DRVCTRL_Type           DRVCTRL;     /**< \brief Offset: 0x0D (R/W  8) Control C */
+       RoReg8                    Reserved1[0x1];
+  __IO TC_DBGCTRL_Type           DBGCTRL;     /**< \brief Offset: 0x0F (R/W  8) Debug Control */
+  __I  TC_SYNCBUSY_Type          SYNCBUSY;    /**< \brief Offset: 0x10 (R/  32) Synchronization Status */
+  __IO TC_COUNT32_COUNT_Type     COUNT;       /**< \brief Offset: 0x14 (R/W 32) COUNT32 Count */
+       RoReg8                    Reserved2[0x4];
+  __IO TC_COUNT32_CC_Type        CC[2];       /**< \brief Offset: 0x1C (R/W 32) COUNT32 Compare and Capture */
+       RoReg8                    Reserved3[0xC];
+  __IO TC_COUNT32_CCBUF_Type     CCBUF[2];    /**< \brief Offset: 0x30 (R/W 32) COUNT32 Compare and Capture Buffer */
+} TcCount32;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+       TcCount8                  COUNT8;      /**< \brief Offset: 0x00 8-bit Counter Mode */
+       TcCount16                 COUNT16;     /**< \brief Offset: 0x00 16-bit Counter Mode */
+       TcCount32                 COUNT32;     /**< \brief Offset: 0x00 32-bit Counter Mode */
+} Tc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_TC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/tcc.h b/watch-library/hardware/include/component/tcc.h
new file mode 100644
index 00000000..6f5161d1
--- /dev/null
+++ b/watch-library/hardware/include/component/tcc.h
@@ -0,0 +1,1702 @@
+/**
+ * \file
+ *
+ * \brief Component description for TCC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TCC_COMPONENT_
+#define _SAML22_TCC_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR TCC */
+/* ========================================================================== */
+/** \addtogroup SAML22_TCC Timer Counter Control */
+/*@{*/
+
+#define TCC_U2213
+#define REV_TCC                     0x300
+
+/* -------- TCC_CTRLA : (TCC Offset: 0x00) (R/W 32) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint32_t :3;               /*!< bit:  2.. 4  Reserved                           */
+    uint32_t RESOLUTION:2;     /*!< bit:  5.. 6  Enhanced Resolution                */
+    uint32_t :1;               /*!< bit:      7  Reserved                           */
+    uint32_t PRESCALER:3;      /*!< bit:  8..10  Prescaler                          */
+    uint32_t RUNSTDBY:1;       /*!< bit:     11  Run in Standby                     */
+    uint32_t PRESCSYNC:2;      /*!< bit: 12..13  Prescaler and Counter Synchronization Selection */
+    uint32_t ALOCK:1;          /*!< bit:     14  Auto Lock                          */
+    uint32_t MSYNC:1;          /*!< bit:     15  Master Synchronization (only for TCC Slave Instance) */
+    uint32_t :7;               /*!< bit: 16..22  Reserved                           */
+    uint32_t DMAOS:1;          /*!< bit:     23  DMA One-shot Trigger Mode          */
+    uint32_t CPTEN0:1;         /*!< bit:     24  Capture Channel 0 Enable           */
+    uint32_t CPTEN1:1;         /*!< bit:     25  Capture Channel 1 Enable           */
+    uint32_t CPTEN2:1;         /*!< bit:     26  Capture Channel 2 Enable           */
+    uint32_t CPTEN3:1;         /*!< bit:     27  Capture Channel 3 Enable           */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :24;              /*!< bit:  0..23  Reserved                           */
+    uint32_t CPTEN:4;          /*!< bit: 24..27  Capture Channel x Enable           */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_CTRLA_OFFSET            0x00         /**< \brief (TCC_CTRLA offset) Control A */
+#define TCC_CTRLA_RESETVALUE        _U_(0x00000000) /**< \brief (TCC_CTRLA reset_value) Control A */
+
+#define TCC_CTRLA_SWRST_Pos         0            /**< \brief (TCC_CTRLA) Software Reset */
+#define TCC_CTRLA_SWRST             (_U_(0x1) << TCC_CTRLA_SWRST_Pos)
+#define TCC_CTRLA_ENABLE_Pos        1            /**< \brief (TCC_CTRLA) Enable */
+#define TCC_CTRLA_ENABLE            (_U_(0x1) << TCC_CTRLA_ENABLE_Pos)
+#define TCC_CTRLA_RESOLUTION_Pos    5            /**< \brief (TCC_CTRLA) Enhanced Resolution */
+#define TCC_CTRLA_RESOLUTION_Msk    (_U_(0x3) << TCC_CTRLA_RESOLUTION_Pos)
+#define TCC_CTRLA_RESOLUTION(value) (TCC_CTRLA_RESOLUTION_Msk & ((value) << TCC_CTRLA_RESOLUTION_Pos))
+#define   TCC_CTRLA_RESOLUTION_NONE_Val   _U_(0x0)   /**< \brief (TCC_CTRLA) Dithering is disabled */
+#define   TCC_CTRLA_RESOLUTION_DITH4_Val  _U_(0x1)   /**< \brief (TCC_CTRLA) Dithering is done every 16 PWM frames */
+#define   TCC_CTRLA_RESOLUTION_DITH5_Val  _U_(0x2)   /**< \brief (TCC_CTRLA) Dithering is done every 32 PWM frames */
+#define   TCC_CTRLA_RESOLUTION_DITH6_Val  _U_(0x3)   /**< \brief (TCC_CTRLA) Dithering is done every 64 PWM frames */
+#define TCC_CTRLA_RESOLUTION_NONE   (TCC_CTRLA_RESOLUTION_NONE_Val << TCC_CTRLA_RESOLUTION_Pos)
+#define TCC_CTRLA_RESOLUTION_DITH4  (TCC_CTRLA_RESOLUTION_DITH4_Val << TCC_CTRLA_RESOLUTION_Pos)
+#define TCC_CTRLA_RESOLUTION_DITH5  (TCC_CTRLA_RESOLUTION_DITH5_Val << TCC_CTRLA_RESOLUTION_Pos)
+#define TCC_CTRLA_RESOLUTION_DITH6  (TCC_CTRLA_RESOLUTION_DITH6_Val << TCC_CTRLA_RESOLUTION_Pos)
+#define TCC_CTRLA_PRESCALER_Pos     8            /**< \brief (TCC_CTRLA) Prescaler */
+#define TCC_CTRLA_PRESCALER_Msk     (_U_(0x7) << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER(value)  (TCC_CTRLA_PRESCALER_Msk & ((value) << TCC_CTRLA_PRESCALER_Pos))
+#define   TCC_CTRLA_PRESCALER_DIV1_Val    _U_(0x0)   /**< \brief (TCC_CTRLA) No division */
+#define   TCC_CTRLA_PRESCALER_DIV2_Val    _U_(0x1)   /**< \brief (TCC_CTRLA) Divide by 2 */
+#define   TCC_CTRLA_PRESCALER_DIV4_Val    _U_(0x2)   /**< \brief (TCC_CTRLA) Divide by 4 */
+#define   TCC_CTRLA_PRESCALER_DIV8_Val    _U_(0x3)   /**< \brief (TCC_CTRLA) Divide by 8 */
+#define   TCC_CTRLA_PRESCALER_DIV16_Val   _U_(0x4)   /**< \brief (TCC_CTRLA) Divide by 16 */
+#define   TCC_CTRLA_PRESCALER_DIV64_Val   _U_(0x5)   /**< \brief (TCC_CTRLA) Divide by 64 */
+#define   TCC_CTRLA_PRESCALER_DIV256_Val  _U_(0x6)   /**< \brief (TCC_CTRLA) Divide by 256 */
+#define   TCC_CTRLA_PRESCALER_DIV1024_Val _U_(0x7)   /**< \brief (TCC_CTRLA) Divide by 1024 */
+#define TCC_CTRLA_PRESCALER_DIV1    (TCC_CTRLA_PRESCALER_DIV1_Val  << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV2    (TCC_CTRLA_PRESCALER_DIV2_Val  << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV4    (TCC_CTRLA_PRESCALER_DIV4_Val  << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV8    (TCC_CTRLA_PRESCALER_DIV8_Val  << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV16   (TCC_CTRLA_PRESCALER_DIV16_Val << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV64   (TCC_CTRLA_PRESCALER_DIV64_Val << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV256  (TCC_CTRLA_PRESCALER_DIV256_Val << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_PRESCALER_DIV1024 (TCC_CTRLA_PRESCALER_DIV1024_Val << TCC_CTRLA_PRESCALER_Pos)
+#define TCC_CTRLA_RUNSTDBY_Pos      11           /**< \brief (TCC_CTRLA) Run in Standby */
+#define TCC_CTRLA_RUNSTDBY          (_U_(0x1) << TCC_CTRLA_RUNSTDBY_Pos)
+#define TCC_CTRLA_PRESCSYNC_Pos     12           /**< \brief (TCC_CTRLA) Prescaler and Counter Synchronization Selection */
+#define TCC_CTRLA_PRESCSYNC_Msk     (_U_(0x3) << TCC_CTRLA_PRESCSYNC_Pos)
+#define TCC_CTRLA_PRESCSYNC(value)  (TCC_CTRLA_PRESCSYNC_Msk & ((value) << TCC_CTRLA_PRESCSYNC_Pos))
+#define   TCC_CTRLA_PRESCSYNC_GCLK_Val    _U_(0x0)   /**< \brief (TCC_CTRLA) Reload or reset counter on next GCLK */
+#define   TCC_CTRLA_PRESCSYNC_PRESC_Val   _U_(0x1)   /**< \brief (TCC_CTRLA) Reload or reset counter on next prescaler clock */
+#define   TCC_CTRLA_PRESCSYNC_RESYNC_Val  _U_(0x2)   /**< \brief (TCC_CTRLA) Reload or reset counter on next GCLK and reset prescaler counter */
+#define TCC_CTRLA_PRESCSYNC_GCLK    (TCC_CTRLA_PRESCSYNC_GCLK_Val  << TCC_CTRLA_PRESCSYNC_Pos)
+#define TCC_CTRLA_PRESCSYNC_PRESC   (TCC_CTRLA_PRESCSYNC_PRESC_Val << TCC_CTRLA_PRESCSYNC_Pos)
+#define TCC_CTRLA_PRESCSYNC_RESYNC  (TCC_CTRLA_PRESCSYNC_RESYNC_Val << TCC_CTRLA_PRESCSYNC_Pos)
+#define TCC_CTRLA_ALOCK_Pos         14           /**< \brief (TCC_CTRLA) Auto Lock */
+#define TCC_CTRLA_ALOCK             (_U_(0x1) << TCC_CTRLA_ALOCK_Pos)
+#define TCC_CTRLA_MSYNC_Pos         15           /**< \brief (TCC_CTRLA) Master Synchronization (only for TCC Slave Instance) */
+#define TCC_CTRLA_MSYNC             (_U_(0x1) << TCC_CTRLA_MSYNC_Pos)
+#define TCC_CTRLA_DMAOS_Pos         23           /**< \brief (TCC_CTRLA) DMA One-shot Trigger Mode */
+#define TCC_CTRLA_DMAOS             (_U_(0x1) << TCC_CTRLA_DMAOS_Pos)
+#define TCC_CTRLA_CPTEN0_Pos        24           /**< \brief (TCC_CTRLA) Capture Channel 0 Enable */
+#define TCC_CTRLA_CPTEN0            (_U_(1) << TCC_CTRLA_CPTEN0_Pos)
+#define TCC_CTRLA_CPTEN1_Pos        25           /**< \brief (TCC_CTRLA) Capture Channel 1 Enable */
+#define TCC_CTRLA_CPTEN1            (_U_(1) << TCC_CTRLA_CPTEN1_Pos)
+#define TCC_CTRLA_CPTEN2_Pos        26           /**< \brief (TCC_CTRLA) Capture Channel 2 Enable */
+#define TCC_CTRLA_CPTEN2            (_U_(1) << TCC_CTRLA_CPTEN2_Pos)
+#define TCC_CTRLA_CPTEN3_Pos        27           /**< \brief (TCC_CTRLA) Capture Channel 3 Enable */
+#define TCC_CTRLA_CPTEN3            (_U_(1) << TCC_CTRLA_CPTEN3_Pos)
+#define TCC_CTRLA_CPTEN_Pos         24           /**< \brief (TCC_CTRLA) Capture Channel x Enable */
+#define TCC_CTRLA_CPTEN_Msk         (_U_(0xF) << TCC_CTRLA_CPTEN_Pos)
+#define TCC_CTRLA_CPTEN(value)      (TCC_CTRLA_CPTEN_Msk & ((value) << TCC_CTRLA_CPTEN_Pos))
+#define TCC_CTRLA_MASK              _U_(0x0F80FF63) /**< \brief (TCC_CTRLA) MASK Register */
+
+/* -------- TCC_CTRLBCLR : (TCC Offset: 0x04) (R/W  8) Control B Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DIR:1;            /*!< bit:      0  Counter Direction                  */
+    uint8_t  LUPD:1;           /*!< bit:      1  Lock Update                        */
+    uint8_t  ONESHOT:1;        /*!< bit:      2  One-Shot                           */
+    uint8_t  IDXCMD:2;         /*!< bit:  3.. 4  Ramp Index Command                 */
+    uint8_t  CMD:3;            /*!< bit:  5.. 7  TCC Command                        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TCC_CTRLBCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_CTRLBCLR_OFFSET         0x04         /**< \brief (TCC_CTRLBCLR offset) Control B Clear */
+#define TCC_CTRLBCLR_RESETVALUE     _U_(0x00)    /**< \brief (TCC_CTRLBCLR reset_value) Control B Clear */
+
+#define TCC_CTRLBCLR_DIR_Pos        0            /**< \brief (TCC_CTRLBCLR) Counter Direction */
+#define TCC_CTRLBCLR_DIR            (_U_(0x1) << TCC_CTRLBCLR_DIR_Pos)
+#define TCC_CTRLBCLR_LUPD_Pos       1            /**< \brief (TCC_CTRLBCLR) Lock Update */
+#define TCC_CTRLBCLR_LUPD           (_U_(0x1) << TCC_CTRLBCLR_LUPD_Pos)
+#define TCC_CTRLBCLR_ONESHOT_Pos    2            /**< \brief (TCC_CTRLBCLR) One-Shot */
+#define TCC_CTRLBCLR_ONESHOT        (_U_(0x1) << TCC_CTRLBCLR_ONESHOT_Pos)
+#define TCC_CTRLBCLR_IDXCMD_Pos     3            /**< \brief (TCC_CTRLBCLR) Ramp Index Command */
+#define TCC_CTRLBCLR_IDXCMD_Msk     (_U_(0x3) << TCC_CTRLBCLR_IDXCMD_Pos)
+#define TCC_CTRLBCLR_IDXCMD(value)  (TCC_CTRLBCLR_IDXCMD_Msk & ((value) << TCC_CTRLBCLR_IDXCMD_Pos))
+#define   TCC_CTRLBCLR_IDXCMD_DISABLE_Val _U_(0x0)   /**< \brief (TCC_CTRLBCLR) Command disabled: Index toggles between cycles A and B */
+#define   TCC_CTRLBCLR_IDXCMD_SET_Val     _U_(0x1)   /**< \brief (TCC_CTRLBCLR) Set index: cycle B will be forced in the next cycle */
+#define   TCC_CTRLBCLR_IDXCMD_CLEAR_Val   _U_(0x2)   /**< \brief (TCC_CTRLBCLR) Clear index: cycle A will be forced in the next cycle */
+#define   TCC_CTRLBCLR_IDXCMD_HOLD_Val    _U_(0x3)   /**< \brief (TCC_CTRLBCLR) Hold index: the next cycle will be the same as the current cycle */
+#define TCC_CTRLBCLR_IDXCMD_DISABLE (TCC_CTRLBCLR_IDXCMD_DISABLE_Val << TCC_CTRLBCLR_IDXCMD_Pos)
+#define TCC_CTRLBCLR_IDXCMD_SET     (TCC_CTRLBCLR_IDXCMD_SET_Val   << TCC_CTRLBCLR_IDXCMD_Pos)
+#define TCC_CTRLBCLR_IDXCMD_CLEAR   (TCC_CTRLBCLR_IDXCMD_CLEAR_Val << TCC_CTRLBCLR_IDXCMD_Pos)
+#define TCC_CTRLBCLR_IDXCMD_HOLD    (TCC_CTRLBCLR_IDXCMD_HOLD_Val  << TCC_CTRLBCLR_IDXCMD_Pos)
+#define TCC_CTRLBCLR_CMD_Pos        5            /**< \brief (TCC_CTRLBCLR) TCC Command */
+#define TCC_CTRLBCLR_CMD_Msk        (_U_(0x7) << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD(value)     (TCC_CTRLBCLR_CMD_Msk & ((value) << TCC_CTRLBCLR_CMD_Pos))
+#define   TCC_CTRLBCLR_CMD_NONE_Val       _U_(0x0)   /**< \brief (TCC_CTRLBCLR) No action */
+#define   TCC_CTRLBCLR_CMD_RETRIGGER_Val  _U_(0x1)   /**< \brief (TCC_CTRLBCLR) Clear start, restart or retrigger */
+#define   TCC_CTRLBCLR_CMD_STOP_Val       _U_(0x2)   /**< \brief (TCC_CTRLBCLR) Force stop */
+#define   TCC_CTRLBCLR_CMD_UPDATE_Val     _U_(0x3)   /**< \brief (TCC_CTRLBCLR) Force update or double buffered registers */
+#define   TCC_CTRLBCLR_CMD_READSYNC_Val   _U_(0x4)   /**< \brief (TCC_CTRLBCLR) Force COUNT read synchronization */
+#define   TCC_CTRLBCLR_CMD_DMAOS_Val      _U_(0x5)   /**< \brief (TCC_CTRLBCLR) One-shot DMA trigger */
+#define TCC_CTRLBCLR_CMD_NONE       (TCC_CTRLBCLR_CMD_NONE_Val     << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD_RETRIGGER  (TCC_CTRLBCLR_CMD_RETRIGGER_Val << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD_STOP       (TCC_CTRLBCLR_CMD_STOP_Val     << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD_UPDATE     (TCC_CTRLBCLR_CMD_UPDATE_Val   << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD_READSYNC   (TCC_CTRLBCLR_CMD_READSYNC_Val << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_CMD_DMAOS      (TCC_CTRLBCLR_CMD_DMAOS_Val    << TCC_CTRLBCLR_CMD_Pos)
+#define TCC_CTRLBCLR_MASK           _U_(0xFF)    /**< \brief (TCC_CTRLBCLR) MASK Register */
+
+/* -------- TCC_CTRLBSET : (TCC Offset: 0x05) (R/W  8) Control B Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DIR:1;            /*!< bit:      0  Counter Direction                  */
+    uint8_t  LUPD:1;           /*!< bit:      1  Lock Update                        */
+    uint8_t  ONESHOT:1;        /*!< bit:      2  One-Shot                           */
+    uint8_t  IDXCMD:2;         /*!< bit:  3.. 4  Ramp Index Command                 */
+    uint8_t  CMD:3;            /*!< bit:  5.. 7  TCC Command                        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TCC_CTRLBSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_CTRLBSET_OFFSET         0x05         /**< \brief (TCC_CTRLBSET offset) Control B Set */
+#define TCC_CTRLBSET_RESETVALUE     _U_(0x00)    /**< \brief (TCC_CTRLBSET reset_value) Control B Set */
+
+#define TCC_CTRLBSET_DIR_Pos        0            /**< \brief (TCC_CTRLBSET) Counter Direction */
+#define TCC_CTRLBSET_DIR            (_U_(0x1) << TCC_CTRLBSET_DIR_Pos)
+#define TCC_CTRLBSET_LUPD_Pos       1            /**< \brief (TCC_CTRLBSET) Lock Update */
+#define TCC_CTRLBSET_LUPD           (_U_(0x1) << TCC_CTRLBSET_LUPD_Pos)
+#define TCC_CTRLBSET_ONESHOT_Pos    2            /**< \brief (TCC_CTRLBSET) One-Shot */
+#define TCC_CTRLBSET_ONESHOT        (_U_(0x1) << TCC_CTRLBSET_ONESHOT_Pos)
+#define TCC_CTRLBSET_IDXCMD_Pos     3            /**< \brief (TCC_CTRLBSET) Ramp Index Command */
+#define TCC_CTRLBSET_IDXCMD_Msk     (_U_(0x3) << TCC_CTRLBSET_IDXCMD_Pos)
+#define TCC_CTRLBSET_IDXCMD(value)  (TCC_CTRLBSET_IDXCMD_Msk & ((value) << TCC_CTRLBSET_IDXCMD_Pos))
+#define   TCC_CTRLBSET_IDXCMD_DISABLE_Val _U_(0x0)   /**< \brief (TCC_CTRLBSET) Command disabled: Index toggles between cycles A and B */
+#define   TCC_CTRLBSET_IDXCMD_SET_Val     _U_(0x1)   /**< \brief (TCC_CTRLBSET) Set index: cycle B will be forced in the next cycle */
+#define   TCC_CTRLBSET_IDXCMD_CLEAR_Val   _U_(0x2)   /**< \brief (TCC_CTRLBSET) Clear index: cycle A will be forced in the next cycle */
+#define   TCC_CTRLBSET_IDXCMD_HOLD_Val    _U_(0x3)   /**< \brief (TCC_CTRLBSET) Hold index: the next cycle will be the same as the current cycle */
+#define TCC_CTRLBSET_IDXCMD_DISABLE (TCC_CTRLBSET_IDXCMD_DISABLE_Val << TCC_CTRLBSET_IDXCMD_Pos)
+#define TCC_CTRLBSET_IDXCMD_SET     (TCC_CTRLBSET_IDXCMD_SET_Val   << TCC_CTRLBSET_IDXCMD_Pos)
+#define TCC_CTRLBSET_IDXCMD_CLEAR   (TCC_CTRLBSET_IDXCMD_CLEAR_Val << TCC_CTRLBSET_IDXCMD_Pos)
+#define TCC_CTRLBSET_IDXCMD_HOLD    (TCC_CTRLBSET_IDXCMD_HOLD_Val  << TCC_CTRLBSET_IDXCMD_Pos)
+#define TCC_CTRLBSET_CMD_Pos        5            /**< \brief (TCC_CTRLBSET) TCC Command */
+#define TCC_CTRLBSET_CMD_Msk        (_U_(0x7) << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD(value)     (TCC_CTRLBSET_CMD_Msk & ((value) << TCC_CTRLBSET_CMD_Pos))
+#define   TCC_CTRLBSET_CMD_NONE_Val       _U_(0x0)   /**< \brief (TCC_CTRLBSET) No action */
+#define   TCC_CTRLBSET_CMD_RETRIGGER_Val  _U_(0x1)   /**< \brief (TCC_CTRLBSET) Clear start, restart or retrigger */
+#define   TCC_CTRLBSET_CMD_STOP_Val       _U_(0x2)   /**< \brief (TCC_CTRLBSET) Force stop */
+#define   TCC_CTRLBSET_CMD_UPDATE_Val     _U_(0x3)   /**< \brief (TCC_CTRLBSET) Force update or double buffered registers */
+#define   TCC_CTRLBSET_CMD_READSYNC_Val   _U_(0x4)   /**< \brief (TCC_CTRLBSET) Force COUNT read synchronization */
+#define   TCC_CTRLBSET_CMD_DMAOS_Val      _U_(0x5)   /**< \brief (TCC_CTRLBSET) One-shot DMA trigger */
+#define TCC_CTRLBSET_CMD_NONE       (TCC_CTRLBSET_CMD_NONE_Val     << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD_RETRIGGER  (TCC_CTRLBSET_CMD_RETRIGGER_Val << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD_STOP       (TCC_CTRLBSET_CMD_STOP_Val     << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD_UPDATE     (TCC_CTRLBSET_CMD_UPDATE_Val   << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD_READSYNC   (TCC_CTRLBSET_CMD_READSYNC_Val << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_CMD_DMAOS      (TCC_CTRLBSET_CMD_DMAOS_Val    << TCC_CTRLBSET_CMD_Pos)
+#define TCC_CTRLBSET_MASK           _U_(0xFF)    /**< \brief (TCC_CTRLBSET) MASK Register */
+
+/* -------- TCC_SYNCBUSY : (TCC Offset: 0x08) (R/  32) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SWRST:1;          /*!< bit:      0  Swrst Busy                         */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Busy                        */
+    uint32_t CTRLB:1;          /*!< bit:      2  Ctrlb Busy                         */
+    uint32_t STATUS:1;         /*!< bit:      3  Status Busy                        */
+    uint32_t COUNT:1;          /*!< bit:      4  Count Busy                         */
+    uint32_t PATT:1;           /*!< bit:      5  Pattern Busy                       */
+    uint32_t WAVE:1;           /*!< bit:      6  Wave Busy                          */
+    uint32_t PER:1;            /*!< bit:      7  Period Busy                        */
+    uint32_t CC0:1;            /*!< bit:      8  Compare Channel 0 Busy             */
+    uint32_t CC1:1;            /*!< bit:      9  Compare Channel 1 Busy             */
+    uint32_t CC2:1;            /*!< bit:     10  Compare Channel 2 Busy             */
+    uint32_t CC3:1;            /*!< bit:     11  Compare Channel 3 Busy             */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint32_t CC:4;             /*!< bit:  8..11  Compare Channel x Busy             */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_SYNCBUSY_OFFSET         0x08         /**< \brief (TCC_SYNCBUSY offset) Synchronization Busy */
+#define TCC_SYNCBUSY_RESETVALUE     _U_(0x00000000) /**< \brief (TCC_SYNCBUSY reset_value) Synchronization Busy */
+
+#define TCC_SYNCBUSY_SWRST_Pos      0            /**< \brief (TCC_SYNCBUSY) Swrst Busy */
+#define TCC_SYNCBUSY_SWRST          (_U_(0x1) << TCC_SYNCBUSY_SWRST_Pos)
+#define TCC_SYNCBUSY_ENABLE_Pos     1            /**< \brief (TCC_SYNCBUSY) Enable Busy */
+#define TCC_SYNCBUSY_ENABLE         (_U_(0x1) << TCC_SYNCBUSY_ENABLE_Pos)
+#define TCC_SYNCBUSY_CTRLB_Pos      2            /**< \brief (TCC_SYNCBUSY) Ctrlb Busy */
+#define TCC_SYNCBUSY_CTRLB          (_U_(0x1) << TCC_SYNCBUSY_CTRLB_Pos)
+#define TCC_SYNCBUSY_STATUS_Pos     3            /**< \brief (TCC_SYNCBUSY) Status Busy */
+#define TCC_SYNCBUSY_STATUS         (_U_(0x1) << TCC_SYNCBUSY_STATUS_Pos)
+#define TCC_SYNCBUSY_COUNT_Pos      4            /**< \brief (TCC_SYNCBUSY) Count Busy */
+#define TCC_SYNCBUSY_COUNT          (_U_(0x1) << TCC_SYNCBUSY_COUNT_Pos)
+#define TCC_SYNCBUSY_PATT_Pos       5            /**< \brief (TCC_SYNCBUSY) Pattern Busy */
+#define TCC_SYNCBUSY_PATT           (_U_(0x1) << TCC_SYNCBUSY_PATT_Pos)
+#define TCC_SYNCBUSY_WAVE_Pos       6            /**< \brief (TCC_SYNCBUSY) Wave Busy */
+#define TCC_SYNCBUSY_WAVE           (_U_(0x1) << TCC_SYNCBUSY_WAVE_Pos)
+#define TCC_SYNCBUSY_PER_Pos        7            /**< \brief (TCC_SYNCBUSY) Period Busy */
+#define TCC_SYNCBUSY_PER            (_U_(0x1) << TCC_SYNCBUSY_PER_Pos)
+#define TCC_SYNCBUSY_CC0_Pos        8            /**< \brief (TCC_SYNCBUSY) Compare Channel 0 Busy */
+#define TCC_SYNCBUSY_CC0            (_U_(1) << TCC_SYNCBUSY_CC0_Pos)
+#define TCC_SYNCBUSY_CC1_Pos        9            /**< \brief (TCC_SYNCBUSY) Compare Channel 1 Busy */
+#define TCC_SYNCBUSY_CC1            (_U_(1) << TCC_SYNCBUSY_CC1_Pos)
+#define TCC_SYNCBUSY_CC2_Pos        10           /**< \brief (TCC_SYNCBUSY) Compare Channel 2 Busy */
+#define TCC_SYNCBUSY_CC2            (_U_(1) << TCC_SYNCBUSY_CC2_Pos)
+#define TCC_SYNCBUSY_CC3_Pos        11           /**< \brief (TCC_SYNCBUSY) Compare Channel 3 Busy */
+#define TCC_SYNCBUSY_CC3            (_U_(1) << TCC_SYNCBUSY_CC3_Pos)
+#define TCC_SYNCBUSY_CC_Pos         8            /**< \brief (TCC_SYNCBUSY) Compare Channel x Busy */
+#define TCC_SYNCBUSY_CC_Msk         (_U_(0xF) << TCC_SYNCBUSY_CC_Pos)
+#define TCC_SYNCBUSY_CC(value)      (TCC_SYNCBUSY_CC_Msk & ((value) << TCC_SYNCBUSY_CC_Pos))
+#define TCC_SYNCBUSY_MASK           _U_(0x00000FFF) /**< \brief (TCC_SYNCBUSY) MASK Register */
+
+/* -------- TCC_FCTRLA : (TCC Offset: 0x0C) (R/W 32) Recoverable Fault A Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SRC:2;            /*!< bit:  0.. 1  Fault A Source                     */
+    uint32_t :1;               /*!< bit:      2  Reserved                           */
+    uint32_t KEEP:1;           /*!< bit:      3  Fault A Keeper                     */
+    uint32_t QUAL:1;           /*!< bit:      4  Fault A Qualification              */
+    uint32_t BLANK:2;          /*!< bit:  5.. 6  Fault A Blanking Mode              */
+    uint32_t RESTART:1;        /*!< bit:      7  Fault A Restart                    */
+    uint32_t HALT:2;           /*!< bit:  8.. 9  Fault A Halt Mode                  */
+    uint32_t CHSEL:2;          /*!< bit: 10..11  Fault A Capture Channel            */
+    uint32_t CAPTURE:3;        /*!< bit: 12..14  Fault A Capture Action             */
+    uint32_t BLANKPRESC:1;     /*!< bit:     15  Fault A Blanking Prescaler         */
+    uint32_t BLANKVAL:8;       /*!< bit: 16..23  Fault A Blanking Time              */
+    uint32_t FILTERVAL:4;      /*!< bit: 24..27  Fault A Filter Value               */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_FCTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_FCTRLA_OFFSET           0x0C         /**< \brief (TCC_FCTRLA offset) Recoverable Fault A Configuration */
+#define TCC_FCTRLA_RESETVALUE       _U_(0x00000000) /**< \brief (TCC_FCTRLA reset_value) Recoverable Fault A Configuration */
+
+#define TCC_FCTRLA_SRC_Pos          0            /**< \brief (TCC_FCTRLA) Fault A Source */
+#define TCC_FCTRLA_SRC_Msk          (_U_(0x3) << TCC_FCTRLA_SRC_Pos)
+#define TCC_FCTRLA_SRC(value)       (TCC_FCTRLA_SRC_Msk & ((value) << TCC_FCTRLA_SRC_Pos))
+#define   TCC_FCTRLA_SRC_DISABLE_Val      _U_(0x0)   /**< \brief (TCC_FCTRLA) Fault input disabled */
+#define   TCC_FCTRLA_SRC_ENABLE_Val       _U_(0x1)   /**< \brief (TCC_FCTRLA) MCEx (x=0,1) event input */
+#define   TCC_FCTRLA_SRC_INVERT_Val       _U_(0x2)   /**< \brief (TCC_FCTRLA) Inverted MCEx (x=0,1) event input */
+#define   TCC_FCTRLA_SRC_ALTFAULT_Val     _U_(0x3)   /**< \brief (TCC_FCTRLA) Alternate fault (A or B) state at the end of the previous period */
+#define TCC_FCTRLA_SRC_DISABLE      (TCC_FCTRLA_SRC_DISABLE_Val    << TCC_FCTRLA_SRC_Pos)
+#define TCC_FCTRLA_SRC_ENABLE       (TCC_FCTRLA_SRC_ENABLE_Val     << TCC_FCTRLA_SRC_Pos)
+#define TCC_FCTRLA_SRC_INVERT       (TCC_FCTRLA_SRC_INVERT_Val     << TCC_FCTRLA_SRC_Pos)
+#define TCC_FCTRLA_SRC_ALTFAULT     (TCC_FCTRLA_SRC_ALTFAULT_Val   << TCC_FCTRLA_SRC_Pos)
+#define TCC_FCTRLA_KEEP_Pos         3            /**< \brief (TCC_FCTRLA) Fault A Keeper */
+#define TCC_FCTRLA_KEEP             (_U_(0x1) << TCC_FCTRLA_KEEP_Pos)
+#define TCC_FCTRLA_QUAL_Pos         4            /**< \brief (TCC_FCTRLA) Fault A Qualification */
+#define TCC_FCTRLA_QUAL             (_U_(0x1) << TCC_FCTRLA_QUAL_Pos)
+#define TCC_FCTRLA_BLANK_Pos        5            /**< \brief (TCC_FCTRLA) Fault A Blanking Mode */
+#define TCC_FCTRLA_BLANK_Msk        (_U_(0x3) << TCC_FCTRLA_BLANK_Pos)
+#define TCC_FCTRLA_BLANK(value)     (TCC_FCTRLA_BLANK_Msk & ((value) << TCC_FCTRLA_BLANK_Pos))
+#define   TCC_FCTRLA_BLANK_START_Val      _U_(0x0)   /**< \brief (TCC_FCTRLA) Blanking applied from start of the ramp */
+#define   TCC_FCTRLA_BLANK_RISE_Val       _U_(0x1)   /**< \brief (TCC_FCTRLA) Blanking applied from rising edge of the output waveform */
+#define   TCC_FCTRLA_BLANK_FALL_Val       _U_(0x2)   /**< \brief (TCC_FCTRLA) Blanking applied from falling edge of the output waveform */
+#define   TCC_FCTRLA_BLANK_BOTH_Val       _U_(0x3)   /**< \brief (TCC_FCTRLA) Blanking applied from each toggle of the output waveform */
+#define TCC_FCTRLA_BLANK_START      (TCC_FCTRLA_BLANK_START_Val    << TCC_FCTRLA_BLANK_Pos)
+#define TCC_FCTRLA_BLANK_RISE       (TCC_FCTRLA_BLANK_RISE_Val     << TCC_FCTRLA_BLANK_Pos)
+#define TCC_FCTRLA_BLANK_FALL       (TCC_FCTRLA_BLANK_FALL_Val     << TCC_FCTRLA_BLANK_Pos)
+#define TCC_FCTRLA_BLANK_BOTH       (TCC_FCTRLA_BLANK_BOTH_Val     << TCC_FCTRLA_BLANK_Pos)
+#define TCC_FCTRLA_RESTART_Pos      7            /**< \brief (TCC_FCTRLA) Fault A Restart */
+#define TCC_FCTRLA_RESTART          (_U_(0x1) << TCC_FCTRLA_RESTART_Pos)
+#define TCC_FCTRLA_HALT_Pos         8            /**< \brief (TCC_FCTRLA) Fault A Halt Mode */
+#define TCC_FCTRLA_HALT_Msk         (_U_(0x3) << TCC_FCTRLA_HALT_Pos)
+#define TCC_FCTRLA_HALT(value)      (TCC_FCTRLA_HALT_Msk & ((value) << TCC_FCTRLA_HALT_Pos))
+#define   TCC_FCTRLA_HALT_DISABLE_Val     _U_(0x0)   /**< \brief (TCC_FCTRLA) Halt action disabled */
+#define   TCC_FCTRLA_HALT_HW_Val          _U_(0x1)   /**< \brief (TCC_FCTRLA) Hardware halt action */
+#define   TCC_FCTRLA_HALT_SW_Val          _U_(0x2)   /**< \brief (TCC_FCTRLA) Software halt action */
+#define   TCC_FCTRLA_HALT_NR_Val          _U_(0x3)   /**< \brief (TCC_FCTRLA) Non-recoverable fault */
+#define TCC_FCTRLA_HALT_DISABLE     (TCC_FCTRLA_HALT_DISABLE_Val   << TCC_FCTRLA_HALT_Pos)
+#define TCC_FCTRLA_HALT_HW          (TCC_FCTRLA_HALT_HW_Val        << TCC_FCTRLA_HALT_Pos)
+#define TCC_FCTRLA_HALT_SW          (TCC_FCTRLA_HALT_SW_Val        << TCC_FCTRLA_HALT_Pos)
+#define TCC_FCTRLA_HALT_NR          (TCC_FCTRLA_HALT_NR_Val        << TCC_FCTRLA_HALT_Pos)
+#define TCC_FCTRLA_CHSEL_Pos        10           /**< \brief (TCC_FCTRLA) Fault A Capture Channel */
+#define TCC_FCTRLA_CHSEL_Msk        (_U_(0x3) << TCC_FCTRLA_CHSEL_Pos)
+#define TCC_FCTRLA_CHSEL(value)     (TCC_FCTRLA_CHSEL_Msk & ((value) << TCC_FCTRLA_CHSEL_Pos))
+#define   TCC_FCTRLA_CHSEL_CC0_Val        _U_(0x0)   /**< \brief (TCC_FCTRLA) Capture value stored in channel 0 */
+#define   TCC_FCTRLA_CHSEL_CC1_Val        _U_(0x1)   /**< \brief (TCC_FCTRLA) Capture value stored in channel 1 */
+#define   TCC_FCTRLA_CHSEL_CC2_Val        _U_(0x2)   /**< \brief (TCC_FCTRLA) Capture value stored in channel 2 */
+#define   TCC_FCTRLA_CHSEL_CC3_Val        _U_(0x3)   /**< \brief (TCC_FCTRLA) Capture value stored in channel 3 */
+#define TCC_FCTRLA_CHSEL_CC0        (TCC_FCTRLA_CHSEL_CC0_Val      << TCC_FCTRLA_CHSEL_Pos)
+#define TCC_FCTRLA_CHSEL_CC1        (TCC_FCTRLA_CHSEL_CC1_Val      << TCC_FCTRLA_CHSEL_Pos)
+#define TCC_FCTRLA_CHSEL_CC2        (TCC_FCTRLA_CHSEL_CC2_Val      << TCC_FCTRLA_CHSEL_Pos)
+#define TCC_FCTRLA_CHSEL_CC3        (TCC_FCTRLA_CHSEL_CC3_Val      << TCC_FCTRLA_CHSEL_Pos)
+#define TCC_FCTRLA_CAPTURE_Pos      12           /**< \brief (TCC_FCTRLA) Fault A Capture Action */
+#define TCC_FCTRLA_CAPTURE_Msk      (_U_(0x7) << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE(value)   (TCC_FCTRLA_CAPTURE_Msk & ((value) << TCC_FCTRLA_CAPTURE_Pos))
+#define   TCC_FCTRLA_CAPTURE_DISABLE_Val  _U_(0x0)   /**< \brief (TCC_FCTRLA) No capture */
+#define   TCC_FCTRLA_CAPTURE_CAPT_Val     _U_(0x1)   /**< \brief (TCC_FCTRLA) Capture on fault */
+#define   TCC_FCTRLA_CAPTURE_CAPTMIN_Val  _U_(0x2)   /**< \brief (TCC_FCTRLA) Minimum capture */
+#define   TCC_FCTRLA_CAPTURE_CAPTMAX_Val  _U_(0x3)   /**< \brief (TCC_FCTRLA) Maximum capture */
+#define   TCC_FCTRLA_CAPTURE_LOCMIN_Val   _U_(0x4)   /**< \brief (TCC_FCTRLA) Minimum local detection */
+#define   TCC_FCTRLA_CAPTURE_LOCMAX_Val   _U_(0x5)   /**< \brief (TCC_FCTRLA) Maximum local detection */
+#define   TCC_FCTRLA_CAPTURE_DERIV0_Val   _U_(0x6)   /**< \brief (TCC_FCTRLA) Minimum and maximum local detection */
+#define   TCC_FCTRLA_CAPTURE_CAPTMARK_Val _U_(0x7)   /**< \brief (TCC_FCTRLA) Capture with ramp index as MSB value */
+#define TCC_FCTRLA_CAPTURE_DISABLE  (TCC_FCTRLA_CAPTURE_DISABLE_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_CAPT     (TCC_FCTRLA_CAPTURE_CAPT_Val   << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_CAPTMIN  (TCC_FCTRLA_CAPTURE_CAPTMIN_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_CAPTMAX  (TCC_FCTRLA_CAPTURE_CAPTMAX_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_LOCMIN   (TCC_FCTRLA_CAPTURE_LOCMIN_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_LOCMAX   (TCC_FCTRLA_CAPTURE_LOCMAX_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_DERIV0   (TCC_FCTRLA_CAPTURE_DERIV0_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_CAPTURE_CAPTMARK (TCC_FCTRLA_CAPTURE_CAPTMARK_Val << TCC_FCTRLA_CAPTURE_Pos)
+#define TCC_FCTRLA_BLANKPRESC_Pos   15           /**< \brief (TCC_FCTRLA) Fault A Blanking Prescaler */
+#define TCC_FCTRLA_BLANKPRESC       (_U_(0x1) << TCC_FCTRLA_BLANKPRESC_Pos)
+#define TCC_FCTRLA_BLANKVAL_Pos     16           /**< \brief (TCC_FCTRLA) Fault A Blanking Time */
+#define TCC_FCTRLA_BLANKVAL_Msk     (_U_(0xFF) << TCC_FCTRLA_BLANKVAL_Pos)
+#define TCC_FCTRLA_BLANKVAL(value)  (TCC_FCTRLA_BLANKVAL_Msk & ((value) << TCC_FCTRLA_BLANKVAL_Pos))
+#define TCC_FCTRLA_FILTERVAL_Pos    24           /**< \brief (TCC_FCTRLA) Fault A Filter Value */
+#define TCC_FCTRLA_FILTERVAL_Msk    (_U_(0xF) << TCC_FCTRLA_FILTERVAL_Pos)
+#define TCC_FCTRLA_FILTERVAL(value) (TCC_FCTRLA_FILTERVAL_Msk & ((value) << TCC_FCTRLA_FILTERVAL_Pos))
+#define TCC_FCTRLA_MASK             _U_(0x0FFFFFFB) /**< \brief (TCC_FCTRLA) MASK Register */
+
+/* -------- TCC_FCTRLB : (TCC Offset: 0x10) (R/W 32) Recoverable Fault B Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t SRC:2;            /*!< bit:  0.. 1  Fault B Source                     */
+    uint32_t :1;               /*!< bit:      2  Reserved                           */
+    uint32_t KEEP:1;           /*!< bit:      3  Fault B Keeper                     */
+    uint32_t QUAL:1;           /*!< bit:      4  Fault B Qualification              */
+    uint32_t BLANK:2;          /*!< bit:  5.. 6  Fault B Blanking Mode              */
+    uint32_t RESTART:1;        /*!< bit:      7  Fault B Restart                    */
+    uint32_t HALT:2;           /*!< bit:  8.. 9  Fault B Halt Mode                  */
+    uint32_t CHSEL:2;          /*!< bit: 10..11  Fault B Capture Channel            */
+    uint32_t CAPTURE:3;        /*!< bit: 12..14  Fault B Capture Action             */
+    uint32_t BLANKPRESC:1;     /*!< bit:     15  Fault B Blanking Prescaler         */
+    uint32_t BLANKVAL:8;       /*!< bit: 16..23  Fault B Blanking Time              */
+    uint32_t FILTERVAL:4;      /*!< bit: 24..27  Fault B Filter Value               */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_FCTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_FCTRLB_OFFSET           0x10         /**< \brief (TCC_FCTRLB offset) Recoverable Fault B Configuration */
+#define TCC_FCTRLB_RESETVALUE       _U_(0x00000000) /**< \brief (TCC_FCTRLB reset_value) Recoverable Fault B Configuration */
+
+#define TCC_FCTRLB_SRC_Pos          0            /**< \brief (TCC_FCTRLB) Fault B Source */
+#define TCC_FCTRLB_SRC_Msk          (_U_(0x3) << TCC_FCTRLB_SRC_Pos)
+#define TCC_FCTRLB_SRC(value)       (TCC_FCTRLB_SRC_Msk & ((value) << TCC_FCTRLB_SRC_Pos))
+#define   TCC_FCTRLB_SRC_DISABLE_Val      _U_(0x0)   /**< \brief (TCC_FCTRLB) Fault input disabled */
+#define   TCC_FCTRLB_SRC_ENABLE_Val       _U_(0x1)   /**< \brief (TCC_FCTRLB) MCEx (x=0,1) event input */
+#define   TCC_FCTRLB_SRC_INVERT_Val       _U_(0x2)   /**< \brief (TCC_FCTRLB) Inverted MCEx (x=0,1) event input */
+#define   TCC_FCTRLB_SRC_ALTFAULT_Val     _U_(0x3)   /**< \brief (TCC_FCTRLB) Alternate fault (A or B) state at the end of the previous period */
+#define TCC_FCTRLB_SRC_DISABLE      (TCC_FCTRLB_SRC_DISABLE_Val    << TCC_FCTRLB_SRC_Pos)
+#define TCC_FCTRLB_SRC_ENABLE       (TCC_FCTRLB_SRC_ENABLE_Val     << TCC_FCTRLB_SRC_Pos)
+#define TCC_FCTRLB_SRC_INVERT       (TCC_FCTRLB_SRC_INVERT_Val     << TCC_FCTRLB_SRC_Pos)
+#define TCC_FCTRLB_SRC_ALTFAULT     (TCC_FCTRLB_SRC_ALTFAULT_Val   << TCC_FCTRLB_SRC_Pos)
+#define TCC_FCTRLB_KEEP_Pos         3            /**< \brief (TCC_FCTRLB) Fault B Keeper */
+#define TCC_FCTRLB_KEEP             (_U_(0x1) << TCC_FCTRLB_KEEP_Pos)
+#define TCC_FCTRLB_QUAL_Pos         4            /**< \brief (TCC_FCTRLB) Fault B Qualification */
+#define TCC_FCTRLB_QUAL             (_U_(0x1) << TCC_FCTRLB_QUAL_Pos)
+#define TCC_FCTRLB_BLANK_Pos        5            /**< \brief (TCC_FCTRLB) Fault B Blanking Mode */
+#define TCC_FCTRLB_BLANK_Msk        (_U_(0x3) << TCC_FCTRLB_BLANK_Pos)
+#define TCC_FCTRLB_BLANK(value)     (TCC_FCTRLB_BLANK_Msk & ((value) << TCC_FCTRLB_BLANK_Pos))
+#define   TCC_FCTRLB_BLANK_START_Val      _U_(0x0)   /**< \brief (TCC_FCTRLB) Blanking applied from start of the ramp */
+#define   TCC_FCTRLB_BLANK_RISE_Val       _U_(0x1)   /**< \brief (TCC_FCTRLB) Blanking applied from rising edge of the output waveform */
+#define   TCC_FCTRLB_BLANK_FALL_Val       _U_(0x2)   /**< \brief (TCC_FCTRLB) Blanking applied from falling edge of the output waveform */
+#define   TCC_FCTRLB_BLANK_BOTH_Val       _U_(0x3)   /**< \brief (TCC_FCTRLB) Blanking applied from each toggle of the output waveform */
+#define TCC_FCTRLB_BLANK_START      (TCC_FCTRLB_BLANK_START_Val    << TCC_FCTRLB_BLANK_Pos)
+#define TCC_FCTRLB_BLANK_RISE       (TCC_FCTRLB_BLANK_RISE_Val     << TCC_FCTRLB_BLANK_Pos)
+#define TCC_FCTRLB_BLANK_FALL       (TCC_FCTRLB_BLANK_FALL_Val     << TCC_FCTRLB_BLANK_Pos)
+#define TCC_FCTRLB_BLANK_BOTH       (TCC_FCTRLB_BLANK_BOTH_Val     << TCC_FCTRLB_BLANK_Pos)
+#define TCC_FCTRLB_RESTART_Pos      7            /**< \brief (TCC_FCTRLB) Fault B Restart */
+#define TCC_FCTRLB_RESTART          (_U_(0x1) << TCC_FCTRLB_RESTART_Pos)
+#define TCC_FCTRLB_HALT_Pos         8            /**< \brief (TCC_FCTRLB) Fault B Halt Mode */
+#define TCC_FCTRLB_HALT_Msk         (_U_(0x3) << TCC_FCTRLB_HALT_Pos)
+#define TCC_FCTRLB_HALT(value)      (TCC_FCTRLB_HALT_Msk & ((value) << TCC_FCTRLB_HALT_Pos))
+#define   TCC_FCTRLB_HALT_DISABLE_Val     _U_(0x0)   /**< \brief (TCC_FCTRLB) Halt action disabled */
+#define   TCC_FCTRLB_HALT_HW_Val          _U_(0x1)   /**< \brief (TCC_FCTRLB) Hardware halt action */
+#define   TCC_FCTRLB_HALT_SW_Val          _U_(0x2)   /**< \brief (TCC_FCTRLB) Software halt action */
+#define   TCC_FCTRLB_HALT_NR_Val          _U_(0x3)   /**< \brief (TCC_FCTRLB) Non-recoverable fault */
+#define TCC_FCTRLB_HALT_DISABLE     (TCC_FCTRLB_HALT_DISABLE_Val   << TCC_FCTRLB_HALT_Pos)
+#define TCC_FCTRLB_HALT_HW          (TCC_FCTRLB_HALT_HW_Val        << TCC_FCTRLB_HALT_Pos)
+#define TCC_FCTRLB_HALT_SW          (TCC_FCTRLB_HALT_SW_Val        << TCC_FCTRLB_HALT_Pos)
+#define TCC_FCTRLB_HALT_NR          (TCC_FCTRLB_HALT_NR_Val        << TCC_FCTRLB_HALT_Pos)
+#define TCC_FCTRLB_CHSEL_Pos        10           /**< \brief (TCC_FCTRLB) Fault B Capture Channel */
+#define TCC_FCTRLB_CHSEL_Msk        (_U_(0x3) << TCC_FCTRLB_CHSEL_Pos)
+#define TCC_FCTRLB_CHSEL(value)     (TCC_FCTRLB_CHSEL_Msk & ((value) << TCC_FCTRLB_CHSEL_Pos))
+#define   TCC_FCTRLB_CHSEL_CC0_Val        _U_(0x0)   /**< \brief (TCC_FCTRLB) Capture value stored in channel 0 */
+#define   TCC_FCTRLB_CHSEL_CC1_Val        _U_(0x1)   /**< \brief (TCC_FCTRLB) Capture value stored in channel 1 */
+#define   TCC_FCTRLB_CHSEL_CC2_Val        _U_(0x2)   /**< \brief (TCC_FCTRLB) Capture value stored in channel 2 */
+#define   TCC_FCTRLB_CHSEL_CC3_Val        _U_(0x3)   /**< \brief (TCC_FCTRLB) Capture value stored in channel 3 */
+#define TCC_FCTRLB_CHSEL_CC0        (TCC_FCTRLB_CHSEL_CC0_Val      << TCC_FCTRLB_CHSEL_Pos)
+#define TCC_FCTRLB_CHSEL_CC1        (TCC_FCTRLB_CHSEL_CC1_Val      << TCC_FCTRLB_CHSEL_Pos)
+#define TCC_FCTRLB_CHSEL_CC2        (TCC_FCTRLB_CHSEL_CC2_Val      << TCC_FCTRLB_CHSEL_Pos)
+#define TCC_FCTRLB_CHSEL_CC3        (TCC_FCTRLB_CHSEL_CC3_Val      << TCC_FCTRLB_CHSEL_Pos)
+#define TCC_FCTRLB_CAPTURE_Pos      12           /**< \brief (TCC_FCTRLB) Fault B Capture Action */
+#define TCC_FCTRLB_CAPTURE_Msk      (_U_(0x7) << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE(value)   (TCC_FCTRLB_CAPTURE_Msk & ((value) << TCC_FCTRLB_CAPTURE_Pos))
+#define   TCC_FCTRLB_CAPTURE_DISABLE_Val  _U_(0x0)   /**< \brief (TCC_FCTRLB) No capture */
+#define   TCC_FCTRLB_CAPTURE_CAPT_Val     _U_(0x1)   /**< \brief (TCC_FCTRLB) Capture on fault */
+#define   TCC_FCTRLB_CAPTURE_CAPTMIN_Val  _U_(0x2)   /**< \brief (TCC_FCTRLB) Minimum capture */
+#define   TCC_FCTRLB_CAPTURE_CAPTMAX_Val  _U_(0x3)   /**< \brief (TCC_FCTRLB) Maximum capture */
+#define   TCC_FCTRLB_CAPTURE_LOCMIN_Val   _U_(0x4)   /**< \brief (TCC_FCTRLB) Minimum local detection */
+#define   TCC_FCTRLB_CAPTURE_LOCMAX_Val   _U_(0x5)   /**< \brief (TCC_FCTRLB) Maximum local detection */
+#define   TCC_FCTRLB_CAPTURE_DERIV0_Val   _U_(0x6)   /**< \brief (TCC_FCTRLB) Minimum and maximum local detection */
+#define   TCC_FCTRLB_CAPTURE_CAPTMARK_Val _U_(0x7)   /**< \brief (TCC_FCTRLB) Capture with ramp index as MSB value */
+#define TCC_FCTRLB_CAPTURE_DISABLE  (TCC_FCTRLB_CAPTURE_DISABLE_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_CAPT     (TCC_FCTRLB_CAPTURE_CAPT_Val   << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_CAPTMIN  (TCC_FCTRLB_CAPTURE_CAPTMIN_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_CAPTMAX  (TCC_FCTRLB_CAPTURE_CAPTMAX_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_LOCMIN   (TCC_FCTRLB_CAPTURE_LOCMIN_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_LOCMAX   (TCC_FCTRLB_CAPTURE_LOCMAX_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_DERIV0   (TCC_FCTRLB_CAPTURE_DERIV0_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_CAPTURE_CAPTMARK (TCC_FCTRLB_CAPTURE_CAPTMARK_Val << TCC_FCTRLB_CAPTURE_Pos)
+#define TCC_FCTRLB_BLANKPRESC_Pos   15           /**< \brief (TCC_FCTRLB) Fault B Blanking Prescaler */
+#define TCC_FCTRLB_BLANKPRESC       (_U_(0x1) << TCC_FCTRLB_BLANKPRESC_Pos)
+#define TCC_FCTRLB_BLANKVAL_Pos     16           /**< \brief (TCC_FCTRLB) Fault B Blanking Time */
+#define TCC_FCTRLB_BLANKVAL_Msk     (_U_(0xFF) << TCC_FCTRLB_BLANKVAL_Pos)
+#define TCC_FCTRLB_BLANKVAL(value)  (TCC_FCTRLB_BLANKVAL_Msk & ((value) << TCC_FCTRLB_BLANKVAL_Pos))
+#define TCC_FCTRLB_FILTERVAL_Pos    24           /**< \brief (TCC_FCTRLB) Fault B Filter Value */
+#define TCC_FCTRLB_FILTERVAL_Msk    (_U_(0xF) << TCC_FCTRLB_FILTERVAL_Pos)
+#define TCC_FCTRLB_FILTERVAL(value) (TCC_FCTRLB_FILTERVAL_Msk & ((value) << TCC_FCTRLB_FILTERVAL_Pos))
+#define TCC_FCTRLB_MASK             _U_(0x0FFFFFFB) /**< \brief (TCC_FCTRLB) MASK Register */
+
+/* -------- TCC_WEXCTRL : (TCC Offset: 0x14) (R/W 32) Waveform Extension Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t OTMX:2;           /*!< bit:  0.. 1  Output Matrix                      */
+    uint32_t :6;               /*!< bit:  2.. 7  Reserved                           */
+    uint32_t DTIEN0:1;         /*!< bit:      8  Dead-time Insertion Generator 0 Enable */
+    uint32_t DTIEN1:1;         /*!< bit:      9  Dead-time Insertion Generator 1 Enable */
+    uint32_t DTIEN2:1;         /*!< bit:     10  Dead-time Insertion Generator 2 Enable */
+    uint32_t DTIEN3:1;         /*!< bit:     11  Dead-time Insertion Generator 3 Enable */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t DTLS:8;           /*!< bit: 16..23  Dead-time Low Side Outputs Value   */
+    uint32_t DTHS:8;           /*!< bit: 24..31  Dead-time High Side Outputs Value  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint32_t DTIEN:4;          /*!< bit:  8..11  Dead-time Insertion Generator x Enable */
+    uint32_t :20;              /*!< bit: 12..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_WEXCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_WEXCTRL_OFFSET          0x14         /**< \brief (TCC_WEXCTRL offset) Waveform Extension Configuration */
+#define TCC_WEXCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (TCC_WEXCTRL reset_value) Waveform Extension Configuration */
+
+#define TCC_WEXCTRL_OTMX_Pos        0            /**< \brief (TCC_WEXCTRL) Output Matrix */
+#define TCC_WEXCTRL_OTMX_Msk        (_U_(0x3) << TCC_WEXCTRL_OTMX_Pos)
+#define TCC_WEXCTRL_OTMX(value)     (TCC_WEXCTRL_OTMX_Msk & ((value) << TCC_WEXCTRL_OTMX_Pos))
+#define TCC_WEXCTRL_DTIEN0_Pos      8            /**< \brief (TCC_WEXCTRL) Dead-time Insertion Generator 0 Enable */
+#define TCC_WEXCTRL_DTIEN0          (_U_(1) << TCC_WEXCTRL_DTIEN0_Pos)
+#define TCC_WEXCTRL_DTIEN1_Pos      9            /**< \brief (TCC_WEXCTRL) Dead-time Insertion Generator 1 Enable */
+#define TCC_WEXCTRL_DTIEN1          (_U_(1) << TCC_WEXCTRL_DTIEN1_Pos)
+#define TCC_WEXCTRL_DTIEN2_Pos      10           /**< \brief (TCC_WEXCTRL) Dead-time Insertion Generator 2 Enable */
+#define TCC_WEXCTRL_DTIEN2          (_U_(1) << TCC_WEXCTRL_DTIEN2_Pos)
+#define TCC_WEXCTRL_DTIEN3_Pos      11           /**< \brief (TCC_WEXCTRL) Dead-time Insertion Generator 3 Enable */
+#define TCC_WEXCTRL_DTIEN3          (_U_(1) << TCC_WEXCTRL_DTIEN3_Pos)
+#define TCC_WEXCTRL_DTIEN_Pos       8            /**< \brief (TCC_WEXCTRL) Dead-time Insertion Generator x Enable */
+#define TCC_WEXCTRL_DTIEN_Msk       (_U_(0xF) << TCC_WEXCTRL_DTIEN_Pos)
+#define TCC_WEXCTRL_DTIEN(value)    (TCC_WEXCTRL_DTIEN_Msk & ((value) << TCC_WEXCTRL_DTIEN_Pos))
+#define TCC_WEXCTRL_DTLS_Pos        16           /**< \brief (TCC_WEXCTRL) Dead-time Low Side Outputs Value */
+#define TCC_WEXCTRL_DTLS_Msk        (_U_(0xFF) << TCC_WEXCTRL_DTLS_Pos)
+#define TCC_WEXCTRL_DTLS(value)     (TCC_WEXCTRL_DTLS_Msk & ((value) << TCC_WEXCTRL_DTLS_Pos))
+#define TCC_WEXCTRL_DTHS_Pos        24           /**< \brief (TCC_WEXCTRL) Dead-time High Side Outputs Value */
+#define TCC_WEXCTRL_DTHS_Msk        (_U_(0xFF) << TCC_WEXCTRL_DTHS_Pos)
+#define TCC_WEXCTRL_DTHS(value)     (TCC_WEXCTRL_DTHS_Msk & ((value) << TCC_WEXCTRL_DTHS_Pos))
+#define TCC_WEXCTRL_MASK            _U_(0xFFFF0F03) /**< \brief (TCC_WEXCTRL) MASK Register */
+
+/* -------- TCC_DRVCTRL : (TCC Offset: 0x18) (R/W 32) Driver Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t NRE0:1;           /*!< bit:      0  Non-Recoverable State 0 Output Enable */
+    uint32_t NRE1:1;           /*!< bit:      1  Non-Recoverable State 1 Output Enable */
+    uint32_t NRE2:1;           /*!< bit:      2  Non-Recoverable State 2 Output Enable */
+    uint32_t NRE3:1;           /*!< bit:      3  Non-Recoverable State 3 Output Enable */
+    uint32_t NRE4:1;           /*!< bit:      4  Non-Recoverable State 4 Output Enable */
+    uint32_t NRE5:1;           /*!< bit:      5  Non-Recoverable State 5 Output Enable */
+    uint32_t NRE6:1;           /*!< bit:      6  Non-Recoverable State 6 Output Enable */
+    uint32_t NRE7:1;           /*!< bit:      7  Non-Recoverable State 7 Output Enable */
+    uint32_t NRV0:1;           /*!< bit:      8  Non-Recoverable State 0 Output Value */
+    uint32_t NRV1:1;           /*!< bit:      9  Non-Recoverable State 1 Output Value */
+    uint32_t NRV2:1;           /*!< bit:     10  Non-Recoverable State 2 Output Value */
+    uint32_t NRV3:1;           /*!< bit:     11  Non-Recoverable State 3 Output Value */
+    uint32_t NRV4:1;           /*!< bit:     12  Non-Recoverable State 4 Output Value */
+    uint32_t NRV5:1;           /*!< bit:     13  Non-Recoverable State 5 Output Value */
+    uint32_t NRV6:1;           /*!< bit:     14  Non-Recoverable State 6 Output Value */
+    uint32_t NRV7:1;           /*!< bit:     15  Non-Recoverable State 7 Output Value */
+    uint32_t INVEN0:1;         /*!< bit:     16  Output Waveform 0 Inversion        */
+    uint32_t INVEN1:1;         /*!< bit:     17  Output Waveform 1 Inversion        */
+    uint32_t INVEN2:1;         /*!< bit:     18  Output Waveform 2 Inversion        */
+    uint32_t INVEN3:1;         /*!< bit:     19  Output Waveform 3 Inversion        */
+    uint32_t INVEN4:1;         /*!< bit:     20  Output Waveform 4 Inversion        */
+    uint32_t INVEN5:1;         /*!< bit:     21  Output Waveform 5 Inversion        */
+    uint32_t INVEN6:1;         /*!< bit:     22  Output Waveform 6 Inversion        */
+    uint32_t INVEN7:1;         /*!< bit:     23  Output Waveform 7 Inversion        */
+    uint32_t FILTERVAL0:4;     /*!< bit: 24..27  Non-Recoverable Fault Input 0 Filter Value */
+    uint32_t FILTERVAL1:4;     /*!< bit: 28..31  Non-Recoverable Fault Input 1 Filter Value */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t NRE:8;            /*!< bit:  0.. 7  Non-Recoverable State x Output Enable */
+    uint32_t NRV:8;            /*!< bit:  8..15  Non-Recoverable State x Output Value */
+    uint32_t INVEN:8;          /*!< bit: 16..23  Output Waveform x Inversion        */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_DRVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_DRVCTRL_OFFSET          0x18         /**< \brief (TCC_DRVCTRL offset) Driver Control */
+#define TCC_DRVCTRL_RESETVALUE      _U_(0x00000000) /**< \brief (TCC_DRVCTRL reset_value) Driver Control */
+
+#define TCC_DRVCTRL_NRE0_Pos        0            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 0 Output Enable */
+#define TCC_DRVCTRL_NRE0            (_U_(1) << TCC_DRVCTRL_NRE0_Pos)
+#define TCC_DRVCTRL_NRE1_Pos        1            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 1 Output Enable */
+#define TCC_DRVCTRL_NRE1            (_U_(1) << TCC_DRVCTRL_NRE1_Pos)
+#define TCC_DRVCTRL_NRE2_Pos        2            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 2 Output Enable */
+#define TCC_DRVCTRL_NRE2            (_U_(1) << TCC_DRVCTRL_NRE2_Pos)
+#define TCC_DRVCTRL_NRE3_Pos        3            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 3 Output Enable */
+#define TCC_DRVCTRL_NRE3            (_U_(1) << TCC_DRVCTRL_NRE3_Pos)
+#define TCC_DRVCTRL_NRE4_Pos        4            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 4 Output Enable */
+#define TCC_DRVCTRL_NRE4            (_U_(1) << TCC_DRVCTRL_NRE4_Pos)
+#define TCC_DRVCTRL_NRE5_Pos        5            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 5 Output Enable */
+#define TCC_DRVCTRL_NRE5            (_U_(1) << TCC_DRVCTRL_NRE5_Pos)
+#define TCC_DRVCTRL_NRE6_Pos        6            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 6 Output Enable */
+#define TCC_DRVCTRL_NRE6            (_U_(1) << TCC_DRVCTRL_NRE6_Pos)
+#define TCC_DRVCTRL_NRE7_Pos        7            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 7 Output Enable */
+#define TCC_DRVCTRL_NRE7            (_U_(1) << TCC_DRVCTRL_NRE7_Pos)
+#define TCC_DRVCTRL_NRE_Pos         0            /**< \brief (TCC_DRVCTRL) Non-Recoverable State x Output Enable */
+#define TCC_DRVCTRL_NRE_Msk         (_U_(0xFF) << TCC_DRVCTRL_NRE_Pos)
+#define TCC_DRVCTRL_NRE(value)      (TCC_DRVCTRL_NRE_Msk & ((value) << TCC_DRVCTRL_NRE_Pos))
+#define TCC_DRVCTRL_NRV0_Pos        8            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 0 Output Value */
+#define TCC_DRVCTRL_NRV0            (_U_(1) << TCC_DRVCTRL_NRV0_Pos)
+#define TCC_DRVCTRL_NRV1_Pos        9            /**< \brief (TCC_DRVCTRL) Non-Recoverable State 1 Output Value */
+#define TCC_DRVCTRL_NRV1            (_U_(1) << TCC_DRVCTRL_NRV1_Pos)
+#define TCC_DRVCTRL_NRV2_Pos        10           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 2 Output Value */
+#define TCC_DRVCTRL_NRV2            (_U_(1) << TCC_DRVCTRL_NRV2_Pos)
+#define TCC_DRVCTRL_NRV3_Pos        11           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 3 Output Value */
+#define TCC_DRVCTRL_NRV3            (_U_(1) << TCC_DRVCTRL_NRV3_Pos)
+#define TCC_DRVCTRL_NRV4_Pos        12           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 4 Output Value */
+#define TCC_DRVCTRL_NRV4            (_U_(1) << TCC_DRVCTRL_NRV4_Pos)
+#define TCC_DRVCTRL_NRV5_Pos        13           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 5 Output Value */
+#define TCC_DRVCTRL_NRV5            (_U_(1) << TCC_DRVCTRL_NRV5_Pos)
+#define TCC_DRVCTRL_NRV6_Pos        14           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 6 Output Value */
+#define TCC_DRVCTRL_NRV6            (_U_(1) << TCC_DRVCTRL_NRV6_Pos)
+#define TCC_DRVCTRL_NRV7_Pos        15           /**< \brief (TCC_DRVCTRL) Non-Recoverable State 7 Output Value */
+#define TCC_DRVCTRL_NRV7            (_U_(1) << TCC_DRVCTRL_NRV7_Pos)
+#define TCC_DRVCTRL_NRV_Pos         8            /**< \brief (TCC_DRVCTRL) Non-Recoverable State x Output Value */
+#define TCC_DRVCTRL_NRV_Msk         (_U_(0xFF) << TCC_DRVCTRL_NRV_Pos)
+#define TCC_DRVCTRL_NRV(value)      (TCC_DRVCTRL_NRV_Msk & ((value) << TCC_DRVCTRL_NRV_Pos))
+#define TCC_DRVCTRL_INVEN0_Pos      16           /**< \brief (TCC_DRVCTRL) Output Waveform 0 Inversion */
+#define TCC_DRVCTRL_INVEN0          (_U_(1) << TCC_DRVCTRL_INVEN0_Pos)
+#define TCC_DRVCTRL_INVEN1_Pos      17           /**< \brief (TCC_DRVCTRL) Output Waveform 1 Inversion */
+#define TCC_DRVCTRL_INVEN1          (_U_(1) << TCC_DRVCTRL_INVEN1_Pos)
+#define TCC_DRVCTRL_INVEN2_Pos      18           /**< \brief (TCC_DRVCTRL) Output Waveform 2 Inversion */
+#define TCC_DRVCTRL_INVEN2          (_U_(1) << TCC_DRVCTRL_INVEN2_Pos)
+#define TCC_DRVCTRL_INVEN3_Pos      19           /**< \brief (TCC_DRVCTRL) Output Waveform 3 Inversion */
+#define TCC_DRVCTRL_INVEN3          (_U_(1) << TCC_DRVCTRL_INVEN3_Pos)
+#define TCC_DRVCTRL_INVEN4_Pos      20           /**< \brief (TCC_DRVCTRL) Output Waveform 4 Inversion */
+#define TCC_DRVCTRL_INVEN4          (_U_(1) << TCC_DRVCTRL_INVEN4_Pos)
+#define TCC_DRVCTRL_INVEN5_Pos      21           /**< \brief (TCC_DRVCTRL) Output Waveform 5 Inversion */
+#define TCC_DRVCTRL_INVEN5          (_U_(1) << TCC_DRVCTRL_INVEN5_Pos)
+#define TCC_DRVCTRL_INVEN6_Pos      22           /**< \brief (TCC_DRVCTRL) Output Waveform 6 Inversion */
+#define TCC_DRVCTRL_INVEN6          (_U_(1) << TCC_DRVCTRL_INVEN6_Pos)
+#define TCC_DRVCTRL_INVEN7_Pos      23           /**< \brief (TCC_DRVCTRL) Output Waveform 7 Inversion */
+#define TCC_DRVCTRL_INVEN7          (_U_(1) << TCC_DRVCTRL_INVEN7_Pos)
+#define TCC_DRVCTRL_INVEN_Pos       16           /**< \brief (TCC_DRVCTRL) Output Waveform x Inversion */
+#define TCC_DRVCTRL_INVEN_Msk       (_U_(0xFF) << TCC_DRVCTRL_INVEN_Pos)
+#define TCC_DRVCTRL_INVEN(value)    (TCC_DRVCTRL_INVEN_Msk & ((value) << TCC_DRVCTRL_INVEN_Pos))
+#define TCC_DRVCTRL_FILTERVAL0_Pos  24           /**< \brief (TCC_DRVCTRL) Non-Recoverable Fault Input 0 Filter Value */
+#define TCC_DRVCTRL_FILTERVAL0_Msk  (_U_(0xF) << TCC_DRVCTRL_FILTERVAL0_Pos)
+#define TCC_DRVCTRL_FILTERVAL0(value) (TCC_DRVCTRL_FILTERVAL0_Msk & ((value) << TCC_DRVCTRL_FILTERVAL0_Pos))
+#define TCC_DRVCTRL_FILTERVAL1_Pos  28           /**< \brief (TCC_DRVCTRL) Non-Recoverable Fault Input 1 Filter Value */
+#define TCC_DRVCTRL_FILTERVAL1_Msk  (_U_(0xF) << TCC_DRVCTRL_FILTERVAL1_Pos)
+#define TCC_DRVCTRL_FILTERVAL1(value) (TCC_DRVCTRL_FILTERVAL1_Msk & ((value) << TCC_DRVCTRL_FILTERVAL1_Pos))
+#define TCC_DRVCTRL_MASK            _U_(0xFFFFFFFF) /**< \brief (TCC_DRVCTRL) MASK Register */
+
+/* -------- TCC_DBGCTRL : (TCC Offset: 0x1E) (R/W  8) Debug Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DBGRUN:1;         /*!< bit:      0  Debug Running Mode                 */
+    uint8_t  :1;               /*!< bit:      1  Reserved                           */
+    uint8_t  FDDBD:1;          /*!< bit:      2  Fault Detection on Debug Break Detection */
+    uint8_t  :5;               /*!< bit:  3.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TCC_DBGCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_DBGCTRL_OFFSET          0x1E         /**< \brief (TCC_DBGCTRL offset) Debug Control */
+#define TCC_DBGCTRL_RESETVALUE      _U_(0x00)    /**< \brief (TCC_DBGCTRL reset_value) Debug Control */
+
+#define TCC_DBGCTRL_DBGRUN_Pos      0            /**< \brief (TCC_DBGCTRL) Debug Running Mode */
+#define TCC_DBGCTRL_DBGRUN          (_U_(0x1) << TCC_DBGCTRL_DBGRUN_Pos)
+#define TCC_DBGCTRL_FDDBD_Pos       2            /**< \brief (TCC_DBGCTRL) Fault Detection on Debug Break Detection */
+#define TCC_DBGCTRL_FDDBD           (_U_(0x1) << TCC_DBGCTRL_FDDBD_Pos)
+#define TCC_DBGCTRL_MASK            _U_(0x05)    /**< \brief (TCC_DBGCTRL) MASK Register */
+
+/* -------- TCC_EVCTRL : (TCC Offset: 0x20) (R/W 32) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t EVACT0:3;         /*!< bit:  0.. 2  Timer/counter Input Event0 Action  */
+    uint32_t EVACT1:3;         /*!< bit:  3.. 5  Timer/counter Input Event1 Action  */
+    uint32_t CNTSEL:2;         /*!< bit:  6.. 7  Timer/counter Output Event Mode    */
+    uint32_t OVFEO:1;          /*!< bit:      8  Overflow/Underflow Output Event Enable */
+    uint32_t TRGEO:1;          /*!< bit:      9  Retrigger Output Event Enable      */
+    uint32_t CNTEO:1;          /*!< bit:     10  Timer/counter Output Event Enable  */
+    uint32_t :1;               /*!< bit:     11  Reserved                           */
+    uint32_t TCINV0:1;         /*!< bit:     12  Inverted Event 0 Input Enable      */
+    uint32_t TCINV1:1;         /*!< bit:     13  Inverted Event 1 Input Enable      */
+    uint32_t TCEI0:1;          /*!< bit:     14  Timer/counter Event 0 Input Enable */
+    uint32_t TCEI1:1;          /*!< bit:     15  Timer/counter Event 1 Input Enable */
+    uint32_t MCEI0:1;          /*!< bit:     16  Match or Capture Channel 0 Event Input Enable */
+    uint32_t MCEI1:1;          /*!< bit:     17  Match or Capture Channel 1 Event Input Enable */
+    uint32_t MCEI2:1;          /*!< bit:     18  Match or Capture Channel 2 Event Input Enable */
+    uint32_t MCEI3:1;          /*!< bit:     19  Match or Capture Channel 3 Event Input Enable */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t MCEO0:1;          /*!< bit:     24  Match or Capture Channel 0 Event Output Enable */
+    uint32_t MCEO1:1;          /*!< bit:     25  Match or Capture Channel 1 Event Output Enable */
+    uint32_t MCEO2:1;          /*!< bit:     26  Match or Capture Channel 2 Event Output Enable */
+    uint32_t MCEO3:1;          /*!< bit:     27  Match or Capture Channel 3 Event Output Enable */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :12;              /*!< bit:  0..11  Reserved                           */
+    uint32_t TCINV:2;          /*!< bit: 12..13  Inverted Event x Input Enable      */
+    uint32_t TCEI:2;           /*!< bit: 14..15  Timer/counter Event x Input Enable */
+    uint32_t MCEI:4;           /*!< bit: 16..19  Match or Capture Channel x Event Input Enable */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t MCEO:4;           /*!< bit: 24..27  Match or Capture Channel x Event Output Enable */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_EVCTRL_OFFSET           0x20         /**< \brief (TCC_EVCTRL offset) Event Control */
+#define TCC_EVCTRL_RESETVALUE       _U_(0x00000000) /**< \brief (TCC_EVCTRL reset_value) Event Control */
+
+#define TCC_EVCTRL_EVACT0_Pos       0            /**< \brief (TCC_EVCTRL) Timer/counter Input Event0 Action */
+#define TCC_EVCTRL_EVACT0_Msk       (_U_(0x7) << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0(value)    (TCC_EVCTRL_EVACT0_Msk & ((value) << TCC_EVCTRL_EVACT0_Pos))
+#define   TCC_EVCTRL_EVACT0_OFF_Val       _U_(0x0)   /**< \brief (TCC_EVCTRL) Event action disabled */
+#define   TCC_EVCTRL_EVACT0_RETRIGGER_Val _U_(0x1)   /**< \brief (TCC_EVCTRL) Start, restart or re-trigger counter on event */
+#define   TCC_EVCTRL_EVACT0_COUNTEV_Val   _U_(0x2)   /**< \brief (TCC_EVCTRL) Count on event */
+#define   TCC_EVCTRL_EVACT0_START_Val     _U_(0x3)   /**< \brief (TCC_EVCTRL) Start counter on event */
+#define   TCC_EVCTRL_EVACT0_INC_Val       _U_(0x4)   /**< \brief (TCC_EVCTRL) Increment counter on event */
+#define   TCC_EVCTRL_EVACT0_COUNT_Val     _U_(0x5)   /**< \brief (TCC_EVCTRL) Count on active state of asynchronous event */
+#define   TCC_EVCTRL_EVACT0_STAMP_Val     _U_(0x6)   /**< \brief (TCC_EVCTRL) Stamp capture */
+#define   TCC_EVCTRL_EVACT0_FAULT_Val     _U_(0x7)   /**< \brief (TCC_EVCTRL) Non-recoverable fault */
+#define TCC_EVCTRL_EVACT0_OFF       (TCC_EVCTRL_EVACT0_OFF_Val     << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_RETRIGGER (TCC_EVCTRL_EVACT0_RETRIGGER_Val << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_COUNTEV   (TCC_EVCTRL_EVACT0_COUNTEV_Val << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_START     (TCC_EVCTRL_EVACT0_START_Val   << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_INC       (TCC_EVCTRL_EVACT0_INC_Val     << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_COUNT     (TCC_EVCTRL_EVACT0_COUNT_Val   << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_STAMP     (TCC_EVCTRL_EVACT0_STAMP_Val   << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT0_FAULT     (TCC_EVCTRL_EVACT0_FAULT_Val   << TCC_EVCTRL_EVACT0_Pos)
+#define TCC_EVCTRL_EVACT1_Pos       3            /**< \brief (TCC_EVCTRL) Timer/counter Input Event1 Action */
+#define TCC_EVCTRL_EVACT1_Msk       (_U_(0x7) << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1(value)    (TCC_EVCTRL_EVACT1_Msk & ((value) << TCC_EVCTRL_EVACT1_Pos))
+#define   TCC_EVCTRL_EVACT1_OFF_Val       _U_(0x0)   /**< \brief (TCC_EVCTRL) Event action disabled */
+#define   TCC_EVCTRL_EVACT1_RETRIGGER_Val _U_(0x1)   /**< \brief (TCC_EVCTRL) Re-trigger counter on event */
+#define   TCC_EVCTRL_EVACT1_DIR_Val       _U_(0x2)   /**< \brief (TCC_EVCTRL) Direction control */
+#define   TCC_EVCTRL_EVACT1_STOP_Val      _U_(0x3)   /**< \brief (TCC_EVCTRL) Stop counter on event */
+#define   TCC_EVCTRL_EVACT1_DEC_Val       _U_(0x4)   /**< \brief (TCC_EVCTRL) Decrement counter on event */
+#define   TCC_EVCTRL_EVACT1_PPW_Val       _U_(0x5)   /**< \brief (TCC_EVCTRL) Period capture value in CC0 register, pulse width capture value in CC1 register */
+#define   TCC_EVCTRL_EVACT1_PWP_Val       _U_(0x6)   /**< \brief (TCC_EVCTRL) Period capture value in CC1 register, pulse width capture value in CC0 register */
+#define   TCC_EVCTRL_EVACT1_FAULT_Val     _U_(0x7)   /**< \brief (TCC_EVCTRL) Non-recoverable fault */
+#define TCC_EVCTRL_EVACT1_OFF       (TCC_EVCTRL_EVACT1_OFF_Val     << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_RETRIGGER (TCC_EVCTRL_EVACT1_RETRIGGER_Val << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_DIR       (TCC_EVCTRL_EVACT1_DIR_Val     << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_STOP      (TCC_EVCTRL_EVACT1_STOP_Val    << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_DEC       (TCC_EVCTRL_EVACT1_DEC_Val     << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_PPW       (TCC_EVCTRL_EVACT1_PPW_Val     << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_PWP       (TCC_EVCTRL_EVACT1_PWP_Val     << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_EVACT1_FAULT     (TCC_EVCTRL_EVACT1_FAULT_Val   << TCC_EVCTRL_EVACT1_Pos)
+#define TCC_EVCTRL_CNTSEL_Pos       6            /**< \brief (TCC_EVCTRL) Timer/counter Output Event Mode */
+#define TCC_EVCTRL_CNTSEL_Msk       (_U_(0x3) << TCC_EVCTRL_CNTSEL_Pos)
+#define TCC_EVCTRL_CNTSEL(value)    (TCC_EVCTRL_CNTSEL_Msk & ((value) << TCC_EVCTRL_CNTSEL_Pos))
+#define   TCC_EVCTRL_CNTSEL_START_Val     _U_(0x0)   /**< \brief (TCC_EVCTRL) An interrupt/event is generated when a new counter cycle starts */
+#define   TCC_EVCTRL_CNTSEL_END_Val       _U_(0x1)   /**< \brief (TCC_EVCTRL) An interrupt/event is generated when a counter cycle ends */
+#define   TCC_EVCTRL_CNTSEL_BETWEEN_Val   _U_(0x2)   /**< \brief (TCC_EVCTRL) An interrupt/event is generated when a counter cycle ends, except for the first and last cycles */
+#define   TCC_EVCTRL_CNTSEL_BOUNDARY_Val  _U_(0x3)   /**< \brief (TCC_EVCTRL) An interrupt/event is generated when a new counter cycle starts or a counter cycle ends */
+#define TCC_EVCTRL_CNTSEL_START     (TCC_EVCTRL_CNTSEL_START_Val   << TCC_EVCTRL_CNTSEL_Pos)
+#define TCC_EVCTRL_CNTSEL_END       (TCC_EVCTRL_CNTSEL_END_Val     << TCC_EVCTRL_CNTSEL_Pos)
+#define TCC_EVCTRL_CNTSEL_BETWEEN   (TCC_EVCTRL_CNTSEL_BETWEEN_Val << TCC_EVCTRL_CNTSEL_Pos)
+#define TCC_EVCTRL_CNTSEL_BOUNDARY  (TCC_EVCTRL_CNTSEL_BOUNDARY_Val << TCC_EVCTRL_CNTSEL_Pos)
+#define TCC_EVCTRL_OVFEO_Pos        8            /**< \brief (TCC_EVCTRL) Overflow/Underflow Output Event Enable */
+#define TCC_EVCTRL_OVFEO            (_U_(0x1) << TCC_EVCTRL_OVFEO_Pos)
+#define TCC_EVCTRL_TRGEO_Pos        9            /**< \brief (TCC_EVCTRL) Retrigger Output Event Enable */
+#define TCC_EVCTRL_TRGEO            (_U_(0x1) << TCC_EVCTRL_TRGEO_Pos)
+#define TCC_EVCTRL_CNTEO_Pos        10           /**< \brief (TCC_EVCTRL) Timer/counter Output Event Enable */
+#define TCC_EVCTRL_CNTEO            (_U_(0x1) << TCC_EVCTRL_CNTEO_Pos)
+#define TCC_EVCTRL_TCINV0_Pos       12           /**< \brief (TCC_EVCTRL) Inverted Event 0 Input Enable */
+#define TCC_EVCTRL_TCINV0           (_U_(1) << TCC_EVCTRL_TCINV0_Pos)
+#define TCC_EVCTRL_TCINV1_Pos       13           /**< \brief (TCC_EVCTRL) Inverted Event 1 Input Enable */
+#define TCC_EVCTRL_TCINV1           (_U_(1) << TCC_EVCTRL_TCINV1_Pos)
+#define TCC_EVCTRL_TCINV_Pos        12           /**< \brief (TCC_EVCTRL) Inverted Event x Input Enable */
+#define TCC_EVCTRL_TCINV_Msk        (_U_(0x3) << TCC_EVCTRL_TCINV_Pos)
+#define TCC_EVCTRL_TCINV(value)     (TCC_EVCTRL_TCINV_Msk & ((value) << TCC_EVCTRL_TCINV_Pos))
+#define TCC_EVCTRL_TCEI0_Pos        14           /**< \brief (TCC_EVCTRL) Timer/counter Event 0 Input Enable */
+#define TCC_EVCTRL_TCEI0            (_U_(1) << TCC_EVCTRL_TCEI0_Pos)
+#define TCC_EVCTRL_TCEI1_Pos        15           /**< \brief (TCC_EVCTRL) Timer/counter Event 1 Input Enable */
+#define TCC_EVCTRL_TCEI1            (_U_(1) << TCC_EVCTRL_TCEI1_Pos)
+#define TCC_EVCTRL_TCEI_Pos         14           /**< \brief (TCC_EVCTRL) Timer/counter Event x Input Enable */
+#define TCC_EVCTRL_TCEI_Msk         (_U_(0x3) << TCC_EVCTRL_TCEI_Pos)
+#define TCC_EVCTRL_TCEI(value)      (TCC_EVCTRL_TCEI_Msk & ((value) << TCC_EVCTRL_TCEI_Pos))
+#define TCC_EVCTRL_MCEI0_Pos        16           /**< \brief (TCC_EVCTRL) Match or Capture Channel 0 Event Input Enable */
+#define TCC_EVCTRL_MCEI0            (_U_(1) << TCC_EVCTRL_MCEI0_Pos)
+#define TCC_EVCTRL_MCEI1_Pos        17           /**< \brief (TCC_EVCTRL) Match or Capture Channel 1 Event Input Enable */
+#define TCC_EVCTRL_MCEI1            (_U_(1) << TCC_EVCTRL_MCEI1_Pos)
+#define TCC_EVCTRL_MCEI2_Pos        18           /**< \brief (TCC_EVCTRL) Match or Capture Channel 2 Event Input Enable */
+#define TCC_EVCTRL_MCEI2            (_U_(1) << TCC_EVCTRL_MCEI2_Pos)
+#define TCC_EVCTRL_MCEI3_Pos        19           /**< \brief (TCC_EVCTRL) Match or Capture Channel 3 Event Input Enable */
+#define TCC_EVCTRL_MCEI3            (_U_(1) << TCC_EVCTRL_MCEI3_Pos)
+#define TCC_EVCTRL_MCEI_Pos         16           /**< \brief (TCC_EVCTRL) Match or Capture Channel x Event Input Enable */
+#define TCC_EVCTRL_MCEI_Msk         (_U_(0xF) << TCC_EVCTRL_MCEI_Pos)
+#define TCC_EVCTRL_MCEI(value)      (TCC_EVCTRL_MCEI_Msk & ((value) << TCC_EVCTRL_MCEI_Pos))
+#define TCC_EVCTRL_MCEO0_Pos        24           /**< \brief (TCC_EVCTRL) Match or Capture Channel 0 Event Output Enable */
+#define TCC_EVCTRL_MCEO0            (_U_(1) << TCC_EVCTRL_MCEO0_Pos)
+#define TCC_EVCTRL_MCEO1_Pos        25           /**< \brief (TCC_EVCTRL) Match or Capture Channel 1 Event Output Enable */
+#define TCC_EVCTRL_MCEO1            (_U_(1) << TCC_EVCTRL_MCEO1_Pos)
+#define TCC_EVCTRL_MCEO2_Pos        26           /**< \brief (TCC_EVCTRL) Match or Capture Channel 2 Event Output Enable */
+#define TCC_EVCTRL_MCEO2            (_U_(1) << TCC_EVCTRL_MCEO2_Pos)
+#define TCC_EVCTRL_MCEO3_Pos        27           /**< \brief (TCC_EVCTRL) Match or Capture Channel 3 Event Output Enable */
+#define TCC_EVCTRL_MCEO3            (_U_(1) << TCC_EVCTRL_MCEO3_Pos)
+#define TCC_EVCTRL_MCEO_Pos         24           /**< \brief (TCC_EVCTRL) Match or Capture Channel x Event Output Enable */
+#define TCC_EVCTRL_MCEO_Msk         (_U_(0xF) << TCC_EVCTRL_MCEO_Pos)
+#define TCC_EVCTRL_MCEO(value)      (TCC_EVCTRL_MCEO_Msk & ((value) << TCC_EVCTRL_MCEO_Pos))
+#define TCC_EVCTRL_MASK             _U_(0x0F0FF7FF) /**< \brief (TCC_EVCTRL) MASK Register */
+
+/* -------- TCC_INTENCLR : (TCC Offset: 0x24) (R/W 32) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t OVF:1;            /*!< bit:      0  Overflow Interrupt Enable          */
+    uint32_t TRG:1;            /*!< bit:      1  Retrigger Interrupt Enable         */
+    uint32_t CNT:1;            /*!< bit:      2  Counter Interrupt Enable           */
+    uint32_t ERR:1;            /*!< bit:      3  Error Interrupt Enable             */
+    uint32_t :6;               /*!< bit:  4.. 9  Reserved                           */
+    uint32_t UFS:1;            /*!< bit:     10  Non-Recoverable Update Fault Interrupt Enable */
+    uint32_t DFS:1;            /*!< bit:     11  Non-Recoverable Debug Fault Interrupt Enable */
+    uint32_t FAULTA:1;         /*!< bit:     12  Recoverable Fault A Interrupt Enable */
+    uint32_t FAULTB:1;         /*!< bit:     13  Recoverable Fault B Interrupt Enable */
+    uint32_t FAULT0:1;         /*!< bit:     14  Non-Recoverable Fault 0 Interrupt Enable */
+    uint32_t FAULT1:1;         /*!< bit:     15  Non-Recoverable Fault 1 Interrupt Enable */
+    uint32_t MC0:1;            /*!< bit:     16  Match or Capture Channel 0 Interrupt Enable */
+    uint32_t MC1:1;            /*!< bit:     17  Match or Capture Channel 1 Interrupt Enable */
+    uint32_t MC2:1;            /*!< bit:     18  Match or Capture Channel 2 Interrupt Enable */
+    uint32_t MC3:1;            /*!< bit:     19  Match or Capture Channel 3 Interrupt Enable */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    uint32_t MC:4;             /*!< bit: 16..19  Match or Capture Channel x Interrupt Enable */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_INTENCLR_OFFSET         0x24         /**< \brief (TCC_INTENCLR offset) Interrupt Enable Clear */
+#define TCC_INTENCLR_RESETVALUE     _U_(0x00000000) /**< \brief (TCC_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define TCC_INTENCLR_OVF_Pos        0            /**< \brief (TCC_INTENCLR) Overflow Interrupt Enable */
+#define TCC_INTENCLR_OVF            (_U_(0x1) << TCC_INTENCLR_OVF_Pos)
+#define TCC_INTENCLR_TRG_Pos        1            /**< \brief (TCC_INTENCLR) Retrigger Interrupt Enable */
+#define TCC_INTENCLR_TRG            (_U_(0x1) << TCC_INTENCLR_TRG_Pos)
+#define TCC_INTENCLR_CNT_Pos        2            /**< \brief (TCC_INTENCLR) Counter Interrupt Enable */
+#define TCC_INTENCLR_CNT            (_U_(0x1) << TCC_INTENCLR_CNT_Pos)
+#define TCC_INTENCLR_ERR_Pos        3            /**< \brief (TCC_INTENCLR) Error Interrupt Enable */
+#define TCC_INTENCLR_ERR            (_U_(0x1) << TCC_INTENCLR_ERR_Pos)
+#define TCC_INTENCLR_UFS_Pos        10           /**< \brief (TCC_INTENCLR) Non-Recoverable Update Fault Interrupt Enable */
+#define TCC_INTENCLR_UFS            (_U_(0x1) << TCC_INTENCLR_UFS_Pos)
+#define TCC_INTENCLR_DFS_Pos        11           /**< \brief (TCC_INTENCLR) Non-Recoverable Debug Fault Interrupt Enable */
+#define TCC_INTENCLR_DFS            (_U_(0x1) << TCC_INTENCLR_DFS_Pos)
+#define TCC_INTENCLR_FAULTA_Pos     12           /**< \brief (TCC_INTENCLR) Recoverable Fault A Interrupt Enable */
+#define TCC_INTENCLR_FAULTA         (_U_(0x1) << TCC_INTENCLR_FAULTA_Pos)
+#define TCC_INTENCLR_FAULTB_Pos     13           /**< \brief (TCC_INTENCLR) Recoverable Fault B Interrupt Enable */
+#define TCC_INTENCLR_FAULTB         (_U_(0x1) << TCC_INTENCLR_FAULTB_Pos)
+#define TCC_INTENCLR_FAULT0_Pos     14           /**< \brief (TCC_INTENCLR) Non-Recoverable Fault 0 Interrupt Enable */
+#define TCC_INTENCLR_FAULT0         (_U_(0x1) << TCC_INTENCLR_FAULT0_Pos)
+#define TCC_INTENCLR_FAULT1_Pos     15           /**< \brief (TCC_INTENCLR) Non-Recoverable Fault 1 Interrupt Enable */
+#define TCC_INTENCLR_FAULT1         (_U_(0x1) << TCC_INTENCLR_FAULT1_Pos)
+#define TCC_INTENCLR_MC0_Pos        16           /**< \brief (TCC_INTENCLR) Match or Capture Channel 0 Interrupt Enable */
+#define TCC_INTENCLR_MC0            (_U_(1) << TCC_INTENCLR_MC0_Pos)
+#define TCC_INTENCLR_MC1_Pos        17           /**< \brief (TCC_INTENCLR) Match or Capture Channel 1 Interrupt Enable */
+#define TCC_INTENCLR_MC1            (_U_(1) << TCC_INTENCLR_MC1_Pos)
+#define TCC_INTENCLR_MC2_Pos        18           /**< \brief (TCC_INTENCLR) Match or Capture Channel 2 Interrupt Enable */
+#define TCC_INTENCLR_MC2            (_U_(1) << TCC_INTENCLR_MC2_Pos)
+#define TCC_INTENCLR_MC3_Pos        19           /**< \brief (TCC_INTENCLR) Match or Capture Channel 3 Interrupt Enable */
+#define TCC_INTENCLR_MC3            (_U_(1) << TCC_INTENCLR_MC3_Pos)
+#define TCC_INTENCLR_MC_Pos         16           /**< \brief (TCC_INTENCLR) Match or Capture Channel x Interrupt Enable */
+#define TCC_INTENCLR_MC_Msk         (_U_(0xF) << TCC_INTENCLR_MC_Pos)
+#define TCC_INTENCLR_MC(value)      (TCC_INTENCLR_MC_Msk & ((value) << TCC_INTENCLR_MC_Pos))
+#define TCC_INTENCLR_MASK           _U_(0x000FFC0F) /**< \brief (TCC_INTENCLR) MASK Register */
+
+/* -------- TCC_INTENSET : (TCC Offset: 0x28) (R/W 32) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t OVF:1;            /*!< bit:      0  Overflow Interrupt Enable          */
+    uint32_t TRG:1;            /*!< bit:      1  Retrigger Interrupt Enable         */
+    uint32_t CNT:1;            /*!< bit:      2  Counter Interrupt Enable           */
+    uint32_t ERR:1;            /*!< bit:      3  Error Interrupt Enable             */
+    uint32_t :6;               /*!< bit:  4.. 9  Reserved                           */
+    uint32_t UFS:1;            /*!< bit:     10  Non-Recoverable Update Fault Interrupt Enable */
+    uint32_t DFS:1;            /*!< bit:     11  Non-Recoverable Debug Fault Interrupt Enable */
+    uint32_t FAULTA:1;         /*!< bit:     12  Recoverable Fault A Interrupt Enable */
+    uint32_t FAULTB:1;         /*!< bit:     13  Recoverable Fault B Interrupt Enable */
+    uint32_t FAULT0:1;         /*!< bit:     14  Non-Recoverable Fault 0 Interrupt Enable */
+    uint32_t FAULT1:1;         /*!< bit:     15  Non-Recoverable Fault 1 Interrupt Enable */
+    uint32_t MC0:1;            /*!< bit:     16  Match or Capture Channel 0 Interrupt Enable */
+    uint32_t MC1:1;            /*!< bit:     17  Match or Capture Channel 1 Interrupt Enable */
+    uint32_t MC2:1;            /*!< bit:     18  Match or Capture Channel 2 Interrupt Enable */
+    uint32_t MC3:1;            /*!< bit:     19  Match or Capture Channel 3 Interrupt Enable */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    uint32_t MC:4;             /*!< bit: 16..19  Match or Capture Channel x Interrupt Enable */
+    uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_INTENSET_OFFSET         0x28         /**< \brief (TCC_INTENSET offset) Interrupt Enable Set */
+#define TCC_INTENSET_RESETVALUE     _U_(0x00000000) /**< \brief (TCC_INTENSET reset_value) Interrupt Enable Set */
+
+#define TCC_INTENSET_OVF_Pos        0            /**< \brief (TCC_INTENSET) Overflow Interrupt Enable */
+#define TCC_INTENSET_OVF            (_U_(0x1) << TCC_INTENSET_OVF_Pos)
+#define TCC_INTENSET_TRG_Pos        1            /**< \brief (TCC_INTENSET) Retrigger Interrupt Enable */
+#define TCC_INTENSET_TRG            (_U_(0x1) << TCC_INTENSET_TRG_Pos)
+#define TCC_INTENSET_CNT_Pos        2            /**< \brief (TCC_INTENSET) Counter Interrupt Enable */
+#define TCC_INTENSET_CNT            (_U_(0x1) << TCC_INTENSET_CNT_Pos)
+#define TCC_INTENSET_ERR_Pos        3            /**< \brief (TCC_INTENSET) Error Interrupt Enable */
+#define TCC_INTENSET_ERR            (_U_(0x1) << TCC_INTENSET_ERR_Pos)
+#define TCC_INTENSET_UFS_Pos        10           /**< \brief (TCC_INTENSET) Non-Recoverable Update Fault Interrupt Enable */
+#define TCC_INTENSET_UFS            (_U_(0x1) << TCC_INTENSET_UFS_Pos)
+#define TCC_INTENSET_DFS_Pos        11           /**< \brief (TCC_INTENSET) Non-Recoverable Debug Fault Interrupt Enable */
+#define TCC_INTENSET_DFS            (_U_(0x1) << TCC_INTENSET_DFS_Pos)
+#define TCC_INTENSET_FAULTA_Pos     12           /**< \brief (TCC_INTENSET) Recoverable Fault A Interrupt Enable */
+#define TCC_INTENSET_FAULTA         (_U_(0x1) << TCC_INTENSET_FAULTA_Pos)
+#define TCC_INTENSET_FAULTB_Pos     13           /**< \brief (TCC_INTENSET) Recoverable Fault B Interrupt Enable */
+#define TCC_INTENSET_FAULTB         (_U_(0x1) << TCC_INTENSET_FAULTB_Pos)
+#define TCC_INTENSET_FAULT0_Pos     14           /**< \brief (TCC_INTENSET) Non-Recoverable Fault 0 Interrupt Enable */
+#define TCC_INTENSET_FAULT0         (_U_(0x1) << TCC_INTENSET_FAULT0_Pos)
+#define TCC_INTENSET_FAULT1_Pos     15           /**< \brief (TCC_INTENSET) Non-Recoverable Fault 1 Interrupt Enable */
+#define TCC_INTENSET_FAULT1         (_U_(0x1) << TCC_INTENSET_FAULT1_Pos)
+#define TCC_INTENSET_MC0_Pos        16           /**< \brief (TCC_INTENSET) Match or Capture Channel 0 Interrupt Enable */
+#define TCC_INTENSET_MC0            (_U_(1) << TCC_INTENSET_MC0_Pos)
+#define TCC_INTENSET_MC1_Pos        17           /**< \brief (TCC_INTENSET) Match or Capture Channel 1 Interrupt Enable */
+#define TCC_INTENSET_MC1            (_U_(1) << TCC_INTENSET_MC1_Pos)
+#define TCC_INTENSET_MC2_Pos        18           /**< \brief (TCC_INTENSET) Match or Capture Channel 2 Interrupt Enable */
+#define TCC_INTENSET_MC2            (_U_(1) << TCC_INTENSET_MC2_Pos)
+#define TCC_INTENSET_MC3_Pos        19           /**< \brief (TCC_INTENSET) Match or Capture Channel 3 Interrupt Enable */
+#define TCC_INTENSET_MC3            (_U_(1) << TCC_INTENSET_MC3_Pos)
+#define TCC_INTENSET_MC_Pos         16           /**< \brief (TCC_INTENSET) Match or Capture Channel x Interrupt Enable */
+#define TCC_INTENSET_MC_Msk         (_U_(0xF) << TCC_INTENSET_MC_Pos)
+#define TCC_INTENSET_MC(value)      (TCC_INTENSET_MC_Msk & ((value) << TCC_INTENSET_MC_Pos))
+#define TCC_INTENSET_MASK           _U_(0x000FFC0F) /**< \brief (TCC_INTENSET) MASK Register */
+
+/* -------- TCC_INTFLAG : (TCC Offset: 0x2C) (R/W 32) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint32_t OVF:1;            /*!< bit:      0  Overflow                           */
+    __I uint32_t TRG:1;            /*!< bit:      1  Retrigger                          */
+    __I uint32_t CNT:1;            /*!< bit:      2  Counter                            */
+    __I uint32_t ERR:1;            /*!< bit:      3  Error                              */
+    __I uint32_t :6;               /*!< bit:  4.. 9  Reserved                           */
+    __I uint32_t UFS:1;            /*!< bit:     10  Non-Recoverable Update Fault       */
+    __I uint32_t DFS:1;            /*!< bit:     11  Non-Recoverable Debug Fault        */
+    __I uint32_t FAULTA:1;         /*!< bit:     12  Recoverable Fault A                */
+    __I uint32_t FAULTB:1;         /*!< bit:     13  Recoverable Fault B                */
+    __I uint32_t FAULT0:1;         /*!< bit:     14  Non-Recoverable Fault 0            */
+    __I uint32_t FAULT1:1;         /*!< bit:     15  Non-Recoverable Fault 1            */
+    __I uint32_t MC0:1;            /*!< bit:     16  Match or Capture 0                 */
+    __I uint32_t MC1:1;            /*!< bit:     17  Match or Capture 1                 */
+    __I uint32_t MC2:1;            /*!< bit:     18  Match or Capture 2                 */
+    __I uint32_t MC3:1;            /*!< bit:     19  Match or Capture 3                 */
+    __I uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    __I uint32_t MC:4;             /*!< bit: 16..19  Match or Capture x                 */
+    __I uint32_t :12;              /*!< bit: 20..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_INTFLAG_OFFSET          0x2C         /**< \brief (TCC_INTFLAG offset) Interrupt Flag Status and Clear */
+#define TCC_INTFLAG_RESETVALUE      _U_(0x00000000) /**< \brief (TCC_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define TCC_INTFLAG_OVF_Pos         0            /**< \brief (TCC_INTFLAG) Overflow */
+#define TCC_INTFLAG_OVF             (_U_(0x1) << TCC_INTFLAG_OVF_Pos)
+#define TCC_INTFLAG_TRG_Pos         1            /**< \brief (TCC_INTFLAG) Retrigger */
+#define TCC_INTFLAG_TRG             (_U_(0x1) << TCC_INTFLAG_TRG_Pos)
+#define TCC_INTFLAG_CNT_Pos         2            /**< \brief (TCC_INTFLAG) Counter */
+#define TCC_INTFLAG_CNT             (_U_(0x1) << TCC_INTFLAG_CNT_Pos)
+#define TCC_INTFLAG_ERR_Pos         3            /**< \brief (TCC_INTFLAG) Error */
+#define TCC_INTFLAG_ERR             (_U_(0x1) << TCC_INTFLAG_ERR_Pos)
+#define TCC_INTFLAG_UFS_Pos         10           /**< \brief (TCC_INTFLAG) Non-Recoverable Update Fault */
+#define TCC_INTFLAG_UFS             (_U_(0x1) << TCC_INTFLAG_UFS_Pos)
+#define TCC_INTFLAG_DFS_Pos         11           /**< \brief (TCC_INTFLAG) Non-Recoverable Debug Fault */
+#define TCC_INTFLAG_DFS             (_U_(0x1) << TCC_INTFLAG_DFS_Pos)
+#define TCC_INTFLAG_FAULTA_Pos      12           /**< \brief (TCC_INTFLAG) Recoverable Fault A */
+#define TCC_INTFLAG_FAULTA          (_U_(0x1) << TCC_INTFLAG_FAULTA_Pos)
+#define TCC_INTFLAG_FAULTB_Pos      13           /**< \brief (TCC_INTFLAG) Recoverable Fault B */
+#define TCC_INTFLAG_FAULTB          (_U_(0x1) << TCC_INTFLAG_FAULTB_Pos)
+#define TCC_INTFLAG_FAULT0_Pos      14           /**< \brief (TCC_INTFLAG) Non-Recoverable Fault 0 */
+#define TCC_INTFLAG_FAULT0          (_U_(0x1) << TCC_INTFLAG_FAULT0_Pos)
+#define TCC_INTFLAG_FAULT1_Pos      15           /**< \brief (TCC_INTFLAG) Non-Recoverable Fault 1 */
+#define TCC_INTFLAG_FAULT1          (_U_(0x1) << TCC_INTFLAG_FAULT1_Pos)
+#define TCC_INTFLAG_MC0_Pos         16           /**< \brief (TCC_INTFLAG) Match or Capture 0 */
+#define TCC_INTFLAG_MC0             (_U_(1) << TCC_INTFLAG_MC0_Pos)
+#define TCC_INTFLAG_MC1_Pos         17           /**< \brief (TCC_INTFLAG) Match or Capture 1 */
+#define TCC_INTFLAG_MC1             (_U_(1) << TCC_INTFLAG_MC1_Pos)
+#define TCC_INTFLAG_MC2_Pos         18           /**< \brief (TCC_INTFLAG) Match or Capture 2 */
+#define TCC_INTFLAG_MC2             (_U_(1) << TCC_INTFLAG_MC2_Pos)
+#define TCC_INTFLAG_MC3_Pos         19           /**< \brief (TCC_INTFLAG) Match or Capture 3 */
+#define TCC_INTFLAG_MC3             (_U_(1) << TCC_INTFLAG_MC3_Pos)
+#define TCC_INTFLAG_MC_Pos          16           /**< \brief (TCC_INTFLAG) Match or Capture x */
+#define TCC_INTFLAG_MC_Msk          (_U_(0xF) << TCC_INTFLAG_MC_Pos)
+#define TCC_INTFLAG_MC(value)       (TCC_INTFLAG_MC_Msk & ((value) << TCC_INTFLAG_MC_Pos))
+#define TCC_INTFLAG_MASK            _U_(0x000FFC0F) /**< \brief (TCC_INTFLAG) MASK Register */
+
+/* -------- TCC_STATUS : (TCC Offset: 0x30) (R/W 32) Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t STOP:1;           /*!< bit:      0  Stop                               */
+    uint32_t IDX:1;            /*!< bit:      1  Ramp                               */
+    uint32_t UFS:1;            /*!< bit:      2  Non-recoverable Update Fault State */
+    uint32_t DFS:1;            /*!< bit:      3  Non-Recoverable Debug Fault State  */
+    uint32_t SLAVE:1;          /*!< bit:      4  Slave                              */
+    uint32_t PATTBUFV:1;       /*!< bit:      5  Pattern Buffer Valid               */
+    uint32_t :1;               /*!< bit:      6  Reserved                           */
+    uint32_t PERBUFV:1;        /*!< bit:      7  Period Buffer Valid                */
+    uint32_t FAULTAIN:1;       /*!< bit:      8  Recoverable Fault A Input          */
+    uint32_t FAULTBIN:1;       /*!< bit:      9  Recoverable Fault B Input          */
+    uint32_t FAULT0IN:1;       /*!< bit:     10  Non-Recoverable Fault0 Input       */
+    uint32_t FAULT1IN:1;       /*!< bit:     11  Non-Recoverable Fault1 Input       */
+    uint32_t FAULTA:1;         /*!< bit:     12  Recoverable Fault A State          */
+    uint32_t FAULTB:1;         /*!< bit:     13  Recoverable Fault B State          */
+    uint32_t FAULT0:1;         /*!< bit:     14  Non-Recoverable Fault 0 State      */
+    uint32_t FAULT1:1;         /*!< bit:     15  Non-Recoverable Fault 1 State      */
+    uint32_t CCBUFV0:1;        /*!< bit:     16  Compare Channel 0 Buffer Valid     */
+    uint32_t CCBUFV1:1;        /*!< bit:     17  Compare Channel 1 Buffer Valid     */
+    uint32_t CCBUFV2:1;        /*!< bit:     18  Compare Channel 2 Buffer Valid     */
+    uint32_t CCBUFV3:1;        /*!< bit:     19  Compare Channel 3 Buffer Valid     */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t CMP0:1;           /*!< bit:     24  Compare Channel 0 Value            */
+    uint32_t CMP1:1;           /*!< bit:     25  Compare Channel 1 Value            */
+    uint32_t CMP2:1;           /*!< bit:     26  Compare Channel 2 Value            */
+    uint32_t CMP3:1;           /*!< bit:     27  Compare Channel 3 Value            */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :16;              /*!< bit:  0..15  Reserved                           */
+    uint32_t CCBUFV:4;         /*!< bit: 16..19  Compare Channel x Buffer Valid     */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t CMP:4;            /*!< bit: 24..27  Compare Channel x Value            */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_STATUS_OFFSET           0x30         /**< \brief (TCC_STATUS offset) Status */
+#define TCC_STATUS_RESETVALUE       _U_(0x00000001) /**< \brief (TCC_STATUS reset_value) Status */
+
+#define TCC_STATUS_STOP_Pos         0            /**< \brief (TCC_STATUS) Stop */
+#define TCC_STATUS_STOP             (_U_(0x1) << TCC_STATUS_STOP_Pos)
+#define TCC_STATUS_IDX_Pos          1            /**< \brief (TCC_STATUS) Ramp */
+#define TCC_STATUS_IDX              (_U_(0x1) << TCC_STATUS_IDX_Pos)
+#define TCC_STATUS_UFS_Pos          2            /**< \brief (TCC_STATUS) Non-recoverable Update Fault State */
+#define TCC_STATUS_UFS              (_U_(0x1) << TCC_STATUS_UFS_Pos)
+#define TCC_STATUS_DFS_Pos          3            /**< \brief (TCC_STATUS) Non-Recoverable Debug Fault State */
+#define TCC_STATUS_DFS              (_U_(0x1) << TCC_STATUS_DFS_Pos)
+#define TCC_STATUS_SLAVE_Pos        4            /**< \brief (TCC_STATUS) Slave */
+#define TCC_STATUS_SLAVE            (_U_(0x1) << TCC_STATUS_SLAVE_Pos)
+#define TCC_STATUS_PATTBUFV_Pos     5            /**< \brief (TCC_STATUS) Pattern Buffer Valid */
+#define TCC_STATUS_PATTBUFV         (_U_(0x1) << TCC_STATUS_PATTBUFV_Pos)
+#define TCC_STATUS_PERBUFV_Pos      7            /**< \brief (TCC_STATUS) Period Buffer Valid */
+#define TCC_STATUS_PERBUFV          (_U_(0x1) << TCC_STATUS_PERBUFV_Pos)
+#define TCC_STATUS_FAULTAIN_Pos     8            /**< \brief (TCC_STATUS) Recoverable Fault A Input */
+#define TCC_STATUS_FAULTAIN         (_U_(0x1) << TCC_STATUS_FAULTAIN_Pos)
+#define TCC_STATUS_FAULTBIN_Pos     9            /**< \brief (TCC_STATUS) Recoverable Fault B Input */
+#define TCC_STATUS_FAULTBIN         (_U_(0x1) << TCC_STATUS_FAULTBIN_Pos)
+#define TCC_STATUS_FAULT0IN_Pos     10           /**< \brief (TCC_STATUS) Non-Recoverable Fault0 Input */
+#define TCC_STATUS_FAULT0IN         (_U_(0x1) << TCC_STATUS_FAULT0IN_Pos)
+#define TCC_STATUS_FAULT1IN_Pos     11           /**< \brief (TCC_STATUS) Non-Recoverable Fault1 Input */
+#define TCC_STATUS_FAULT1IN         (_U_(0x1) << TCC_STATUS_FAULT1IN_Pos)
+#define TCC_STATUS_FAULTA_Pos       12           /**< \brief (TCC_STATUS) Recoverable Fault A State */
+#define TCC_STATUS_FAULTA           (_U_(0x1) << TCC_STATUS_FAULTA_Pos)
+#define TCC_STATUS_FAULTB_Pos       13           /**< \brief (TCC_STATUS) Recoverable Fault B State */
+#define TCC_STATUS_FAULTB           (_U_(0x1) << TCC_STATUS_FAULTB_Pos)
+#define TCC_STATUS_FAULT0_Pos       14           /**< \brief (TCC_STATUS) Non-Recoverable Fault 0 State */
+#define TCC_STATUS_FAULT0           (_U_(0x1) << TCC_STATUS_FAULT0_Pos)
+#define TCC_STATUS_FAULT1_Pos       15           /**< \brief (TCC_STATUS) Non-Recoverable Fault 1 State */
+#define TCC_STATUS_FAULT1           (_U_(0x1) << TCC_STATUS_FAULT1_Pos)
+#define TCC_STATUS_CCBUFV0_Pos      16           /**< \brief (TCC_STATUS) Compare Channel 0 Buffer Valid */
+#define TCC_STATUS_CCBUFV0          (_U_(1) << TCC_STATUS_CCBUFV0_Pos)
+#define TCC_STATUS_CCBUFV1_Pos      17           /**< \brief (TCC_STATUS) Compare Channel 1 Buffer Valid */
+#define TCC_STATUS_CCBUFV1          (_U_(1) << TCC_STATUS_CCBUFV1_Pos)
+#define TCC_STATUS_CCBUFV2_Pos      18           /**< \brief (TCC_STATUS) Compare Channel 2 Buffer Valid */
+#define TCC_STATUS_CCBUFV2          (_U_(1) << TCC_STATUS_CCBUFV2_Pos)
+#define TCC_STATUS_CCBUFV3_Pos      19           /**< \brief (TCC_STATUS) Compare Channel 3 Buffer Valid */
+#define TCC_STATUS_CCBUFV3          (_U_(1) << TCC_STATUS_CCBUFV3_Pos)
+#define TCC_STATUS_CCBUFV_Pos       16           /**< \brief (TCC_STATUS) Compare Channel x Buffer Valid */
+#define TCC_STATUS_CCBUFV_Msk       (_U_(0xF) << TCC_STATUS_CCBUFV_Pos)
+#define TCC_STATUS_CCBUFV(value)    (TCC_STATUS_CCBUFV_Msk & ((value) << TCC_STATUS_CCBUFV_Pos))
+#define TCC_STATUS_CMP0_Pos         24           /**< \brief (TCC_STATUS) Compare Channel 0 Value */
+#define TCC_STATUS_CMP0             (_U_(1) << TCC_STATUS_CMP0_Pos)
+#define TCC_STATUS_CMP1_Pos         25           /**< \brief (TCC_STATUS) Compare Channel 1 Value */
+#define TCC_STATUS_CMP1             (_U_(1) << TCC_STATUS_CMP1_Pos)
+#define TCC_STATUS_CMP2_Pos         26           /**< \brief (TCC_STATUS) Compare Channel 2 Value */
+#define TCC_STATUS_CMP2             (_U_(1) << TCC_STATUS_CMP2_Pos)
+#define TCC_STATUS_CMP3_Pos         27           /**< \brief (TCC_STATUS) Compare Channel 3 Value */
+#define TCC_STATUS_CMP3             (_U_(1) << TCC_STATUS_CMP3_Pos)
+#define TCC_STATUS_CMP_Pos          24           /**< \brief (TCC_STATUS) Compare Channel x Value */
+#define TCC_STATUS_CMP_Msk          (_U_(0xF) << TCC_STATUS_CMP_Pos)
+#define TCC_STATUS_CMP(value)       (TCC_STATUS_CMP_Msk & ((value) << TCC_STATUS_CMP_Pos))
+#define TCC_STATUS_MASK             _U_(0x0F0FFFBF) /**< \brief (TCC_STATUS) MASK Register */
+
+/* -------- TCC_COUNT : (TCC Offset: 0x34) (R/W 32) Count -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct { // DITH4 mode
+    uint32_t :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint32_t COUNT:20;         /*!< bit:  4..23  Counter Value                      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH4;                     /*!< Structure used for DITH4                        */
+  struct { // DITH5 mode
+    uint32_t :5;               /*!< bit:  0.. 4  Reserved                           */
+    uint32_t COUNT:19;         /*!< bit:  5..23  Counter Value                      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH5;                     /*!< Structure used for DITH5                        */
+  struct { // DITH6 mode
+    uint32_t :6;               /*!< bit:  0.. 5  Reserved                           */
+    uint32_t COUNT:18;         /*!< bit:  6..23  Counter Value                      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH6;                     /*!< Structure used for DITH6                        */
+  struct {
+    uint32_t COUNT:24;         /*!< bit:  0..23  Counter Value                      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_COUNT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_COUNT_OFFSET            0x34         /**< \brief (TCC_COUNT offset) Count */
+#define TCC_COUNT_RESETVALUE        _U_(0x00000000) /**< \brief (TCC_COUNT reset_value) Count */
+
+// DITH4 mode
+#define TCC_COUNT_DITH4_COUNT_Pos   4            /**< \brief (TCC_COUNT_DITH4) Counter Value */
+#define TCC_COUNT_DITH4_COUNT_Msk   (_U_(0xFFFFF) << TCC_COUNT_DITH4_COUNT_Pos)
+#define TCC_COUNT_DITH4_COUNT(value) (TCC_COUNT_DITH4_COUNT_Msk & ((value) << TCC_COUNT_DITH4_COUNT_Pos))
+#define TCC_COUNT_DITH4_MASK        _U_(0x00FFFFF0) /**< \brief (TCC_COUNT_DITH4) MASK Register */
+
+// DITH5 mode
+#define TCC_COUNT_DITH5_COUNT_Pos   5            /**< \brief (TCC_COUNT_DITH5) Counter Value */
+#define TCC_COUNT_DITH5_COUNT_Msk   (_U_(0x7FFFF) << TCC_COUNT_DITH5_COUNT_Pos)
+#define TCC_COUNT_DITH5_COUNT(value) (TCC_COUNT_DITH5_COUNT_Msk & ((value) << TCC_COUNT_DITH5_COUNT_Pos))
+#define TCC_COUNT_DITH5_MASK        _U_(0x00FFFFE0) /**< \brief (TCC_COUNT_DITH5) MASK Register */
+
+// DITH6 mode
+#define TCC_COUNT_DITH6_COUNT_Pos   6            /**< \brief (TCC_COUNT_DITH6) Counter Value */
+#define TCC_COUNT_DITH6_COUNT_Msk   (_U_(0x3FFFF) << TCC_COUNT_DITH6_COUNT_Pos)
+#define TCC_COUNT_DITH6_COUNT(value) (TCC_COUNT_DITH6_COUNT_Msk & ((value) << TCC_COUNT_DITH6_COUNT_Pos))
+#define TCC_COUNT_DITH6_MASK        _U_(0x00FFFFC0) /**< \brief (TCC_COUNT_DITH6) MASK Register */
+
+#define TCC_COUNT_COUNT_Pos         0            /**< \brief (TCC_COUNT) Counter Value */
+#define TCC_COUNT_COUNT_Msk         (_U_(0xFFFFFF) << TCC_COUNT_COUNT_Pos)
+#define TCC_COUNT_COUNT(value)      (TCC_COUNT_COUNT_Msk & ((value) << TCC_COUNT_COUNT_Pos))
+#define TCC_COUNT_MASK              _U_(0x00FFFFFF) /**< \brief (TCC_COUNT) MASK Register */
+
+/* -------- TCC_PATT : (TCC Offset: 0x38) (R/W 16) Pattern -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PGE0:1;           /*!< bit:      0  Pattern Generator 0 Output Enable  */
+    uint16_t PGE1:1;           /*!< bit:      1  Pattern Generator 1 Output Enable  */
+    uint16_t PGE2:1;           /*!< bit:      2  Pattern Generator 2 Output Enable  */
+    uint16_t PGE3:1;           /*!< bit:      3  Pattern Generator 3 Output Enable  */
+    uint16_t PGE4:1;           /*!< bit:      4  Pattern Generator 4 Output Enable  */
+    uint16_t PGE5:1;           /*!< bit:      5  Pattern Generator 5 Output Enable  */
+    uint16_t PGE6:1;           /*!< bit:      6  Pattern Generator 6 Output Enable  */
+    uint16_t PGE7:1;           /*!< bit:      7  Pattern Generator 7 Output Enable  */
+    uint16_t PGV0:1;           /*!< bit:      8  Pattern Generator 0 Output Value   */
+    uint16_t PGV1:1;           /*!< bit:      9  Pattern Generator 1 Output Value   */
+    uint16_t PGV2:1;           /*!< bit:     10  Pattern Generator 2 Output Value   */
+    uint16_t PGV3:1;           /*!< bit:     11  Pattern Generator 3 Output Value   */
+    uint16_t PGV4:1;           /*!< bit:     12  Pattern Generator 4 Output Value   */
+    uint16_t PGV5:1;           /*!< bit:     13  Pattern Generator 5 Output Value   */
+    uint16_t PGV6:1;           /*!< bit:     14  Pattern Generator 6 Output Value   */
+    uint16_t PGV7:1;           /*!< bit:     15  Pattern Generator 7 Output Value   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PGE:8;            /*!< bit:  0.. 7  Pattern Generator x Output Enable  */
+    uint16_t PGV:8;            /*!< bit:  8..15  Pattern Generator x Output Value   */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TCC_PATT_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_PATT_OFFSET             0x38         /**< \brief (TCC_PATT offset) Pattern */
+#define TCC_PATT_RESETVALUE         _U_(0x0000)  /**< \brief (TCC_PATT reset_value) Pattern */
+
+#define TCC_PATT_PGE0_Pos           0            /**< \brief (TCC_PATT) Pattern Generator 0 Output Enable */
+#define TCC_PATT_PGE0               (_U_(1) << TCC_PATT_PGE0_Pos)
+#define TCC_PATT_PGE1_Pos           1            /**< \brief (TCC_PATT) Pattern Generator 1 Output Enable */
+#define TCC_PATT_PGE1               (_U_(1) << TCC_PATT_PGE1_Pos)
+#define TCC_PATT_PGE2_Pos           2            /**< \brief (TCC_PATT) Pattern Generator 2 Output Enable */
+#define TCC_PATT_PGE2               (_U_(1) << TCC_PATT_PGE2_Pos)
+#define TCC_PATT_PGE3_Pos           3            /**< \brief (TCC_PATT) Pattern Generator 3 Output Enable */
+#define TCC_PATT_PGE3               (_U_(1) << TCC_PATT_PGE3_Pos)
+#define TCC_PATT_PGE4_Pos           4            /**< \brief (TCC_PATT) Pattern Generator 4 Output Enable */
+#define TCC_PATT_PGE4               (_U_(1) << TCC_PATT_PGE4_Pos)
+#define TCC_PATT_PGE5_Pos           5            /**< \brief (TCC_PATT) Pattern Generator 5 Output Enable */
+#define TCC_PATT_PGE5               (_U_(1) << TCC_PATT_PGE5_Pos)
+#define TCC_PATT_PGE6_Pos           6            /**< \brief (TCC_PATT) Pattern Generator 6 Output Enable */
+#define TCC_PATT_PGE6               (_U_(1) << TCC_PATT_PGE6_Pos)
+#define TCC_PATT_PGE7_Pos           7            /**< \brief (TCC_PATT) Pattern Generator 7 Output Enable */
+#define TCC_PATT_PGE7               (_U_(1) << TCC_PATT_PGE7_Pos)
+#define TCC_PATT_PGE_Pos            0            /**< \brief (TCC_PATT) Pattern Generator x Output Enable */
+#define TCC_PATT_PGE_Msk            (_U_(0xFF) << TCC_PATT_PGE_Pos)
+#define TCC_PATT_PGE(value)         (TCC_PATT_PGE_Msk & ((value) << TCC_PATT_PGE_Pos))
+#define TCC_PATT_PGV0_Pos           8            /**< \brief (TCC_PATT) Pattern Generator 0 Output Value */
+#define TCC_PATT_PGV0               (_U_(1) << TCC_PATT_PGV0_Pos)
+#define TCC_PATT_PGV1_Pos           9            /**< \brief (TCC_PATT) Pattern Generator 1 Output Value */
+#define TCC_PATT_PGV1               (_U_(1) << TCC_PATT_PGV1_Pos)
+#define TCC_PATT_PGV2_Pos           10           /**< \brief (TCC_PATT) Pattern Generator 2 Output Value */
+#define TCC_PATT_PGV2               (_U_(1) << TCC_PATT_PGV2_Pos)
+#define TCC_PATT_PGV3_Pos           11           /**< \brief (TCC_PATT) Pattern Generator 3 Output Value */
+#define TCC_PATT_PGV3               (_U_(1) << TCC_PATT_PGV3_Pos)
+#define TCC_PATT_PGV4_Pos           12           /**< \brief (TCC_PATT) Pattern Generator 4 Output Value */
+#define TCC_PATT_PGV4               (_U_(1) << TCC_PATT_PGV4_Pos)
+#define TCC_PATT_PGV5_Pos           13           /**< \brief (TCC_PATT) Pattern Generator 5 Output Value */
+#define TCC_PATT_PGV5               (_U_(1) << TCC_PATT_PGV5_Pos)
+#define TCC_PATT_PGV6_Pos           14           /**< \brief (TCC_PATT) Pattern Generator 6 Output Value */
+#define TCC_PATT_PGV6               (_U_(1) << TCC_PATT_PGV6_Pos)
+#define TCC_PATT_PGV7_Pos           15           /**< \brief (TCC_PATT) Pattern Generator 7 Output Value */
+#define TCC_PATT_PGV7               (_U_(1) << TCC_PATT_PGV7_Pos)
+#define TCC_PATT_PGV_Pos            8            /**< \brief (TCC_PATT) Pattern Generator x Output Value */
+#define TCC_PATT_PGV_Msk            (_U_(0xFF) << TCC_PATT_PGV_Pos)
+#define TCC_PATT_PGV(value)         (TCC_PATT_PGV_Msk & ((value) << TCC_PATT_PGV_Pos))
+#define TCC_PATT_MASK               _U_(0xFFFF)  /**< \brief (TCC_PATT) MASK Register */
+
+/* -------- TCC_WAVE : (TCC Offset: 0x3C) (R/W 32) Waveform Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t WAVEGEN:3;        /*!< bit:  0.. 2  Waveform Generation                */
+    uint32_t :1;               /*!< bit:      3  Reserved                           */
+    uint32_t RAMP:2;           /*!< bit:  4.. 5  Ramp Mode                          */
+    uint32_t :1;               /*!< bit:      6  Reserved                           */
+    uint32_t CIPEREN:1;        /*!< bit:      7  Circular period Enable             */
+    uint32_t CICCEN0:1;        /*!< bit:      8  Circular Channel 0 Enable          */
+    uint32_t CICCEN1:1;        /*!< bit:      9  Circular Channel 1 Enable          */
+    uint32_t CICCEN2:1;        /*!< bit:     10  Circular Channel 2 Enable          */
+    uint32_t CICCEN3:1;        /*!< bit:     11  Circular Channel 3 Enable          */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t POL0:1;           /*!< bit:     16  Channel 0 Polarity                 */
+    uint32_t POL1:1;           /*!< bit:     17  Channel 1 Polarity                 */
+    uint32_t POL2:1;           /*!< bit:     18  Channel 2 Polarity                 */
+    uint32_t POL3:1;           /*!< bit:     19  Channel 3 Polarity                 */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t SWAP0:1;          /*!< bit:     24  Swap DTI Output Pair 0             */
+    uint32_t SWAP1:1;          /*!< bit:     25  Swap DTI Output Pair 1             */
+    uint32_t SWAP2:1;          /*!< bit:     26  Swap DTI Output Pair 2             */
+    uint32_t SWAP3:1;          /*!< bit:     27  Swap DTI Output Pair 3             */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint32_t :8;               /*!< bit:  0.. 7  Reserved                           */
+    uint32_t CICCEN:4;         /*!< bit:  8..11  Circular Channel x Enable          */
+    uint32_t :4;               /*!< bit: 12..15  Reserved                           */
+    uint32_t POL:4;            /*!< bit: 16..19  Channel x Polarity                 */
+    uint32_t :4;               /*!< bit: 20..23  Reserved                           */
+    uint32_t SWAP:4;           /*!< bit: 24..27  Swap DTI Output Pair x             */
+    uint32_t :4;               /*!< bit: 28..31  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_WAVE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_WAVE_OFFSET             0x3C         /**< \brief (TCC_WAVE offset) Waveform Control */
+#define TCC_WAVE_RESETVALUE         _U_(0x00000000) /**< \brief (TCC_WAVE reset_value) Waveform Control */
+
+#define TCC_WAVE_WAVEGEN_Pos        0            /**< \brief (TCC_WAVE) Waveform Generation */
+#define TCC_WAVE_WAVEGEN_Msk        (_U_(0x7) << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN(value)     (TCC_WAVE_WAVEGEN_Msk & ((value) << TCC_WAVE_WAVEGEN_Pos))
+#define   TCC_WAVE_WAVEGEN_NFRQ_Val       _U_(0x0)   /**< \brief (TCC_WAVE) Normal frequency */
+#define   TCC_WAVE_WAVEGEN_MFRQ_Val       _U_(0x1)   /**< \brief (TCC_WAVE) Match frequency */
+#define   TCC_WAVE_WAVEGEN_NPWM_Val       _U_(0x2)   /**< \brief (TCC_WAVE) Normal PWM */
+#define   TCC_WAVE_WAVEGEN_DSCRITICAL_Val _U_(0x4)   /**< \brief (TCC_WAVE) Dual-slope critical */
+#define   TCC_WAVE_WAVEGEN_DSBOTTOM_Val   _U_(0x5)   /**< \brief (TCC_WAVE) Dual-slope with interrupt/event condition when COUNT reaches ZERO */
+#define   TCC_WAVE_WAVEGEN_DSBOTH_Val     _U_(0x6)   /**< \brief (TCC_WAVE) Dual-slope with interrupt/event condition when COUNT reaches ZERO or TOP */
+#define   TCC_WAVE_WAVEGEN_DSTOP_Val      _U_(0x7)   /**< \brief (TCC_WAVE) Dual-slope with interrupt/event condition when COUNT reaches TOP */
+#define TCC_WAVE_WAVEGEN_NFRQ       (TCC_WAVE_WAVEGEN_NFRQ_Val     << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_MFRQ       (TCC_WAVE_WAVEGEN_MFRQ_Val     << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_NPWM       (TCC_WAVE_WAVEGEN_NPWM_Val     << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_DSCRITICAL (TCC_WAVE_WAVEGEN_DSCRITICAL_Val << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_DSBOTTOM   (TCC_WAVE_WAVEGEN_DSBOTTOM_Val << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_DSBOTH     (TCC_WAVE_WAVEGEN_DSBOTH_Val   << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_WAVEGEN_DSTOP      (TCC_WAVE_WAVEGEN_DSTOP_Val    << TCC_WAVE_WAVEGEN_Pos)
+#define TCC_WAVE_RAMP_Pos           4            /**< \brief (TCC_WAVE) Ramp Mode */
+#define TCC_WAVE_RAMP_Msk           (_U_(0x3) << TCC_WAVE_RAMP_Pos)
+#define TCC_WAVE_RAMP(value)        (TCC_WAVE_RAMP_Msk & ((value) << TCC_WAVE_RAMP_Pos))
+#define   TCC_WAVE_RAMP_RAMP1_Val         _U_(0x0)   /**< \brief (TCC_WAVE) RAMP1 operation */
+#define   TCC_WAVE_RAMP_RAMP2A_Val        _U_(0x1)   /**< \brief (TCC_WAVE) Alternative RAMP2 operation */
+#define   TCC_WAVE_RAMP_RAMP2_Val         _U_(0x2)   /**< \brief (TCC_WAVE) RAMP2 operation */
+#define   TCC_WAVE_RAMP_RAMP2C_Val        _U_(0x3)   /**< \brief (TCC_WAVE) Critical RAMP2 operation */
+#define TCC_WAVE_RAMP_RAMP1         (TCC_WAVE_RAMP_RAMP1_Val       << TCC_WAVE_RAMP_Pos)
+#define TCC_WAVE_RAMP_RAMP2A        (TCC_WAVE_RAMP_RAMP2A_Val      << TCC_WAVE_RAMP_Pos)
+#define TCC_WAVE_RAMP_RAMP2         (TCC_WAVE_RAMP_RAMP2_Val       << TCC_WAVE_RAMP_Pos)
+#define TCC_WAVE_RAMP_RAMP2C        (TCC_WAVE_RAMP_RAMP2C_Val      << TCC_WAVE_RAMP_Pos)
+#define TCC_WAVE_CIPEREN_Pos        7            /**< \brief (TCC_WAVE) Circular period Enable */
+#define TCC_WAVE_CIPEREN            (_U_(0x1) << TCC_WAVE_CIPEREN_Pos)
+#define TCC_WAVE_CICCEN0_Pos        8            /**< \brief (TCC_WAVE) Circular Channel 0 Enable */
+#define TCC_WAVE_CICCEN0            (_U_(1) << TCC_WAVE_CICCEN0_Pos)
+#define TCC_WAVE_CICCEN1_Pos        9            /**< \brief (TCC_WAVE) Circular Channel 1 Enable */
+#define TCC_WAVE_CICCEN1            (_U_(1) << TCC_WAVE_CICCEN1_Pos)
+#define TCC_WAVE_CICCEN2_Pos        10           /**< \brief (TCC_WAVE) Circular Channel 2 Enable */
+#define TCC_WAVE_CICCEN2            (_U_(1) << TCC_WAVE_CICCEN2_Pos)
+#define TCC_WAVE_CICCEN3_Pos        11           /**< \brief (TCC_WAVE) Circular Channel 3 Enable */
+#define TCC_WAVE_CICCEN3            (_U_(1) << TCC_WAVE_CICCEN3_Pos)
+#define TCC_WAVE_CICCEN_Pos         8            /**< \brief (TCC_WAVE) Circular Channel x Enable */
+#define TCC_WAVE_CICCEN_Msk         (_U_(0xF) << TCC_WAVE_CICCEN_Pos)
+#define TCC_WAVE_CICCEN(value)      (TCC_WAVE_CICCEN_Msk & ((value) << TCC_WAVE_CICCEN_Pos))
+#define TCC_WAVE_POL0_Pos           16           /**< \brief (TCC_WAVE) Channel 0 Polarity */
+#define TCC_WAVE_POL0               (_U_(1) << TCC_WAVE_POL0_Pos)
+#define TCC_WAVE_POL1_Pos           17           /**< \brief (TCC_WAVE) Channel 1 Polarity */
+#define TCC_WAVE_POL1               (_U_(1) << TCC_WAVE_POL1_Pos)
+#define TCC_WAVE_POL2_Pos           18           /**< \brief (TCC_WAVE) Channel 2 Polarity */
+#define TCC_WAVE_POL2               (_U_(1) << TCC_WAVE_POL2_Pos)
+#define TCC_WAVE_POL3_Pos           19           /**< \brief (TCC_WAVE) Channel 3 Polarity */
+#define TCC_WAVE_POL3               (_U_(1) << TCC_WAVE_POL3_Pos)
+#define TCC_WAVE_POL_Pos            16           /**< \brief (TCC_WAVE) Channel x Polarity */
+#define TCC_WAVE_POL_Msk            (_U_(0xF) << TCC_WAVE_POL_Pos)
+#define TCC_WAVE_POL(value)         (TCC_WAVE_POL_Msk & ((value) << TCC_WAVE_POL_Pos))
+#define TCC_WAVE_SWAP0_Pos          24           /**< \brief (TCC_WAVE) Swap DTI Output Pair 0 */
+#define TCC_WAVE_SWAP0              (_U_(1) << TCC_WAVE_SWAP0_Pos)
+#define TCC_WAVE_SWAP1_Pos          25           /**< \brief (TCC_WAVE) Swap DTI Output Pair 1 */
+#define TCC_WAVE_SWAP1              (_U_(1) << TCC_WAVE_SWAP1_Pos)
+#define TCC_WAVE_SWAP2_Pos          26           /**< \brief (TCC_WAVE) Swap DTI Output Pair 2 */
+#define TCC_WAVE_SWAP2              (_U_(1) << TCC_WAVE_SWAP2_Pos)
+#define TCC_WAVE_SWAP3_Pos          27           /**< \brief (TCC_WAVE) Swap DTI Output Pair 3 */
+#define TCC_WAVE_SWAP3              (_U_(1) << TCC_WAVE_SWAP3_Pos)
+#define TCC_WAVE_SWAP_Pos           24           /**< \brief (TCC_WAVE) Swap DTI Output Pair x */
+#define TCC_WAVE_SWAP_Msk           (_U_(0xF) << TCC_WAVE_SWAP_Pos)
+#define TCC_WAVE_SWAP(value)        (TCC_WAVE_SWAP_Msk & ((value) << TCC_WAVE_SWAP_Pos))
+#define TCC_WAVE_MASK               _U_(0x0F0F0FB7) /**< \brief (TCC_WAVE) MASK Register */
+
+/* -------- TCC_PER : (TCC Offset: 0x40) (R/W 32) Period -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct { // DITH4 mode
+    uint32_t DITHER:4;         /*!< bit:  0.. 3  Dithering Cycle Number             */
+    uint32_t PER:20;           /*!< bit:  4..23  Period Value                       */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH4;                     /*!< Structure used for DITH4                        */
+  struct { // DITH5 mode
+    uint32_t DITHER:5;         /*!< bit:  0.. 4  Dithering Cycle Number             */
+    uint32_t PER:19;           /*!< bit:  5..23  Period Value                       */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH5;                     /*!< Structure used for DITH5                        */
+  struct { // DITH6 mode
+    uint32_t DITHER:6;         /*!< bit:  0.. 5  Dithering Cycle Number             */
+    uint32_t PER:18;           /*!< bit:  6..23  Period Value                       */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH6;                     /*!< Structure used for DITH6                        */
+  struct {
+    uint32_t PER:24;           /*!< bit:  0..23  Period Value                       */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_PER_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_PER_OFFSET              0x40         /**< \brief (TCC_PER offset) Period */
+#define TCC_PER_RESETVALUE          _U_(0xFFFFFFFF) /**< \brief (TCC_PER reset_value) Period */
+
+// DITH4 mode
+#define TCC_PER_DITH4_DITHER_Pos    0            /**< \brief (TCC_PER_DITH4) Dithering Cycle Number */
+#define TCC_PER_DITH4_DITHER_Msk    (_U_(0xF) << TCC_PER_DITH4_DITHER_Pos)
+#define TCC_PER_DITH4_DITHER(value) (TCC_PER_DITH4_DITHER_Msk & ((value) << TCC_PER_DITH4_DITHER_Pos))
+#define TCC_PER_DITH4_PER_Pos       4            /**< \brief (TCC_PER_DITH4) Period Value */
+#define TCC_PER_DITH4_PER_Msk       (_U_(0xFFFFF) << TCC_PER_DITH4_PER_Pos)
+#define TCC_PER_DITH4_PER(value)    (TCC_PER_DITH4_PER_Msk & ((value) << TCC_PER_DITH4_PER_Pos))
+#define TCC_PER_DITH4_MASK          _U_(0x00FFFFFF) /**< \brief (TCC_PER_DITH4) MASK Register */
+
+// DITH5 mode
+#define TCC_PER_DITH5_DITHER_Pos    0            /**< \brief (TCC_PER_DITH5) Dithering Cycle Number */
+#define TCC_PER_DITH5_DITHER_Msk    (_U_(0x1F) << TCC_PER_DITH5_DITHER_Pos)
+#define TCC_PER_DITH5_DITHER(value) (TCC_PER_DITH5_DITHER_Msk & ((value) << TCC_PER_DITH5_DITHER_Pos))
+#define TCC_PER_DITH5_PER_Pos       5            /**< \brief (TCC_PER_DITH5) Period Value */
+#define TCC_PER_DITH5_PER_Msk       (_U_(0x7FFFF) << TCC_PER_DITH5_PER_Pos)
+#define TCC_PER_DITH5_PER(value)    (TCC_PER_DITH5_PER_Msk & ((value) << TCC_PER_DITH5_PER_Pos))
+#define TCC_PER_DITH5_MASK          _U_(0x00FFFFFF) /**< \brief (TCC_PER_DITH5) MASK Register */
+
+// DITH6 mode
+#define TCC_PER_DITH6_DITHER_Pos    0            /**< \brief (TCC_PER_DITH6) Dithering Cycle Number */
+#define TCC_PER_DITH6_DITHER_Msk    (_U_(0x3F) << TCC_PER_DITH6_DITHER_Pos)
+#define TCC_PER_DITH6_DITHER(value) (TCC_PER_DITH6_DITHER_Msk & ((value) << TCC_PER_DITH6_DITHER_Pos))
+#define TCC_PER_DITH6_PER_Pos       6            /**< \brief (TCC_PER_DITH6) Period Value */
+#define TCC_PER_DITH6_PER_Msk       (_U_(0x3FFFF) << TCC_PER_DITH6_PER_Pos)
+#define TCC_PER_DITH6_PER(value)    (TCC_PER_DITH6_PER_Msk & ((value) << TCC_PER_DITH6_PER_Pos))
+#define TCC_PER_DITH6_MASK          _U_(0x00FFFFFF) /**< \brief (TCC_PER_DITH6) MASK Register */
+
+#define TCC_PER_PER_Pos             0            /**< \brief (TCC_PER) Period Value */
+#define TCC_PER_PER_Msk             (_U_(0xFFFFFF) << TCC_PER_PER_Pos)
+#define TCC_PER_PER(value)          (TCC_PER_PER_Msk & ((value) << TCC_PER_PER_Pos))
+#define TCC_PER_MASK                _U_(0x00FFFFFF) /**< \brief (TCC_PER) MASK Register */
+
+/* -------- TCC_CC : (TCC Offset: 0x44) (R/W 32) Compare and Capture -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct { // DITH4 mode
+    uint32_t DITHER:4;         /*!< bit:  0.. 3  Dithering Cycle Number             */
+    uint32_t CC:20;            /*!< bit:  4..23  Channel Compare/Capture Value      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH4;                     /*!< Structure used for DITH4                        */
+  struct { // DITH5 mode
+    uint32_t DITHER:5;         /*!< bit:  0.. 4  Dithering Cycle Number             */
+    uint32_t CC:19;            /*!< bit:  5..23  Channel Compare/Capture Value      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH5;                     /*!< Structure used for DITH5                        */
+  struct { // DITH6 mode
+    uint32_t DITHER:6;         /*!< bit:  0.. 5  Dithering Cycle Number             */
+    uint32_t CC:18;            /*!< bit:  6..23  Channel Compare/Capture Value      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH6;                     /*!< Structure used for DITH6                        */
+  struct {
+    uint32_t CC:24;            /*!< bit:  0..23  Channel Compare/Capture Value      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_CC_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_CC_OFFSET               0x44         /**< \brief (TCC_CC offset) Compare and Capture */
+#define TCC_CC_RESETVALUE           _U_(0x00000000) /**< \brief (TCC_CC reset_value) Compare and Capture */
+
+// DITH4 mode
+#define TCC_CC_DITH4_DITHER_Pos     0            /**< \brief (TCC_CC_DITH4) Dithering Cycle Number */
+#define TCC_CC_DITH4_DITHER_Msk     (_U_(0xF) << TCC_CC_DITH4_DITHER_Pos)
+#define TCC_CC_DITH4_DITHER(value)  (TCC_CC_DITH4_DITHER_Msk & ((value) << TCC_CC_DITH4_DITHER_Pos))
+#define TCC_CC_DITH4_CC_Pos         4            /**< \brief (TCC_CC_DITH4) Channel Compare/Capture Value */
+#define TCC_CC_DITH4_CC_Msk         (_U_(0xFFFFF) << TCC_CC_DITH4_CC_Pos)
+#define TCC_CC_DITH4_CC(value)      (TCC_CC_DITH4_CC_Msk & ((value) << TCC_CC_DITH4_CC_Pos))
+#define TCC_CC_DITH4_MASK           _U_(0x00FFFFFF) /**< \brief (TCC_CC_DITH4) MASK Register */
+
+// DITH5 mode
+#define TCC_CC_DITH5_DITHER_Pos     0            /**< \brief (TCC_CC_DITH5) Dithering Cycle Number */
+#define TCC_CC_DITH5_DITHER_Msk     (_U_(0x1F) << TCC_CC_DITH5_DITHER_Pos)
+#define TCC_CC_DITH5_DITHER(value)  (TCC_CC_DITH5_DITHER_Msk & ((value) << TCC_CC_DITH5_DITHER_Pos))
+#define TCC_CC_DITH5_CC_Pos         5            /**< \brief (TCC_CC_DITH5) Channel Compare/Capture Value */
+#define TCC_CC_DITH5_CC_Msk         (_U_(0x7FFFF) << TCC_CC_DITH5_CC_Pos)
+#define TCC_CC_DITH5_CC(value)      (TCC_CC_DITH5_CC_Msk & ((value) << TCC_CC_DITH5_CC_Pos))
+#define TCC_CC_DITH5_MASK           _U_(0x00FFFFFF) /**< \brief (TCC_CC_DITH5) MASK Register */
+
+// DITH6 mode
+#define TCC_CC_DITH6_DITHER_Pos     0            /**< \brief (TCC_CC_DITH6) Dithering Cycle Number */
+#define TCC_CC_DITH6_DITHER_Msk     (_U_(0x3F) << TCC_CC_DITH6_DITHER_Pos)
+#define TCC_CC_DITH6_DITHER(value)  (TCC_CC_DITH6_DITHER_Msk & ((value) << TCC_CC_DITH6_DITHER_Pos))
+#define TCC_CC_DITH6_CC_Pos         6            /**< \brief (TCC_CC_DITH6) Channel Compare/Capture Value */
+#define TCC_CC_DITH6_CC_Msk         (_U_(0x3FFFF) << TCC_CC_DITH6_CC_Pos)
+#define TCC_CC_DITH6_CC(value)      (TCC_CC_DITH6_CC_Msk & ((value) << TCC_CC_DITH6_CC_Pos))
+#define TCC_CC_DITH6_MASK           _U_(0x00FFFFFF) /**< \brief (TCC_CC_DITH6) MASK Register */
+
+#define TCC_CC_CC_Pos               0            /**< \brief (TCC_CC) Channel Compare/Capture Value */
+#define TCC_CC_CC_Msk               (_U_(0xFFFFFF) << TCC_CC_CC_Pos)
+#define TCC_CC_CC(value)            (TCC_CC_CC_Msk & ((value) << TCC_CC_CC_Pos))
+#define TCC_CC_MASK                 _U_(0x00FFFFFF) /**< \brief (TCC_CC) MASK Register */
+
+/* -------- TCC_PATTBUF : (TCC Offset: 0x64) (R/W 16) Pattern Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t PGEB0:1;          /*!< bit:      0  Pattern Generator 0 Output Enable Buffer */
+    uint16_t PGEB1:1;          /*!< bit:      1  Pattern Generator 1 Output Enable Buffer */
+    uint16_t PGEB2:1;          /*!< bit:      2  Pattern Generator 2 Output Enable Buffer */
+    uint16_t PGEB3:1;          /*!< bit:      3  Pattern Generator 3 Output Enable Buffer */
+    uint16_t PGEB4:1;          /*!< bit:      4  Pattern Generator 4 Output Enable Buffer */
+    uint16_t PGEB5:1;          /*!< bit:      5  Pattern Generator 5 Output Enable Buffer */
+    uint16_t PGEB6:1;          /*!< bit:      6  Pattern Generator 6 Output Enable Buffer */
+    uint16_t PGEB7:1;          /*!< bit:      7  Pattern Generator 7 Output Enable Buffer */
+    uint16_t PGVB0:1;          /*!< bit:      8  Pattern Generator 0 Output Enable  */
+    uint16_t PGVB1:1;          /*!< bit:      9  Pattern Generator 1 Output Enable  */
+    uint16_t PGVB2:1;          /*!< bit:     10  Pattern Generator 2 Output Enable  */
+    uint16_t PGVB3:1;          /*!< bit:     11  Pattern Generator 3 Output Enable  */
+    uint16_t PGVB4:1;          /*!< bit:     12  Pattern Generator 4 Output Enable  */
+    uint16_t PGVB5:1;          /*!< bit:     13  Pattern Generator 5 Output Enable  */
+    uint16_t PGVB6:1;          /*!< bit:     14  Pattern Generator 6 Output Enable  */
+    uint16_t PGVB7:1;          /*!< bit:     15  Pattern Generator 7 Output Enable  */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t PGEB:8;           /*!< bit:  0.. 7  Pattern Generator x Output Enable Buffer */
+    uint16_t PGVB:8;           /*!< bit:  8..15  Pattern Generator x Output Enable  */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} TCC_PATTBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_PATTBUF_OFFSET          0x64         /**< \brief (TCC_PATTBUF offset) Pattern Buffer */
+#define TCC_PATTBUF_RESETVALUE      _U_(0x0000)  /**< \brief (TCC_PATTBUF reset_value) Pattern Buffer */
+
+#define TCC_PATTBUF_PGEB0_Pos       0            /**< \brief (TCC_PATTBUF) Pattern Generator 0 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB0           (_U_(1) << TCC_PATTBUF_PGEB0_Pos)
+#define TCC_PATTBUF_PGEB1_Pos       1            /**< \brief (TCC_PATTBUF) Pattern Generator 1 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB1           (_U_(1) << TCC_PATTBUF_PGEB1_Pos)
+#define TCC_PATTBUF_PGEB2_Pos       2            /**< \brief (TCC_PATTBUF) Pattern Generator 2 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB2           (_U_(1) << TCC_PATTBUF_PGEB2_Pos)
+#define TCC_PATTBUF_PGEB3_Pos       3            /**< \brief (TCC_PATTBUF) Pattern Generator 3 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB3           (_U_(1) << TCC_PATTBUF_PGEB3_Pos)
+#define TCC_PATTBUF_PGEB4_Pos       4            /**< \brief (TCC_PATTBUF) Pattern Generator 4 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB4           (_U_(1) << TCC_PATTBUF_PGEB4_Pos)
+#define TCC_PATTBUF_PGEB5_Pos       5            /**< \brief (TCC_PATTBUF) Pattern Generator 5 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB5           (_U_(1) << TCC_PATTBUF_PGEB5_Pos)
+#define TCC_PATTBUF_PGEB6_Pos       6            /**< \brief (TCC_PATTBUF) Pattern Generator 6 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB6           (_U_(1) << TCC_PATTBUF_PGEB6_Pos)
+#define TCC_PATTBUF_PGEB7_Pos       7            /**< \brief (TCC_PATTBUF) Pattern Generator 7 Output Enable Buffer */
+#define TCC_PATTBUF_PGEB7           (_U_(1) << TCC_PATTBUF_PGEB7_Pos)
+#define TCC_PATTBUF_PGEB_Pos        0            /**< \brief (TCC_PATTBUF) Pattern Generator x Output Enable Buffer */
+#define TCC_PATTBUF_PGEB_Msk        (_U_(0xFF) << TCC_PATTBUF_PGEB_Pos)
+#define TCC_PATTBUF_PGEB(value)     (TCC_PATTBUF_PGEB_Msk & ((value) << TCC_PATTBUF_PGEB_Pos))
+#define TCC_PATTBUF_PGVB0_Pos       8            /**< \brief (TCC_PATTBUF) Pattern Generator 0 Output Enable */
+#define TCC_PATTBUF_PGVB0           (_U_(1) << TCC_PATTBUF_PGVB0_Pos)
+#define TCC_PATTBUF_PGVB1_Pos       9            /**< \brief (TCC_PATTBUF) Pattern Generator 1 Output Enable */
+#define TCC_PATTBUF_PGVB1           (_U_(1) << TCC_PATTBUF_PGVB1_Pos)
+#define TCC_PATTBUF_PGVB2_Pos       10           /**< \brief (TCC_PATTBUF) Pattern Generator 2 Output Enable */
+#define TCC_PATTBUF_PGVB2           (_U_(1) << TCC_PATTBUF_PGVB2_Pos)
+#define TCC_PATTBUF_PGVB3_Pos       11           /**< \brief (TCC_PATTBUF) Pattern Generator 3 Output Enable */
+#define TCC_PATTBUF_PGVB3           (_U_(1) << TCC_PATTBUF_PGVB3_Pos)
+#define TCC_PATTBUF_PGVB4_Pos       12           /**< \brief (TCC_PATTBUF) Pattern Generator 4 Output Enable */
+#define TCC_PATTBUF_PGVB4           (_U_(1) << TCC_PATTBUF_PGVB4_Pos)
+#define TCC_PATTBUF_PGVB5_Pos       13           /**< \brief (TCC_PATTBUF) Pattern Generator 5 Output Enable */
+#define TCC_PATTBUF_PGVB5           (_U_(1) << TCC_PATTBUF_PGVB5_Pos)
+#define TCC_PATTBUF_PGVB6_Pos       14           /**< \brief (TCC_PATTBUF) Pattern Generator 6 Output Enable */
+#define TCC_PATTBUF_PGVB6           (_U_(1) << TCC_PATTBUF_PGVB6_Pos)
+#define TCC_PATTBUF_PGVB7_Pos       15           /**< \brief (TCC_PATTBUF) Pattern Generator 7 Output Enable */
+#define TCC_PATTBUF_PGVB7           (_U_(1) << TCC_PATTBUF_PGVB7_Pos)
+#define TCC_PATTBUF_PGVB_Pos        8            /**< \brief (TCC_PATTBUF) Pattern Generator x Output Enable */
+#define TCC_PATTBUF_PGVB_Msk        (_U_(0xFF) << TCC_PATTBUF_PGVB_Pos)
+#define TCC_PATTBUF_PGVB(value)     (TCC_PATTBUF_PGVB_Msk & ((value) << TCC_PATTBUF_PGVB_Pos))
+#define TCC_PATTBUF_MASK            _U_(0xFFFF)  /**< \brief (TCC_PATTBUF) MASK Register */
+
+/* -------- TCC_PERBUF : (TCC Offset: 0x6C) (R/W 32) Period Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct { // DITH4 mode
+    uint32_t DITHERBUF:4;      /*!< bit:  0.. 3  Dithering Buffer Cycle Number      */
+    uint32_t PERBUF:20;        /*!< bit:  4..23  Period Buffer Value                */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH4;                     /*!< Structure used for DITH4                        */
+  struct { // DITH5 mode
+    uint32_t DITHERBUF:5;      /*!< bit:  0.. 4  Dithering Buffer Cycle Number      */
+    uint32_t PERBUF:19;        /*!< bit:  5..23  Period Buffer Value                */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH5;                     /*!< Structure used for DITH5                        */
+  struct { // DITH6 mode
+    uint32_t DITHERBUF:6;      /*!< bit:  0.. 5  Dithering Buffer Cycle Number      */
+    uint32_t PERBUF:18;        /*!< bit:  6..23  Period Buffer Value                */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH6;                     /*!< Structure used for DITH6                        */
+  struct {
+    uint32_t PERBUF:24;        /*!< bit:  0..23  Period Buffer Value                */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_PERBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_PERBUF_OFFSET           0x6C         /**< \brief (TCC_PERBUF offset) Period Buffer */
+#define TCC_PERBUF_RESETVALUE       _U_(0xFFFFFFFF) /**< \brief (TCC_PERBUF reset_value) Period Buffer */
+
+// DITH4 mode
+#define TCC_PERBUF_DITH4_DITHERBUF_Pos 0            /**< \brief (TCC_PERBUF_DITH4) Dithering Buffer Cycle Number */
+#define TCC_PERBUF_DITH4_DITHERBUF_Msk (_U_(0xF) << TCC_PERBUF_DITH4_DITHERBUF_Pos)
+#define TCC_PERBUF_DITH4_DITHERBUF(value) (TCC_PERBUF_DITH4_DITHERBUF_Msk & ((value) << TCC_PERBUF_DITH4_DITHERBUF_Pos))
+#define TCC_PERBUF_DITH4_PERBUF_Pos 4            /**< \brief (TCC_PERBUF_DITH4) Period Buffer Value */
+#define TCC_PERBUF_DITH4_PERBUF_Msk (_U_(0xFFFFF) << TCC_PERBUF_DITH4_PERBUF_Pos)
+#define TCC_PERBUF_DITH4_PERBUF(value) (TCC_PERBUF_DITH4_PERBUF_Msk & ((value) << TCC_PERBUF_DITH4_PERBUF_Pos))
+#define TCC_PERBUF_DITH4_MASK       _U_(0x00FFFFFF) /**< \brief (TCC_PERBUF_DITH4) MASK Register */
+
+// DITH5 mode
+#define TCC_PERBUF_DITH5_DITHERBUF_Pos 0            /**< \brief (TCC_PERBUF_DITH5) Dithering Buffer Cycle Number */
+#define TCC_PERBUF_DITH5_DITHERBUF_Msk (_U_(0x1F) << TCC_PERBUF_DITH5_DITHERBUF_Pos)
+#define TCC_PERBUF_DITH5_DITHERBUF(value) (TCC_PERBUF_DITH5_DITHERBUF_Msk & ((value) << TCC_PERBUF_DITH5_DITHERBUF_Pos))
+#define TCC_PERBUF_DITH5_PERBUF_Pos 5            /**< \brief (TCC_PERBUF_DITH5) Period Buffer Value */
+#define TCC_PERBUF_DITH5_PERBUF_Msk (_U_(0x7FFFF) << TCC_PERBUF_DITH5_PERBUF_Pos)
+#define TCC_PERBUF_DITH5_PERBUF(value) (TCC_PERBUF_DITH5_PERBUF_Msk & ((value) << TCC_PERBUF_DITH5_PERBUF_Pos))
+#define TCC_PERBUF_DITH5_MASK       _U_(0x00FFFFFF) /**< \brief (TCC_PERBUF_DITH5) MASK Register */
+
+// DITH6 mode
+#define TCC_PERBUF_DITH6_DITHERBUF_Pos 0            /**< \brief (TCC_PERBUF_DITH6) Dithering Buffer Cycle Number */
+#define TCC_PERBUF_DITH6_DITHERBUF_Msk (_U_(0x3F) << TCC_PERBUF_DITH6_DITHERBUF_Pos)
+#define TCC_PERBUF_DITH6_DITHERBUF(value) (TCC_PERBUF_DITH6_DITHERBUF_Msk & ((value) << TCC_PERBUF_DITH6_DITHERBUF_Pos))
+#define TCC_PERBUF_DITH6_PERBUF_Pos 6            /**< \brief (TCC_PERBUF_DITH6) Period Buffer Value */
+#define TCC_PERBUF_DITH6_PERBUF_Msk (_U_(0x3FFFF) << TCC_PERBUF_DITH6_PERBUF_Pos)
+#define TCC_PERBUF_DITH6_PERBUF(value) (TCC_PERBUF_DITH6_PERBUF_Msk & ((value) << TCC_PERBUF_DITH6_PERBUF_Pos))
+#define TCC_PERBUF_DITH6_MASK       _U_(0x00FFFFFF) /**< \brief (TCC_PERBUF_DITH6) MASK Register */
+
+#define TCC_PERBUF_PERBUF_Pos       0            /**< \brief (TCC_PERBUF) Period Buffer Value */
+#define TCC_PERBUF_PERBUF_Msk       (_U_(0xFFFFFF) << TCC_PERBUF_PERBUF_Pos)
+#define TCC_PERBUF_PERBUF(value)    (TCC_PERBUF_PERBUF_Msk & ((value) << TCC_PERBUF_PERBUF_Pos))
+#define TCC_PERBUF_MASK             _U_(0x00FFFFFF) /**< \brief (TCC_PERBUF) MASK Register */
+
+/* -------- TCC_CCBUF : (TCC Offset: 0x70) (R/W 32) Compare and Capture Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct { // DITH4 mode
+    uint32_t CCBUF:4;          /*!< bit:  0.. 3  Channel Compare/Capture Buffer Value */
+    uint32_t DITHERBUF:20;     /*!< bit:  4..23  Dithering Buffer Cycle Number      */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH4;                     /*!< Structure used for DITH4                        */
+  struct { // DITH5 mode
+    uint32_t DITHERBUF:5;      /*!< bit:  0.. 4  Dithering Buffer Cycle Number      */
+    uint32_t CCBUF:19;         /*!< bit:  5..23  Channel Compare/Capture Buffer Value */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH5;                     /*!< Structure used for DITH5                        */
+  struct { // DITH6 mode
+    uint32_t DITHERBUF:6;      /*!< bit:  0.. 5  Dithering Buffer Cycle Number      */
+    uint32_t CCBUF:18;         /*!< bit:  6..23  Channel Compare/Capture Buffer Value */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } DITH6;                     /*!< Structure used for DITH6                        */
+  struct {
+    uint32_t CCBUF:24;         /*!< bit:  0..23  Channel Compare/Capture Buffer Value */
+    uint32_t :8;               /*!< bit: 24..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TCC_CCBUF_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TCC_CCBUF_OFFSET            0x70         /**< \brief (TCC_CCBUF offset) Compare and Capture Buffer */
+#define TCC_CCBUF_RESETVALUE        _U_(0x00000000) /**< \brief (TCC_CCBUF reset_value) Compare and Capture Buffer */
+
+// DITH4 mode
+#define TCC_CCBUF_DITH4_CCBUF_Pos   0            /**< \brief (TCC_CCBUF_DITH4) Channel Compare/Capture Buffer Value */
+#define TCC_CCBUF_DITH4_CCBUF_Msk   (_U_(0xF) << TCC_CCBUF_DITH4_CCBUF_Pos)
+#define TCC_CCBUF_DITH4_CCBUF(value) (TCC_CCBUF_DITH4_CCBUF_Msk & ((value) << TCC_CCBUF_DITH4_CCBUF_Pos))
+#define TCC_CCBUF_DITH4_DITHERBUF_Pos 4            /**< \brief (TCC_CCBUF_DITH4) Dithering Buffer Cycle Number */
+#define TCC_CCBUF_DITH4_DITHERBUF_Msk (_U_(0xFFFFF) << TCC_CCBUF_DITH4_DITHERBUF_Pos)
+#define TCC_CCBUF_DITH4_DITHERBUF(value) (TCC_CCBUF_DITH4_DITHERBUF_Msk & ((value) << TCC_CCBUF_DITH4_DITHERBUF_Pos))
+#define TCC_CCBUF_DITH4_MASK        _U_(0x00FFFFFF) /**< \brief (TCC_CCBUF_DITH4) MASK Register */
+
+// DITH5 mode
+#define TCC_CCBUF_DITH5_DITHERBUF_Pos 0            /**< \brief (TCC_CCBUF_DITH5) Dithering Buffer Cycle Number */
+#define TCC_CCBUF_DITH5_DITHERBUF_Msk (_U_(0x1F) << TCC_CCBUF_DITH5_DITHERBUF_Pos)
+#define TCC_CCBUF_DITH5_DITHERBUF(value) (TCC_CCBUF_DITH5_DITHERBUF_Msk & ((value) << TCC_CCBUF_DITH5_DITHERBUF_Pos))
+#define TCC_CCBUF_DITH5_CCBUF_Pos   5            /**< \brief (TCC_CCBUF_DITH5) Channel Compare/Capture Buffer Value */
+#define TCC_CCBUF_DITH5_CCBUF_Msk   (_U_(0x7FFFF) << TCC_CCBUF_DITH5_CCBUF_Pos)
+#define TCC_CCBUF_DITH5_CCBUF(value) (TCC_CCBUF_DITH5_CCBUF_Msk & ((value) << TCC_CCBUF_DITH5_CCBUF_Pos))
+#define TCC_CCBUF_DITH5_MASK        _U_(0x00FFFFFF) /**< \brief (TCC_CCBUF_DITH5) MASK Register */
+
+// DITH6 mode
+#define TCC_CCBUF_DITH6_DITHERBUF_Pos 0            /**< \brief (TCC_CCBUF_DITH6) Dithering Buffer Cycle Number */
+#define TCC_CCBUF_DITH6_DITHERBUF_Msk (_U_(0x3F) << TCC_CCBUF_DITH6_DITHERBUF_Pos)
+#define TCC_CCBUF_DITH6_DITHERBUF(value) (TCC_CCBUF_DITH6_DITHERBUF_Msk & ((value) << TCC_CCBUF_DITH6_DITHERBUF_Pos))
+#define TCC_CCBUF_DITH6_CCBUF_Pos   6            /**< \brief (TCC_CCBUF_DITH6) Channel Compare/Capture Buffer Value */
+#define TCC_CCBUF_DITH6_CCBUF_Msk   (_U_(0x3FFFF) << TCC_CCBUF_DITH6_CCBUF_Pos)
+#define TCC_CCBUF_DITH6_CCBUF(value) (TCC_CCBUF_DITH6_CCBUF_Msk & ((value) << TCC_CCBUF_DITH6_CCBUF_Pos))
+#define TCC_CCBUF_DITH6_MASK        _U_(0x00FFFFFF) /**< \brief (TCC_CCBUF_DITH6) MASK Register */
+
+#define TCC_CCBUF_CCBUF_Pos         0            /**< \brief (TCC_CCBUF) Channel Compare/Capture Buffer Value */
+#define TCC_CCBUF_CCBUF_Msk         (_U_(0xFFFFFF) << TCC_CCBUF_CCBUF_Pos)
+#define TCC_CCBUF_CCBUF(value)      (TCC_CCBUF_CCBUF_Msk & ((value) << TCC_CCBUF_CCBUF_Pos))
+#define TCC_CCBUF_MASK              _U_(0x00FFFFFF) /**< \brief (TCC_CCBUF) MASK Register */
+
+/** \brief TCC hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO TCC_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x00 (R/W 32) Control A */
+  __IO TCC_CTRLBCLR_Type         CTRLBCLR;    /**< \brief Offset: 0x04 (R/W  8) Control B Clear */
+  __IO TCC_CTRLBSET_Type         CTRLBSET;    /**< \brief Offset: 0x05 (R/W  8) Control B Set */
+       RoReg8                    Reserved1[0x2];
+  __I  TCC_SYNCBUSY_Type         SYNCBUSY;    /**< \brief Offset: 0x08 (R/  32) Synchronization Busy */
+  __IO TCC_FCTRLA_Type           FCTRLA;      /**< \brief Offset: 0x0C (R/W 32) Recoverable Fault A Configuration */
+  __IO TCC_FCTRLB_Type           FCTRLB;      /**< \brief Offset: 0x10 (R/W 32) Recoverable Fault B Configuration */
+  __IO TCC_WEXCTRL_Type          WEXCTRL;     /**< \brief Offset: 0x14 (R/W 32) Waveform Extension Configuration */
+  __IO TCC_DRVCTRL_Type          DRVCTRL;     /**< \brief Offset: 0x18 (R/W 32) Driver Control */
+       RoReg8                    Reserved2[0x2];
+  __IO TCC_DBGCTRL_Type          DBGCTRL;     /**< \brief Offset: 0x1E (R/W  8) Debug Control */
+       RoReg8                    Reserved3[0x1];
+  __IO TCC_EVCTRL_Type           EVCTRL;      /**< \brief Offset: 0x20 (R/W 32) Event Control */
+  __IO TCC_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x24 (R/W 32) Interrupt Enable Clear */
+  __IO TCC_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x28 (R/W 32) Interrupt Enable Set */
+  __IO TCC_INTFLAG_Type          INTFLAG;     /**< \brief Offset: 0x2C (R/W 32) Interrupt Flag Status and Clear */
+  __IO TCC_STATUS_Type           STATUS;      /**< \brief Offset: 0x30 (R/W 32) Status */
+  __IO TCC_COUNT_Type            COUNT;       /**< \brief Offset: 0x34 (R/W 32) Count */
+  __IO TCC_PATT_Type             PATT;        /**< \brief Offset: 0x38 (R/W 16) Pattern */
+       RoReg8                    Reserved4[0x2];
+  __IO TCC_WAVE_Type             WAVE;        /**< \brief Offset: 0x3C (R/W 32) Waveform Control */
+  __IO TCC_PER_Type              PER;         /**< \brief Offset: 0x40 (R/W 32) Period */
+  __IO TCC_CC_Type               CC[4];       /**< \brief Offset: 0x44 (R/W 32) Compare and Capture */
+       RoReg8                    Reserved5[0x10];
+  __IO TCC_PATTBUF_Type          PATTBUF;     /**< \brief Offset: 0x64 (R/W 16) Pattern Buffer */
+       RoReg8                    Reserved6[0x6];
+  __IO TCC_PERBUF_Type           PERBUF;      /**< \brief Offset: 0x6C (R/W 32) Period Buffer */
+  __IO TCC_CCBUF_Type            CCBUF[4];    /**< \brief Offset: 0x70 (R/W 32) Compare and Capture Buffer */
+} Tcc;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_TCC_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/trng.h b/watch-library/hardware/include/component/trng.h
new file mode 100644
index 00000000..5d29e892
--- /dev/null
+++ b/watch-library/hardware/include/component/trng.h
@@ -0,0 +1,172 @@
+/**
+ * \file
+ *
+ * \brief Component description for TRNG
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TRNG_COMPONENT_
+#define _SAML22_TRNG_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR TRNG */
+/* ========================================================================== */
+/** \addtogroup SAML22_TRNG True Random Generator */
+/*@{*/
+
+#define TRNG_U2242
+#define REV_TRNG                    0x101
+
+/* -------- TRNG_CTRLA : (TRNG Offset: 0x00) (R/W  8) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :1;               /*!< bit:      0  Reserved                           */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  :4;               /*!< bit:  2.. 5  Reserved                           */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      6  Run in Standby                     */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TRNG_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_CTRLA_OFFSET           0x00         /**< \brief (TRNG_CTRLA offset) Control A */
+#define TRNG_CTRLA_RESETVALUE       _U_(0x00)    /**< \brief (TRNG_CTRLA reset_value) Control A */
+
+#define TRNG_CTRLA_ENABLE_Pos       1            /**< \brief (TRNG_CTRLA) Enable */
+#define TRNG_CTRLA_ENABLE           (_U_(0x1) << TRNG_CTRLA_ENABLE_Pos)
+#define TRNG_CTRLA_RUNSTDBY_Pos     6            /**< \brief (TRNG_CTRLA) Run in Standby */
+#define TRNG_CTRLA_RUNSTDBY         (_U_(0x1) << TRNG_CTRLA_RUNSTDBY_Pos)
+#define TRNG_CTRLA_MASK             _U_(0x42)    /**< \brief (TRNG_CTRLA) MASK Register */
+
+/* -------- TRNG_EVCTRL : (TRNG Offset: 0x04) (R/W  8) Event Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DATARDYEO:1;      /*!< bit:      0  Data Ready Event Output            */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TRNG_EVCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_EVCTRL_OFFSET          0x04         /**< \brief (TRNG_EVCTRL offset) Event Control */
+#define TRNG_EVCTRL_RESETVALUE      _U_(0x00)    /**< \brief (TRNG_EVCTRL reset_value) Event Control */
+
+#define TRNG_EVCTRL_DATARDYEO_Pos   0            /**< \brief (TRNG_EVCTRL) Data Ready Event Output */
+#define TRNG_EVCTRL_DATARDYEO       (_U_(0x1) << TRNG_EVCTRL_DATARDYEO_Pos)
+#define TRNG_EVCTRL_MASK            _U_(0x01)    /**< \brief (TRNG_EVCTRL) MASK Register */
+
+/* -------- TRNG_INTENCLR : (TRNG Offset: 0x08) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DATARDY:1;        /*!< bit:      0  Data Ready Interrupt Enable        */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TRNG_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_INTENCLR_OFFSET        0x08         /**< \brief (TRNG_INTENCLR offset) Interrupt Enable Clear */
+#define TRNG_INTENCLR_RESETVALUE    _U_(0x00)    /**< \brief (TRNG_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define TRNG_INTENCLR_DATARDY_Pos   0            /**< \brief (TRNG_INTENCLR) Data Ready Interrupt Enable */
+#define TRNG_INTENCLR_DATARDY       (_U_(0x1) << TRNG_INTENCLR_DATARDY_Pos)
+#define TRNG_INTENCLR_MASK          _U_(0x01)    /**< \brief (TRNG_INTENCLR) MASK Register */
+
+/* -------- TRNG_INTENSET : (TRNG Offset: 0x09) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DATARDY:1;        /*!< bit:      0  Data Ready Interrupt Enable        */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TRNG_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_INTENSET_OFFSET        0x09         /**< \brief (TRNG_INTENSET offset) Interrupt Enable Set */
+#define TRNG_INTENSET_RESETVALUE    _U_(0x00)    /**< \brief (TRNG_INTENSET reset_value) Interrupt Enable Set */
+
+#define TRNG_INTENSET_DATARDY_Pos   0            /**< \brief (TRNG_INTENSET) Data Ready Interrupt Enable */
+#define TRNG_INTENSET_DATARDY       (_U_(0x1) << TRNG_INTENSET_DATARDY_Pos)
+#define TRNG_INTENSET_MASK          _U_(0x01)    /**< \brief (TRNG_INTENSET) MASK Register */
+
+/* -------- TRNG_INTFLAG : (TRNG Offset: 0x0A) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  DATARDY:1;        /*!< bit:      0  Data Ready Interrupt Flag          */
+    __I uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} TRNG_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_INTFLAG_OFFSET         0x0A         /**< \brief (TRNG_INTFLAG offset) Interrupt Flag Status and Clear */
+#define TRNG_INTFLAG_RESETVALUE     _U_(0x00)    /**< \brief (TRNG_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define TRNG_INTFLAG_DATARDY_Pos    0            /**< \brief (TRNG_INTFLAG) Data Ready Interrupt Flag */
+#define TRNG_INTFLAG_DATARDY        (_U_(0x1) << TRNG_INTFLAG_DATARDY_Pos)
+#define TRNG_INTFLAG_MASK           _U_(0x01)    /**< \brief (TRNG_INTFLAG) MASK Register */
+
+/* -------- TRNG_DATA : (TRNG Offset: 0x20) (R/  32) Output Data -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DATA:32;          /*!< bit:  0..31  Output Data                        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} TRNG_DATA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define TRNG_DATA_OFFSET            0x20         /**< \brief (TRNG_DATA offset) Output Data */
+#define TRNG_DATA_RESETVALUE        _U_(0x00000000) /**< \brief (TRNG_DATA reset_value) Output Data */
+
+#define TRNG_DATA_DATA_Pos          0            /**< \brief (TRNG_DATA) Output Data */
+#define TRNG_DATA_DATA_Msk          (_U_(0xFFFFFFFF) << TRNG_DATA_DATA_Pos)
+#define TRNG_DATA_DATA(value)       (TRNG_DATA_DATA_Msk & ((value) << TRNG_DATA_DATA_Pos))
+#define TRNG_DATA_MASK              _U_(0xFFFFFFFF) /**< \brief (TRNG_DATA) MASK Register */
+
+/** \brief TRNG hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO TRNG_CTRLA_Type           CTRLA;       /**< \brief Offset: 0x00 (R/W  8) Control A */
+       RoReg8                    Reserved1[0x3];
+  __IO TRNG_EVCTRL_Type          EVCTRL;      /**< \brief Offset: 0x04 (R/W  8) Event Control */
+       RoReg8                    Reserved2[0x3];
+  __IO TRNG_INTENCLR_Type        INTENCLR;    /**< \brief Offset: 0x08 (R/W  8) Interrupt Enable Clear */
+  __IO TRNG_INTENSET_Type        INTENSET;    /**< \brief Offset: 0x09 (R/W  8) Interrupt Enable Set */
+  __IO TRNG_INTFLAG_Type         INTFLAG;     /**< \brief Offset: 0x0A (R/W  8) Interrupt Flag Status and Clear */
+       RoReg8                    Reserved3[0x15];
+  __I  TRNG_DATA_Type            DATA;        /**< \brief Offset: 0x20 (R/  32) Output Data */
+} Trng;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_TRNG_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/usb.h b/watch-library/hardware/include/component/usb.h
new file mode 100644
index 00000000..315256cd
--- /dev/null
+++ b/watch-library/hardware/include/component/usb.h
@@ -0,0 +1,1001 @@
+/**
+ * \file
+ *
+ * \brief Component description for USB
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_USB_COMPONENT_
+#define _SAML22_USB_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR USB */
+/* ========================================================================== */
+/** \addtogroup SAML22_USB Universal Serial Bus */
+/*@{*/
+
+#define USB_U2222
+#define REV_USB                     0x111
+
+/* -------- USB_CTRLA : (USB Offset: 0x000) (R/W  8) Control A -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset                     */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  RUNSTDBY:1;       /*!< bit:      2  Run in Standby Mode                */
+    uint8_t  :4;               /*!< bit:  3.. 6  Reserved                           */
+    uint8_t  MODE:1;           /*!< bit:      7  Operating Mode                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_CTRLA_OFFSET            0x000        /**< \brief (USB_CTRLA offset) Control A */
+#define USB_CTRLA_RESETVALUE        _U_(0x00)    /**< \brief (USB_CTRLA reset_value) Control A */
+
+#define USB_CTRLA_SWRST_Pos         0            /**< \brief (USB_CTRLA) Software Reset */
+#define USB_CTRLA_SWRST             (_U_(0x1) << USB_CTRLA_SWRST_Pos)
+#define USB_CTRLA_ENABLE_Pos        1            /**< \brief (USB_CTRLA) Enable */
+#define USB_CTRLA_ENABLE            (_U_(0x1) << USB_CTRLA_ENABLE_Pos)
+#define USB_CTRLA_RUNSTDBY_Pos      2            /**< \brief (USB_CTRLA) Run in Standby Mode */
+#define USB_CTRLA_RUNSTDBY          (_U_(0x1) << USB_CTRLA_RUNSTDBY_Pos)
+#define USB_CTRLA_MODE_Pos          7            /**< \brief (USB_CTRLA) Operating Mode */
+#define USB_CTRLA_MODE              (_U_(0x1) << USB_CTRLA_MODE_Pos)
+#define   USB_CTRLA_MODE_DEVICE_Val       _U_(0x0)   /**< \brief (USB_CTRLA) Device Mode */
+#define USB_CTRLA_MODE_DEVICE       (USB_CTRLA_MODE_DEVICE_Val     << USB_CTRLA_MODE_Pos)
+#define USB_CTRLA_MASK              _U_(0x87)    /**< \brief (USB_CTRLA) MASK Register */
+
+/* -------- USB_SYNCBUSY : (USB Offset: 0x002) (R/   8) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  SWRST:1;          /*!< bit:      0  Software Reset Synchronization Busy */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable Synchronization Busy        */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_SYNCBUSY_OFFSET         0x002        /**< \brief (USB_SYNCBUSY offset) Synchronization Busy */
+#define USB_SYNCBUSY_RESETVALUE     _U_(0x00)    /**< \brief (USB_SYNCBUSY reset_value) Synchronization Busy */
+
+#define USB_SYNCBUSY_SWRST_Pos      0            /**< \brief (USB_SYNCBUSY) Software Reset Synchronization Busy */
+#define USB_SYNCBUSY_SWRST          (_U_(0x1) << USB_SYNCBUSY_SWRST_Pos)
+#define USB_SYNCBUSY_ENABLE_Pos     1            /**< \brief (USB_SYNCBUSY) Enable Synchronization Busy */
+#define USB_SYNCBUSY_ENABLE         (_U_(0x1) << USB_SYNCBUSY_ENABLE_Pos)
+#define USB_SYNCBUSY_MASK           _U_(0x03)    /**< \brief (USB_SYNCBUSY) MASK Register */
+
+/* -------- USB_QOSCTRL : (USB Offset: 0x003) (R/W  8) USB Quality Of Service -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CQOS:2;           /*!< bit:  0.. 1  Configuration Quality of Service   */
+    uint8_t  DQOS:2;           /*!< bit:  2.. 3  Data Quality of Service            */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_QOSCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_QOSCTRL_OFFSET          0x003        /**< \brief (USB_QOSCTRL offset) USB Quality Of Service */
+#define USB_QOSCTRL_RESETVALUE      _U_(0x0F)    /**< \brief (USB_QOSCTRL reset_value) USB Quality Of Service */
+
+#define USB_QOSCTRL_CQOS_Pos        0            /**< \brief (USB_QOSCTRL) Configuration Quality of Service */
+#define USB_QOSCTRL_CQOS_Msk        (_U_(0x3) << USB_QOSCTRL_CQOS_Pos)
+#define USB_QOSCTRL_CQOS(value)     (USB_QOSCTRL_CQOS_Msk & ((value) << USB_QOSCTRL_CQOS_Pos))
+#define USB_QOSCTRL_DQOS_Pos        2            /**< \brief (USB_QOSCTRL) Data Quality of Service */
+#define USB_QOSCTRL_DQOS_Msk        (_U_(0x3) << USB_QOSCTRL_DQOS_Pos)
+#define USB_QOSCTRL_DQOS(value)     (USB_QOSCTRL_DQOS_Msk & ((value) << USB_QOSCTRL_DQOS_Pos))
+#define USB_QOSCTRL_MASK            _U_(0x0F)    /**< \brief (USB_QOSCTRL) MASK Register */
+
+/* -------- USB_DEVICE_CTRLB : (USB Offset: 0x008) (R/W 16) DEVICE DEVICE Control B -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t DETACH:1;         /*!< bit:      0  Detach                             */
+    uint16_t UPRSM:1;          /*!< bit:      1  Upstream Resume                    */
+    uint16_t SPDCONF:2;        /*!< bit:  2.. 3  Speed Configuration                */
+    uint16_t NREPLY:1;         /*!< bit:      4  No Reply                           */
+    uint16_t TSTJ:1;           /*!< bit:      5  Test mode J                        */
+    uint16_t TSTK:1;           /*!< bit:      6  Test mode K                        */
+    uint16_t TSTPCKT:1;        /*!< bit:      7  Test packet mode                   */
+    uint16_t OPMODE2:1;        /*!< bit:      8  Specific Operational Mode          */
+    uint16_t GNAK:1;           /*!< bit:      9  Global NAK                         */
+    uint16_t LPMHDSK:2;        /*!< bit: 10..11  Link Power Management Handshake    */
+    uint16_t :4;               /*!< bit: 12..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_CTRLB_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_CTRLB_OFFSET     0x008        /**< \brief (USB_DEVICE_CTRLB offset) DEVICE Control B */
+#define USB_DEVICE_CTRLB_RESETVALUE _U_(0x0001)  /**< \brief (USB_DEVICE_CTRLB reset_value) DEVICE Control B */
+
+#define USB_DEVICE_CTRLB_DETACH_Pos 0            /**< \brief (USB_DEVICE_CTRLB) Detach */
+#define USB_DEVICE_CTRLB_DETACH     (_U_(0x1) << USB_DEVICE_CTRLB_DETACH_Pos)
+#define USB_DEVICE_CTRLB_UPRSM_Pos  1            /**< \brief (USB_DEVICE_CTRLB) Upstream Resume */
+#define USB_DEVICE_CTRLB_UPRSM      (_U_(0x1) << USB_DEVICE_CTRLB_UPRSM_Pos)
+#define USB_DEVICE_CTRLB_SPDCONF_Pos 2            /**< \brief (USB_DEVICE_CTRLB) Speed Configuration */
+#define USB_DEVICE_CTRLB_SPDCONF_Msk (_U_(0x3) << USB_DEVICE_CTRLB_SPDCONF_Pos)
+#define USB_DEVICE_CTRLB_SPDCONF(value) (USB_DEVICE_CTRLB_SPDCONF_Msk & ((value) << USB_DEVICE_CTRLB_SPDCONF_Pos))
+#define   USB_DEVICE_CTRLB_SPDCONF_FS_Val _U_(0x0)   /**< \brief (USB_DEVICE_CTRLB) FS : Full Speed */
+#define   USB_DEVICE_CTRLB_SPDCONF_LS_Val _U_(0x1)   /**< \brief (USB_DEVICE_CTRLB) LS : Low Speed */
+#define   USB_DEVICE_CTRLB_SPDCONF_HS_Val _U_(0x2)   /**< \brief (USB_DEVICE_CTRLB) HS : High Speed capable */
+#define   USB_DEVICE_CTRLB_SPDCONF_HSTM_Val _U_(0x3)   /**< \brief (USB_DEVICE_CTRLB) HSTM: High Speed Test Mode (force high-speed mode for test mode) */
+#define USB_DEVICE_CTRLB_SPDCONF_FS (USB_DEVICE_CTRLB_SPDCONF_FS_Val << USB_DEVICE_CTRLB_SPDCONF_Pos)
+#define USB_DEVICE_CTRLB_SPDCONF_LS (USB_DEVICE_CTRLB_SPDCONF_LS_Val << USB_DEVICE_CTRLB_SPDCONF_Pos)
+#define USB_DEVICE_CTRLB_SPDCONF_HS (USB_DEVICE_CTRLB_SPDCONF_HS_Val << USB_DEVICE_CTRLB_SPDCONF_Pos)
+#define USB_DEVICE_CTRLB_SPDCONF_HSTM (USB_DEVICE_CTRLB_SPDCONF_HSTM_Val << USB_DEVICE_CTRLB_SPDCONF_Pos)
+#define USB_DEVICE_CTRLB_NREPLY_Pos 4            /**< \brief (USB_DEVICE_CTRLB) No Reply */
+#define USB_DEVICE_CTRLB_NREPLY     (_U_(0x1) << USB_DEVICE_CTRLB_NREPLY_Pos)
+#define USB_DEVICE_CTRLB_TSTJ_Pos   5            /**< \brief (USB_DEVICE_CTRLB) Test mode J */
+#define USB_DEVICE_CTRLB_TSTJ       (_U_(0x1) << USB_DEVICE_CTRLB_TSTJ_Pos)
+#define USB_DEVICE_CTRLB_TSTK_Pos   6            /**< \brief (USB_DEVICE_CTRLB) Test mode K */
+#define USB_DEVICE_CTRLB_TSTK       (_U_(0x1) << USB_DEVICE_CTRLB_TSTK_Pos)
+#define USB_DEVICE_CTRLB_TSTPCKT_Pos 7            /**< \brief (USB_DEVICE_CTRLB) Test packet mode */
+#define USB_DEVICE_CTRLB_TSTPCKT    (_U_(0x1) << USB_DEVICE_CTRLB_TSTPCKT_Pos)
+#define USB_DEVICE_CTRLB_OPMODE2_Pos 8            /**< \brief (USB_DEVICE_CTRLB) Specific Operational Mode */
+#define USB_DEVICE_CTRLB_OPMODE2    (_U_(0x1) << USB_DEVICE_CTRLB_OPMODE2_Pos)
+#define USB_DEVICE_CTRLB_GNAK_Pos   9            /**< \brief (USB_DEVICE_CTRLB) Global NAK */
+#define USB_DEVICE_CTRLB_GNAK       (_U_(0x1) << USB_DEVICE_CTRLB_GNAK_Pos)
+#define USB_DEVICE_CTRLB_LPMHDSK_Pos 10           /**< \brief (USB_DEVICE_CTRLB) Link Power Management Handshake */
+#define USB_DEVICE_CTRLB_LPMHDSK_Msk (_U_(0x3) << USB_DEVICE_CTRLB_LPMHDSK_Pos)
+#define USB_DEVICE_CTRLB_LPMHDSK(value) (USB_DEVICE_CTRLB_LPMHDSK_Msk & ((value) << USB_DEVICE_CTRLB_LPMHDSK_Pos))
+#define   USB_DEVICE_CTRLB_LPMHDSK_NO_Val _U_(0x0)   /**< \brief (USB_DEVICE_CTRLB) No handshake. LPM is not supported */
+#define   USB_DEVICE_CTRLB_LPMHDSK_ACK_Val _U_(0x1)   /**< \brief (USB_DEVICE_CTRLB) ACK */
+#define   USB_DEVICE_CTRLB_LPMHDSK_NYET_Val _U_(0x2)   /**< \brief (USB_DEVICE_CTRLB) NYET */
+#define   USB_DEVICE_CTRLB_LPMHDSK_STALL_Val _U_(0x3)   /**< \brief (USB_DEVICE_CTRLB) STALL */
+#define USB_DEVICE_CTRLB_LPMHDSK_NO (USB_DEVICE_CTRLB_LPMHDSK_NO_Val << USB_DEVICE_CTRLB_LPMHDSK_Pos)
+#define USB_DEVICE_CTRLB_LPMHDSK_ACK (USB_DEVICE_CTRLB_LPMHDSK_ACK_Val << USB_DEVICE_CTRLB_LPMHDSK_Pos)
+#define USB_DEVICE_CTRLB_LPMHDSK_NYET (USB_DEVICE_CTRLB_LPMHDSK_NYET_Val << USB_DEVICE_CTRLB_LPMHDSK_Pos)
+#define USB_DEVICE_CTRLB_LPMHDSK_STALL (USB_DEVICE_CTRLB_LPMHDSK_STALL_Val << USB_DEVICE_CTRLB_LPMHDSK_Pos)
+#define USB_DEVICE_CTRLB_MASK       _U_(0x0FFF)  /**< \brief (USB_DEVICE_CTRLB) MASK Register */
+
+/* -------- USB_DEVICE_DADD : (USB Offset: 0x00A) (R/W  8) DEVICE DEVICE Device Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DADD:7;           /*!< bit:  0.. 6  Device Address                     */
+    uint8_t  ADDEN:1;          /*!< bit:      7  Device Address Enable              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_DADD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_DADD_OFFSET      0x00A        /**< \brief (USB_DEVICE_DADD offset) DEVICE Device Address */
+#define USB_DEVICE_DADD_RESETVALUE  _U_(0x00)    /**< \brief (USB_DEVICE_DADD reset_value) DEVICE Device Address */
+
+#define USB_DEVICE_DADD_DADD_Pos    0            /**< \brief (USB_DEVICE_DADD) Device Address */
+#define USB_DEVICE_DADD_DADD_Msk    (_U_(0x7F) << USB_DEVICE_DADD_DADD_Pos)
+#define USB_DEVICE_DADD_DADD(value) (USB_DEVICE_DADD_DADD_Msk & ((value) << USB_DEVICE_DADD_DADD_Pos))
+#define USB_DEVICE_DADD_ADDEN_Pos   7            /**< \brief (USB_DEVICE_DADD) Device Address Enable */
+#define USB_DEVICE_DADD_ADDEN       (_U_(0x1) << USB_DEVICE_DADD_ADDEN_Pos)
+#define USB_DEVICE_DADD_MASK        _U_(0xFF)    /**< \brief (USB_DEVICE_DADD) MASK Register */
+
+/* -------- USB_DEVICE_STATUS : (USB Offset: 0x00C) (R/   8) DEVICE DEVICE Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :2;               /*!< bit:  0.. 1  Reserved                           */
+    uint8_t  SPEED:2;          /*!< bit:  2.. 3  Speed Status                       */
+    uint8_t  :2;               /*!< bit:  4.. 5  Reserved                           */
+    uint8_t  LINESTATE:2;      /*!< bit:  6.. 7  USB Line State Status              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_STATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_STATUS_OFFSET    0x00C        /**< \brief (USB_DEVICE_STATUS offset) DEVICE Status */
+#define USB_DEVICE_STATUS_RESETVALUE _U_(0x40)    /**< \brief (USB_DEVICE_STATUS reset_value) DEVICE Status */
+
+#define USB_DEVICE_STATUS_SPEED_Pos 2            /**< \brief (USB_DEVICE_STATUS) Speed Status */
+#define USB_DEVICE_STATUS_SPEED_Msk (_U_(0x3) << USB_DEVICE_STATUS_SPEED_Pos)
+#define USB_DEVICE_STATUS_SPEED(value) (USB_DEVICE_STATUS_SPEED_Msk & ((value) << USB_DEVICE_STATUS_SPEED_Pos))
+#define   USB_DEVICE_STATUS_SPEED_FS_Val  _U_(0x0)   /**< \brief (USB_DEVICE_STATUS) Full-speed mode */
+#define   USB_DEVICE_STATUS_SPEED_HS_Val  _U_(0x1)   /**< \brief (USB_DEVICE_STATUS) High-speed mode */
+#define   USB_DEVICE_STATUS_SPEED_LS_Val  _U_(0x2)   /**< \brief (USB_DEVICE_STATUS) Low-speed mode */
+#define USB_DEVICE_STATUS_SPEED_FS  (USB_DEVICE_STATUS_SPEED_FS_Val << USB_DEVICE_STATUS_SPEED_Pos)
+#define USB_DEVICE_STATUS_SPEED_HS  (USB_DEVICE_STATUS_SPEED_HS_Val << USB_DEVICE_STATUS_SPEED_Pos)
+#define USB_DEVICE_STATUS_SPEED_LS  (USB_DEVICE_STATUS_SPEED_LS_Val << USB_DEVICE_STATUS_SPEED_Pos)
+#define USB_DEVICE_STATUS_LINESTATE_Pos 6            /**< \brief (USB_DEVICE_STATUS) USB Line State Status */
+#define USB_DEVICE_STATUS_LINESTATE_Msk (_U_(0x3) << USB_DEVICE_STATUS_LINESTATE_Pos)
+#define USB_DEVICE_STATUS_LINESTATE(value) (USB_DEVICE_STATUS_LINESTATE_Msk & ((value) << USB_DEVICE_STATUS_LINESTATE_Pos))
+#define   USB_DEVICE_STATUS_LINESTATE_0_Val _U_(0x0)   /**< \brief (USB_DEVICE_STATUS) SE0/RESET */
+#define   USB_DEVICE_STATUS_LINESTATE_1_Val _U_(0x1)   /**< \brief (USB_DEVICE_STATUS) FS-J or LS-K State */
+#define   USB_DEVICE_STATUS_LINESTATE_2_Val _U_(0x2)   /**< \brief (USB_DEVICE_STATUS) FS-K or LS-J State */
+#define USB_DEVICE_STATUS_LINESTATE_0 (USB_DEVICE_STATUS_LINESTATE_0_Val << USB_DEVICE_STATUS_LINESTATE_Pos)
+#define USB_DEVICE_STATUS_LINESTATE_1 (USB_DEVICE_STATUS_LINESTATE_1_Val << USB_DEVICE_STATUS_LINESTATE_Pos)
+#define USB_DEVICE_STATUS_LINESTATE_2 (USB_DEVICE_STATUS_LINESTATE_2_Val << USB_DEVICE_STATUS_LINESTATE_Pos)
+#define USB_DEVICE_STATUS_MASK      _U_(0xCC)    /**< \brief (USB_DEVICE_STATUS) MASK Register */
+
+/* -------- USB_FSMSTATUS : (USB Offset: 0x00D) (R/   8) Finite State Machine Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  FSMSTATE:7;       /*!< bit:  0.. 6  Fine State Machine Status          */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_FSMSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_FSMSTATUS_OFFSET        0x00D        /**< \brief (USB_FSMSTATUS offset) Finite State Machine Status */
+#define USB_FSMSTATUS_RESETVALUE    _U_(0x01)    /**< \brief (USB_FSMSTATUS reset_value) Finite State Machine Status */
+
+#define USB_FSMSTATUS_FSMSTATE_Pos  0            /**< \brief (USB_FSMSTATUS) Fine State Machine Status */
+#define USB_FSMSTATUS_FSMSTATE_Msk  (_U_(0x7F) << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE(value) (USB_FSMSTATUS_FSMSTATE_Msk & ((value) << USB_FSMSTATUS_FSMSTATE_Pos))
+#define   USB_FSMSTATUS_FSMSTATE_OFF_Val  _U_(0x1)   /**< \brief (USB_FSMSTATUS) OFF (L3). It corresponds to the powered-off, disconnected, and disabled state */
+#define   USB_FSMSTATUS_FSMSTATE_ON_Val   _U_(0x2)   /**< \brief (USB_FSMSTATUS) ON (L0). It corresponds to the Idle and Active states */
+#define   USB_FSMSTATUS_FSMSTATE_SUSPEND_Val _U_(0x4)   /**< \brief (USB_FSMSTATUS) SUSPEND (L2) */
+#define   USB_FSMSTATUS_FSMSTATE_SLEEP_Val _U_(0x8)   /**< \brief (USB_FSMSTATUS) SLEEP (L1) */
+#define   USB_FSMSTATUS_FSMSTATE_DNRESUME_Val _U_(0x10)   /**< \brief (USB_FSMSTATUS) DNRESUME. Down Stream Resume. */
+#define   USB_FSMSTATUS_FSMSTATE_UPRESUME_Val _U_(0x20)   /**< \brief (USB_FSMSTATUS) UPRESUME. Up Stream Resume. */
+#define   USB_FSMSTATUS_FSMSTATE_RESET_Val _U_(0x40)   /**< \brief (USB_FSMSTATUS) RESET. USB lines Reset. */
+#define USB_FSMSTATUS_FSMSTATE_OFF  (USB_FSMSTATUS_FSMSTATE_OFF_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_ON   (USB_FSMSTATUS_FSMSTATE_ON_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_SUSPEND (USB_FSMSTATUS_FSMSTATE_SUSPEND_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_SLEEP (USB_FSMSTATUS_FSMSTATE_SLEEP_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_DNRESUME (USB_FSMSTATUS_FSMSTATE_DNRESUME_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_UPRESUME (USB_FSMSTATUS_FSMSTATE_UPRESUME_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_FSMSTATE_RESET (USB_FSMSTATUS_FSMSTATE_RESET_Val << USB_FSMSTATUS_FSMSTATE_Pos)
+#define USB_FSMSTATUS_MASK          _U_(0x7F)    /**< \brief (USB_FSMSTATUS) MASK Register */
+
+/* -------- USB_DEVICE_FNUM : (USB Offset: 0x010) (R/  16) DEVICE DEVICE Device Frame Number -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t MFNUM:3;          /*!< bit:  0.. 2  Micro Frame Number                 */
+    uint16_t FNUM:11;          /*!< bit:  3..13  Frame Number                       */
+    uint16_t :1;               /*!< bit:     14  Reserved                           */
+    uint16_t FNCERR:1;         /*!< bit:     15  Frame Number CRC Error             */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_FNUM_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_FNUM_OFFSET      0x010        /**< \brief (USB_DEVICE_FNUM offset) DEVICE Device Frame Number */
+#define USB_DEVICE_FNUM_RESETVALUE  _U_(0x0000)  /**< \brief (USB_DEVICE_FNUM reset_value) DEVICE Device Frame Number */
+
+#define USB_DEVICE_FNUM_MFNUM_Pos   0            /**< \brief (USB_DEVICE_FNUM) Micro Frame Number */
+#define USB_DEVICE_FNUM_MFNUM_Msk   (_U_(0x7) << USB_DEVICE_FNUM_MFNUM_Pos)
+#define USB_DEVICE_FNUM_MFNUM(value) (USB_DEVICE_FNUM_MFNUM_Msk & ((value) << USB_DEVICE_FNUM_MFNUM_Pos))
+#define USB_DEVICE_FNUM_FNUM_Pos    3            /**< \brief (USB_DEVICE_FNUM) Frame Number */
+#define USB_DEVICE_FNUM_FNUM_Msk    (_U_(0x7FF) << USB_DEVICE_FNUM_FNUM_Pos)
+#define USB_DEVICE_FNUM_FNUM(value) (USB_DEVICE_FNUM_FNUM_Msk & ((value) << USB_DEVICE_FNUM_FNUM_Pos))
+#define USB_DEVICE_FNUM_FNCERR_Pos  15           /**< \brief (USB_DEVICE_FNUM) Frame Number CRC Error */
+#define USB_DEVICE_FNUM_FNCERR      (_U_(0x1) << USB_DEVICE_FNUM_FNCERR_Pos)
+#define USB_DEVICE_FNUM_MASK        _U_(0xBFFF)  /**< \brief (USB_DEVICE_FNUM) MASK Register */
+
+/* -------- USB_DEVICE_INTENCLR : (USB Offset: 0x014) (R/W 16) DEVICE DEVICE Device Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SUSPEND:1;        /*!< bit:      0  Suspend Interrupt Enable           */
+    uint16_t MSOF:1;           /*!< bit:      1  Micro Start of Frame Interrupt Enable in High Speed Mode */
+    uint16_t SOF:1;            /*!< bit:      2  Start Of Frame Interrupt Enable    */
+    uint16_t EORST:1;          /*!< bit:      3  End of Reset Interrupt Enable      */
+    uint16_t WAKEUP:1;         /*!< bit:      4  Wake Up Interrupt Enable           */
+    uint16_t EORSM:1;          /*!< bit:      5  End Of Resume Interrupt Enable     */
+    uint16_t UPRSM:1;          /*!< bit:      6  Upstream Resume Interrupt Enable   */
+    uint16_t RAMACER:1;        /*!< bit:      7  Ram Access Interrupt Enable        */
+    uint16_t LPMNYET:1;        /*!< bit:      8  Link Power Management Not Yet Interrupt Enable */
+    uint16_t LPMSUSP:1;        /*!< bit:      9  Link Power Management Suspend Interrupt Enable */
+    uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_INTENCLR_OFFSET  0x014        /**< \brief (USB_DEVICE_INTENCLR offset) DEVICE Device Interrupt Enable Clear */
+#define USB_DEVICE_INTENCLR_RESETVALUE _U_(0x0000)  /**< \brief (USB_DEVICE_INTENCLR reset_value) DEVICE Device Interrupt Enable Clear */
+
+#define USB_DEVICE_INTENCLR_SUSPEND_Pos 0            /**< \brief (USB_DEVICE_INTENCLR) Suspend Interrupt Enable */
+#define USB_DEVICE_INTENCLR_SUSPEND (_U_(0x1) << USB_DEVICE_INTENCLR_SUSPEND_Pos)
+#define USB_DEVICE_INTENCLR_MSOF_Pos 1            /**< \brief (USB_DEVICE_INTENCLR) Micro Start of Frame Interrupt Enable in High Speed Mode */
+#define USB_DEVICE_INTENCLR_MSOF    (_U_(0x1) << USB_DEVICE_INTENCLR_MSOF_Pos)
+#define USB_DEVICE_INTENCLR_SOF_Pos 2            /**< \brief (USB_DEVICE_INTENCLR) Start Of Frame Interrupt Enable */
+#define USB_DEVICE_INTENCLR_SOF     (_U_(0x1) << USB_DEVICE_INTENCLR_SOF_Pos)
+#define USB_DEVICE_INTENCLR_EORST_Pos 3            /**< \brief (USB_DEVICE_INTENCLR) End of Reset Interrupt Enable */
+#define USB_DEVICE_INTENCLR_EORST   (_U_(0x1) << USB_DEVICE_INTENCLR_EORST_Pos)
+#define USB_DEVICE_INTENCLR_WAKEUP_Pos 4            /**< \brief (USB_DEVICE_INTENCLR) Wake Up Interrupt Enable */
+#define USB_DEVICE_INTENCLR_WAKEUP  (_U_(0x1) << USB_DEVICE_INTENCLR_WAKEUP_Pos)
+#define USB_DEVICE_INTENCLR_EORSM_Pos 5            /**< \brief (USB_DEVICE_INTENCLR) End Of Resume Interrupt Enable */
+#define USB_DEVICE_INTENCLR_EORSM   (_U_(0x1) << USB_DEVICE_INTENCLR_EORSM_Pos)
+#define USB_DEVICE_INTENCLR_UPRSM_Pos 6            /**< \brief (USB_DEVICE_INTENCLR) Upstream Resume Interrupt Enable */
+#define USB_DEVICE_INTENCLR_UPRSM   (_U_(0x1) << USB_DEVICE_INTENCLR_UPRSM_Pos)
+#define USB_DEVICE_INTENCLR_RAMACER_Pos 7            /**< \brief (USB_DEVICE_INTENCLR) Ram Access Interrupt Enable */
+#define USB_DEVICE_INTENCLR_RAMACER (_U_(0x1) << USB_DEVICE_INTENCLR_RAMACER_Pos)
+#define USB_DEVICE_INTENCLR_LPMNYET_Pos 8            /**< \brief (USB_DEVICE_INTENCLR) Link Power Management Not Yet Interrupt Enable */
+#define USB_DEVICE_INTENCLR_LPMNYET (_U_(0x1) << USB_DEVICE_INTENCLR_LPMNYET_Pos)
+#define USB_DEVICE_INTENCLR_LPMSUSP_Pos 9            /**< \brief (USB_DEVICE_INTENCLR) Link Power Management Suspend Interrupt Enable */
+#define USB_DEVICE_INTENCLR_LPMSUSP (_U_(0x1) << USB_DEVICE_INTENCLR_LPMSUSP_Pos)
+#define USB_DEVICE_INTENCLR_MASK    _U_(0x03FF)  /**< \brief (USB_DEVICE_INTENCLR) MASK Register */
+
+/* -------- USB_DEVICE_INTENSET : (USB Offset: 0x018) (R/W 16) DEVICE DEVICE Device Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SUSPEND:1;        /*!< bit:      0  Suspend Interrupt Enable           */
+    uint16_t MSOF:1;           /*!< bit:      1  Micro Start of Frame Interrupt Enable in High Speed Mode */
+    uint16_t SOF:1;            /*!< bit:      2  Start Of Frame Interrupt Enable    */
+    uint16_t EORST:1;          /*!< bit:      3  End of Reset Interrupt Enable      */
+    uint16_t WAKEUP:1;         /*!< bit:      4  Wake Up Interrupt Enable           */
+    uint16_t EORSM:1;          /*!< bit:      5  End Of Resume Interrupt Enable     */
+    uint16_t UPRSM:1;          /*!< bit:      6  Upstream Resume Interrupt Enable   */
+    uint16_t RAMACER:1;        /*!< bit:      7  Ram Access Interrupt Enable        */
+    uint16_t LPMNYET:1;        /*!< bit:      8  Link Power Management Not Yet Interrupt Enable */
+    uint16_t LPMSUSP:1;        /*!< bit:      9  Link Power Management Suspend Interrupt Enable */
+    uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_INTENSET_OFFSET  0x018        /**< \brief (USB_DEVICE_INTENSET offset) DEVICE Device Interrupt Enable Set */
+#define USB_DEVICE_INTENSET_RESETVALUE _U_(0x0000)  /**< \brief (USB_DEVICE_INTENSET reset_value) DEVICE Device Interrupt Enable Set */
+
+#define USB_DEVICE_INTENSET_SUSPEND_Pos 0            /**< \brief (USB_DEVICE_INTENSET) Suspend Interrupt Enable */
+#define USB_DEVICE_INTENSET_SUSPEND (_U_(0x1) << USB_DEVICE_INTENSET_SUSPEND_Pos)
+#define USB_DEVICE_INTENSET_MSOF_Pos 1            /**< \brief (USB_DEVICE_INTENSET) Micro Start of Frame Interrupt Enable in High Speed Mode */
+#define USB_DEVICE_INTENSET_MSOF    (_U_(0x1) << USB_DEVICE_INTENSET_MSOF_Pos)
+#define USB_DEVICE_INTENSET_SOF_Pos 2            /**< \brief (USB_DEVICE_INTENSET) Start Of Frame Interrupt Enable */
+#define USB_DEVICE_INTENSET_SOF     (_U_(0x1) << USB_DEVICE_INTENSET_SOF_Pos)
+#define USB_DEVICE_INTENSET_EORST_Pos 3            /**< \brief (USB_DEVICE_INTENSET) End of Reset Interrupt Enable */
+#define USB_DEVICE_INTENSET_EORST   (_U_(0x1) << USB_DEVICE_INTENSET_EORST_Pos)
+#define USB_DEVICE_INTENSET_WAKEUP_Pos 4            /**< \brief (USB_DEVICE_INTENSET) Wake Up Interrupt Enable */
+#define USB_DEVICE_INTENSET_WAKEUP  (_U_(0x1) << USB_DEVICE_INTENSET_WAKEUP_Pos)
+#define USB_DEVICE_INTENSET_EORSM_Pos 5            /**< \brief (USB_DEVICE_INTENSET) End Of Resume Interrupt Enable */
+#define USB_DEVICE_INTENSET_EORSM   (_U_(0x1) << USB_DEVICE_INTENSET_EORSM_Pos)
+#define USB_DEVICE_INTENSET_UPRSM_Pos 6            /**< \brief (USB_DEVICE_INTENSET) Upstream Resume Interrupt Enable */
+#define USB_DEVICE_INTENSET_UPRSM   (_U_(0x1) << USB_DEVICE_INTENSET_UPRSM_Pos)
+#define USB_DEVICE_INTENSET_RAMACER_Pos 7            /**< \brief (USB_DEVICE_INTENSET) Ram Access Interrupt Enable */
+#define USB_DEVICE_INTENSET_RAMACER (_U_(0x1) << USB_DEVICE_INTENSET_RAMACER_Pos)
+#define USB_DEVICE_INTENSET_LPMNYET_Pos 8            /**< \brief (USB_DEVICE_INTENSET) Link Power Management Not Yet Interrupt Enable */
+#define USB_DEVICE_INTENSET_LPMNYET (_U_(0x1) << USB_DEVICE_INTENSET_LPMNYET_Pos)
+#define USB_DEVICE_INTENSET_LPMSUSP_Pos 9            /**< \brief (USB_DEVICE_INTENSET) Link Power Management Suspend Interrupt Enable */
+#define USB_DEVICE_INTENSET_LPMSUSP (_U_(0x1) << USB_DEVICE_INTENSET_LPMSUSP_Pos)
+#define USB_DEVICE_INTENSET_MASK    _U_(0x03FF)  /**< \brief (USB_DEVICE_INTENSET) MASK Register */
+
+/* -------- USB_DEVICE_INTFLAG : (USB Offset: 0x01C) (R/W 16) DEVICE DEVICE Device Interrupt Flag -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint16_t SUSPEND:1;        /*!< bit:      0  Suspend                            */
+    __I uint16_t MSOF:1;           /*!< bit:      1  Micro Start of Frame in High Speed Mode */
+    __I uint16_t SOF:1;            /*!< bit:      2  Start Of Frame                     */
+    __I uint16_t EORST:1;          /*!< bit:      3  End of Reset                       */
+    __I uint16_t WAKEUP:1;         /*!< bit:      4  Wake Up                            */
+    __I uint16_t EORSM:1;          /*!< bit:      5  End Of Resume                      */
+    __I uint16_t UPRSM:1;          /*!< bit:      6  Upstream Resume                    */
+    __I uint16_t RAMACER:1;        /*!< bit:      7  Ram Access                         */
+    __I uint16_t LPMNYET:1;        /*!< bit:      8  Link Power Management Not Yet      */
+    __I uint16_t LPMSUSP:1;        /*!< bit:      9  Link Power Management Suspend      */
+    __I uint16_t :6;               /*!< bit: 10..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_INTFLAG_OFFSET   0x01C        /**< \brief (USB_DEVICE_INTFLAG offset) DEVICE Device Interrupt Flag */
+#define USB_DEVICE_INTFLAG_RESETVALUE _U_(0x0000)  /**< \brief (USB_DEVICE_INTFLAG reset_value) DEVICE Device Interrupt Flag */
+
+#define USB_DEVICE_INTFLAG_SUSPEND_Pos 0            /**< \brief (USB_DEVICE_INTFLAG) Suspend */
+#define USB_DEVICE_INTFLAG_SUSPEND  (_U_(0x1) << USB_DEVICE_INTFLAG_SUSPEND_Pos)
+#define USB_DEVICE_INTFLAG_MSOF_Pos 1            /**< \brief (USB_DEVICE_INTFLAG) Micro Start of Frame in High Speed Mode */
+#define USB_DEVICE_INTFLAG_MSOF     (_U_(0x1) << USB_DEVICE_INTFLAG_MSOF_Pos)
+#define USB_DEVICE_INTFLAG_SOF_Pos  2            /**< \brief (USB_DEVICE_INTFLAG) Start Of Frame */
+#define USB_DEVICE_INTFLAG_SOF      (_U_(0x1) << USB_DEVICE_INTFLAG_SOF_Pos)
+#define USB_DEVICE_INTFLAG_EORST_Pos 3            /**< \brief (USB_DEVICE_INTFLAG) End of Reset */
+#define USB_DEVICE_INTFLAG_EORST    (_U_(0x1) << USB_DEVICE_INTFLAG_EORST_Pos)
+#define USB_DEVICE_INTFLAG_WAKEUP_Pos 4            /**< \brief (USB_DEVICE_INTFLAG) Wake Up */
+#define USB_DEVICE_INTFLAG_WAKEUP   (_U_(0x1) << USB_DEVICE_INTFLAG_WAKEUP_Pos)
+#define USB_DEVICE_INTFLAG_EORSM_Pos 5            /**< \brief (USB_DEVICE_INTFLAG) End Of Resume */
+#define USB_DEVICE_INTFLAG_EORSM    (_U_(0x1) << USB_DEVICE_INTFLAG_EORSM_Pos)
+#define USB_DEVICE_INTFLAG_UPRSM_Pos 6            /**< \brief (USB_DEVICE_INTFLAG) Upstream Resume */
+#define USB_DEVICE_INTFLAG_UPRSM    (_U_(0x1) << USB_DEVICE_INTFLAG_UPRSM_Pos)
+#define USB_DEVICE_INTFLAG_RAMACER_Pos 7            /**< \brief (USB_DEVICE_INTFLAG) Ram Access */
+#define USB_DEVICE_INTFLAG_RAMACER  (_U_(0x1) << USB_DEVICE_INTFLAG_RAMACER_Pos)
+#define USB_DEVICE_INTFLAG_LPMNYET_Pos 8            /**< \brief (USB_DEVICE_INTFLAG) Link Power Management Not Yet */
+#define USB_DEVICE_INTFLAG_LPMNYET  (_U_(0x1) << USB_DEVICE_INTFLAG_LPMNYET_Pos)
+#define USB_DEVICE_INTFLAG_LPMSUSP_Pos 9            /**< \brief (USB_DEVICE_INTFLAG) Link Power Management Suspend */
+#define USB_DEVICE_INTFLAG_LPMSUSP  (_U_(0x1) << USB_DEVICE_INTFLAG_LPMSUSP_Pos)
+#define USB_DEVICE_INTFLAG_MASK     _U_(0x03FF)  /**< \brief (USB_DEVICE_INTFLAG) MASK Register */
+
+/* -------- USB_DEVICE_EPINTSMRY : (USB Offset: 0x020) (R/  16) DEVICE DEVICE End Point Interrupt Summary -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t EPINT0:1;         /*!< bit:      0  End Point 0 Interrupt              */
+    uint16_t EPINT1:1;         /*!< bit:      1  End Point 1 Interrupt              */
+    uint16_t EPINT2:1;         /*!< bit:      2  End Point 2 Interrupt              */
+    uint16_t EPINT3:1;         /*!< bit:      3  End Point 3 Interrupt              */
+    uint16_t EPINT4:1;         /*!< bit:      4  End Point 4 Interrupt              */
+    uint16_t EPINT5:1;         /*!< bit:      5  End Point 5 Interrupt              */
+    uint16_t EPINT6:1;         /*!< bit:      6  End Point 6 Interrupt              */
+    uint16_t EPINT7:1;         /*!< bit:      7  End Point 7 Interrupt              */
+    uint16_t :8;               /*!< bit:  8..15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint16_t EPINT:8;          /*!< bit:  0.. 7  End Point x Interrupt              */
+    uint16_t :8;               /*!< bit:  8..15  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_EPINTSMRY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPINTSMRY_OFFSET 0x020        /**< \brief (USB_DEVICE_EPINTSMRY offset) DEVICE End Point Interrupt Summary */
+#define USB_DEVICE_EPINTSMRY_RESETVALUE _U_(0x0000)  /**< \brief (USB_DEVICE_EPINTSMRY reset_value) DEVICE End Point Interrupt Summary */
+
+#define USB_DEVICE_EPINTSMRY_EPINT0_Pos 0            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 0 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT0 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT0_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT1_Pos 1            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 1 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT1 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT1_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT2_Pos 2            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 2 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT2 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT2_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT3_Pos 3            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 3 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT3 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT3_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT4_Pos 4            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 4 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT4 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT4_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT5_Pos 5            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 5 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT5 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT5_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT6_Pos 6            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 6 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT6 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT6_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT7_Pos 7            /**< \brief (USB_DEVICE_EPINTSMRY) End Point 7 Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT7 (_U_(1) << USB_DEVICE_EPINTSMRY_EPINT7_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT_Pos 0            /**< \brief (USB_DEVICE_EPINTSMRY) End Point x Interrupt */
+#define USB_DEVICE_EPINTSMRY_EPINT_Msk (_U_(0xFF) << USB_DEVICE_EPINTSMRY_EPINT_Pos)
+#define USB_DEVICE_EPINTSMRY_EPINT(value) (USB_DEVICE_EPINTSMRY_EPINT_Msk & ((value) << USB_DEVICE_EPINTSMRY_EPINT_Pos))
+#define USB_DEVICE_EPINTSMRY_MASK   _U_(0x00FF)  /**< \brief (USB_DEVICE_EPINTSMRY) MASK Register */
+
+/* -------- USB_DESCADD : (USB Offset: 0x024) (R/W 32) Descriptor Address -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t DESCADD:32;       /*!< bit:  0..31  Descriptor Address Value           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} USB_DESCADD_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DESCADD_OFFSET          0x024        /**< \brief (USB_DESCADD offset) Descriptor Address */
+#define USB_DESCADD_RESETVALUE      _U_(0x00000000) /**< \brief (USB_DESCADD reset_value) Descriptor Address */
+
+#define USB_DESCADD_DESCADD_Pos     0            /**< \brief (USB_DESCADD) Descriptor Address Value */
+#define USB_DESCADD_DESCADD_Msk     (_U_(0xFFFFFFFF) << USB_DESCADD_DESCADD_Pos)
+#define USB_DESCADD_DESCADD(value)  (USB_DESCADD_DESCADD_Msk & ((value) << USB_DESCADD_DESCADD_Pos))
+#define USB_DESCADD_MASK            _U_(0xFFFFFFFF) /**< \brief (USB_DESCADD) MASK Register */
+
+/* -------- USB_PADCAL : (USB Offset: 0x028) (R/W 16) USB PAD Calibration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t TRANSP:5;         /*!< bit:  0.. 4  USB Pad Transp calibration         */
+    uint16_t :1;               /*!< bit:      5  Reserved                           */
+    uint16_t TRANSN:5;         /*!< bit:  6..10  USB Pad Transn calibration         */
+    uint16_t :1;               /*!< bit:     11  Reserved                           */
+    uint16_t TRIM:3;           /*!< bit: 12..14  USB Pad Trim calibration           */
+    uint16_t :1;               /*!< bit:     15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_PADCAL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_PADCAL_OFFSET           0x028        /**< \brief (USB_PADCAL offset) USB PAD Calibration */
+#define USB_PADCAL_RESETVALUE       _U_(0x0000)  /**< \brief (USB_PADCAL reset_value) USB PAD Calibration */
+
+#define USB_PADCAL_TRANSP_Pos       0            /**< \brief (USB_PADCAL) USB Pad Transp calibration */
+#define USB_PADCAL_TRANSP_Msk       (_U_(0x1F) << USB_PADCAL_TRANSP_Pos)
+#define USB_PADCAL_TRANSP(value)    (USB_PADCAL_TRANSP_Msk & ((value) << USB_PADCAL_TRANSP_Pos))
+#define USB_PADCAL_TRANSN_Pos       6            /**< \brief (USB_PADCAL) USB Pad Transn calibration */
+#define USB_PADCAL_TRANSN_Msk       (_U_(0x1F) << USB_PADCAL_TRANSN_Pos)
+#define USB_PADCAL_TRANSN(value)    (USB_PADCAL_TRANSN_Msk & ((value) << USB_PADCAL_TRANSN_Pos))
+#define USB_PADCAL_TRIM_Pos         12           /**< \brief (USB_PADCAL) USB Pad Trim calibration */
+#define USB_PADCAL_TRIM_Msk         (_U_(0x7) << USB_PADCAL_TRIM_Pos)
+#define USB_PADCAL_TRIM(value)      (USB_PADCAL_TRIM_Msk & ((value) << USB_PADCAL_TRIM_Pos))
+#define USB_PADCAL_MASK             _U_(0x77DF)  /**< \brief (USB_PADCAL) MASK Register */
+
+/* -------- USB_DEVICE_EPCFG : (USB Offset: 0x100) (R/W  8) DEVICE DEVICE_ENDPOINT End Point Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  EPTYPE0:3;        /*!< bit:  0.. 2  End Point Type0                    */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  EPTYPE1:3;        /*!< bit:  4.. 6  End Point Type1                    */
+    uint8_t  NYETDIS:1;        /*!< bit:      7  NYET Token Disable                 */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPCFG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPCFG_OFFSET     0x100        /**< \brief (USB_DEVICE_EPCFG offset) DEVICE_ENDPOINT End Point Configuration */
+#define USB_DEVICE_EPCFG_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPCFG reset_value) DEVICE_ENDPOINT End Point Configuration */
+
+#define USB_DEVICE_EPCFG_EPTYPE0_Pos 0            /**< \brief (USB_DEVICE_EPCFG) End Point Type0 */
+#define USB_DEVICE_EPCFG_EPTYPE0_Msk (_U_(0x7) << USB_DEVICE_EPCFG_EPTYPE0_Pos)
+#define USB_DEVICE_EPCFG_EPTYPE0(value) (USB_DEVICE_EPCFG_EPTYPE0_Msk & ((value) << USB_DEVICE_EPCFG_EPTYPE0_Pos))
+#define USB_DEVICE_EPCFG_EPTYPE1_Pos 4            /**< \brief (USB_DEVICE_EPCFG) End Point Type1 */
+#define USB_DEVICE_EPCFG_EPTYPE1_Msk (_U_(0x7) << USB_DEVICE_EPCFG_EPTYPE1_Pos)
+#define USB_DEVICE_EPCFG_EPTYPE1(value) (USB_DEVICE_EPCFG_EPTYPE1_Msk & ((value) << USB_DEVICE_EPCFG_EPTYPE1_Pos))
+#define USB_DEVICE_EPCFG_NYETDIS_Pos 7            /**< \brief (USB_DEVICE_EPCFG) NYET Token Disable */
+#define USB_DEVICE_EPCFG_NYETDIS    (_U_(0x1) << USB_DEVICE_EPCFG_NYETDIS_Pos)
+#define USB_DEVICE_EPCFG_MASK       _U_(0xF7)    /**< \brief (USB_DEVICE_EPCFG) MASK Register */
+
+/* -------- USB_DEVICE_EPSTATUSCLR : (USB Offset: 0x104) ( /W  8) DEVICE DEVICE_ENDPOINT End Point Pipe Status Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DTGLOUT:1;        /*!< bit:      0  Data Toggle OUT Clear              */
+    uint8_t  DTGLIN:1;         /*!< bit:      1  Data Toggle IN Clear               */
+    uint8_t  CURBK:1;          /*!< bit:      2  Current Bank Clear                 */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  STALLRQ0:1;       /*!< bit:      4  Stall 0 Request Clear              */
+    uint8_t  STALLRQ1:1;       /*!< bit:      5  Stall 1 Request Clear              */
+    uint8_t  BK0RDY:1;         /*!< bit:      6  Bank 0 Ready Clear                 */
+    uint8_t  BK1RDY:1;         /*!< bit:      7  Bank 1 Ready Clear                 */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  STALLRQ:2;        /*!< bit:  4.. 5  Stall x Request Clear              */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPSTATUSCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPSTATUSCLR_OFFSET 0x104        /**< \brief (USB_DEVICE_EPSTATUSCLR offset) DEVICE_ENDPOINT End Point Pipe Status Clear */
+#define USB_DEVICE_EPSTATUSCLR_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPSTATUSCLR reset_value) DEVICE_ENDPOINT End Point Pipe Status Clear */
+
+#define USB_DEVICE_EPSTATUSCLR_DTGLOUT_Pos 0            /**< \brief (USB_DEVICE_EPSTATUSCLR) Data Toggle OUT Clear */
+#define USB_DEVICE_EPSTATUSCLR_DTGLOUT (_U_(0x1) << USB_DEVICE_EPSTATUSCLR_DTGLOUT_Pos)
+#define USB_DEVICE_EPSTATUSCLR_DTGLIN_Pos 1            /**< \brief (USB_DEVICE_EPSTATUSCLR) Data Toggle IN Clear */
+#define USB_DEVICE_EPSTATUSCLR_DTGLIN (_U_(0x1) << USB_DEVICE_EPSTATUSCLR_DTGLIN_Pos)
+#define USB_DEVICE_EPSTATUSCLR_CURBK_Pos 2            /**< \brief (USB_DEVICE_EPSTATUSCLR) Current Bank Clear */
+#define USB_DEVICE_EPSTATUSCLR_CURBK (_U_(0x1) << USB_DEVICE_EPSTATUSCLR_CURBK_Pos)
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ0_Pos 4            /**< \brief (USB_DEVICE_EPSTATUSCLR) Stall 0 Request Clear */
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ0 (_U_(1) << USB_DEVICE_EPSTATUSCLR_STALLRQ0_Pos)
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ1_Pos 5            /**< \brief (USB_DEVICE_EPSTATUSCLR) Stall 1 Request Clear */
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ1 (_U_(1) << USB_DEVICE_EPSTATUSCLR_STALLRQ1_Pos)
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ_Pos 4            /**< \brief (USB_DEVICE_EPSTATUSCLR) Stall x Request Clear */
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ_Msk (_U_(0x3) << USB_DEVICE_EPSTATUSCLR_STALLRQ_Pos)
+#define USB_DEVICE_EPSTATUSCLR_STALLRQ(value) (USB_DEVICE_EPSTATUSCLR_STALLRQ_Msk & ((value) << USB_DEVICE_EPSTATUSCLR_STALLRQ_Pos))
+#define USB_DEVICE_EPSTATUSCLR_BK0RDY_Pos 6            /**< \brief (USB_DEVICE_EPSTATUSCLR) Bank 0 Ready Clear */
+#define USB_DEVICE_EPSTATUSCLR_BK0RDY (_U_(0x1) << USB_DEVICE_EPSTATUSCLR_BK0RDY_Pos)
+#define USB_DEVICE_EPSTATUSCLR_BK1RDY_Pos 7            /**< \brief (USB_DEVICE_EPSTATUSCLR) Bank 1 Ready Clear */
+#define USB_DEVICE_EPSTATUSCLR_BK1RDY (_U_(0x1) << USB_DEVICE_EPSTATUSCLR_BK1RDY_Pos)
+#define USB_DEVICE_EPSTATUSCLR_MASK _U_(0xF7)    /**< \brief (USB_DEVICE_EPSTATUSCLR) MASK Register */
+
+/* -------- USB_DEVICE_EPSTATUSSET : (USB Offset: 0x105) ( /W  8) DEVICE DEVICE_ENDPOINT End Point Pipe Status Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DTGLOUT:1;        /*!< bit:      0  Data Toggle OUT Set                */
+    uint8_t  DTGLIN:1;         /*!< bit:      1  Data Toggle IN Set                 */
+    uint8_t  CURBK:1;          /*!< bit:      2  Current Bank Set                   */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  STALLRQ0:1;       /*!< bit:      4  Stall 0 Request Set                */
+    uint8_t  STALLRQ1:1;       /*!< bit:      5  Stall 1 Request Set                */
+    uint8_t  BK0RDY:1;         /*!< bit:      6  Bank 0 Ready Set                   */
+    uint8_t  BK1RDY:1;         /*!< bit:      7  Bank 1 Ready Set                   */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  STALLRQ:2;        /*!< bit:  4.. 5  Stall x Request Set                */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPSTATUSSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPSTATUSSET_OFFSET 0x105        /**< \brief (USB_DEVICE_EPSTATUSSET offset) DEVICE_ENDPOINT End Point Pipe Status Set */
+#define USB_DEVICE_EPSTATUSSET_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPSTATUSSET reset_value) DEVICE_ENDPOINT End Point Pipe Status Set */
+
+#define USB_DEVICE_EPSTATUSSET_DTGLOUT_Pos 0            /**< \brief (USB_DEVICE_EPSTATUSSET) Data Toggle OUT Set */
+#define USB_DEVICE_EPSTATUSSET_DTGLOUT (_U_(0x1) << USB_DEVICE_EPSTATUSSET_DTGLOUT_Pos)
+#define USB_DEVICE_EPSTATUSSET_DTGLIN_Pos 1            /**< \brief (USB_DEVICE_EPSTATUSSET) Data Toggle IN Set */
+#define USB_DEVICE_EPSTATUSSET_DTGLIN (_U_(0x1) << USB_DEVICE_EPSTATUSSET_DTGLIN_Pos)
+#define USB_DEVICE_EPSTATUSSET_CURBK_Pos 2            /**< \brief (USB_DEVICE_EPSTATUSSET) Current Bank Set */
+#define USB_DEVICE_EPSTATUSSET_CURBK (_U_(0x1) << USB_DEVICE_EPSTATUSSET_CURBK_Pos)
+#define USB_DEVICE_EPSTATUSSET_STALLRQ0_Pos 4            /**< \brief (USB_DEVICE_EPSTATUSSET) Stall 0 Request Set */
+#define USB_DEVICE_EPSTATUSSET_STALLRQ0 (_U_(1) << USB_DEVICE_EPSTATUSSET_STALLRQ0_Pos)
+#define USB_DEVICE_EPSTATUSSET_STALLRQ1_Pos 5            /**< \brief (USB_DEVICE_EPSTATUSSET) Stall 1 Request Set */
+#define USB_DEVICE_EPSTATUSSET_STALLRQ1 (_U_(1) << USB_DEVICE_EPSTATUSSET_STALLRQ1_Pos)
+#define USB_DEVICE_EPSTATUSSET_STALLRQ_Pos 4            /**< \brief (USB_DEVICE_EPSTATUSSET) Stall x Request Set */
+#define USB_DEVICE_EPSTATUSSET_STALLRQ_Msk (_U_(0x3) << USB_DEVICE_EPSTATUSSET_STALLRQ_Pos)
+#define USB_DEVICE_EPSTATUSSET_STALLRQ(value) (USB_DEVICE_EPSTATUSSET_STALLRQ_Msk & ((value) << USB_DEVICE_EPSTATUSSET_STALLRQ_Pos))
+#define USB_DEVICE_EPSTATUSSET_BK0RDY_Pos 6            /**< \brief (USB_DEVICE_EPSTATUSSET) Bank 0 Ready Set */
+#define USB_DEVICE_EPSTATUSSET_BK0RDY (_U_(0x1) << USB_DEVICE_EPSTATUSSET_BK0RDY_Pos)
+#define USB_DEVICE_EPSTATUSSET_BK1RDY_Pos 7            /**< \brief (USB_DEVICE_EPSTATUSSET) Bank 1 Ready Set */
+#define USB_DEVICE_EPSTATUSSET_BK1RDY (_U_(0x1) << USB_DEVICE_EPSTATUSSET_BK1RDY_Pos)
+#define USB_DEVICE_EPSTATUSSET_MASK _U_(0xF7)    /**< \brief (USB_DEVICE_EPSTATUSSET) MASK Register */
+
+/* -------- USB_DEVICE_EPSTATUS : (USB Offset: 0x106) (R/   8) DEVICE DEVICE_ENDPOINT End Point Pipe Status -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  DTGLOUT:1;        /*!< bit:      0  Data Toggle Out                    */
+    uint8_t  DTGLIN:1;         /*!< bit:      1  Data Toggle In                     */
+    uint8_t  CURBK:1;          /*!< bit:      2  Current Bank                       */
+    uint8_t  :1;               /*!< bit:      3  Reserved                           */
+    uint8_t  STALLRQ0:1;       /*!< bit:      4  Stall 0 Request                    */
+    uint8_t  STALLRQ1:1;       /*!< bit:      5  Stall 1 Request                    */
+    uint8_t  BK0RDY:1;         /*!< bit:      6  Bank 0 ready                       */
+    uint8_t  BK1RDY:1;         /*!< bit:      7  Bank 1 ready                       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  :4;               /*!< bit:  0.. 3  Reserved                           */
+    uint8_t  STALLRQ:2;        /*!< bit:  4.. 5  Stall x Request                    */
+    uint8_t  :2;               /*!< bit:  6.. 7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPSTATUS_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPSTATUS_OFFSET  0x106        /**< \brief (USB_DEVICE_EPSTATUS offset) DEVICE_ENDPOINT End Point Pipe Status */
+#define USB_DEVICE_EPSTATUS_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPSTATUS reset_value) DEVICE_ENDPOINT End Point Pipe Status */
+
+#define USB_DEVICE_EPSTATUS_DTGLOUT_Pos 0            /**< \brief (USB_DEVICE_EPSTATUS) Data Toggle Out */
+#define USB_DEVICE_EPSTATUS_DTGLOUT (_U_(0x1) << USB_DEVICE_EPSTATUS_DTGLOUT_Pos)
+#define USB_DEVICE_EPSTATUS_DTGLIN_Pos 1            /**< \brief (USB_DEVICE_EPSTATUS) Data Toggle In */
+#define USB_DEVICE_EPSTATUS_DTGLIN  (_U_(0x1) << USB_DEVICE_EPSTATUS_DTGLIN_Pos)
+#define USB_DEVICE_EPSTATUS_CURBK_Pos 2            /**< \brief (USB_DEVICE_EPSTATUS) Current Bank */
+#define USB_DEVICE_EPSTATUS_CURBK   (_U_(0x1) << USB_DEVICE_EPSTATUS_CURBK_Pos)
+#define USB_DEVICE_EPSTATUS_STALLRQ0_Pos 4            /**< \brief (USB_DEVICE_EPSTATUS) Stall 0 Request */
+#define USB_DEVICE_EPSTATUS_STALLRQ0 (_U_(1) << USB_DEVICE_EPSTATUS_STALLRQ0_Pos)
+#define USB_DEVICE_EPSTATUS_STALLRQ1_Pos 5            /**< \brief (USB_DEVICE_EPSTATUS) Stall 1 Request */
+#define USB_DEVICE_EPSTATUS_STALLRQ1 (_U_(1) << USB_DEVICE_EPSTATUS_STALLRQ1_Pos)
+#define USB_DEVICE_EPSTATUS_STALLRQ_Pos 4            /**< \brief (USB_DEVICE_EPSTATUS) Stall x Request */
+#define USB_DEVICE_EPSTATUS_STALLRQ_Msk (_U_(0x3) << USB_DEVICE_EPSTATUS_STALLRQ_Pos)
+#define USB_DEVICE_EPSTATUS_STALLRQ(value) (USB_DEVICE_EPSTATUS_STALLRQ_Msk & ((value) << USB_DEVICE_EPSTATUS_STALLRQ_Pos))
+#define USB_DEVICE_EPSTATUS_BK0RDY_Pos 6            /**< \brief (USB_DEVICE_EPSTATUS) Bank 0 ready */
+#define USB_DEVICE_EPSTATUS_BK0RDY  (_U_(0x1) << USB_DEVICE_EPSTATUS_BK0RDY_Pos)
+#define USB_DEVICE_EPSTATUS_BK1RDY_Pos 7            /**< \brief (USB_DEVICE_EPSTATUS) Bank 1 ready */
+#define USB_DEVICE_EPSTATUS_BK1RDY  (_U_(0x1) << USB_DEVICE_EPSTATUS_BK1RDY_Pos)
+#define USB_DEVICE_EPSTATUS_MASK    _U_(0xF7)    /**< \brief (USB_DEVICE_EPSTATUS) MASK Register */
+
+/* -------- USB_DEVICE_EPINTFLAG : (USB Offset: 0x107) (R/W  8) DEVICE DEVICE_ENDPOINT End Point Interrupt Flag -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  TRCPT0:1;         /*!< bit:      0  Transfer Complete 0                */
+    __I uint8_t  TRCPT1:1;         /*!< bit:      1  Transfer Complete 1                */
+    __I uint8_t  TRFAIL0:1;        /*!< bit:      2  Error Flow 0                       */
+    __I uint8_t  TRFAIL1:1;        /*!< bit:      3  Error Flow 1                       */
+    __I uint8_t  RXSTP:1;          /*!< bit:      4  Received Setup                     */
+    __I uint8_t  STALL0:1;         /*!< bit:      5  Stall 0 In/out                     */
+    __I uint8_t  STALL1:1;         /*!< bit:      6  Stall 1 In/out                     */
+    __I uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    __I uint8_t  TRCPT:2;          /*!< bit:  0.. 1  Transfer Complete x                */
+    __I uint8_t  TRFAIL:2;         /*!< bit:  2.. 3  Error Flow x                       */
+    __I uint8_t  :1;               /*!< bit:      4  Reserved                           */
+    __I uint8_t  STALL:2;          /*!< bit:  5.. 6  Stall x In/out                     */
+    __I uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPINTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPINTFLAG_OFFSET 0x107        /**< \brief (USB_DEVICE_EPINTFLAG offset) DEVICE_ENDPOINT End Point Interrupt Flag */
+#define USB_DEVICE_EPINTFLAG_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPINTFLAG reset_value) DEVICE_ENDPOINT End Point Interrupt Flag */
+
+#define USB_DEVICE_EPINTFLAG_TRCPT0_Pos 0            /**< \brief (USB_DEVICE_EPINTFLAG) Transfer Complete 0 */
+#define USB_DEVICE_EPINTFLAG_TRCPT0 (_U_(1) << USB_DEVICE_EPINTFLAG_TRCPT0_Pos)
+#define USB_DEVICE_EPINTFLAG_TRCPT1_Pos 1            /**< \brief (USB_DEVICE_EPINTFLAG) Transfer Complete 1 */
+#define USB_DEVICE_EPINTFLAG_TRCPT1 (_U_(1) << USB_DEVICE_EPINTFLAG_TRCPT1_Pos)
+#define USB_DEVICE_EPINTFLAG_TRCPT_Pos 0            /**< \brief (USB_DEVICE_EPINTFLAG) Transfer Complete x */
+#define USB_DEVICE_EPINTFLAG_TRCPT_Msk (_U_(0x3) << USB_DEVICE_EPINTFLAG_TRCPT_Pos)
+#define USB_DEVICE_EPINTFLAG_TRCPT(value) (USB_DEVICE_EPINTFLAG_TRCPT_Msk & ((value) << USB_DEVICE_EPINTFLAG_TRCPT_Pos))
+#define USB_DEVICE_EPINTFLAG_TRFAIL0_Pos 2            /**< \brief (USB_DEVICE_EPINTFLAG) Error Flow 0 */
+#define USB_DEVICE_EPINTFLAG_TRFAIL0 (_U_(1) << USB_DEVICE_EPINTFLAG_TRFAIL0_Pos)
+#define USB_DEVICE_EPINTFLAG_TRFAIL1_Pos 3            /**< \brief (USB_DEVICE_EPINTFLAG) Error Flow 1 */
+#define USB_DEVICE_EPINTFLAG_TRFAIL1 (_U_(1) << USB_DEVICE_EPINTFLAG_TRFAIL1_Pos)
+#define USB_DEVICE_EPINTFLAG_TRFAIL_Pos 2            /**< \brief (USB_DEVICE_EPINTFLAG) Error Flow x */
+#define USB_DEVICE_EPINTFLAG_TRFAIL_Msk (_U_(0x3) << USB_DEVICE_EPINTFLAG_TRFAIL_Pos)
+#define USB_DEVICE_EPINTFLAG_TRFAIL(value) (USB_DEVICE_EPINTFLAG_TRFAIL_Msk & ((value) << USB_DEVICE_EPINTFLAG_TRFAIL_Pos))
+#define USB_DEVICE_EPINTFLAG_RXSTP_Pos 4            /**< \brief (USB_DEVICE_EPINTFLAG) Received Setup */
+#define USB_DEVICE_EPINTFLAG_RXSTP  (_U_(0x1) << USB_DEVICE_EPINTFLAG_RXSTP_Pos)
+#define USB_DEVICE_EPINTFLAG_STALL0_Pos 5            /**< \brief (USB_DEVICE_EPINTFLAG) Stall 0 In/out */
+#define USB_DEVICE_EPINTFLAG_STALL0 (_U_(1) << USB_DEVICE_EPINTFLAG_STALL0_Pos)
+#define USB_DEVICE_EPINTFLAG_STALL1_Pos 6            /**< \brief (USB_DEVICE_EPINTFLAG) Stall 1 In/out */
+#define USB_DEVICE_EPINTFLAG_STALL1 (_U_(1) << USB_DEVICE_EPINTFLAG_STALL1_Pos)
+#define USB_DEVICE_EPINTFLAG_STALL_Pos 5            /**< \brief (USB_DEVICE_EPINTFLAG) Stall x In/out */
+#define USB_DEVICE_EPINTFLAG_STALL_Msk (_U_(0x3) << USB_DEVICE_EPINTFLAG_STALL_Pos)
+#define USB_DEVICE_EPINTFLAG_STALL(value) (USB_DEVICE_EPINTFLAG_STALL_Msk & ((value) << USB_DEVICE_EPINTFLAG_STALL_Pos))
+#define USB_DEVICE_EPINTFLAG_MASK   _U_(0x7F)    /**< \brief (USB_DEVICE_EPINTFLAG) MASK Register */
+
+/* -------- USB_DEVICE_EPINTENCLR : (USB Offset: 0x108) (R/W  8) DEVICE DEVICE_ENDPOINT End Point Interrupt Clear Flag -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  TRCPT0:1;         /*!< bit:      0  Transfer Complete 0 Interrupt Disable */
+    uint8_t  TRCPT1:1;         /*!< bit:      1  Transfer Complete 1 Interrupt Disable */
+    uint8_t  TRFAIL0:1;        /*!< bit:      2  Error Flow 0 Interrupt Disable     */
+    uint8_t  TRFAIL1:1;        /*!< bit:      3  Error Flow 1 Interrupt Disable     */
+    uint8_t  RXSTP:1;          /*!< bit:      4  Received Setup Interrupt Disable   */
+    uint8_t  STALL0:1;         /*!< bit:      5  Stall 0 In/Out Interrupt Disable   */
+    uint8_t  STALL1:1;         /*!< bit:      6  Stall 1 In/Out Interrupt Disable   */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  TRCPT:2;          /*!< bit:  0.. 1  Transfer Complete x Interrupt Disable */
+    uint8_t  TRFAIL:2;         /*!< bit:  2.. 3  Error Flow x Interrupt Disable     */
+    uint8_t  :1;               /*!< bit:      4  Reserved                           */
+    uint8_t  STALL:2;          /*!< bit:  5.. 6  Stall x In/Out Interrupt Disable   */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPINTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPINTENCLR_OFFSET 0x108        /**< \brief (USB_DEVICE_EPINTENCLR offset) DEVICE_ENDPOINT End Point Interrupt Clear Flag */
+#define USB_DEVICE_EPINTENCLR_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPINTENCLR reset_value) DEVICE_ENDPOINT End Point Interrupt Clear Flag */
+
+#define USB_DEVICE_EPINTENCLR_TRCPT0_Pos 0            /**< \brief (USB_DEVICE_EPINTENCLR) Transfer Complete 0 Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRCPT0 (_U_(1) << USB_DEVICE_EPINTENCLR_TRCPT0_Pos)
+#define USB_DEVICE_EPINTENCLR_TRCPT1_Pos 1            /**< \brief (USB_DEVICE_EPINTENCLR) Transfer Complete 1 Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRCPT1 (_U_(1) << USB_DEVICE_EPINTENCLR_TRCPT1_Pos)
+#define USB_DEVICE_EPINTENCLR_TRCPT_Pos 0            /**< \brief (USB_DEVICE_EPINTENCLR) Transfer Complete x Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRCPT_Msk (_U_(0x3) << USB_DEVICE_EPINTENCLR_TRCPT_Pos)
+#define USB_DEVICE_EPINTENCLR_TRCPT(value) (USB_DEVICE_EPINTENCLR_TRCPT_Msk & ((value) << USB_DEVICE_EPINTENCLR_TRCPT_Pos))
+#define USB_DEVICE_EPINTENCLR_TRFAIL0_Pos 2            /**< \brief (USB_DEVICE_EPINTENCLR) Error Flow 0 Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRFAIL0 (_U_(1) << USB_DEVICE_EPINTENCLR_TRFAIL0_Pos)
+#define USB_DEVICE_EPINTENCLR_TRFAIL1_Pos 3            /**< \brief (USB_DEVICE_EPINTENCLR) Error Flow 1 Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRFAIL1 (_U_(1) << USB_DEVICE_EPINTENCLR_TRFAIL1_Pos)
+#define USB_DEVICE_EPINTENCLR_TRFAIL_Pos 2            /**< \brief (USB_DEVICE_EPINTENCLR) Error Flow x Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_TRFAIL_Msk (_U_(0x3) << USB_DEVICE_EPINTENCLR_TRFAIL_Pos)
+#define USB_DEVICE_EPINTENCLR_TRFAIL(value) (USB_DEVICE_EPINTENCLR_TRFAIL_Msk & ((value) << USB_DEVICE_EPINTENCLR_TRFAIL_Pos))
+#define USB_DEVICE_EPINTENCLR_RXSTP_Pos 4            /**< \brief (USB_DEVICE_EPINTENCLR) Received Setup Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_RXSTP (_U_(0x1) << USB_DEVICE_EPINTENCLR_RXSTP_Pos)
+#define USB_DEVICE_EPINTENCLR_STALL0_Pos 5            /**< \brief (USB_DEVICE_EPINTENCLR) Stall 0 In/Out Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_STALL0 (_U_(1) << USB_DEVICE_EPINTENCLR_STALL0_Pos)
+#define USB_DEVICE_EPINTENCLR_STALL1_Pos 6            /**< \brief (USB_DEVICE_EPINTENCLR) Stall 1 In/Out Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_STALL1 (_U_(1) << USB_DEVICE_EPINTENCLR_STALL1_Pos)
+#define USB_DEVICE_EPINTENCLR_STALL_Pos 5            /**< \brief (USB_DEVICE_EPINTENCLR) Stall x In/Out Interrupt Disable */
+#define USB_DEVICE_EPINTENCLR_STALL_Msk (_U_(0x3) << USB_DEVICE_EPINTENCLR_STALL_Pos)
+#define USB_DEVICE_EPINTENCLR_STALL(value) (USB_DEVICE_EPINTENCLR_STALL_Msk & ((value) << USB_DEVICE_EPINTENCLR_STALL_Pos))
+#define USB_DEVICE_EPINTENCLR_MASK  _U_(0x7F)    /**< \brief (USB_DEVICE_EPINTENCLR) MASK Register */
+
+/* -------- USB_DEVICE_EPINTENSET : (USB Offset: 0x109) (R/W  8) DEVICE DEVICE_ENDPOINT End Point Interrupt Set Flag -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  TRCPT0:1;         /*!< bit:      0  Transfer Complete 0 Interrupt Enable */
+    uint8_t  TRCPT1:1;         /*!< bit:      1  Transfer Complete 1 Interrupt Enable */
+    uint8_t  TRFAIL0:1;        /*!< bit:      2  Error Flow 0 Interrupt Enable      */
+    uint8_t  TRFAIL1:1;        /*!< bit:      3  Error Flow 1 Interrupt Enable      */
+    uint8_t  RXSTP:1;          /*!< bit:      4  Received Setup Interrupt Enable    */
+    uint8_t  STALL0:1;         /*!< bit:      5  Stall 0 In/out Interrupt enable    */
+    uint8_t  STALL1:1;         /*!< bit:      6  Stall 1 In/out Interrupt enable    */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  struct {
+    uint8_t  TRCPT:2;          /*!< bit:  0.. 1  Transfer Complete x Interrupt Enable */
+    uint8_t  TRFAIL:2;         /*!< bit:  2.. 3  Error Flow x Interrupt Enable      */
+    uint8_t  :1;               /*!< bit:      4  Reserved                           */
+    uint8_t  STALL:2;          /*!< bit:  5.. 6  Stall x In/out Interrupt enable    */
+    uint8_t  :1;               /*!< bit:      7  Reserved                           */
+  } vec;                       /*!< Structure used for vec  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_EPINTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EPINTENSET_OFFSET 0x109        /**< \brief (USB_DEVICE_EPINTENSET offset) DEVICE_ENDPOINT End Point Interrupt Set Flag */
+#define USB_DEVICE_EPINTENSET_RESETVALUE _U_(0x00)    /**< \brief (USB_DEVICE_EPINTENSET reset_value) DEVICE_ENDPOINT End Point Interrupt Set Flag */
+
+#define USB_DEVICE_EPINTENSET_TRCPT0_Pos 0            /**< \brief (USB_DEVICE_EPINTENSET) Transfer Complete 0 Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRCPT0 (_U_(1) << USB_DEVICE_EPINTENSET_TRCPT0_Pos)
+#define USB_DEVICE_EPINTENSET_TRCPT1_Pos 1            /**< \brief (USB_DEVICE_EPINTENSET) Transfer Complete 1 Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRCPT1 (_U_(1) << USB_DEVICE_EPINTENSET_TRCPT1_Pos)
+#define USB_DEVICE_EPINTENSET_TRCPT_Pos 0            /**< \brief (USB_DEVICE_EPINTENSET) Transfer Complete x Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRCPT_Msk (_U_(0x3) << USB_DEVICE_EPINTENSET_TRCPT_Pos)
+#define USB_DEVICE_EPINTENSET_TRCPT(value) (USB_DEVICE_EPINTENSET_TRCPT_Msk & ((value) << USB_DEVICE_EPINTENSET_TRCPT_Pos))
+#define USB_DEVICE_EPINTENSET_TRFAIL0_Pos 2            /**< \brief (USB_DEVICE_EPINTENSET) Error Flow 0 Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRFAIL0 (_U_(1) << USB_DEVICE_EPINTENSET_TRFAIL0_Pos)
+#define USB_DEVICE_EPINTENSET_TRFAIL1_Pos 3            /**< \brief (USB_DEVICE_EPINTENSET) Error Flow 1 Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRFAIL1 (_U_(1) << USB_DEVICE_EPINTENSET_TRFAIL1_Pos)
+#define USB_DEVICE_EPINTENSET_TRFAIL_Pos 2            /**< \brief (USB_DEVICE_EPINTENSET) Error Flow x Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_TRFAIL_Msk (_U_(0x3) << USB_DEVICE_EPINTENSET_TRFAIL_Pos)
+#define USB_DEVICE_EPINTENSET_TRFAIL(value) (USB_DEVICE_EPINTENSET_TRFAIL_Msk & ((value) << USB_DEVICE_EPINTENSET_TRFAIL_Pos))
+#define USB_DEVICE_EPINTENSET_RXSTP_Pos 4            /**< \brief (USB_DEVICE_EPINTENSET) Received Setup Interrupt Enable */
+#define USB_DEVICE_EPINTENSET_RXSTP (_U_(0x1) << USB_DEVICE_EPINTENSET_RXSTP_Pos)
+#define USB_DEVICE_EPINTENSET_STALL0_Pos 5            /**< \brief (USB_DEVICE_EPINTENSET) Stall 0 In/out Interrupt enable */
+#define USB_DEVICE_EPINTENSET_STALL0 (_U_(1) << USB_DEVICE_EPINTENSET_STALL0_Pos)
+#define USB_DEVICE_EPINTENSET_STALL1_Pos 6            /**< \brief (USB_DEVICE_EPINTENSET) Stall 1 In/out Interrupt enable */
+#define USB_DEVICE_EPINTENSET_STALL1 (_U_(1) << USB_DEVICE_EPINTENSET_STALL1_Pos)
+#define USB_DEVICE_EPINTENSET_STALL_Pos 5            /**< \brief (USB_DEVICE_EPINTENSET) Stall x In/out Interrupt enable */
+#define USB_DEVICE_EPINTENSET_STALL_Msk (_U_(0x3) << USB_DEVICE_EPINTENSET_STALL_Pos)
+#define USB_DEVICE_EPINTENSET_STALL(value) (USB_DEVICE_EPINTENSET_STALL_Msk & ((value) << USB_DEVICE_EPINTENSET_STALL_Pos))
+#define USB_DEVICE_EPINTENSET_MASK  _U_(0x7F)    /**< \brief (USB_DEVICE_EPINTENSET) MASK Register */
+
+/* -------- USB_DEVICE_ADDR : (USB Offset: 0x000) (R/W 32) DEVICE DEVICE_DESC_BANK Endpoint Bank, Adress of Data Buffer -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t ADDR:32;          /*!< bit:  0..31  Adress of data buffer              */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_ADDR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_ADDR_OFFSET      0x000        /**< \brief (USB_DEVICE_ADDR offset) DEVICE_DESC_BANK Endpoint Bank, Adress of Data Buffer */
+
+#define USB_DEVICE_ADDR_ADDR_Pos    0            /**< \brief (USB_DEVICE_ADDR) Adress of data buffer */
+#define USB_DEVICE_ADDR_ADDR_Msk    (_U_(0xFFFFFFFF) << USB_DEVICE_ADDR_ADDR_Pos)
+#define USB_DEVICE_ADDR_ADDR(value) (USB_DEVICE_ADDR_ADDR_Msk & ((value) << USB_DEVICE_ADDR_ADDR_Pos))
+#define USB_DEVICE_ADDR_MASK        _U_(0xFFFFFFFF) /**< \brief (USB_DEVICE_ADDR) MASK Register */
+
+/* -------- USB_DEVICE_PCKSIZE : (USB Offset: 0x004) (R/W 32) DEVICE DEVICE_DESC_BANK Endpoint Bank, Packet Size -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t BYTE_COUNT:14;    /*!< bit:  0..13  Byte Count                         */
+    uint32_t MULTI_PACKET_SIZE:14; /*!< bit: 14..27  Multi Packet In or Out size        */
+    uint32_t SIZE:3;           /*!< bit: 28..30  Enpoint size                       */
+    uint32_t AUTO_ZLP:1;       /*!< bit:     31  Automatic Zero Length Packet       */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_PCKSIZE_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_PCKSIZE_OFFSET   0x004        /**< \brief (USB_DEVICE_PCKSIZE offset) DEVICE_DESC_BANK Endpoint Bank, Packet Size */
+
+#define USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos 0            /**< \brief (USB_DEVICE_PCKSIZE) Byte Count */
+#define USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk (_U_(0x3FFF) << USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
+#define USB_DEVICE_PCKSIZE_BYTE_COUNT(value) (USB_DEVICE_PCKSIZE_BYTE_COUNT_Msk & ((value) << USB_DEVICE_PCKSIZE_BYTE_COUNT_Pos))
+#define USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos 14           /**< \brief (USB_DEVICE_PCKSIZE) Multi Packet In or Out size */
+#define USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk (_U_(0x3FFF) << USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos)
+#define USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE(value) (USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Msk & ((value) << USB_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos))
+#define USB_DEVICE_PCKSIZE_SIZE_Pos 28           /**< \brief (USB_DEVICE_PCKSIZE) Enpoint size */
+#define USB_DEVICE_PCKSIZE_SIZE_Msk (_U_(0x7) << USB_DEVICE_PCKSIZE_SIZE_Pos)
+#define USB_DEVICE_PCKSIZE_SIZE(value) (USB_DEVICE_PCKSIZE_SIZE_Msk & ((value) << USB_DEVICE_PCKSIZE_SIZE_Pos))
+#define USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos 31           /**< \brief (USB_DEVICE_PCKSIZE) Automatic Zero Length Packet */
+#define USB_DEVICE_PCKSIZE_AUTO_ZLP (_U_(0x1) << USB_DEVICE_PCKSIZE_AUTO_ZLP_Pos)
+#define USB_DEVICE_PCKSIZE_MASK     _U_(0xFFFFFFFF) /**< \brief (USB_DEVICE_PCKSIZE) MASK Register */
+
+/* -------- USB_DEVICE_EXTREG : (USB Offset: 0x008) (R/W 16) DEVICE DEVICE_DESC_BANK Endpoint Bank, Extended -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint16_t SUBPID:4;         /*!< bit:  0.. 3  SUBPID field send with extended token */
+    uint16_t VARIABLE:11;      /*!< bit:  4..14  Variable field send with extended token */
+    uint16_t :1;               /*!< bit:     15  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint16_t reg;                /*!< Type      used for register access              */
+} USB_DEVICE_EXTREG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_EXTREG_OFFSET    0x008        /**< \brief (USB_DEVICE_EXTREG offset) DEVICE_DESC_BANK Endpoint Bank, Extended */
+
+#define USB_DEVICE_EXTREG_SUBPID_Pos 0            /**< \brief (USB_DEVICE_EXTREG) SUBPID field send with extended token */
+#define USB_DEVICE_EXTREG_SUBPID_Msk (_U_(0xF) << USB_DEVICE_EXTREG_SUBPID_Pos)
+#define USB_DEVICE_EXTREG_SUBPID(value) (USB_DEVICE_EXTREG_SUBPID_Msk & ((value) << USB_DEVICE_EXTREG_SUBPID_Pos))
+#define USB_DEVICE_EXTREG_VARIABLE_Pos 4            /**< \brief (USB_DEVICE_EXTREG) Variable field send with extended token */
+#define USB_DEVICE_EXTREG_VARIABLE_Msk (_U_(0x7FF) << USB_DEVICE_EXTREG_VARIABLE_Pos)
+#define USB_DEVICE_EXTREG_VARIABLE(value) (USB_DEVICE_EXTREG_VARIABLE_Msk & ((value) << USB_DEVICE_EXTREG_VARIABLE_Pos))
+#define USB_DEVICE_EXTREG_MASK      _U_(0x7FFF)  /**< \brief (USB_DEVICE_EXTREG) MASK Register */
+
+/* -------- USB_DEVICE_STATUS_BK : (USB Offset: 0x00A) (R/W  8) DEVICE DEVICE_DESC_BANK Enpoint Bank, Status of Bank -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CRCERR:1;         /*!< bit:      0  CRC Error Status                   */
+    uint8_t  ERRORFLOW:1;      /*!< bit:      1  Error Flow Status                  */
+    uint8_t  :6;               /*!< bit:  2.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} USB_DEVICE_STATUS_BK_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define USB_DEVICE_STATUS_BK_OFFSET 0x00A        /**< \brief (USB_DEVICE_STATUS_BK offset) DEVICE_DESC_BANK Enpoint Bank, Status of Bank */
+
+#define USB_DEVICE_STATUS_BK_CRCERR_Pos 0            /**< \brief (USB_DEVICE_STATUS_BK) CRC Error Status */
+#define USB_DEVICE_STATUS_BK_CRCERR (_U_(0x1) << USB_DEVICE_STATUS_BK_CRCERR_Pos)
+#define USB_DEVICE_STATUS_BK_ERRORFLOW_Pos 1            /**< \brief (USB_DEVICE_STATUS_BK) Error Flow Status */
+#define USB_DEVICE_STATUS_BK_ERRORFLOW (_U_(0x1) << USB_DEVICE_STATUS_BK_ERRORFLOW_Pos)
+#define USB_DEVICE_STATUS_BK_MASK   _U_(0x03)    /**< \brief (USB_DEVICE_STATUS_BK) MASK Register */
+
+/** \brief UsbDeviceDescBank SRAM registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO USB_DEVICE_ADDR_Type      ADDR;        /**< \brief Offset: 0x000 (R/W 32) DEVICE_DESC_BANK Endpoint Bank, Adress of Data Buffer */
+  __IO USB_DEVICE_PCKSIZE_Type   PCKSIZE;     /**< \brief Offset: 0x004 (R/W 32) DEVICE_DESC_BANK Endpoint Bank, Packet Size */
+  __IO USB_DEVICE_EXTREG_Type    EXTREG;      /**< \brief Offset: 0x008 (R/W 16) DEVICE_DESC_BANK Endpoint Bank, Extended */
+  __IO USB_DEVICE_STATUS_BK_Type STATUS_BK;   /**< \brief Offset: 0x00A (R/W  8) DEVICE_DESC_BANK Enpoint Bank, Status of Bank */
+       RoReg8                    Reserved1[0x5];
+} UsbDeviceDescBank;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief UsbDeviceEndpoint hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO USB_DEVICE_EPCFG_Type     EPCFG;       /**< \brief Offset: 0x000 (R/W  8) DEVICE_ENDPOINT End Point Configuration */
+       RoReg8                    Reserved1[0x3];
+  __O  USB_DEVICE_EPSTATUSCLR_Type EPSTATUSCLR; /**< \brief Offset: 0x004 ( /W  8) DEVICE_ENDPOINT End Point Pipe Status Clear */
+  __O  USB_DEVICE_EPSTATUSSET_Type EPSTATUSSET; /**< \brief Offset: 0x005 ( /W  8) DEVICE_ENDPOINT End Point Pipe Status Set */
+  __I  USB_DEVICE_EPSTATUS_Type  EPSTATUS;    /**< \brief Offset: 0x006 (R/   8) DEVICE_ENDPOINT End Point Pipe Status */
+  __IO USB_DEVICE_EPINTFLAG_Type EPINTFLAG;   /**< \brief Offset: 0x007 (R/W  8) DEVICE_ENDPOINT End Point Interrupt Flag */
+  __IO USB_DEVICE_EPINTENCLR_Type EPINTENCLR;  /**< \brief Offset: 0x008 (R/W  8) DEVICE_ENDPOINT End Point Interrupt Clear Flag */
+  __IO USB_DEVICE_EPINTENSET_Type EPINTENSET;  /**< \brief Offset: 0x009 (R/W  8) DEVICE_ENDPOINT End Point Interrupt Set Flag */
+       RoReg8                    Reserved2[0x16];
+} UsbDeviceEndpoint;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief USB_DEVICE APB hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* USB is Device */
+  __IO USB_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x000 (R/W  8) Control A */
+       RoReg8                    Reserved1[0x1];
+  __I  USB_SYNCBUSY_Type         SYNCBUSY;    /**< \brief Offset: 0x002 (R/   8) Synchronization Busy */
+  __IO USB_QOSCTRL_Type          QOSCTRL;     /**< \brief Offset: 0x003 (R/W  8) USB Quality Of Service */
+       RoReg8                    Reserved2[0x4];
+  __IO USB_DEVICE_CTRLB_Type     CTRLB;       /**< \brief Offset: 0x008 (R/W 16) DEVICE Control B */
+  __IO USB_DEVICE_DADD_Type      DADD;        /**< \brief Offset: 0x00A (R/W  8) DEVICE Device Address */
+       RoReg8                    Reserved3[0x1];
+  __I  USB_DEVICE_STATUS_Type    STATUS;      /**< \brief Offset: 0x00C (R/   8) DEVICE Status */
+  __I  USB_FSMSTATUS_Type        FSMSTATUS;   /**< \brief Offset: 0x00D (R/   8) Finite State Machine Status */
+       RoReg8                    Reserved4[0x2];
+  __I  USB_DEVICE_FNUM_Type      FNUM;        /**< \brief Offset: 0x010 (R/  16) DEVICE Device Frame Number */
+       RoReg8                    Reserved5[0x2];
+  __IO USB_DEVICE_INTENCLR_Type  INTENCLR;    /**< \brief Offset: 0x014 (R/W 16) DEVICE Device Interrupt Enable Clear */
+       RoReg8                    Reserved6[0x2];
+  __IO USB_DEVICE_INTENSET_Type  INTENSET;    /**< \brief Offset: 0x018 (R/W 16) DEVICE Device Interrupt Enable Set */
+       RoReg8                    Reserved7[0x2];
+  __IO USB_DEVICE_INTFLAG_Type   INTFLAG;     /**< \brief Offset: 0x01C (R/W 16) DEVICE Device Interrupt Flag */
+       RoReg8                    Reserved8[0x2];
+  __I  USB_DEVICE_EPINTSMRY_Type EPINTSMRY;   /**< \brief Offset: 0x020 (R/  16) DEVICE End Point Interrupt Summary */
+       RoReg8                    Reserved9[0x2];
+  __IO USB_DESCADD_Type          DESCADD;     /**< \brief Offset: 0x024 (R/W 32) Descriptor Address */
+  __IO USB_PADCAL_Type           PADCAL;      /**< \brief Offset: 0x028 (R/W 16) USB PAD Calibration */
+       RoReg8                    Reserved10[0xD6];
+       UsbDeviceEndpoint         DeviceEndpoint[8]; /**< \brief Offset: 0x100 UsbDeviceEndpoint groups [EPT_NUM] */
+} UsbDevice;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/** \brief USB_DEVICE Descriptor SRAM registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct { /* USB is Device */
+       UsbDeviceDescBank         DeviceDescBank[2]; /**< \brief Offset: 0x000 UsbDeviceDescBank groups */
+} UsbDeviceDescriptor;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#ifdef __GNUC__
+ #define SECTION_USB_DESCRIPTOR       __attribute__ ((section(".hsram")))
+#elif defined(__ICCARM__)
+ #define SECTION_USB_DESCRIPTOR       @".hsram"
+#endif
+
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+       UsbDevice                 DEVICE;      /**< \brief Offset: 0x000 USB is Device */
+} Usb;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_USB_COMPONENT_ */
diff --git a/watch-library/hardware/include/component/wdt.h b/watch-library/hardware/include/component/wdt.h
new file mode 100644
index 00000000..bc40154e
--- /dev/null
+++ b/watch-library/hardware/include/component/wdt.h
@@ -0,0 +1,300 @@
+/**
+ * \file
+ *
+ * \brief Component description for WDT
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_WDT_COMPONENT_
+#define _SAML22_WDT_COMPONENT_
+
+/* ========================================================================== */
+/**  SOFTWARE API DEFINITION FOR WDT */
+/* ========================================================================== */
+/** \addtogroup SAML22_WDT Watchdog Timer */
+/*@{*/
+
+#define WDT_U2251
+#define REV_WDT                     0x101
+
+/* -------- WDT_CTRLA : (WDT Offset: 0x0) (R/W  8) Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  :1;               /*!< bit:      0  Reserved                           */
+    uint8_t  ENABLE:1;         /*!< bit:      1  Enable                             */
+    uint8_t  WEN:1;            /*!< bit:      2  Watchdog Timer Window Mode Enable  */
+    uint8_t  :4;               /*!< bit:  3.. 6  Reserved                           */
+    uint8_t  ALWAYSON:1;       /*!< bit:      7  Always-On                          */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_CTRLA_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_CTRLA_OFFSET            0x0          /**< \brief (WDT_CTRLA offset) Control */
+#define WDT_CTRLA_RESETVALUE        _U_(0x00)    /**< \brief (WDT_CTRLA reset_value) Control */
+
+#define WDT_CTRLA_ENABLE_Pos        1            /**< \brief (WDT_CTRLA) Enable */
+#define WDT_CTRLA_ENABLE            (_U_(0x1) << WDT_CTRLA_ENABLE_Pos)
+#define WDT_CTRLA_WEN_Pos           2            /**< \brief (WDT_CTRLA) Watchdog Timer Window Mode Enable */
+#define WDT_CTRLA_WEN               (_U_(0x1) << WDT_CTRLA_WEN_Pos)
+#define WDT_CTRLA_ALWAYSON_Pos      7            /**< \brief (WDT_CTRLA) Always-On */
+#define WDT_CTRLA_ALWAYSON          (_U_(0x1) << WDT_CTRLA_ALWAYSON_Pos)
+#define WDT_CTRLA_MASK              _U_(0x86)    /**< \brief (WDT_CTRLA) MASK Register */
+
+/* -------- WDT_CONFIG : (WDT Offset: 0x1) (R/W  8) Configuration -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  PER:4;            /*!< bit:  0.. 3  Time-Out Period                    */
+    uint8_t  WINDOW:4;         /*!< bit:  4.. 7  Window Mode Time-Out Period        */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_CONFIG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_CONFIG_OFFSET           0x1          /**< \brief (WDT_CONFIG offset) Configuration */
+#define WDT_CONFIG_RESETVALUE       _U_(0xBB)    /**< \brief (WDT_CONFIG reset_value) Configuration */
+
+#define WDT_CONFIG_PER_Pos          0            /**< \brief (WDT_CONFIG) Time-Out Period */
+#define WDT_CONFIG_PER_Msk          (_U_(0xF) << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER(value)       (WDT_CONFIG_PER_Msk & ((value) << WDT_CONFIG_PER_Pos))
+#define   WDT_CONFIG_PER_CYC8_Val         _U_(0x0)   /**< \brief (WDT_CONFIG) 8 clock cycles */
+#define   WDT_CONFIG_PER_CYC16_Val        _U_(0x1)   /**< \brief (WDT_CONFIG) 16 clock cycles */
+#define   WDT_CONFIG_PER_CYC32_Val        _U_(0x2)   /**< \brief (WDT_CONFIG) 32 clock cycles */
+#define   WDT_CONFIG_PER_CYC64_Val        _U_(0x3)   /**< \brief (WDT_CONFIG) 64 clock cycles */
+#define   WDT_CONFIG_PER_CYC128_Val       _U_(0x4)   /**< \brief (WDT_CONFIG) 128 clock cycles */
+#define   WDT_CONFIG_PER_CYC256_Val       _U_(0x5)   /**< \brief (WDT_CONFIG) 256 clock cycles */
+#define   WDT_CONFIG_PER_CYC512_Val       _U_(0x6)   /**< \brief (WDT_CONFIG) 512 clock cycles */
+#define   WDT_CONFIG_PER_CYC1024_Val      _U_(0x7)   /**< \brief (WDT_CONFIG) 1024 clock cycles */
+#define   WDT_CONFIG_PER_CYC2048_Val      _U_(0x8)   /**< \brief (WDT_CONFIG) 2048 clock cycles */
+#define   WDT_CONFIG_PER_CYC4096_Val      _U_(0x9)   /**< \brief (WDT_CONFIG) 4096 clock cycles */
+#define   WDT_CONFIG_PER_CYC8192_Val      _U_(0xA)   /**< \brief (WDT_CONFIG) 8192 clock cycles */
+#define   WDT_CONFIG_PER_CYC16384_Val     _U_(0xB)   /**< \brief (WDT_CONFIG) 16384 clock cycles */
+#define WDT_CONFIG_PER_CYC8         (WDT_CONFIG_PER_CYC8_Val       << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC16        (WDT_CONFIG_PER_CYC16_Val      << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC32        (WDT_CONFIG_PER_CYC32_Val      << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC64        (WDT_CONFIG_PER_CYC64_Val      << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC128       (WDT_CONFIG_PER_CYC128_Val     << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC256       (WDT_CONFIG_PER_CYC256_Val     << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC512       (WDT_CONFIG_PER_CYC512_Val     << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC1024      (WDT_CONFIG_PER_CYC1024_Val    << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC2048      (WDT_CONFIG_PER_CYC2048_Val    << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC4096      (WDT_CONFIG_PER_CYC4096_Val    << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC8192      (WDT_CONFIG_PER_CYC8192_Val    << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_PER_CYC16384     (WDT_CONFIG_PER_CYC16384_Val   << WDT_CONFIG_PER_Pos)
+#define WDT_CONFIG_WINDOW_Pos       4            /**< \brief (WDT_CONFIG) Window Mode Time-Out Period */
+#define WDT_CONFIG_WINDOW_Msk       (_U_(0xF) << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW(value)    (WDT_CONFIG_WINDOW_Msk & ((value) << WDT_CONFIG_WINDOW_Pos))
+#define   WDT_CONFIG_WINDOW_CYC8_Val      _U_(0x0)   /**< \brief (WDT_CONFIG) 8 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC16_Val     _U_(0x1)   /**< \brief (WDT_CONFIG) 16 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC32_Val     _U_(0x2)   /**< \brief (WDT_CONFIG) 32 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC64_Val     _U_(0x3)   /**< \brief (WDT_CONFIG) 64 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC128_Val    _U_(0x4)   /**< \brief (WDT_CONFIG) 128 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC256_Val    _U_(0x5)   /**< \brief (WDT_CONFIG) 256 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC512_Val    _U_(0x6)   /**< \brief (WDT_CONFIG) 512 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC1024_Val   _U_(0x7)   /**< \brief (WDT_CONFIG) 1024 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC2048_Val   _U_(0x8)   /**< \brief (WDT_CONFIG) 2048 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC4096_Val   _U_(0x9)   /**< \brief (WDT_CONFIG) 4096 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC8192_Val   _U_(0xA)   /**< \brief (WDT_CONFIG) 8192 clock cycles */
+#define   WDT_CONFIG_WINDOW_CYC16384_Val  _U_(0xB)   /**< \brief (WDT_CONFIG) 16384 clock cycles */
+#define WDT_CONFIG_WINDOW_CYC8      (WDT_CONFIG_WINDOW_CYC8_Val    << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC16     (WDT_CONFIG_WINDOW_CYC16_Val   << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC32     (WDT_CONFIG_WINDOW_CYC32_Val   << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC64     (WDT_CONFIG_WINDOW_CYC64_Val   << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC128    (WDT_CONFIG_WINDOW_CYC128_Val  << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC256    (WDT_CONFIG_WINDOW_CYC256_Val  << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC512    (WDT_CONFIG_WINDOW_CYC512_Val  << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC1024   (WDT_CONFIG_WINDOW_CYC1024_Val << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC2048   (WDT_CONFIG_WINDOW_CYC2048_Val << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC4096   (WDT_CONFIG_WINDOW_CYC4096_Val << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC8192   (WDT_CONFIG_WINDOW_CYC8192_Val << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_WINDOW_CYC16384  (WDT_CONFIG_WINDOW_CYC16384_Val << WDT_CONFIG_WINDOW_Pos)
+#define WDT_CONFIG_MASK             _U_(0xFF)    /**< \brief (WDT_CONFIG) MASK Register */
+
+/* -------- WDT_EWCTRL : (WDT Offset: 0x2) (R/W  8) Early Warning Interrupt Control -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  EWOFFSET:4;       /*!< bit:  0.. 3  Early Warning Interrupt Time Offset */
+    uint8_t  :4;               /*!< bit:  4.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_EWCTRL_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_EWCTRL_OFFSET           0x2          /**< \brief (WDT_EWCTRL offset) Early Warning Interrupt Control */
+#define WDT_EWCTRL_RESETVALUE       _U_(0x0B)    /**< \brief (WDT_EWCTRL reset_value) Early Warning Interrupt Control */
+
+#define WDT_EWCTRL_EWOFFSET_Pos     0            /**< \brief (WDT_EWCTRL) Early Warning Interrupt Time Offset */
+#define WDT_EWCTRL_EWOFFSET_Msk     (_U_(0xF) << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET(value)  (WDT_EWCTRL_EWOFFSET_Msk & ((value) << WDT_EWCTRL_EWOFFSET_Pos))
+#define   WDT_EWCTRL_EWOFFSET_CYC8_Val    _U_(0x0)   /**< \brief (WDT_EWCTRL) 8 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC16_Val   _U_(0x1)   /**< \brief (WDT_EWCTRL) 16 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC32_Val   _U_(0x2)   /**< \brief (WDT_EWCTRL) 32 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC64_Val   _U_(0x3)   /**< \brief (WDT_EWCTRL) 64 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC128_Val  _U_(0x4)   /**< \brief (WDT_EWCTRL) 128 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC256_Val  _U_(0x5)   /**< \brief (WDT_EWCTRL) 256 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC512_Val  _U_(0x6)   /**< \brief (WDT_EWCTRL) 512 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC1024_Val _U_(0x7)   /**< \brief (WDT_EWCTRL) 1024 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC2048_Val _U_(0x8)   /**< \brief (WDT_EWCTRL) 2048 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC4096_Val _U_(0x9)   /**< \brief (WDT_EWCTRL) 4096 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC8192_Val _U_(0xA)   /**< \brief (WDT_EWCTRL) 8192 clock cycles */
+#define   WDT_EWCTRL_EWOFFSET_CYC16384_Val _U_(0xB)   /**< \brief (WDT_EWCTRL) 16384 clock cycles */
+#define WDT_EWCTRL_EWOFFSET_CYC8    (WDT_EWCTRL_EWOFFSET_CYC8_Val  << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC16   (WDT_EWCTRL_EWOFFSET_CYC16_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC32   (WDT_EWCTRL_EWOFFSET_CYC32_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC64   (WDT_EWCTRL_EWOFFSET_CYC64_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC128  (WDT_EWCTRL_EWOFFSET_CYC128_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC256  (WDT_EWCTRL_EWOFFSET_CYC256_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC512  (WDT_EWCTRL_EWOFFSET_CYC512_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC1024 (WDT_EWCTRL_EWOFFSET_CYC1024_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC2048 (WDT_EWCTRL_EWOFFSET_CYC2048_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC4096 (WDT_EWCTRL_EWOFFSET_CYC4096_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC8192 (WDT_EWCTRL_EWOFFSET_CYC8192_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_EWOFFSET_CYC16384 (WDT_EWCTRL_EWOFFSET_CYC16384_Val << WDT_EWCTRL_EWOFFSET_Pos)
+#define WDT_EWCTRL_MASK             _U_(0x0F)    /**< \brief (WDT_EWCTRL) MASK Register */
+
+/* -------- WDT_INTENCLR : (WDT Offset: 0x4) (R/W  8) Interrupt Enable Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  EW:1;             /*!< bit:      0  Early Warning Interrupt Enable     */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_INTENCLR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_INTENCLR_OFFSET         0x4          /**< \brief (WDT_INTENCLR offset) Interrupt Enable Clear */
+#define WDT_INTENCLR_RESETVALUE     _U_(0x00)    /**< \brief (WDT_INTENCLR reset_value) Interrupt Enable Clear */
+
+#define WDT_INTENCLR_EW_Pos         0            /**< \brief (WDT_INTENCLR) Early Warning Interrupt Enable */
+#define WDT_INTENCLR_EW             (_U_(0x1) << WDT_INTENCLR_EW_Pos)
+#define WDT_INTENCLR_MASK           _U_(0x01)    /**< \brief (WDT_INTENCLR) MASK Register */
+
+/* -------- WDT_INTENSET : (WDT Offset: 0x5) (R/W  8) Interrupt Enable Set -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  EW:1;             /*!< bit:      0  Early Warning Interrupt Enable     */
+    uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_INTENSET_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_INTENSET_OFFSET         0x5          /**< \brief (WDT_INTENSET offset) Interrupt Enable Set */
+#define WDT_INTENSET_RESETVALUE     _U_(0x00)    /**< \brief (WDT_INTENSET reset_value) Interrupt Enable Set */
+
+#define WDT_INTENSET_EW_Pos         0            /**< \brief (WDT_INTENSET) Early Warning Interrupt Enable */
+#define WDT_INTENSET_EW             (_U_(0x1) << WDT_INTENSET_EW_Pos)
+#define WDT_INTENSET_MASK           _U_(0x01)    /**< \brief (WDT_INTENSET) MASK Register */
+
+/* -------- WDT_INTFLAG : (WDT Offset: 0x6) (R/W  8) Interrupt Flag Status and Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union { // __I to avoid read-modify-write on write-to-clear register
+  struct {
+    __I uint8_t  EW:1;             /*!< bit:      0  Early Warning                      */
+    __I uint8_t  :7;               /*!< bit:  1.. 7  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_INTFLAG_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_INTFLAG_OFFSET          0x6          /**< \brief (WDT_INTFLAG offset) Interrupt Flag Status and Clear */
+#define WDT_INTFLAG_RESETVALUE      _U_(0x00)    /**< \brief (WDT_INTFLAG reset_value) Interrupt Flag Status and Clear */
+
+#define WDT_INTFLAG_EW_Pos          0            /**< \brief (WDT_INTFLAG) Early Warning */
+#define WDT_INTFLAG_EW              (_U_(0x1) << WDT_INTFLAG_EW_Pos)
+#define WDT_INTFLAG_MASK            _U_(0x01)    /**< \brief (WDT_INTFLAG) MASK Register */
+
+/* -------- WDT_SYNCBUSY : (WDT Offset: 0x8) (R/  32) Synchronization Busy -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint32_t :1;               /*!< bit:      0  Reserved                           */
+    uint32_t ENABLE:1;         /*!< bit:      1  Enable Busy                        */
+    uint32_t WEN:1;            /*!< bit:      2  Window Enable Busy                 */
+    uint32_t ALWAYSON:1;       /*!< bit:      3  Always-On Busy                     */
+    uint32_t CLEAR:1;          /*!< bit:      4  Clear Busy                         */
+    uint32_t :27;              /*!< bit:  5..31  Reserved                           */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint32_t reg;                /*!< Type      used for register access              */
+} WDT_SYNCBUSY_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_SYNCBUSY_OFFSET         0x8          /**< \brief (WDT_SYNCBUSY offset) Synchronization Busy */
+#define WDT_SYNCBUSY_RESETVALUE     _U_(0x00000000) /**< \brief (WDT_SYNCBUSY reset_value) Synchronization Busy */
+
+#define WDT_SYNCBUSY_ENABLE_Pos     1            /**< \brief (WDT_SYNCBUSY) Enable Busy */
+#define WDT_SYNCBUSY_ENABLE         (_U_(0x1) << WDT_SYNCBUSY_ENABLE_Pos)
+#define WDT_SYNCBUSY_WEN_Pos        2            /**< \brief (WDT_SYNCBUSY) Window Enable Busy */
+#define WDT_SYNCBUSY_WEN            (_U_(0x1) << WDT_SYNCBUSY_WEN_Pos)
+#define WDT_SYNCBUSY_ALWAYSON_Pos   3            /**< \brief (WDT_SYNCBUSY) Always-On Busy */
+#define WDT_SYNCBUSY_ALWAYSON       (_U_(0x1) << WDT_SYNCBUSY_ALWAYSON_Pos)
+#define WDT_SYNCBUSY_CLEAR_Pos      4            /**< \brief (WDT_SYNCBUSY) Clear Busy */
+#define WDT_SYNCBUSY_CLEAR          (_U_(0x1) << WDT_SYNCBUSY_CLEAR_Pos)
+#define WDT_SYNCBUSY_MASK           _U_(0x0000001E) /**< \brief (WDT_SYNCBUSY) MASK Register */
+
+/* -------- WDT_CLEAR : (WDT Offset: 0xC) ( /W  8) Clear -------- */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef union {
+  struct {
+    uint8_t  CLEAR:8;          /*!< bit:  0.. 7  Watchdog Clear                     */
+  } bit;                       /*!< Structure used for bit  access                  */
+  uint8_t reg;                 /*!< Type      used for register access              */
+} WDT_CLEAR_Type;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+#define WDT_CLEAR_OFFSET            0xC          /**< \brief (WDT_CLEAR offset) Clear */
+#define WDT_CLEAR_RESETVALUE        _U_(0x00)    /**< \brief (WDT_CLEAR reset_value) Clear */
+
+#define WDT_CLEAR_CLEAR_Pos         0            /**< \brief (WDT_CLEAR) Watchdog Clear */
+#define WDT_CLEAR_CLEAR_Msk         (_U_(0xFF) << WDT_CLEAR_CLEAR_Pos)
+#define WDT_CLEAR_CLEAR(value)      (WDT_CLEAR_CLEAR_Msk & ((value) << WDT_CLEAR_CLEAR_Pos))
+#define   WDT_CLEAR_CLEAR_KEY_Val         _U_(0xA5)   /**< \brief (WDT_CLEAR) Clear Key */
+#define WDT_CLEAR_CLEAR_KEY         (WDT_CLEAR_CLEAR_KEY_Val       << WDT_CLEAR_CLEAR_Pos)
+#define WDT_CLEAR_MASK              _U_(0xFF)    /**< \brief (WDT_CLEAR) MASK Register */
+
+/** \brief WDT hardware registers */
+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+typedef struct {
+  __IO WDT_CTRLA_Type            CTRLA;       /**< \brief Offset: 0x0 (R/W  8) Control */
+  __IO WDT_CONFIG_Type           CONFIG;      /**< \brief Offset: 0x1 (R/W  8) Configuration */
+  __IO WDT_EWCTRL_Type           EWCTRL;      /**< \brief Offset: 0x2 (R/W  8) Early Warning Interrupt Control */
+       RoReg8                    Reserved1[0x1];
+  __IO WDT_INTENCLR_Type         INTENCLR;    /**< \brief Offset: 0x4 (R/W  8) Interrupt Enable Clear */
+  __IO WDT_INTENSET_Type         INTENSET;    /**< \brief Offset: 0x5 (R/W  8) Interrupt Enable Set */
+  __IO WDT_INTFLAG_Type          INTFLAG;     /**< \brief Offset: 0x6 (R/W  8) Interrupt Flag Status and Clear */
+       RoReg8                    Reserved2[0x1];
+  __I  WDT_SYNCBUSY_Type         SYNCBUSY;    /**< \brief Offset: 0x8 (R/  32) Synchronization Busy */
+  __O  WDT_CLEAR_Type            CLEAR;       /**< \brief Offset: 0xC ( /W  8) Clear */
+} Wdt;
+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/*@}*/
+
+#endif /* _SAML22_WDT_COMPONENT_ */
diff --git a/watch-library/hardware/include/core_cm0plus.h b/watch-library/hardware/include/core_cm0plus.h
new file mode 100755
index 00000000..4d7facfa
--- /dev/null
+++ b/watch-library/hardware/include/core_cm0plus.h
@@ -0,0 +1,822 @@
+/**************************************************************************//**

+ * @file     core_cm0plus.h

+ * @brief    CMSIS Cortex-M0+ Core Peripheral Access Layer Header File

+ * @version  V4.00

+ * @date     22. August 2014

+ *

+ * @note

+ *

+ ******************************************************************************/

+/* Copyright (c) 2009 - 2014 ARM LIMITED

+

+   All rights reserved.

+   Redistribution and use in source and binary forms, with or without

+   modification, are permitted provided that the following conditions are met:

+   - Redistributions of source code must retain the above copyright

+     notice, this list of conditions and the following disclaimer.

+   - Redistributions in binary form must reproduce the above copyright

+     notice, this list of conditions and the following disclaimer in the

+     documentation and/or other materials provided with the distribution.

+   - Neither the name of ARM nor the names of its contributors may be used

+     to endorse or promote products derived from this software without

+     specific prior written permission.

+   *

+   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"

+   AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

+   IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

+   ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE

+   LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR

+   CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF

+   SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS

+   INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN

+   CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)

+   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE

+   POSSIBILITY OF SUCH DAMAGE.

+   ---------------------------------------------------------------------------*/

+

+

+#if defined ( __ICCARM__ )

+ #pragma system_include  /* treat file as system include file for MISRA check */

+#endif

+

+#ifndef __CORE_CM0PLUS_H_GENERIC

+#define __CORE_CM0PLUS_H_GENERIC

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+/** \page CMSIS_MISRA_Exceptions  MISRA-C:2004 Compliance Exceptions

+  CMSIS violates the following MISRA-C:2004 rules:

+

+   \li Required Rule 8.5, object/function definition in header file.<br>

+     Function definitions in header files are used to allow 'inlining'.

+

+   \li Required Rule 18.4, declaration of union type or object of union type: '{...}'.<br>

+     Unions are used for effective representation of core registers.

+

+   \li Advisory Rule 19.7, Function-like macro defined.<br>

+     Function-like macros are used to allow more efficient code.

+ */

+

+

+/*******************************************************************************

+ *                 CMSIS definitions

+ ******************************************************************************/

+/** \ingroup Cortex-M0+

+  @{

+ */

+

+/*  CMSIS CM0P definitions */

+#define __CM0PLUS_CMSIS_VERSION_MAIN (0x04)                                /*!< [31:16] CMSIS HAL main version   */

+#define __CM0PLUS_CMSIS_VERSION_SUB  (0x00)                                /*!< [15:0]  CMSIS HAL sub version    */

+#define __CM0PLUS_CMSIS_VERSION      ((__CM0PLUS_CMSIS_VERSION_MAIN << 16) | \

+                                       __CM0PLUS_CMSIS_VERSION_SUB)        /*!< CMSIS HAL version number         */

+

+#define __CORTEX_M                (0x00)                                   /*!< Cortex-M Core                    */

+

+

+#if   defined ( __CC_ARM )

+  #define __ASM            __asm                                      /*!< asm keyword for ARM Compiler          */

+  #define __INLINE         __inline                                   /*!< inline keyword for ARM Compiler       */

+  #define __STATIC_INLINE  static __inline

+

+#elif defined ( __GNUC__ )

+  #define __ASM            __asm                                      /*!< asm keyword for GNU Compiler          */

+  #define __INLINE         inline                                     /*!< inline keyword for GNU Compiler       */

+  #define __STATIC_INLINE  static inline

+

+#elif defined ( __ICCARM__ )

+  #define __ASM            __asm                                      /*!< asm keyword for IAR Compiler          */

+  #define __INLINE         inline                                     /*!< inline keyword for IAR Compiler. Only available in High optimization mode! */

+  #define __STATIC_INLINE  static inline

+

+#elif defined ( __TMS470__ )

+  #define __ASM            __asm                                      /*!< asm keyword for TI CCS Compiler       */

+  #define __STATIC_INLINE  static inline

+

+#elif defined ( __TASKING__ )

+  #define __ASM            __asm                                      /*!< asm keyword for TASKING Compiler      */

+  #define __INLINE         inline                                     /*!< inline keyword for TASKING Compiler   */

+  #define __STATIC_INLINE  static inline

+

+#elif defined ( __CSMC__ )

+  #define __packed

+  #define __ASM            _asm                                      /*!< asm keyword for COSMIC Compiler      */

+  #define __INLINE         inline                                    /*use -pc99 on compile line !< inline keyword for COSMIC Compiler   */

+  #define __STATIC_INLINE  static inline

+

+#endif

+

+/** __FPU_USED indicates whether an FPU is used or not.

+    This core does not support an FPU at all

+*/

+#define __FPU_USED       0

+

+#if defined ( __CC_ARM )

+  #if defined __TARGET_FPU_VFP

+    #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+

+#elif defined ( __GNUC__ )

+  #if defined (__VFP_FP__) && !defined(__SOFTFP__)

+    #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+

+#elif defined ( __ICCARM__ )

+  #if defined __ARMVFP__

+    #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+

+#elif defined ( __TMS470__ )

+  #if defined __TI__VFP_SUPPORT____

+    #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+

+#elif defined ( __TASKING__ )

+  #if defined __FPU_VFP__

+    #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+

+#elif defined ( __CSMC__ )		/* Cosmic */

+  #if ( __CSMC__ & 0x400)		// FPU present for parser

+    #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"

+  #endif

+#endif

+

+#include <stdint.h>                      /* standard types definitions                      */

+#include <core_cmInstr.h>                /* Core Instruction Access                         */

+#include <core_cmFunc.h>                 /* Core Function Access                            */

+

+#ifdef __cplusplus

+}

+#endif

+

+#endif /* __CORE_CM0PLUS_H_GENERIC */

+

+#ifndef __CMSIS_GENERIC

+

+#ifndef __CORE_CM0PLUS_H_DEPENDANT

+#define __CORE_CM0PLUS_H_DEPENDANT

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+/* check device defines and use defaults */

+#if defined __CHECK_DEVICE_DEFINES

+  #ifndef __CM0PLUS_REV

+    #define __CM0PLUS_REV             0x0000

+    #warning "__CM0PLUS_REV not defined in device header file; using default!"

+  #endif

+

+  #ifndef __MPU_PRESENT

+    #define __MPU_PRESENT             0

+    #warning "__MPU_PRESENT not defined in device header file; using default!"

+  #endif

+

+  #ifndef __VTOR_PRESENT

+    #define __VTOR_PRESENT            0

+    #warning "__VTOR_PRESENT not defined in device header file; using default!"

+  #endif

+

+  #ifndef __NVIC_PRIO_BITS

+    #define __NVIC_PRIO_BITS          2

+    #warning "__NVIC_PRIO_BITS not defined in device header file; using default!"

+  #endif

+

+  #ifndef __Vendor_SysTickConfig

+    #define __Vendor_SysTickConfig    0

+    #warning "__Vendor_SysTickConfig not defined in device header file; using default!"

+  #endif

+#endif

+

+/* IO definitions (access restrictions to peripheral registers) */

+/**

+    \defgroup CMSIS_glob_defs CMSIS Global Defines

+

+    <strong>IO Type Qualifiers</strong> are used

+    \li to specify the access to peripheral variables.

+    \li for automatic generation of peripheral register debug information.

+*/

+#ifdef __cplusplus

+  #define   __I     volatile             /*!< Defines 'read only' permissions                 */

+#else

+  #define   __I     volatile const       /*!< Defines 'read only' permissions                 */

+#endif

+#define     __O     volatile             /*!< Defines 'write only' permissions                */

+#define     __IO    volatile             /*!< Defines 'read / write' permissions              */

+

+/*@} end of group Cortex-M0+ */

+

+

+

+/*******************************************************************************

+ *                 Register Abstraction

+  Core Register contain:

+  - Core Register

+  - Core NVIC Register

+  - Core SCB Register

+  - Core SysTick Register

+  - Core MPU Register

+ ******************************************************************************/

+/** \defgroup CMSIS_core_register Defines and Type Definitions

+    \brief Type definitions and defines for Cortex-M processor based devices.

+*/

+

+/** \ingroup    CMSIS_core_register

+    \defgroup   CMSIS_CORE  Status and Control Registers

+    \brief  Core Register type definitions.

+  @{

+ */

+

+/** \brief  Union type to access the Application Program Status Register (APSR).

+ */

+typedef union

+{

+  struct

+  {

+#if (__CORTEX_M != 0x04)

+    uint32_t _reserved0:27;              /*!< bit:  0..26  Reserved                           */

+#else

+    uint32_t _reserved0:16;              /*!< bit:  0..15  Reserved                           */

+    uint32_t GE:4;                       /*!< bit: 16..19  Greater than or Equal flags        */

+    uint32_t _reserved1:7;               /*!< bit: 20..26  Reserved                           */

+#endif

+    uint32_t Q:1;                        /*!< bit:     27  Saturation condition flag          */

+    uint32_t V:1;                        /*!< bit:     28  Overflow condition code flag       */

+    uint32_t C:1;                        /*!< bit:     29  Carry condition code flag          */

+    uint32_t Z:1;                        /*!< bit:     30  Zero condition code flag           */

+    uint32_t N:1;                        /*!< bit:     31  Negative condition code flag       */

+  } b;                                   /*!< Structure used for bit  access                  */

+  uint32_t w;                            /*!< Type      used for word access                  */

+} APSR_Type;

+

+

+/** \brief  Union type to access the Interrupt Program Status Register (IPSR).

+ */

+typedef union

+{

+  struct

+  {

+    uint32_t ISR:9;                      /*!< bit:  0.. 8  Exception number                   */

+    uint32_t _reserved0:23;              /*!< bit:  9..31  Reserved                           */

+  } b;                                   /*!< Structure used for bit  access                  */

+  uint32_t w;                            /*!< Type      used for word access                  */

+} IPSR_Type;

+

+

+/** \brief  Union type to access the Special-Purpose Program Status Registers (xPSR).

+ */

+typedef union

+{

+  struct

+  {

+    uint32_t ISR:9;                      /*!< bit:  0.. 8  Exception number                   */

+#if (__CORTEX_M != 0x04)

+    uint32_t _reserved0:15;              /*!< bit:  9..23  Reserved                           */

+#else

+    uint32_t _reserved0:7;               /*!< bit:  9..15  Reserved                           */

+    uint32_t GE:4;                       /*!< bit: 16..19  Greater than or Equal flags        */

+    uint32_t _reserved1:4;               /*!< bit: 20..23  Reserved                           */

+#endif

+    uint32_t T:1;                        /*!< bit:     24  Thumb bit        (read 0)          */

+    uint32_t IT:2;                       /*!< bit: 25..26  saved IT state   (read 0)          */

+    uint32_t Q:1;                        /*!< bit:     27  Saturation condition flag          */

+    uint32_t V:1;                        /*!< bit:     28  Overflow condition code flag       */

+    uint32_t C:1;                        /*!< bit:     29  Carry condition code flag          */

+    uint32_t Z:1;                        /*!< bit:     30  Zero condition code flag           */

+    uint32_t N:1;                        /*!< bit:     31  Negative condition code flag       */

+  } b;                                   /*!< Structure used for bit  access                  */

+  uint32_t w;                            /*!< Type      used for word access                  */

+} xPSR_Type;

+

+

+/** \brief  Union type to access the Control Registers (CONTROL).

+ */

+typedef union

+{

+  struct

+  {

+    uint32_t nPRIV:1;                    /*!< bit:      0  Execution privilege in Thread mode */

+    uint32_t SPSEL:1;                    /*!< bit:      1  Stack to be used                   */

+    uint32_t FPCA:1;                     /*!< bit:      2  FP extension active flag           */

+    uint32_t _reserved0:29;              /*!< bit:  3..31  Reserved                           */

+  } b;                                   /*!< Structure used for bit  access                  */

+  uint32_t w;                            /*!< Type      used for word access                  */

+} CONTROL_Type;

+

+/*@} end of group CMSIS_CORE */

+

+

+/** \ingroup    CMSIS_core_register

+    \defgroup   CMSIS_NVIC  Nested Vectored Interrupt Controller (NVIC)

+    \brief      Type definitions for the NVIC Registers

+  @{

+ */

+

+/** \brief  Structure type to access the Nested Vectored Interrupt Controller (NVIC).

+ */

+typedef struct

+{

+  __IO uint32_t ISER[1];                 /*!< Offset: 0x000 (R/W)  Interrupt Set Enable Register           */

+       uint32_t RESERVED0[31];

+  __IO uint32_t ICER[1];                 /*!< Offset: 0x080 (R/W)  Interrupt Clear Enable Register          */

+       uint32_t RSERVED1[31];

+  __IO uint32_t ISPR[1];                 /*!< Offset: 0x100 (R/W)  Interrupt Set Pending Register           */

+       uint32_t RESERVED2[31];

+  __IO uint32_t ICPR[1];                 /*!< Offset: 0x180 (R/W)  Interrupt Clear Pending Register         */

+       uint32_t RESERVED3[31];

+       uint32_t RESERVED4[64];

+  __IO uint32_t IP[8];                   /*!< Offset: 0x300 (R/W)  Interrupt Priority Register              */

+}  NVIC_Type;

+

+/*@} end of group CMSIS_NVIC */

+

+

+/** \ingroup  CMSIS_core_register

+    \defgroup CMSIS_SCB     System Control Block (SCB)

+    \brief      Type definitions for the System Control Block Registers

+  @{

+ */

+

+/** \brief  Structure type to access the System Control Block (SCB).

+ */

+typedef struct

+{

+  __I  uint32_t CPUID;                   /*!< Offset: 0x000 (R/ )  CPUID Base Register                                   */

+  __IO uint32_t ICSR;                    /*!< Offset: 0x004 (R/W)  Interrupt Control and State Register                  */

+#if (__VTOR_PRESENT == 1)

+  __IO uint32_t VTOR;                    /*!< Offset: 0x008 (R/W)  Vector Table Offset Register                          */

+#else

+       uint32_t RESERVED0;

+#endif

+  __IO uint32_t AIRCR;                   /*!< Offset: 0x00C (R/W)  Application Interrupt and Reset Control Register      */

+  __IO uint32_t SCR;                     /*!< Offset: 0x010 (R/W)  System Control Register                               */

+  __IO uint32_t CCR;                     /*!< Offset: 0x014 (R/W)  Configuration Control Register                        */

+       uint32_t RESERVED1;

+  __IO uint32_t SHP[2];                  /*!< Offset: 0x01C (R/W)  System Handlers Priority Registers. [0] is RESERVED   */

+  __IO uint32_t SHCSR;                   /*!< Offset: 0x024 (R/W)  System Handler Control and State Register             */

+} SCB_Type;

+

+/* SCB CPUID Register Definitions */

+#define SCB_CPUID_IMPLEMENTER_Pos          24                                             /*!< SCB CPUID: IMPLEMENTER Position */

+#define SCB_CPUID_IMPLEMENTER_Msk          (0xFFUL << SCB_CPUID_IMPLEMENTER_Pos)          /*!< SCB CPUID: IMPLEMENTER Mask */

+

+#define SCB_CPUID_VARIANT_Pos              20                                             /*!< SCB CPUID: VARIANT Position */

+#define SCB_CPUID_VARIANT_Msk              (0xFUL << SCB_CPUID_VARIANT_Pos)               /*!< SCB CPUID: VARIANT Mask */

+

+#define SCB_CPUID_ARCHITECTURE_Pos         16                                             /*!< SCB CPUID: ARCHITECTURE Position */

+#define SCB_CPUID_ARCHITECTURE_Msk         (0xFUL << SCB_CPUID_ARCHITECTURE_Pos)          /*!< SCB CPUID: ARCHITECTURE Mask */

+

+#define SCB_CPUID_PARTNO_Pos                4                                             /*!< SCB CPUID: PARTNO Position */

+#define SCB_CPUID_PARTNO_Msk               (0xFFFUL << SCB_CPUID_PARTNO_Pos)              /*!< SCB CPUID: PARTNO Mask */

+

+#define SCB_CPUID_REVISION_Pos              0                                             /*!< SCB CPUID: REVISION Position */

+#define SCB_CPUID_REVISION_Msk             (0xFUL << SCB_CPUID_REVISION_Pos)              /*!< SCB CPUID: REVISION Mask */

+

+/* SCB Interrupt Control State Register Definitions */

+#define SCB_ICSR_NMIPENDSET_Pos            31                                             /*!< SCB ICSR: NMIPENDSET Position */

+#define SCB_ICSR_NMIPENDSET_Msk            (1UL << SCB_ICSR_NMIPENDSET_Pos)               /*!< SCB ICSR: NMIPENDSET Mask */

+

+#define SCB_ICSR_PENDSVSET_Pos             28                                             /*!< SCB ICSR: PENDSVSET Position */

+#define SCB_ICSR_PENDSVSET_Msk             (1UL << SCB_ICSR_PENDSVSET_Pos)                /*!< SCB ICSR: PENDSVSET Mask */

+

+#define SCB_ICSR_PENDSVCLR_Pos             27                                             /*!< SCB ICSR: PENDSVCLR Position */

+#define SCB_ICSR_PENDSVCLR_Msk             (1UL << SCB_ICSR_PENDSVCLR_Pos)                /*!< SCB ICSR: PENDSVCLR Mask */

+

+#define SCB_ICSR_PENDSTSET_Pos             26                                             /*!< SCB ICSR: PENDSTSET Position */

+#define SCB_ICSR_PENDSTSET_Msk             (1UL << SCB_ICSR_PENDSTSET_Pos)                /*!< SCB ICSR: PENDSTSET Mask */

+

+#define SCB_ICSR_PENDSTCLR_Pos             25                                             /*!< SCB ICSR: PENDSTCLR Position */

+#define SCB_ICSR_PENDSTCLR_Msk             (1UL << SCB_ICSR_PENDSTCLR_Pos)                /*!< SCB ICSR: PENDSTCLR Mask */

+

+#define SCB_ICSR_ISRPREEMPT_Pos            23                                             /*!< SCB ICSR: ISRPREEMPT Position */

+#define SCB_ICSR_ISRPREEMPT_Msk            (1UL << SCB_ICSR_ISRPREEMPT_Pos)               /*!< SCB ICSR: ISRPREEMPT Mask */

+

+#define SCB_ICSR_ISRPENDING_Pos            22                                             /*!< SCB ICSR: ISRPENDING Position */

+#define SCB_ICSR_ISRPENDING_Msk            (1UL << SCB_ICSR_ISRPENDING_Pos)               /*!< SCB ICSR: ISRPENDING Mask */

+

+#define SCB_ICSR_VECTPENDING_Pos           12                                             /*!< SCB ICSR: VECTPENDING Position */

+#define SCB_ICSR_VECTPENDING_Msk           (0x1FFUL << SCB_ICSR_VECTPENDING_Pos)          /*!< SCB ICSR: VECTPENDING Mask */

+

+#define SCB_ICSR_VECTACTIVE_Pos             0                                             /*!< SCB ICSR: VECTACTIVE Position */

+#define SCB_ICSR_VECTACTIVE_Msk            (0x1FFUL << SCB_ICSR_VECTACTIVE_Pos)           /*!< SCB ICSR: VECTACTIVE Mask */

+

+#if (__VTOR_PRESENT == 1)

+/* SCB Interrupt Control State Register Definitions */

+#define SCB_VTOR_TBLOFF_Pos                 8                                             /*!< SCB VTOR: TBLOFF Position */

+#define SCB_VTOR_TBLOFF_Msk                (0xFFFFFFUL << SCB_VTOR_TBLOFF_Pos)            /*!< SCB VTOR: TBLOFF Mask */

+#endif

+

+/* SCB Application Interrupt and Reset Control Register Definitions */

+#define SCB_AIRCR_VECTKEY_Pos              16                                             /*!< SCB AIRCR: VECTKEY Position */

+#define SCB_AIRCR_VECTKEY_Msk              (0xFFFFUL << SCB_AIRCR_VECTKEY_Pos)            /*!< SCB AIRCR: VECTKEY Mask */

+

+#define SCB_AIRCR_VECTKEYSTAT_Pos          16                                             /*!< SCB AIRCR: VECTKEYSTAT Position */

+#define SCB_AIRCR_VECTKEYSTAT_Msk          (0xFFFFUL << SCB_AIRCR_VECTKEYSTAT_Pos)        /*!< SCB AIRCR: VECTKEYSTAT Mask */

+

+#define SCB_AIRCR_ENDIANESS_Pos            15                                             /*!< SCB AIRCR: ENDIANESS Position */

+#define SCB_AIRCR_ENDIANESS_Msk            (1UL << SCB_AIRCR_ENDIANESS_Pos)               /*!< SCB AIRCR: ENDIANESS Mask */

+

+#define SCB_AIRCR_SYSRESETREQ_Pos           2                                             /*!< SCB AIRCR: SYSRESETREQ Position */

+#define SCB_AIRCR_SYSRESETREQ_Msk          (1UL << SCB_AIRCR_SYSRESETREQ_Pos)             /*!< SCB AIRCR: SYSRESETREQ Mask */

+

+#define SCB_AIRCR_VECTCLRACTIVE_Pos         1                                             /*!< SCB AIRCR: VECTCLRACTIVE Position */

+#define SCB_AIRCR_VECTCLRACTIVE_Msk        (1UL << SCB_AIRCR_VECTCLRACTIVE_Pos)           /*!< SCB AIRCR: VECTCLRACTIVE Mask */

+

+/* SCB System Control Register Definitions */

+#define SCB_SCR_SEVONPEND_Pos               4                                             /*!< SCB SCR: SEVONPEND Position */

+#define SCB_SCR_SEVONPEND_Msk              (1UL << SCB_SCR_SEVONPEND_Pos)                 /*!< SCB SCR: SEVONPEND Mask */

+

+#define SCB_SCR_SLEEPDEEP_Pos               2                                             /*!< SCB SCR: SLEEPDEEP Position */

+#define SCB_SCR_SLEEPDEEP_Msk              (1UL << SCB_SCR_SLEEPDEEP_Pos)                 /*!< SCB SCR: SLEEPDEEP Mask */

+

+#define SCB_SCR_SLEEPONEXIT_Pos             1                                             /*!< SCB SCR: SLEEPONEXIT Position */

+#define SCB_SCR_SLEEPONEXIT_Msk            (1UL << SCB_SCR_SLEEPONEXIT_Pos)               /*!< SCB SCR: SLEEPONEXIT Mask */

+

+/* SCB Configuration Control Register Definitions */

+#define SCB_CCR_STKALIGN_Pos                9                                             /*!< SCB CCR: STKALIGN Position */

+#define SCB_CCR_STKALIGN_Msk               (1UL << SCB_CCR_STKALIGN_Pos)                  /*!< SCB CCR: STKALIGN Mask */

+

+#define SCB_CCR_UNALIGN_TRP_Pos             3                                             /*!< SCB CCR: UNALIGN_TRP Position */

+#define SCB_CCR_UNALIGN_TRP_Msk            (1UL << SCB_CCR_UNALIGN_TRP_Pos)               /*!< SCB CCR: UNALIGN_TRP Mask */

+

+/* SCB System Handler Control and State Register Definitions */

+#define SCB_SHCSR_SVCALLPENDED_Pos         15                                             /*!< SCB SHCSR: SVCALLPENDED Position */

+#define SCB_SHCSR_SVCALLPENDED_Msk         (1UL << SCB_SHCSR_SVCALLPENDED_Pos)            /*!< SCB SHCSR: SVCALLPENDED Mask */

+

+/*@} end of group CMSIS_SCB */

+

+

+/** \ingroup  CMSIS_core_register

+    \defgroup CMSIS_SysTick     System Tick Timer (SysTick)

+    \brief      Type definitions for the System Timer Registers.

+  @{

+ */

+

+/** \brief  Structure type to access the System Timer (SysTick).

+ */

+typedef struct

+{

+  __IO uint32_t CTRL;                    /*!< Offset: 0x000 (R/W)  SysTick Control and Status Register */

+  __IO uint32_t LOAD;                    /*!< Offset: 0x004 (R/W)  SysTick Reload Value Register       */

+  __IO uint32_t VAL;                     /*!< Offset: 0x008 (R/W)  SysTick Current Value Register      */

+  __I  uint32_t CALIB;                   /*!< Offset: 0x00C (R/ )  SysTick Calibration Register        */

+} SysTick_Type;

+

+/* SysTick Control / Status Register Definitions */

+#define SysTick_CTRL_COUNTFLAG_Pos         16                                             /*!< SysTick CTRL: COUNTFLAG Position */

+#define SysTick_CTRL_COUNTFLAG_Msk         (1UL << SysTick_CTRL_COUNTFLAG_Pos)            /*!< SysTick CTRL: COUNTFLAG Mask */

+

+#define SysTick_CTRL_CLKSOURCE_Pos          2                                             /*!< SysTick CTRL: CLKSOURCE Position */

+#define SysTick_CTRL_CLKSOURCE_Msk         (1UL << SysTick_CTRL_CLKSOURCE_Pos)            /*!< SysTick CTRL: CLKSOURCE Mask */

+

+#define SysTick_CTRL_TICKINT_Pos            1                                             /*!< SysTick CTRL: TICKINT Position */

+#define SysTick_CTRL_TICKINT_Msk           (1UL << SysTick_CTRL_TICKINT_Pos)              /*!< SysTick CTRL: TICKINT Mask */

+

+#define SysTick_CTRL_ENABLE_Pos             0                                             /*!< SysTick CTRL: ENABLE Position */

+#define SysTick_CTRL_ENABLE_Msk            (1UL << SysTick_CTRL_ENABLE_Pos)               /*!< SysTick CTRL: ENABLE Mask */

+

+/* SysTick Reload Register Definitions */

+#define SysTick_LOAD_RELOAD_Pos             0                                             /*!< SysTick LOAD: RELOAD Position */

+#define SysTick_LOAD_RELOAD_Msk            (0xFFFFFFUL << SysTick_LOAD_RELOAD_Pos)        /*!< SysTick LOAD: RELOAD Mask */

+

+/* SysTick Current Register Definitions */

+#define SysTick_VAL_CURRENT_Pos             0                                             /*!< SysTick VAL: CURRENT Position */

+#define SysTick_VAL_CURRENT_Msk            (0xFFFFFFUL << SysTick_VAL_CURRENT_Pos)        /*!< SysTick VAL: CURRENT Mask */

+

+/* SysTick Calibration Register Definitions */

+#define SysTick_CALIB_NOREF_Pos            31                                             /*!< SysTick CALIB: NOREF Position */

+#define SysTick_CALIB_NOREF_Msk            (1UL << SysTick_CALIB_NOREF_Pos)               /*!< SysTick CALIB: NOREF Mask */

+

+#define SysTick_CALIB_SKEW_Pos             30                                             /*!< SysTick CALIB: SKEW Position */

+#define SysTick_CALIB_SKEW_Msk             (1UL << SysTick_CALIB_SKEW_Pos)                /*!< SysTick CALIB: SKEW Mask */

+

+#define SysTick_CALIB_TENMS_Pos             0                                             /*!< SysTick CALIB: TENMS Position */

+#define SysTick_CALIB_TENMS_Msk            (0xFFFFFFUL << SysTick_CALIB_TENMS_Pos)        /*!< SysTick CALIB: TENMS Mask */

+

+/*@} end of group CMSIS_SysTick */

+

+#if (__MPU_PRESENT == 1)

+/** \ingroup  CMSIS_core_register

+    \defgroup CMSIS_MPU     Memory Protection Unit (MPU)

+    \brief      Type definitions for the Memory Protection Unit (MPU)

+  @{

+ */

+

+/** \brief  Structure type to access the Memory Protection Unit (MPU).

+ */

+typedef struct

+{

+  __I  uint32_t TYPE;                    /*!< Offset: 0x000 (R/ )  MPU Type Register                              */

+  __IO uint32_t CTRL;                    /*!< Offset: 0x004 (R/W)  MPU Control Register                           */

+  __IO uint32_t RNR;                     /*!< Offset: 0x008 (R/W)  MPU Region RNRber Register                     */

+  __IO uint32_t RBAR;                    /*!< Offset: 0x00C (R/W)  MPU Region Base Address Register               */

+  __IO uint32_t RASR;                    /*!< Offset: 0x010 (R/W)  MPU Region Attribute and Size Register         */

+} MPU_Type;

+

+/* MPU Type Register */

+#define MPU_TYPE_IREGION_Pos               16                                             /*!< MPU TYPE: IREGION Position */

+#define MPU_TYPE_IREGION_Msk               (0xFFUL << MPU_TYPE_IREGION_Pos)               /*!< MPU TYPE: IREGION Mask */

+

+#define MPU_TYPE_DREGION_Pos                8                                             /*!< MPU TYPE: DREGION Position */

+#define MPU_TYPE_DREGION_Msk               (0xFFUL << MPU_TYPE_DREGION_Pos)               /*!< MPU TYPE: DREGION Mask */

+

+#define MPU_TYPE_SEPARATE_Pos               0                                             /*!< MPU TYPE: SEPARATE Position */

+#define MPU_TYPE_SEPARATE_Msk              (1UL << MPU_TYPE_SEPARATE_Pos)                 /*!< MPU TYPE: SEPARATE Mask */

+

+/* MPU Control Register */

+#define MPU_CTRL_PRIVDEFENA_Pos             2                                             /*!< MPU CTRL: PRIVDEFENA Position */

+#define MPU_CTRL_PRIVDEFENA_Msk            (1UL << MPU_CTRL_PRIVDEFENA_Pos)               /*!< MPU CTRL: PRIVDEFENA Mask */

+

+#define MPU_CTRL_HFNMIENA_Pos               1                                             /*!< MPU CTRL: HFNMIENA Position */

+#define MPU_CTRL_HFNMIENA_Msk              (1UL << MPU_CTRL_HFNMIENA_Pos)                 /*!< MPU CTRL: HFNMIENA Mask */

+

+#define MPU_CTRL_ENABLE_Pos                 0                                             /*!< MPU CTRL: ENABLE Position */

+#define MPU_CTRL_ENABLE_Msk                (1UL << MPU_CTRL_ENABLE_Pos)                   /*!< MPU CTRL: ENABLE Mask */

+

+/* MPU Region Number Register */

+#define MPU_RNR_REGION_Pos                  0                                             /*!< MPU RNR: REGION Position */

+#define MPU_RNR_REGION_Msk                 (0xFFUL << MPU_RNR_REGION_Pos)                 /*!< MPU RNR: REGION Mask */

+

+/* MPU Region Base Address Register */

+#define MPU_RBAR_ADDR_Pos                   8                                             /*!< MPU RBAR: ADDR Position */

+#define MPU_RBAR_ADDR_Msk                  (0xFFFFFFUL << MPU_RBAR_ADDR_Pos)              /*!< MPU RBAR: ADDR Mask */

+

+#define MPU_RBAR_VALID_Pos                  4                                             /*!< MPU RBAR: VALID Position */

+#define MPU_RBAR_VALID_Msk                 (1UL << MPU_RBAR_VALID_Pos)                    /*!< MPU RBAR: VALID Mask */

+

+#define MPU_RBAR_REGION_Pos                 0                                             /*!< MPU RBAR: REGION Position */

+#define MPU_RBAR_REGION_Msk                (0xFUL << MPU_RBAR_REGION_Pos)                 /*!< MPU RBAR: REGION Mask */

+

+/* MPU Region Attribute and Size Register */

+#define MPU_RASR_ATTRS_Pos                 16                                             /*!< MPU RASR: MPU Region Attribute field Position */

+#define MPU_RASR_ATTRS_Msk                 (0xFFFFUL << MPU_RASR_ATTRS_Pos)               /*!< MPU RASR: MPU Region Attribute field Mask */

+

+#define MPU_RASR_XN_Pos                    28                                             /*!< MPU RASR: ATTRS.XN Position */

+#define MPU_RASR_XN_Msk                    (1UL << MPU_RASR_XN_Pos)                       /*!< MPU RASR: ATTRS.XN Mask */

+

+#define MPU_RASR_AP_Pos                    24                                             /*!< MPU RASR: ATTRS.AP Position */

+#define MPU_RASR_AP_Msk                    (0x7UL << MPU_RASR_AP_Pos)                     /*!< MPU RASR: ATTRS.AP Mask */

+

+#define MPU_RASR_TEX_Pos                   19                                             /*!< MPU RASR: ATTRS.TEX Position */

+#define MPU_RASR_TEX_Msk                   (0x7UL << MPU_RASR_TEX_Pos)                    /*!< MPU RASR: ATTRS.TEX Mask */

+

+#define MPU_RASR_S_Pos                     18                                             /*!< MPU RASR: ATTRS.S Position */

+#define MPU_RASR_S_Msk                     (1UL << MPU_RASR_S_Pos)                        /*!< MPU RASR: ATTRS.S Mask */

+

+#define MPU_RASR_C_Pos                     17                                             /*!< MPU RASR: ATTRS.C Position */

+#define MPU_RASR_C_Msk                     (1UL << MPU_RASR_C_Pos)                        /*!< MPU RASR: ATTRS.C Mask */

+

+#define MPU_RASR_B_Pos                     16                                             /*!< MPU RASR: ATTRS.B Position */

+#define MPU_RASR_B_Msk                     (1UL << MPU_RASR_B_Pos)                        /*!< MPU RASR: ATTRS.B Mask */

+

+#define MPU_RASR_SRD_Pos                    8                                             /*!< MPU RASR: Sub-Region Disable Position */

+#define MPU_RASR_SRD_Msk                   (0xFFUL << MPU_RASR_SRD_Pos)                   /*!< MPU RASR: Sub-Region Disable Mask */

+

+#define MPU_RASR_SIZE_Pos                   1                                             /*!< MPU RASR: Region Size Field Position */

+#define MPU_RASR_SIZE_Msk                  (0x1FUL << MPU_RASR_SIZE_Pos)                  /*!< MPU RASR: Region Size Field Mask */

+

+#define MPU_RASR_ENABLE_Pos                 0                                             /*!< MPU RASR: Region enable bit Position */

+#define MPU_RASR_ENABLE_Msk                (1UL << MPU_RASR_ENABLE_Pos)                   /*!< MPU RASR: Region enable bit Disable Mask */

+

+/*@} end of group CMSIS_MPU */

+#endif

+

+

+/** \ingroup  CMSIS_core_register

+    \defgroup CMSIS_CoreDebug       Core Debug Registers (CoreDebug)

+    \brief      Cortex-M0+ Core Debug Registers (DCB registers, SHCSR, and DFSR)

+                are only accessible over DAP and not via processor. Therefore

+                they are not covered by the Cortex-M0 header file.

+  @{

+ */

+/*@} end of group CMSIS_CoreDebug */

+

+

+/** \ingroup    CMSIS_core_register

+    \defgroup   CMSIS_core_base     Core Definitions

+    \brief      Definitions for base addresses, unions, and structures.

+  @{

+ */

+

+/* Memory mapping of Cortex-M0+ Hardware */

+#define SCS_BASE            (0xE000E000UL)                            /*!< System Control Space Base Address */

+#define SysTick_BASE        (SCS_BASE +  0x0010UL)                    /*!< SysTick Base Address              */

+#define NVIC_BASE           (SCS_BASE +  0x0100UL)                    /*!< NVIC Base Address                 */

+#define SCB_BASE            (SCS_BASE +  0x0D00UL)                    /*!< System Control Block Base Address */

+

+#define SCB                 ((SCB_Type       *)     SCB_BASE      )   /*!< SCB configuration struct           */

+#define SysTick             ((SysTick_Type   *)     SysTick_BASE  )   /*!< SysTick configuration struct       */

+#define NVIC                ((NVIC_Type      *)     NVIC_BASE     )   /*!< NVIC configuration struct          */

+

+#if (__MPU_PRESENT == 1)

+  #define MPU_BASE          (SCS_BASE +  0x0D90UL)                    /*!< Memory Protection Unit             */

+  #define MPU               ((MPU_Type       *)     MPU_BASE      )   /*!< Memory Protection Unit             */

+#endif

+

+/*@} */

+

+

+

+/*******************************************************************************

+ *                Hardware Abstraction Layer

+  Core Function Interface contains:

+  - Core NVIC Functions

+  - Core SysTick Functions

+  - Core Register Access Functions

+ ******************************************************************************/

+/** \defgroup CMSIS_Core_FunctionInterface Functions and Instructions Reference

+*/

+

+

+

+/* ##########################   NVIC functions  #################################### */

+/** \ingroup  CMSIS_Core_FunctionInterface

+    \defgroup CMSIS_Core_NVICFunctions NVIC Functions

+    \brief      Functions that manage interrupts and exceptions via the NVIC.

+    @{

+ */

+

+/* Interrupt Priorities are WORD accessible only under ARMv6M                   */

+/* The following MACROS handle generation of the register offset and byte masks */

+#define _BIT_SHIFT(IRQn)         (  (((uint32_t)(IRQn)       )    &  0x03) * 8 )

+#define _SHP_IDX(IRQn)           ( ((((uint32_t)(IRQn) & 0x0F)-8) >>    2)     )

+#define _IP_IDX(IRQn)            (   ((uint32_t)(IRQn)            >>    2)     )

+

+

+/** \brief  Enable External Interrupt

+

+    The function enables a device-specific interrupt in the NVIC interrupt controller.

+

+    \param [in]      IRQn  External interrupt number. Value cannot be negative.

+ */

+__STATIC_INLINE void NVIC_EnableIRQ(IRQn_Type IRQn)

+{

+  NVIC->ISER[0] = (1 << ((uint32_t)(IRQn) & 0x1F));

+}

+

+

+/** \brief  Disable External Interrupt

+

+    The function disables a device-specific interrupt in the NVIC interrupt controller.

+

+    \param [in]      IRQn  External interrupt number. Value cannot be negative.

+ */

+__STATIC_INLINE void NVIC_DisableIRQ(IRQn_Type IRQn)

+{

+  NVIC->ICER[0] = (1 << ((uint32_t)(IRQn) & 0x1F));

+}

+

+

+/** \brief  Get Pending Interrupt

+

+    The function reads the pending register in the NVIC and returns the pending bit

+    for the specified interrupt.

+

+    \param [in]      IRQn  Interrupt number.

+

+    \return             0  Interrupt status is not pending.

+    \return             1  Interrupt status is pending.

+ */

+__STATIC_INLINE uint32_t NVIC_GetPendingIRQ(IRQn_Type IRQn)

+{

+  return((uint32_t) ((NVIC->ISPR[0] & (1 << ((uint32_t)(IRQn) & 0x1F)))?1:0));

+}

+

+

+/** \brief  Set Pending Interrupt

+

+    The function sets the pending bit of an external interrupt.

+

+    \param [in]      IRQn  Interrupt number. Value cannot be negative.

+ */

+__STATIC_INLINE void NVIC_SetPendingIRQ(IRQn_Type IRQn)

+{

+  NVIC->ISPR[0] = (1 << ((uint32_t)(IRQn) & 0x1F));

+}

+

+

+/** \brief  Clear Pending Interrupt

+

+    The function clears the pending bit of an external interrupt.

+

+    \param [in]      IRQn  External interrupt number. Value cannot be negative.

+ */

+__STATIC_INLINE void NVIC_ClearPendingIRQ(IRQn_Type IRQn)

+{

+  NVIC->ICPR[0] = (1 << ((uint32_t)(IRQn) & 0x1F)); /* Clear pending interrupt */

+}

+

+

+/** \brief  Set Interrupt Priority

+

+    The function sets the priority of an interrupt.

+

+    \note The priority cannot be set for every core interrupt.

+

+    \param [in]      IRQn  Interrupt number.

+    \param [in]  priority  Priority to set.

+ */

+__STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)

+{

+  if(IRQn < 0) {

+    SCB->SHP[_SHP_IDX(IRQn)] = (SCB->SHP[_SHP_IDX(IRQn)] & ~(0xFF << _BIT_SHIFT(IRQn))) |

+        (((priority << (8 - __NVIC_PRIO_BITS)) & 0xFF) << _BIT_SHIFT(IRQn)); }

+  else {

+    NVIC->IP[_IP_IDX(IRQn)] = (NVIC->IP[_IP_IDX(IRQn)] & ~(0xFF << _BIT_SHIFT(IRQn))) |

+        (((priority << (8 - __NVIC_PRIO_BITS)) & 0xFF) << _BIT_SHIFT(IRQn)); }

+}

+

+

+/** \brief  Get Interrupt Priority

+

+    The function reads the priority of an interrupt. The interrupt

+    number can be positive to specify an external (device specific)

+    interrupt, or negative to specify an internal (core) interrupt.

+

+

+    \param [in]   IRQn  Interrupt number.

+    \return             Interrupt Priority. Value is aligned automatically to the implemented

+                        priority bits of the microcontroller.

+ */

+__STATIC_INLINE uint32_t NVIC_GetPriority(IRQn_Type IRQn)

+{

+

+  if(IRQn < 0) {

+    return((uint32_t)(((SCB->SHP[_SHP_IDX(IRQn)] >> _BIT_SHIFT(IRQn) ) & 0xFF) >> (8 - __NVIC_PRIO_BITS)));  } /* get priority for Cortex-M0 system interrupts */

+  else {

+    return((uint32_t)(((NVIC->IP[ _IP_IDX(IRQn)] >> _BIT_SHIFT(IRQn) ) & 0xFF) >> (8 - __NVIC_PRIO_BITS)));  } /* get priority for device specific interrupts  */

+}

+

+

+/** \brief  System Reset

+

+    The function initiates a system reset request to reset the MCU.

+ */

+__STATIC_INLINE void NVIC_SystemReset(void)

+{

+  __DSB();                                                     /* Ensure all outstanding memory accesses included

+                                                                  buffered write are completed before reset */

+  SCB->AIRCR  = ((0x5FA << SCB_AIRCR_VECTKEY_Pos)      |

+                 SCB_AIRCR_SYSRESETREQ_Msk);

+  __DSB();                                                     /* Ensure completion of memory access */

+  while(1);                                                    /* wait until reset */

+}

+

+/*@} end of CMSIS_Core_NVICFunctions */

+

+

+

+/* ##################################    SysTick function  ############################################ */

+/** \ingroup  CMSIS_Core_FunctionInterface

+    \defgroup CMSIS_Core_SysTickFunctions SysTick Functions

+    \brief      Functions that configure the System.

+  @{

+ */

+

+#if (__Vendor_SysTickConfig == 0)

+

+/** \brief  System Tick Configuration

+

+    The function initializes the System Timer and its interrupt, and starts the System Tick Timer.

+    Counter is in free running mode to generate periodic interrupts.

+

+    \param [in]  ticks  Number of ticks between two interrupts.

+

+    \return          0  Function succeeded.

+    \return          1  Function failed.

+

+    \note     When the variable <b>__Vendor_SysTickConfig</b> is set to 1, then the

+    function <b>SysTick_Config</b> is not included. In this case, the file <b><i>device</i>.h</b>

+    must contain a vendor-specific implementation of this function.

+

+ */

+__STATIC_INLINE uint32_t SysTick_Config(uint32_t ticks)

+{

+  if ((ticks - 1) > SysTick_LOAD_RELOAD_Msk)  return (1);      /* Reload value impossible */

+

+  SysTick->LOAD  = ticks - 1;                                  /* set reload register */

+  NVIC_SetPriority (SysTick_IRQn, (1<<__NVIC_PRIO_BITS) - 1);  /* set Priority for Systick Interrupt */

+  SysTick->VAL   = 0;                                          /* Load the SysTick Counter Value */

+  SysTick->CTRL  = SysTick_CTRL_CLKSOURCE_Msk |

+                   SysTick_CTRL_TICKINT_Msk   |

+                   SysTick_CTRL_ENABLE_Msk;                    /* Enable SysTick IRQ and SysTick Timer */

+  return (0);                                                  /* Function successful */

+}

+

+#endif

+

+/*@} end of CMSIS_Core_SysTickFunctions */

+

+

+

+

+#ifdef __cplusplus

+}

+#endif

+

+#endif /* __CORE_CM0PLUS_H_DEPENDANT */

+

+#endif /* __CMSIS_GENERIC */

diff --git a/watch-library/hardware/include/core_cmFunc.h b/watch-library/hardware/include/core_cmFunc.h
new file mode 100755
index 00000000..a1bd88c2
--- /dev/null
+++ b/watch-library/hardware/include/core_cmFunc.h
@@ -0,0 +1,637 @@
+/**************************************************************************//**

+ * @file     core_cmFunc.h

+ * @brief    CMSIS Cortex-M Core Function Access Header File

+ * @version  V4.00

+ * @date     28. August 2014

+ *

+ * @note

+ *

+ ******************************************************************************/

+/* Copyright (c) 2009 - 2014 ARM LIMITED

+

+   All rights reserved.

+   Redistribution and use in source and binary forms, with or without

+   modification, are permitted provided that the following conditions are met:

+   - Redistributions of source code must retain the above copyright

+     notice, this list of conditions and the following disclaimer.

+   - Redistributions in binary form must reproduce the above copyright

+     notice, this list of conditions and the following disclaimer in the

+     documentation and/or other materials provided with the distribution.

+   - Neither the name of ARM nor the names of its contributors may be used

+     to endorse or promote products derived from this software without

+     specific prior written permission.

+   *

+   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"

+   AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

+   IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

+   ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE

+   LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR

+   CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF

+   SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS

+   INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN

+   CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)

+   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE

+   POSSIBILITY OF SUCH DAMAGE.

+   ---------------------------------------------------------------------------*/

+

+

+#ifndef __CORE_CMFUNC_H

+#define __CORE_CMFUNC_H

+

+

+/* ###########################  Core Function Access  ########################### */

+/** \ingroup  CMSIS_Core_FunctionInterface

+    \defgroup CMSIS_Core_RegAccFunctions CMSIS Core Register Access Functions

+  @{

+ */

+

+#if   defined ( __CC_ARM ) /*------------------RealView Compiler -----------------*/

+/* ARM armcc specific functions */

+

+#if (__ARMCC_VERSION < 400677)

+  #error "Please use ARM Compiler Toolchain V4.0.677 or later!"

+#endif

+

+/* intrinsic void __enable_irq();     */

+/* intrinsic void __disable_irq();    */

+

+/** \brief  Get Control Register

+

+    This function returns the content of the Control Register.

+

+    \return               Control Register value

+ */

+__STATIC_INLINE uint32_t __get_CONTROL(void)

+{

+  register uint32_t __regControl         __ASM("control");

+  return(__regControl);

+}

+

+

+/** \brief  Set Control Register

+

+    This function writes the given value to the Control Register.

+

+    \param [in]    control  Control Register value to set

+ */

+__STATIC_INLINE void __set_CONTROL(uint32_t control)

+{

+  register uint32_t __regControl         __ASM("control");

+  __regControl = control;

+}

+

+

+/** \brief  Get IPSR Register

+

+    This function returns the content of the IPSR Register.

+

+    \return               IPSR Register value

+ */

+__STATIC_INLINE uint32_t __get_IPSR(void)

+{

+  register uint32_t __regIPSR          __ASM("ipsr");

+  return(__regIPSR);

+}

+

+

+/** \brief  Get APSR Register

+

+    This function returns the content of the APSR Register.

+

+    \return               APSR Register value

+ */

+__STATIC_INLINE uint32_t __get_APSR(void)

+{

+  register uint32_t __regAPSR          __ASM("apsr");

+  return(__regAPSR);

+}

+

+

+/** \brief  Get xPSR Register

+

+    This function returns the content of the xPSR Register.

+

+    \return               xPSR Register value

+ */

+__STATIC_INLINE uint32_t __get_xPSR(void)

+{

+  register uint32_t __regXPSR          __ASM("xpsr");

+  return(__regXPSR);

+}

+

+

+/** \brief  Get Process Stack Pointer

+

+    This function returns the current value of the Process Stack Pointer (PSP).

+

+    \return               PSP Register value

+ */

+__STATIC_INLINE uint32_t __get_PSP(void)

+{

+  register uint32_t __regProcessStackPointer  __ASM("psp");

+  return(__regProcessStackPointer);

+}

+

+

+/** \brief  Set Process Stack Pointer

+

+    This function assigns the given value to the Process Stack Pointer (PSP).

+

+    \param [in]    topOfProcStack  Process Stack Pointer value to set

+ */

+__STATIC_INLINE void __set_PSP(uint32_t topOfProcStack)

+{

+  register uint32_t __regProcessStackPointer  __ASM("psp");

+  __regProcessStackPointer = topOfProcStack;

+}

+

+

+/** \brief  Get Main Stack Pointer

+

+    This function returns the current value of the Main Stack Pointer (MSP).

+

+    \return               MSP Register value

+ */

+__STATIC_INLINE uint32_t __get_MSP(void)

+{

+  register uint32_t __regMainStackPointer     __ASM("msp");

+  return(__regMainStackPointer);

+}

+

+

+/** \brief  Set Main Stack Pointer

+

+    This function assigns the given value to the Main Stack Pointer (MSP).

+

+    \param [in]    topOfMainStack  Main Stack Pointer value to set

+ */

+__STATIC_INLINE void __set_MSP(uint32_t topOfMainStack)

+{

+  register uint32_t __regMainStackPointer     __ASM("msp");

+  __regMainStackPointer = topOfMainStack;

+}

+

+

+/** \brief  Get Priority Mask

+

+    This function returns the current state of the priority mask bit from the Priority Mask Register.

+

+    \return               Priority Mask value

+ */

+__STATIC_INLINE uint32_t __get_PRIMASK(void)

+{

+  register uint32_t __regPriMask         __ASM("primask");

+  return(__regPriMask);

+}

+

+

+/** \brief  Set Priority Mask

+

+    This function assigns the given value to the Priority Mask Register.

+

+    \param [in]    priMask  Priority Mask

+ */

+__STATIC_INLINE void __set_PRIMASK(uint32_t priMask)

+{

+  register uint32_t __regPriMask         __ASM("primask");

+  __regPriMask = (priMask);

+}

+

+

+#if       (__CORTEX_M >= 0x03) || (__CORTEX_SC >= 300)

+

+/** \brief  Enable FIQ

+

+    This function enables FIQ interrupts by clearing the F-bit in the CPSR.

+    Can only be executed in Privileged modes.

+ */

+#define __enable_fault_irq                __enable_fiq

+

+

+/** \brief  Disable FIQ

+

+    This function disables FIQ interrupts by setting the F-bit in the CPSR.

+    Can only be executed in Privileged modes.

+ */

+#define __disable_fault_irq               __disable_fiq

+

+

+/** \brief  Get Base Priority

+

+    This function returns the current value of the Base Priority register.

+

+    \return               Base Priority register value

+ */

+__STATIC_INLINE uint32_t  __get_BASEPRI(void)

+{

+  register uint32_t __regBasePri         __ASM("basepri");

+  return(__regBasePri);

+}

+

+

+/** \brief  Set Base Priority

+

+    This function assigns the given value to the Base Priority register.

+

+    \param [in]    basePri  Base Priority value to set

+ */

+__STATIC_INLINE void __set_BASEPRI(uint32_t basePri)

+{

+  register uint32_t __regBasePri         __ASM("basepri");

+  __regBasePri = (basePri & 0xff);

+}

+

+

+/** \brief  Get Fault Mask

+

+    This function returns the current value of the Fault Mask register.

+

+    \return               Fault Mask register value

+ */

+__STATIC_INLINE uint32_t __get_FAULTMASK(void)

+{

+  register uint32_t __regFaultMask       __ASM("faultmask");

+  return(__regFaultMask);

+}

+

+

+/** \brief  Set Fault Mask

+

+    This function assigns the given value to the Fault Mask register.

+

+    \param [in]    faultMask  Fault Mask value to set

+ */

+__STATIC_INLINE void __set_FAULTMASK(uint32_t faultMask)

+{

+  register uint32_t __regFaultMask       __ASM("faultmask");

+  __regFaultMask = (faultMask & (uint32_t)1);

+}

+

+#endif /* (__CORTEX_M >= 0x03) || (__CORTEX_SC >= 300) */

+

+

+#if       (__CORTEX_M == 0x04) || (__CORTEX_M == 0x07)

+

+/** \brief  Get FPSCR

+

+    This function returns the current value of the Floating Point Status/Control register.

+

+    \return               Floating Point Status/Control register value

+ */

+__STATIC_INLINE uint32_t __get_FPSCR(void)

+{

+#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)

+  register uint32_t __regfpscr         __ASM("fpscr");

+  return(__regfpscr);

+#else

+   return(0);

+#endif

+}

+

+

+/** \brief  Set FPSCR

+

+    This function assigns the given value to the Floating Point Status/Control register.

+

+    \param [in]    fpscr  Floating Point Status/Control value to set

+ */

+__STATIC_INLINE void __set_FPSCR(uint32_t fpscr)

+{

+#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)

+  register uint32_t __regfpscr         __ASM("fpscr");

+  __regfpscr = (fpscr);

+#endif

+}

+

+#endif /* (__CORTEX_M == 0x04) || (__CORTEX_M == 0x07) */

+

+

+#elif defined ( __GNUC__ ) /*------------------ GNU Compiler ---------------------*/

+/* GNU gcc specific functions */

+

+/** \brief  Enable IRQ Interrupts

+

+  This function enables IRQ interrupts by clearing the I-bit in the CPSR.

+  Can only be executed in Privileged modes.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_irq(void)

+{

+  __ASM volatile ("cpsie i" : : : "memory");

+}

+

+

+/** \brief  Disable IRQ Interrupts

+

+  This function disables IRQ interrupts by setting the I-bit in the CPSR.

+  Can only be executed in Privileged modes.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_irq(void)

+{

+  __ASM volatile ("cpsid i" : : : "memory");

+}

+

+

+/** \brief  Get Control Register

+

+    This function returns the content of the Control Register.

+

+    \return               Control Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_CONTROL(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, control" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Control Register

+

+    This function writes the given value to the Control Register.

+

+    \param [in]    control  Control Register value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_CONTROL(uint32_t control)

+{

+  __ASM volatile ("MSR control, %0" : : "r" (control) : "memory");

+}

+

+

+/** \brief  Get IPSR Register

+

+    This function returns the content of the IPSR Register.

+

+    \return               IPSR Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_IPSR(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, ipsr" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Get APSR Register

+

+    This function returns the content of the APSR Register.

+

+    \return               APSR Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_APSR(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, apsr" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Get xPSR Register

+

+    This function returns the content of the xPSR Register.

+

+    \return               xPSR Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_xPSR(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, xpsr" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Get Process Stack Pointer

+

+    This function returns the current value of the Process Stack Pointer (PSP).

+

+    \return               PSP Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_PSP(void)

+{

+  register uint32_t result;

+

+  __ASM volatile ("MRS %0, psp\n"  : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Process Stack Pointer

+

+    This function assigns the given value to the Process Stack Pointer (PSP).

+

+    \param [in]    topOfProcStack  Process Stack Pointer value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_PSP(uint32_t topOfProcStack)

+{

+  __ASM volatile ("MSR psp, %0\n" : : "r" (topOfProcStack) : "sp");

+}

+

+

+/** \brief  Get Main Stack Pointer

+

+    This function returns the current value of the Main Stack Pointer (MSP).

+

+    \return               MSP Register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_MSP(void)

+{

+  register uint32_t result;

+

+  __ASM volatile ("MRS %0, msp\n" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Main Stack Pointer

+

+    This function assigns the given value to the Main Stack Pointer (MSP).

+

+    \param [in]    topOfMainStack  Main Stack Pointer value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_MSP(uint32_t topOfMainStack)

+{

+  __ASM volatile ("MSR msp, %0\n" : : "r" (topOfMainStack) : "sp");

+}

+

+

+/** \brief  Get Priority Mask

+

+    This function returns the current state of the priority mask bit from the Priority Mask Register.

+

+    \return               Priority Mask value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_PRIMASK(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, primask" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Priority Mask

+

+    This function assigns the given value to the Priority Mask Register.

+

+    \param [in]    priMask  Priority Mask

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_PRIMASK(uint32_t priMask)

+{

+  __ASM volatile ("MSR primask, %0" : : "r" (priMask) : "memory");

+}

+

+

+#if       (__CORTEX_M >= 0x03)

+

+/** \brief  Enable FIQ

+

+    This function enables FIQ interrupts by clearing the F-bit in the CPSR.

+    Can only be executed in Privileged modes.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_fault_irq(void)

+{

+  __ASM volatile ("cpsie f" : : : "memory");

+}

+

+

+/** \brief  Disable FIQ

+

+    This function disables FIQ interrupts by setting the F-bit in the CPSR.

+    Can only be executed in Privileged modes.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_fault_irq(void)

+{

+  __ASM volatile ("cpsid f" : : : "memory");

+}

+

+

+/** \brief  Get Base Priority

+

+    This function returns the current value of the Base Priority register.

+

+    \return               Base Priority register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_BASEPRI(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, basepri_max" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Base Priority

+

+    This function assigns the given value to the Base Priority register.

+

+    \param [in]    basePri  Base Priority value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_BASEPRI(uint32_t value)

+{

+  __ASM volatile ("MSR basepri, %0" : : "r" (value) : "memory");

+}

+

+

+/** \brief  Get Fault Mask

+

+    This function returns the current value of the Fault Mask register.

+

+    \return               Fault Mask register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_FAULTMASK(void)

+{

+  uint32_t result;

+

+  __ASM volatile ("MRS %0, faultmask" : "=r" (result) );

+  return(result);

+}

+

+

+/** \brief  Set Fault Mask

+

+    This function assigns the given value to the Fault Mask register.

+

+    \param [in]    faultMask  Fault Mask value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_FAULTMASK(uint32_t faultMask)

+{

+  __ASM volatile ("MSR faultmask, %0" : : "r" (faultMask) : "memory");

+}

+

+#endif /* (__CORTEX_M >= 0x03) */

+

+

+#if       (__CORTEX_M == 0x04) || (__CORTEX_M == 0x07)

+

+/** \brief  Get FPSCR

+

+    This function returns the current value of the Floating Point Status/Control register.

+

+    \return               Floating Point Status/Control register value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_FPSCR(void)

+{

+#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)

+  uint32_t result;

+

+  /* Empty asm statement works as a scheduling barrier */

+  __ASM volatile ("");

+  __ASM volatile ("VMRS %0, fpscr" : "=r" (result) );

+  __ASM volatile ("");

+  return(result);

+#else

+   return(0);

+#endif

+}

+

+

+/** \brief  Set FPSCR

+

+    This function assigns the given value to the Floating Point Status/Control register.

+

+    \param [in]    fpscr  Floating Point Status/Control value to set

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __set_FPSCR(uint32_t fpscr)

+{

+#if (__FPU_PRESENT == 1) && (__FPU_USED == 1)

+  /* Empty asm statement works as a scheduling barrier */

+  __ASM volatile ("");

+  __ASM volatile ("VMSR fpscr, %0" : : "r" (fpscr) : "vfpcc");

+  __ASM volatile ("");

+#endif

+}

+

+#endif /* (__CORTEX_M == 0x04) || (__CORTEX_M == 0x07) */

+

+

+#elif defined ( __ICCARM__ ) /*------------------ ICC Compiler -------------------*/

+/* IAR iccarm specific functions */

+#include <cmsis_iar.h>

+

+

+#elif defined ( __TMS470__ ) /*---------------- TI CCS Compiler ------------------*/

+/* TI CCS specific functions */

+#include <cmsis_ccs.h>

+

+

+#elif defined ( __TASKING__ ) /*------------------ TASKING Compiler --------------*/

+/* TASKING carm specific functions */

+/*

+ * The CMSIS functions have been implemented as intrinsics in the compiler.

+ * Please use "carm -?i" to get an up to date list of all intrinsics,

+ * Including the CMSIS ones.

+ */

+

+

+#elif defined ( __CSMC__ ) /*------------------ COSMIC Compiler -------------------*/

+/* Cosmic specific functions */

+#include <cmsis_csm.h>

+

+#endif

+

+/*@} end of CMSIS_Core_RegAccFunctions */

+

+#endif /* __CORE_CMFUNC_H */

diff --git a/watch-library/hardware/include/core_cmInstr.h b/watch-library/hardware/include/core_cmInstr.h
new file mode 100755
index 00000000..cfdea144
--- /dev/null
+++ b/watch-library/hardware/include/core_cmInstr.h
@@ -0,0 +1,880 @@
+/**************************************************************************//**

+ * @file     core_cmInstr.h

+ * @brief    CMSIS Cortex-M Core Instruction Access Header File

+ * @version  V4.00

+ * @date     28. August 2014

+ *

+ * @note

+ *

+ ******************************************************************************/

+/* Copyright (c) 2009 - 2014 ARM LIMITED

+

+   All rights reserved.

+   Redistribution and use in source and binary forms, with or without

+   modification, are permitted provided that the following conditions are met:

+   - Redistributions of source code must retain the above copyright

+     notice, this list of conditions and the following disclaimer.

+   - Redistributions in binary form must reproduce the above copyright

+     notice, this list of conditions and the following disclaimer in the

+     documentation and/or other materials provided with the distribution.

+   - Neither the name of ARM nor the names of its contributors may be used

+     to endorse or promote products derived from this software without

+     specific prior written permission.

+   *

+   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"

+   AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

+   IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

+   ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE

+   LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR

+   CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF

+   SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS

+   INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN

+   CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)

+   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE

+   POSSIBILITY OF SUCH DAMAGE.

+   ---------------------------------------------------------------------------*/

+

+

+#ifndef __CORE_CMINSTR_H

+#define __CORE_CMINSTR_H

+

+

+/* ##########################  Core Instruction Access  ######################### */

+/** \defgroup CMSIS_Core_InstructionInterface CMSIS Core Instruction Interface

+  Access to dedicated instructions

+  @{

+*/

+

+#if   defined ( __CC_ARM ) /*------------------RealView Compiler -----------------*/

+/* ARM armcc specific functions */

+

+#if (__ARMCC_VERSION < 400677)

+  #error "Please use ARM Compiler Toolchain V4.0.677 or later!"

+#endif

+

+

+/** \brief  No Operation

+

+    No Operation does nothing. This instruction can be used for code alignment purposes.

+ */

+#define __NOP                             __nop

+

+

+/** \brief  Wait For Interrupt

+

+    Wait For Interrupt is a hint instruction that suspends execution

+    until one of a number of events occurs.

+ */

+#define __WFI                             __wfi

+

+

+/** \brief  Wait For Event

+

+    Wait For Event is a hint instruction that permits the processor to enter

+    a low-power state until one of a number of events occurs.

+ */

+#define __WFE                             __wfe

+

+

+/** \brief  Send Event

+

+    Send Event is a hint instruction. It causes an event to be signaled to the CPU.

+ */

+#define __SEV                             __sev

+

+

+/** \brief  Instruction Synchronization Barrier

+

+    Instruction Synchronization Barrier flushes the pipeline in the processor,

+    so that all instructions following the ISB are fetched from cache or

+    memory, after the instruction has been completed.

+ */

+#define __ISB()                           __isb(0xF)

+

+

+/** \brief  Data Synchronization Barrier

+

+    This function acts as a special kind of Data Memory Barrier.

+    It completes when all explicit memory accesses before this instruction complete.

+ */

+#define __DSB()                           __dsb(0xF)

+

+

+/** \brief  Data Memory Barrier

+

+    This function ensures the apparent order of the explicit memory operations before

+    and after the instruction, without ensuring their completion.

+ */

+#define __DMB()                           __dmb(0xF)

+

+

+/** \brief  Reverse byte order (32 bit)

+

+    This function reverses the byte order in integer value.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+#define __REV                             __rev

+

+

+/** \brief  Reverse byte order (16 bit)

+

+    This function reverses the byte order in two unsigned short values.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+#ifndef __NO_EMBEDDED_ASM

+__attribute__((section(".rev16_text"))) __STATIC_INLINE __ASM uint32_t __REV16(uint32_t value)

+{

+  rev16 r0, r0

+  bx lr

+}

+#endif

+

+/** \brief  Reverse byte order in signed short value

+

+    This function reverses the byte order in a signed short value with sign extension to integer.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+#ifndef __NO_EMBEDDED_ASM

+__attribute__((section(".revsh_text"))) __STATIC_INLINE __ASM int32_t __REVSH(int32_t value)

+{

+  revsh r0, r0

+  bx lr

+}

+#endif

+

+

+/** \brief  Rotate Right in unsigned value (32 bit)

+

+    This function Rotate Right (immediate) provides the value of the contents of a register rotated by a variable number of bits.

+

+    \param [in]    value  Value to rotate

+    \param [in]    value  Number of Bits to rotate

+    \return               Rotated value

+ */

+#define __ROR                             __ror

+

+

+/** \brief  Breakpoint

+

+    This function causes the processor to enter Debug state.

+    Debug tools can use this to investigate system state when the instruction at a particular address is reached.

+

+    \param [in]    value  is ignored by the processor.

+                   If required, a debugger can use it to store additional information about the breakpoint.

+ */

+#define __BKPT(value)                       __breakpoint(value)

+

+

+#if       (__CORTEX_M >= 0x03) || (__CORTEX_SC >= 300)

+

+/** \brief  Reverse bit order of value

+

+    This function reverses the bit order of the given value.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+#define __RBIT                            __rbit

+

+

+/** \brief  LDR Exclusive (8 bit)

+

+    This function executes a exclusive LDR instruction for 8 bit value.

+

+    \param [in]    ptr  Pointer to data

+    \return             value of type uint8_t at (*ptr)

+ */

+#define __LDREXB(ptr)                     ((uint8_t ) __ldrex(ptr))

+

+

+/** \brief  LDR Exclusive (16 bit)

+

+    This function executes a exclusive LDR instruction for 16 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint16_t at (*ptr)

+ */

+#define __LDREXH(ptr)                     ((uint16_t) __ldrex(ptr))

+

+

+/** \brief  LDR Exclusive (32 bit)

+

+    This function executes a exclusive LDR instruction for 32 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint32_t at (*ptr)

+ */

+#define __LDREXW(ptr)                     ((uint32_t ) __ldrex(ptr))

+

+

+/** \brief  STR Exclusive (8 bit)

+

+    This function executes a exclusive STR instruction for 8 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+#define __STREXB(value, ptr)              __strex(value, ptr)

+

+

+/** \brief  STR Exclusive (16 bit)

+

+    This function executes a exclusive STR instruction for 16 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+#define __STREXH(value, ptr)              __strex(value, ptr)

+

+

+/** \brief  STR Exclusive (32 bit)

+

+    This function executes a exclusive STR instruction for 32 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+#define __STREXW(value, ptr)              __strex(value, ptr)

+

+

+/** \brief  Remove the exclusive lock

+

+    This function removes the exclusive lock which is created by LDREX.

+

+ */

+#define __CLREX                           __clrex

+

+

+/** \brief  Signed Saturate

+

+    This function saturates a signed value.

+

+    \param [in]  value  Value to be saturated

+    \param [in]    sat  Bit position to saturate to (1..32)

+    \return             Saturated value

+ */

+#define __SSAT                            __ssat

+

+

+/** \brief  Unsigned Saturate

+

+    This function saturates an unsigned value.

+

+    \param [in]  value  Value to be saturated

+    \param [in]    sat  Bit position to saturate to (0..31)

+    \return             Saturated value

+ */

+#define __USAT                            __usat

+

+

+/** \brief  Count leading zeros

+

+    This function counts the number of leading zeros of a data value.

+

+    \param [in]  value  Value to count the leading zeros

+    \return             number of leading zeros in value

+ */

+#define __CLZ                             __clz

+

+

+/** \brief  Rotate Right with Extend (32 bit)

+

+    This function moves each bit of a bitstring right by one bit. The carry input is shifted in at the left end of the bitstring.

+

+    \param [in]    value  Value to rotate

+    \return               Rotated value

+ */

+#ifndef __NO_EMBEDDED_ASM

+__attribute__((section(".rrx_text"))) __STATIC_INLINE __ASM uint32_t __RRX(uint32_t value)

+{

+  rrx r0, r0

+  bx lr

+}

+#endif

+

+

+/** \brief  LDRT Unprivileged (8 bit)

+

+    This function executes a Unprivileged LDRT instruction for 8 bit value.

+

+    \param [in]    ptr  Pointer to data

+    \return             value of type uint8_t at (*ptr)

+ */

+#define __LDRBT(ptr)                      ((uint8_t )  __ldrt(ptr))

+

+

+/** \brief  LDRT Unprivileged (16 bit)

+

+    This function executes a Unprivileged LDRT instruction for 16 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint16_t at (*ptr)

+ */

+#define __LDRHT(ptr)                      ((uint16_t)  __ldrt(ptr))

+

+

+/** \brief  LDRT Unprivileged (32 bit)

+

+    This function executes a Unprivileged LDRT instruction for 32 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint32_t at (*ptr)

+ */

+#define __LDRT(ptr)                       ((uint32_t ) __ldrt(ptr))

+

+

+/** \brief  STRT Unprivileged (8 bit)

+

+    This function executes a Unprivileged STRT instruction for 8 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+#define __STRBT(value, ptr)               __strt(value, ptr)

+

+

+/** \brief  STRT Unprivileged (16 bit)

+

+    This function executes a Unprivileged STRT instruction for 16 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+#define __STRHT(value, ptr)               __strt(value, ptr)

+

+

+/** \brief  STRT Unprivileged (32 bit)

+

+    This function executes a Unprivileged STRT instruction for 32 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+#define __STRT(value, ptr)                __strt(value, ptr)

+

+#endif /* (__CORTEX_M >= 0x03) || (__CORTEX_SC >= 300) */

+

+

+#elif defined ( __GNUC__ ) /*------------------ GNU Compiler ---------------------*/

+/* GNU gcc specific functions */

+

+/* Define macros for porting to both thumb1 and thumb2.

+ * For thumb1, use low register (r0-r7), specified by constrant "l"

+ * Otherwise, use general registers, specified by constrant "r" */

+#if defined (__thumb__) && !defined (__thumb2__)

+#define __CMSIS_GCC_OUT_REG(r) "=l" (r)

+#define __CMSIS_GCC_USE_REG(r) "l" (r)

+#else

+#define __CMSIS_GCC_OUT_REG(r) "=r" (r)

+#define __CMSIS_GCC_USE_REG(r) "r" (r)

+#endif

+

+/** \brief  No Operation

+

+    No Operation does nothing. This instruction can be used for code alignment purposes.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __NOP(void)

+{

+  __ASM volatile ("nop");

+}

+

+

+/** \brief  Wait For Interrupt

+

+    Wait For Interrupt is a hint instruction that suspends execution

+    until one of a number of events occurs.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __WFI(void)

+{

+  __ASM volatile ("wfi");

+}

+

+

+/** \brief  Wait For Event

+

+    Wait For Event is a hint instruction that permits the processor to enter

+    a low-power state until one of a number of events occurs.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __WFE(void)

+{

+  __ASM volatile ("wfe");

+}

+

+

+/** \brief  Send Event

+

+    Send Event is a hint instruction. It causes an event to be signaled to the CPU.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __SEV(void)

+{

+  __ASM volatile ("sev");

+}

+

+

+/** \brief  Instruction Synchronization Barrier

+

+    Instruction Synchronization Barrier flushes the pipeline in the processor,

+    so that all instructions following the ISB are fetched from cache or

+    memory, after the instruction has been completed.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __ISB(void)

+{

+  __ASM volatile ("isb");

+}

+

+

+/** \brief  Data Synchronization Barrier

+

+    This function acts as a special kind of Data Memory Barrier.

+    It completes when all explicit memory accesses before this instruction complete.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __DSB(void)

+{

+  __ASM volatile ("dsb");

+}

+

+

+/** \brief  Data Memory Barrier

+

+    This function ensures the apparent order of the explicit memory operations before

+    and after the instruction, without ensuring their completion.

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __DMB(void)

+{

+  __ASM volatile ("dmb");

+}

+

+

+/** \brief  Reverse byte order (32 bit)

+

+    This function reverses the byte order in integer value.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __REV(uint32_t value)

+{

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 5)

+  return __builtin_bswap32(value);

+#else

+  uint32_t result;

+

+  __ASM volatile ("rev %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );

+  return(result);

+#endif

+}

+

+

+/** \brief  Reverse byte order (16 bit)

+

+    This function reverses the byte order in two unsigned short values.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __REV16(uint32_t value)

+{

+  uint32_t result;

+

+  __ASM volatile ("rev16 %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );

+  return(result);

+}

+

+

+/** \brief  Reverse byte order in signed short value

+

+    This function reverses the byte order in a signed short value with sign extension to integer.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE int32_t __REVSH(int32_t value)

+{

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)

+  return (short)__builtin_bswap16(value);

+#else

+  uint32_t result;

+

+  __ASM volatile ("revsh %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );

+  return(result);

+#endif

+}

+

+

+/** \brief  Rotate Right in unsigned value (32 bit)

+

+    This function Rotate Right (immediate) provides the value of the contents of a register rotated by a variable number of bits.

+

+    \param [in]    value  Value to rotate

+    \param [in]    value  Number of Bits to rotate

+    \return               Rotated value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __ROR(uint32_t op1, uint32_t op2)

+{

+  return (op1 >> op2) | (op1 << (32 - op2)); 

+}

+

+

+/** \brief  Breakpoint

+

+    This function causes the processor to enter Debug state.

+    Debug tools can use this to investigate system state when the instruction at a particular address is reached.

+

+    \param [in]    value  is ignored by the processor.

+                   If required, a debugger can use it to store additional information about the breakpoint.

+ */

+#define __BKPT(value)                       __ASM volatile ("bkpt "#value)

+

+

+#if       (__CORTEX_M >= 0x03) || ((defined(__CORTEX_SC)) && (__CORTEX_SC >= 300))

+

+/** \brief  Reverse bit order of value

+

+    This function reverses the bit order of the given value.

+

+    \param [in]    value  Value to reverse

+    \return               Reversed value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __RBIT(uint32_t value)

+{

+  uint32_t result;

+

+   __ASM volatile ("rbit %0, %1" : "=r" (result) : "r" (value) );

+   return(result);

+}

+

+

+/** \brief  LDR Exclusive (8 bit)

+

+    This function executes a exclusive LDR instruction for 8 bit value.

+

+    \param [in]    ptr  Pointer to data

+    \return             value of type uint8_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint8_t __LDREXB(volatile uint8_t *addr)

+{

+    uint32_t result;

+

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)

+   __ASM volatile ("ldrexb %0, %1" : "=r" (result) : "Q" (*addr) );

+#else

+    /* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not

+       accepted by assembler. So has to use following less efficient pattern.

+    */

+   __ASM volatile ("ldrexb %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );

+#endif

+   return ((uint8_t) result);    /* Add explicit type cast here */

+}

+

+

+/** \brief  LDR Exclusive (16 bit)

+

+    This function executes a exclusive LDR instruction for 16 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint16_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint16_t __LDREXH(volatile uint16_t *addr)

+{

+    uint32_t result;

+

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)

+   __ASM volatile ("ldrexh %0, %1" : "=r" (result) : "Q" (*addr) );

+#else

+    /* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not

+       accepted by assembler. So has to use following less efficient pattern.

+    */

+   __ASM volatile ("ldrexh %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );

+#endif

+   return ((uint16_t) result);    /* Add explicit type cast here */

+}

+

+

+/** \brief  LDR Exclusive (32 bit)

+

+    This function executes a exclusive LDR instruction for 32 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint32_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __LDREXW(volatile uint32_t *addr)

+{

+    uint32_t result;

+

+   __ASM volatile ("ldrex %0, %1" : "=r" (result) : "Q" (*addr) );

+   return(result);

+}

+

+

+/** \brief  STR Exclusive (8 bit)

+

+    This function executes a exclusive STR instruction for 8 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __STREXB(uint8_t value, volatile uint8_t *addr)

+{

+   uint32_t result;

+

+   __ASM volatile ("strexb %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" ((uint32_t)value) );

+   return(result);

+}

+

+

+/** \brief  STR Exclusive (16 bit)

+

+    This function executes a exclusive STR instruction for 16 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __STREXH(uint16_t value, volatile uint16_t *addr)

+{

+   uint32_t result;

+

+   __ASM volatile ("strexh %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" ((uint32_t)value) );

+   return(result);

+}

+

+

+/** \brief  STR Exclusive (32 bit)

+

+    This function executes a exclusive STR instruction for 32 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+    \return          0  Function succeeded

+    \return          1  Function failed

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __STREXW(uint32_t value, volatile uint32_t *addr)

+{

+   uint32_t result;

+

+   __ASM volatile ("strex %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" (value) );

+   return(result);

+}

+

+

+/** \brief  Remove the exclusive lock

+

+    This function removes the exclusive lock which is created by LDREX.

+

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __CLREX(void)

+{

+  __ASM volatile ("clrex" ::: "memory");

+}

+

+

+/** \brief  Signed Saturate

+

+    This function saturates a signed value.

+

+    \param [in]  value  Value to be saturated

+    \param [in]    sat  Bit position to saturate to (1..32)

+    \return             Saturated value

+ */

+#define __SSAT(ARG1,ARG2) \

+({                          \

+  uint32_t __RES, __ARG1 = (ARG1); \

+  __ASM ("ssat %0, %1, %2" : "=r" (__RES) :  "I" (ARG2), "r" (__ARG1) ); \

+  __RES; \

+ })

+

+

+/** \brief  Unsigned Saturate

+

+    This function saturates an unsigned value.

+

+    \param [in]  value  Value to be saturated

+    \param [in]    sat  Bit position to saturate to (0..31)

+    \return             Saturated value

+ */

+#define __USAT(ARG1,ARG2) \

+({                          \

+  uint32_t __RES, __ARG1 = (ARG1); \

+  __ASM ("usat %0, %1, %2" : "=r" (__RES) :  "I" (ARG2), "r" (__ARG1) ); \

+  __RES; \

+ })

+

+

+/** \brief  Count leading zeros

+

+    This function counts the number of leading zeros of a data value.

+

+    \param [in]  value  Value to count the leading zeros

+    \return             number of leading zeros in value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint8_t __CLZ(uint32_t value)

+{

+  uint32_t result;

+

+  __ASM volatile ("clz %0, %1" : "=r" (result) : "r" (value) );

+   return ((uint8_t) result);    /* Add explicit type cast here */

+}

+

+

+/** \brief  Rotate Right with Extend (32 bit)

+

+    This function moves each bit of a bitstring right by one bit. The carry input is shifted in at the left end of the bitstring.

+

+    \param [in]    value  Value to rotate

+    \return               Rotated value

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __RRX(uint32_t value)

+{

+  uint32_t result;

+

+  __ASM volatile ("rrx %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );

+  return(result);

+}

+

+

+/** \brief  LDRT Unprivileged (8 bit)

+

+    This function executes a Unprivileged LDRT instruction for 8 bit value.

+

+    \param [in]    ptr  Pointer to data

+    \return             value of type uint8_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint8_t __LDRBT(volatile uint8_t *addr)

+{

+    uint32_t result;

+

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)

+   __ASM volatile ("ldrbt %0, %1" : "=r" (result) : "Q" (*addr) );

+#else

+    /* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not

+       accepted by assembler. So has to use following less efficient pattern.

+    */

+   __ASM volatile ("ldrbt %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );

+#endif

+   return ((uint8_t) result);    /* Add explicit type cast here */

+}

+

+

+/** \brief  LDRT Unprivileged (16 bit)

+

+    This function executes a Unprivileged LDRT instruction for 16 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint16_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint16_t __LDRHT(volatile uint16_t *addr)

+{

+    uint32_t result;

+

+#if (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)

+   __ASM volatile ("ldrht %0, %1" : "=r" (result) : "Q" (*addr) );

+#else

+    /* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not

+       accepted by assembler. So has to use following less efficient pattern.

+    */

+   __ASM volatile ("ldrht %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );

+#endif

+   return ((uint16_t) result);    /* Add explicit type cast here */

+}

+

+

+/** \brief  LDRT Unprivileged (32 bit)

+

+    This function executes a Unprivileged LDRT instruction for 32 bit values.

+

+    \param [in]    ptr  Pointer to data

+    \return        value of type uint32_t at (*ptr)

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __LDRT(volatile uint32_t *addr)

+{

+    uint32_t result;

+

+   __ASM volatile ("ldrt %0, %1" : "=r" (result) : "Q" (*addr) );

+   return(result);

+}

+

+

+/** \brief  STRT Unprivileged (8 bit)

+

+    This function executes a Unprivileged STRT instruction for 8 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __STRBT(uint8_t value, volatile uint8_t *addr)

+{

+   __ASM volatile ("strbt %1, %0" : "=Q" (*addr) : "r" ((uint32_t)value) );

+}

+

+

+/** \brief  STRT Unprivileged (16 bit)

+

+    This function executes a Unprivileged STRT instruction for 16 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __STRHT(uint16_t value, volatile uint16_t *addr)

+{

+   __ASM volatile ("strht %1, %0" : "=Q" (*addr) : "r" ((uint32_t)value) );

+}

+

+

+/** \brief  STRT Unprivileged (32 bit)

+

+    This function executes a Unprivileged STRT instruction for 32 bit values.

+

+    \param [in]  value  Value to store

+    \param [in]    ptr  Pointer to location

+ */

+__attribute__( ( always_inline ) ) __STATIC_INLINE void __STRT(uint32_t value, volatile uint32_t *addr)

+{

+   __ASM volatile ("strt %1, %0" : "=Q" (*addr) : "r" (value) );

+}

+

+#endif /* (__CORTEX_M >= 0x03) || (__CORTEX_SC >= 300) */

+

+

+#elif defined ( __ICCARM__ ) /*------------------ ICC Compiler -------------------*/

+/* IAR iccarm specific functions */

+#include <cmsis_iar.h>

+

+

+#elif defined ( __TMS470__ ) /*---------------- TI CCS Compiler ------------------*/

+/* TI CCS specific functions */

+#include <cmsis_ccs.h>

+

+

+#elif defined ( __TASKING__ ) /*------------------ TASKING Compiler --------------*/

+/* TASKING carm specific functions */

+/*

+ * The CMSIS functions have been implemented as intrinsics in the compiler.

+ * Please use "carm -?i" to get an up to date list of all intrinsics,

+ * Including the CMSIS ones.

+ */

+

+

+#elif defined ( __CSMC__ ) /*------------------ COSMIC Compiler -------------------*/

+/* Cosmic specific functions */

+#include <cmsis_csm.h>

+

+#endif

+

+/*@}*/ /* end of group CMSIS_Core_InstructionInterface */

+

+#endif /* __CORE_CMINSTR_H */

diff --git a/watch-library/hardware/include/instance/ac.h b/watch-library/hardware/include/instance/ac.h
new file mode 100644
index 00000000..d2bf7fb9
--- /dev/null
+++ b/watch-library/hardware/include/instance/ac.h
@@ -0,0 +1,74 @@
+/**
+ * \file
+ *
+ * \brief Instance description for AC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_AC_INSTANCE_
+#define _SAML22_AC_INSTANCE_
+
+/* ========== Register definition for AC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_AC_CTRLA               (0x42003400) /**< \brief (AC) Control A */
+#define REG_AC_CTRLB               (0x42003401) /**< \brief (AC) Control B */
+#define REG_AC_EVCTRL              (0x42003402) /**< \brief (AC) Event Control */
+#define REG_AC_INTENCLR            (0x42003404) /**< \brief (AC) Interrupt Enable Clear */
+#define REG_AC_INTENSET            (0x42003405) /**< \brief (AC) Interrupt Enable Set */
+#define REG_AC_INTFLAG             (0x42003406) /**< \brief (AC) Interrupt Flag Status and Clear */
+#define REG_AC_STATUSA             (0x42003407) /**< \brief (AC) Status A */
+#define REG_AC_STATUSB             (0x42003408) /**< \brief (AC) Status B */
+#define REG_AC_DBGCTRL             (0x42003409) /**< \brief (AC) Debug Control */
+#define REG_AC_WINCTRL             (0x4200340A) /**< \brief (AC) Window Control */
+#define REG_AC_SCALER0             (0x4200340C) /**< \brief (AC) Scaler 0 */
+#define REG_AC_SCALER1             (0x4200340D) /**< \brief (AC) Scaler 1 */
+#define REG_AC_COMPCTRL0           (0x42003410) /**< \brief (AC) Comparator Control 0 */
+#define REG_AC_COMPCTRL1           (0x42003414) /**< \brief (AC) Comparator Control 1 */
+#define REG_AC_SYNCBUSY            (0x42003420) /**< \brief (AC) Synchronization Busy */
+#else
+#define REG_AC_CTRLA               (*(RwReg8 *)0x42003400UL) /**< \brief (AC) Control A */
+#define REG_AC_CTRLB               (*(WoReg8 *)0x42003401UL) /**< \brief (AC) Control B */
+#define REG_AC_EVCTRL              (*(RwReg16*)0x42003402UL) /**< \brief (AC) Event Control */
+#define REG_AC_INTENCLR            (*(RwReg8 *)0x42003404UL) /**< \brief (AC) Interrupt Enable Clear */
+#define REG_AC_INTENSET            (*(RwReg8 *)0x42003405UL) /**< \brief (AC) Interrupt Enable Set */
+#define REG_AC_INTFLAG             (*(RwReg8 *)0x42003406UL) /**< \brief (AC) Interrupt Flag Status and Clear */
+#define REG_AC_STATUSA             (*(RoReg8 *)0x42003407UL) /**< \brief (AC) Status A */
+#define REG_AC_STATUSB             (*(RoReg8 *)0x42003408UL) /**< \brief (AC) Status B */
+#define REG_AC_DBGCTRL             (*(RwReg8 *)0x42003409UL) /**< \brief (AC) Debug Control */
+#define REG_AC_WINCTRL             (*(RwReg8 *)0x4200340AUL) /**< \brief (AC) Window Control */
+#define REG_AC_SCALER0             (*(RwReg8 *)0x4200340CUL) /**< \brief (AC) Scaler 0 */
+#define REG_AC_SCALER1             (*(RwReg8 *)0x4200340DUL) /**< \brief (AC) Scaler 1 */
+#define REG_AC_COMPCTRL0           (*(RwReg  *)0x42003410UL) /**< \brief (AC) Comparator Control 0 */
+#define REG_AC_COMPCTRL1           (*(RwReg  *)0x42003414UL) /**< \brief (AC) Comparator Control 1 */
+#define REG_AC_SYNCBUSY            (*(RoReg  *)0x42003420UL) /**< \brief (AC) Synchronization Busy */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for AC peripheral ========== */
+#define AC_COMPCTRL_MUXNEG_OPAMP    7        // OPAMP selection for MUXNEG
+#define AC_GCLK_ID                  26       // Index of Generic Clock
+#define AC_NUM_CMP                  2        // Number of comparators
+#define AC_PAIRS                    1        // Number of pairs of comparators
+
+#endif /* _SAML22_AC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/adc.h b/watch-library/hardware/include/instance/adc.h
new file mode 100644
index 00000000..593cf070
--- /dev/null
+++ b/watch-library/hardware/include/instance/adc.h
@@ -0,0 +1,89 @@
+/**
+ * \file
+ *
+ * \brief Instance description for ADC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_ADC_INSTANCE_
+#define _SAML22_ADC_INSTANCE_
+
+/* ========== Register definition for ADC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_ADC_CTRLA              (0x42003000) /**< \brief (ADC) Control A */
+#define REG_ADC_CTRLB              (0x42003001) /**< \brief (ADC) Control B */
+#define REG_ADC_REFCTRL            (0x42003002) /**< \brief (ADC) Reference Control */
+#define REG_ADC_EVCTRL             (0x42003003) /**< \brief (ADC) Event Control */
+#define REG_ADC_INTENCLR           (0x42003004) /**< \brief (ADC) Interrupt Enable Clear */
+#define REG_ADC_INTENSET           (0x42003005) /**< \brief (ADC) Interrupt Enable Set */
+#define REG_ADC_INTFLAG            (0x42003006) /**< \brief (ADC) Interrupt Flag Status and Clear */
+#define REG_ADC_SEQSTATUS          (0x42003007) /**< \brief (ADC) Sequence Status */
+#define REG_ADC_INPUTCTRL          (0x42003008) /**< \brief (ADC) Input Control */
+#define REG_ADC_CTRLC              (0x4200300A) /**< \brief (ADC) Control C */
+#define REG_ADC_AVGCTRL            (0x4200300C) /**< \brief (ADC) Average Control */
+#define REG_ADC_SAMPCTRL           (0x4200300D) /**< \brief (ADC) Sample Time Control */
+#define REG_ADC_WINLT              (0x4200300E) /**< \brief (ADC) Window Monitor Lower Threshold */
+#define REG_ADC_WINUT              (0x42003010) /**< \brief (ADC) Window Monitor Upper Threshold */
+#define REG_ADC_GAINCORR           (0x42003012) /**< \brief (ADC) Gain Correction */
+#define REG_ADC_OFFSETCORR         (0x42003014) /**< \brief (ADC) Offset Correction */
+#define REG_ADC_SWTRIG             (0x42003018) /**< \brief (ADC) Software Trigger */
+#define REG_ADC_DBGCTRL            (0x4200301C) /**< \brief (ADC) Debug Control */
+#define REG_ADC_SYNCBUSY           (0x42003020) /**< \brief (ADC) Synchronization Busy */
+#define REG_ADC_RESULT             (0x42003024) /**< \brief (ADC) Result */
+#define REG_ADC_SEQCTRL            (0x42003028) /**< \brief (ADC) Sequence Control */
+#define REG_ADC_CALIB              (0x4200302C) /**< \brief (ADC) Calibration */
+#else
+#define REG_ADC_CTRLA              (*(RwReg8 *)0x42003000UL) /**< \brief (ADC) Control A */
+#define REG_ADC_CTRLB              (*(RwReg8 *)0x42003001UL) /**< \brief (ADC) Control B */
+#define REG_ADC_REFCTRL            (*(RwReg8 *)0x42003002UL) /**< \brief (ADC) Reference Control */
+#define REG_ADC_EVCTRL             (*(RwReg8 *)0x42003003UL) /**< \brief (ADC) Event Control */
+#define REG_ADC_INTENCLR           (*(RwReg8 *)0x42003004UL) /**< \brief (ADC) Interrupt Enable Clear */
+#define REG_ADC_INTENSET           (*(RwReg8 *)0x42003005UL) /**< \brief (ADC) Interrupt Enable Set */
+#define REG_ADC_INTFLAG            (*(RwReg8 *)0x42003006UL) /**< \brief (ADC) Interrupt Flag Status and Clear */
+#define REG_ADC_SEQSTATUS          (*(RoReg8 *)0x42003007UL) /**< \brief (ADC) Sequence Status */
+#define REG_ADC_INPUTCTRL          (*(RwReg16*)0x42003008UL) /**< \brief (ADC) Input Control */
+#define REG_ADC_CTRLC              (*(RwReg16*)0x4200300AUL) /**< \brief (ADC) Control C */
+#define REG_ADC_AVGCTRL            (*(RwReg8 *)0x4200300CUL) /**< \brief (ADC) Average Control */
+#define REG_ADC_SAMPCTRL           (*(RwReg8 *)0x4200300DUL) /**< \brief (ADC) Sample Time Control */
+#define REG_ADC_WINLT              (*(RwReg16*)0x4200300EUL) /**< \brief (ADC) Window Monitor Lower Threshold */
+#define REG_ADC_WINUT              (*(RwReg16*)0x42003010UL) /**< \brief (ADC) Window Monitor Upper Threshold */
+#define REG_ADC_GAINCORR           (*(RwReg16*)0x42003012UL) /**< \brief (ADC) Gain Correction */
+#define REG_ADC_OFFSETCORR         (*(RwReg16*)0x42003014UL) /**< \brief (ADC) Offset Correction */
+#define REG_ADC_SWTRIG             (*(RwReg8 *)0x42003018UL) /**< \brief (ADC) Software Trigger */
+#define REG_ADC_DBGCTRL            (*(RwReg8 *)0x4200301CUL) /**< \brief (ADC) Debug Control */
+#define REG_ADC_SYNCBUSY           (*(RoReg16*)0x42003020UL) /**< \brief (ADC) Synchronization Busy */
+#define REG_ADC_RESULT             (*(RoReg16*)0x42003024UL) /**< \brief (ADC) Result */
+#define REG_ADC_SEQCTRL            (*(RwReg  *)0x42003028UL) /**< \brief (ADC) Sequence Control */
+#define REG_ADC_CALIB              (*(RwReg16*)0x4200302CUL) /**< \brief (ADC) Calibration */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for ADC peripheral ========== */
+#define ADC_DMAC_ID_RESRDY          31       // index of DMA RESRDY trigger
+#define ADC_EXTCHANNEL_MSB          19       // Number of external channels
+#define ADC_GCLK_ID                 25       // index of Generic Clock
+#define ADC_INT_CH30                2        // Select OPAMP or CTAT on Channel 30
+#define ADC_MASTER_SLAVE_MODE       0        // ADC Master/Slave Mode
+
+#endif /* _SAML22_ADC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/aes.h b/watch-library/hardware/include/instance/aes.h
new file mode 100644
index 00000000..1d39e171
--- /dev/null
+++ b/watch-library/hardware/include/instance/aes.h
@@ -0,0 +1,102 @@
+/**
+ * \file
+ *
+ * \brief Instance description for AES
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_AES_INSTANCE_
+#define _SAML22_AES_INSTANCE_
+
+/* ========== Register definition for AES peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_AES_CTRLA              (0x42004000) /**< \brief (AES) Control A */
+#define REG_AES_CTRLB              (0x42004004) /**< \brief (AES) Control B */
+#define REG_AES_INTENCLR           (0x42004005) /**< \brief (AES) Interrupt Enable Clear */
+#define REG_AES_INTENSET           (0x42004006) /**< \brief (AES) Interrupt Enable Set */
+#define REG_AES_INTFLAG            (0x42004007) /**< \brief (AES) Interrupt Flag Status */
+#define REG_AES_DATABUFPTR         (0x42004008) /**< \brief (AES) Data buffer pointer */
+#define REG_AES_DBGCTRL            (0x42004009) /**< \brief (AES) Debug control */
+#define REG_AES_KEYWORD0           (0x4200400C) /**< \brief (AES) Keyword 0 */
+#define REG_AES_KEYWORD1           (0x42004010) /**< \brief (AES) Keyword 1 */
+#define REG_AES_KEYWORD2           (0x42004014) /**< \brief (AES) Keyword 2 */
+#define REG_AES_KEYWORD3           (0x42004018) /**< \brief (AES) Keyword 3 */
+#define REG_AES_KEYWORD4           (0x4200401C) /**< \brief (AES) Keyword 4 */
+#define REG_AES_KEYWORD5           (0x42004020) /**< \brief (AES) Keyword 5 */
+#define REG_AES_KEYWORD6           (0x42004024) /**< \brief (AES) Keyword 6 */
+#define REG_AES_KEYWORD7           (0x42004028) /**< \brief (AES) Keyword 7 */
+#define REG_AES_INDATA             (0x42004038) /**< \brief (AES) Indata */
+#define REG_AES_INTVECTV0          (0x4200403C) /**< \brief (AES) Initialisation Vector 0 */
+#define REG_AES_INTVECTV1          (0x42004040) /**< \brief (AES) Initialisation Vector 1 */
+#define REG_AES_INTVECTV2          (0x42004044) /**< \brief (AES) Initialisation Vector 2 */
+#define REG_AES_INTVECTV3          (0x42004048) /**< \brief (AES) Initialisation Vector 3 */
+#define REG_AES_HASHKEY0           (0x4200405C) /**< \brief (AES) Hash key 0 */
+#define REG_AES_HASHKEY1           (0x42004060) /**< \brief (AES) Hash key 1 */
+#define REG_AES_HASHKEY2           (0x42004064) /**< \brief (AES) Hash key 2 */
+#define REG_AES_HASHKEY3           (0x42004068) /**< \brief (AES) Hash key 3 */
+#define REG_AES_GHASH0             (0x4200406C) /**< \brief (AES) Galois Hash 0 */
+#define REG_AES_GHASH1             (0x42004070) /**< \brief (AES) Galois Hash 1 */
+#define REG_AES_GHASH2             (0x42004074) /**< \brief (AES) Galois Hash 2 */
+#define REG_AES_GHASH3             (0x42004078) /**< \brief (AES) Galois Hash 3 */
+#define REG_AES_CIPLEN             (0x42004080) /**< \brief (AES) Cipher Length */
+#define REG_AES_RANDSEED           (0x42004084) /**< \brief (AES) Random Seed */
+#else
+#define REG_AES_CTRLA              (*(RwReg  *)0x42004000UL) /**< \brief (AES) Control A */
+#define REG_AES_CTRLB              (*(RwReg8 *)0x42004004UL) /**< \brief (AES) Control B */
+#define REG_AES_INTENCLR           (*(RwReg8 *)0x42004005UL) /**< \brief (AES) Interrupt Enable Clear */
+#define REG_AES_INTENSET           (*(RwReg8 *)0x42004006UL) /**< \brief (AES) Interrupt Enable Set */
+#define REG_AES_INTFLAG            (*(RwReg8 *)0x42004007UL) /**< \brief (AES) Interrupt Flag Status */
+#define REG_AES_DATABUFPTR         (*(RwReg8 *)0x42004008UL) /**< \brief (AES) Data buffer pointer */
+#define REG_AES_DBGCTRL            (*(WoReg8 *)0x42004009UL) /**< \brief (AES) Debug control */
+#define REG_AES_KEYWORD0           (*(WoReg  *)0x4200400CUL) /**< \brief (AES) Keyword 0 */
+#define REG_AES_KEYWORD1           (*(WoReg  *)0x42004010UL) /**< \brief (AES) Keyword 1 */
+#define REG_AES_KEYWORD2           (*(WoReg  *)0x42004014UL) /**< \brief (AES) Keyword 2 */
+#define REG_AES_KEYWORD3           (*(WoReg  *)0x42004018UL) /**< \brief (AES) Keyword 3 */
+#define REG_AES_KEYWORD4           (*(WoReg  *)0x4200401CUL) /**< \brief (AES) Keyword 4 */
+#define REG_AES_KEYWORD5           (*(WoReg  *)0x42004020UL) /**< \brief (AES) Keyword 5 */
+#define REG_AES_KEYWORD6           (*(WoReg  *)0x42004024UL) /**< \brief (AES) Keyword 6 */
+#define REG_AES_KEYWORD7           (*(WoReg  *)0x42004028UL) /**< \brief (AES) Keyword 7 */
+#define REG_AES_INDATA             (*(RwReg  *)0x42004038UL) /**< \brief (AES) Indata */
+#define REG_AES_INTVECTV0          (*(WoReg  *)0x4200403CUL) /**< \brief (AES) Initialisation Vector 0 */
+#define REG_AES_INTVECTV1          (*(WoReg  *)0x42004040UL) /**< \brief (AES) Initialisation Vector 1 */
+#define REG_AES_INTVECTV2          (*(WoReg  *)0x42004044UL) /**< \brief (AES) Initialisation Vector 2 */
+#define REG_AES_INTVECTV3          (*(WoReg  *)0x42004048UL) /**< \brief (AES) Initialisation Vector 3 */
+#define REG_AES_HASHKEY0           (*(RwReg  *)0x4200405CUL) /**< \brief (AES) Hash key 0 */
+#define REG_AES_HASHKEY1           (*(RwReg  *)0x42004060UL) /**< \brief (AES) Hash key 1 */
+#define REG_AES_HASHKEY2           (*(RwReg  *)0x42004064UL) /**< \brief (AES) Hash key 2 */
+#define REG_AES_HASHKEY3           (*(RwReg  *)0x42004068UL) /**< \brief (AES) Hash key 3 */
+#define REG_AES_GHASH0             (*(RwReg  *)0x4200406CUL) /**< \brief (AES) Galois Hash 0 */
+#define REG_AES_GHASH1             (*(RwReg  *)0x42004070UL) /**< \brief (AES) Galois Hash 1 */
+#define REG_AES_GHASH2             (*(RwReg  *)0x42004074UL) /**< \brief (AES) Galois Hash 2 */
+#define REG_AES_GHASH3             (*(RwReg  *)0x42004078UL) /**< \brief (AES) Galois Hash 3 */
+#define REG_AES_CIPLEN             (*(RwReg  *)0x42004080UL) /**< \brief (AES) Cipher Length */
+#define REG_AES_RANDSEED           (*(RwReg  *)0x42004084UL) /**< \brief (AES) Random Seed */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for AES peripheral ========== */
+#define AES_DMAC_ID_RD              36       // DMA DATA Read trigger
+#define AES_DMAC_ID_WR              35       // DMA DATA Write trigger
+
+#endif /* _SAML22_AES_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/ccl.h b/watch-library/hardware/include/instance/ccl.h
new file mode 100644
index 00000000..b1e6e8e5
--- /dev/null
+++ b/watch-library/hardware/include/instance/ccl.h
@@ -0,0 +1,58 @@
+/**
+ * \file
+ *
+ * \brief Instance description for CCL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_CCL_INSTANCE_
+#define _SAML22_CCL_INSTANCE_
+
+/* ========== Register definition for CCL peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_CCL_CTRL               (0x42004800) /**< \brief (CCL) Control */
+#define REG_CCL_SEQCTRL0           (0x42004804) /**< \brief (CCL) SEQ Control x 0 */
+#define REG_CCL_SEQCTRL1           (0x42004805) /**< \brief (CCL) SEQ Control x 1 */
+#define REG_CCL_LUTCTRL0           (0x42004808) /**< \brief (CCL) LUT Control x 0 */
+#define REG_CCL_LUTCTRL1           (0x4200480C) /**< \brief (CCL) LUT Control x 1 */
+#define REG_CCL_LUTCTRL2           (0x42004810) /**< \brief (CCL) LUT Control x 2 */
+#define REG_CCL_LUTCTRL3           (0x42004814) /**< \brief (CCL) LUT Control x 3 */
+#else
+#define REG_CCL_CTRL               (*(RwReg8 *)0x42004800UL) /**< \brief (CCL) Control */
+#define REG_CCL_SEQCTRL0           (*(RwReg8 *)0x42004804UL) /**< \brief (CCL) SEQ Control x 0 */
+#define REG_CCL_SEQCTRL1           (*(RwReg8 *)0x42004805UL) /**< \brief (CCL) SEQ Control x 1 */
+#define REG_CCL_LUTCTRL0           (*(RwReg  *)0x42004808UL) /**< \brief (CCL) LUT Control x 0 */
+#define REG_CCL_LUTCTRL1           (*(RwReg  *)0x4200480CUL) /**< \brief (CCL) LUT Control x 1 */
+#define REG_CCL_LUTCTRL2           (*(RwReg  *)0x42004810UL) /**< \brief (CCL) LUT Control x 2 */
+#define REG_CCL_LUTCTRL3           (*(RwReg  *)0x42004814UL) /**< \brief (CCL) LUT Control x 3 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for CCL peripheral ========== */
+#define CCL_GCLK_ID                 28       // GCLK index for CCL
+#define CCL_IO_NUM                  12       // Numer of input pins
+#define CCL_LUT_NUM                 4        // Number of LUT in a CCL
+#define CCL_SEQ_NUM                 2        // Number of SEQ in a CCL
+
+#endif /* _SAML22_CCL_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/dmac.h b/watch-library/hardware/include/instance/dmac.h
new file mode 100644
index 00000000..2b7580d2
--- /dev/null
+++ b/watch-library/hardware/include/instance/dmac.h
@@ -0,0 +1,98 @@
+/**
+ * \file
+ *
+ * \brief Instance description for DMAC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_DMAC_INSTANCE_
+#define _SAML22_DMAC_INSTANCE_
+
+/* ========== Register definition for DMAC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_DMAC_CTRL              (0x41008000) /**< \brief (DMAC) Control */
+#define REG_DMAC_CRCCTRL           (0x41008002) /**< \brief (DMAC) CRC Control */
+#define REG_DMAC_CRCDATAIN         (0x41008004) /**< \brief (DMAC) CRC Data Input */
+#define REG_DMAC_CRCCHKSUM         (0x41008008) /**< \brief (DMAC) CRC Checksum */
+#define REG_DMAC_CRCSTATUS         (0x4100800C) /**< \brief (DMAC) CRC Status */
+#define REG_DMAC_DBGCTRL           (0x4100800D) /**< \brief (DMAC) Debug Control */
+#define REG_DMAC_QOSCTRL           (0x4100800E) /**< \brief (DMAC) QOS Control */
+#define REG_DMAC_SWTRIGCTRL        (0x41008010) /**< \brief (DMAC) Software Trigger Control */
+#define REG_DMAC_PRICTRL0          (0x41008014) /**< \brief (DMAC) Priority Control 0 */
+#define REG_DMAC_INTPEND           (0x41008020) /**< \brief (DMAC) Interrupt Pending */
+#define REG_DMAC_INTSTATUS         (0x41008024) /**< \brief (DMAC) Interrupt Status */
+#define REG_DMAC_BUSYCH            (0x41008028) /**< \brief (DMAC) Busy Channels */
+#define REG_DMAC_PENDCH            (0x4100802C) /**< \brief (DMAC) Pending Channels */
+#define REG_DMAC_ACTIVE            (0x41008030) /**< \brief (DMAC) Active Channel and Levels */
+#define REG_DMAC_BASEADDR          (0x41008034) /**< \brief (DMAC) Descriptor Memory Section Base Address */
+#define REG_DMAC_WRBADDR           (0x41008038) /**< \brief (DMAC) Write-Back Memory Section Base Address */
+#define REG_DMAC_CHID              (0x4100803F) /**< \brief (DMAC) Channel ID */
+#define REG_DMAC_CHCTRLA           (0x41008040) /**< \brief (DMAC) Channel Control A */
+#define REG_DMAC_CHCTRLB           (0x41008044) /**< \brief (DMAC) Channel Control B */
+#define REG_DMAC_CHINTENCLR        (0x4100804C) /**< \brief (DMAC) Channel Interrupt Enable Clear */
+#define REG_DMAC_CHINTENSET        (0x4100804D) /**< \brief (DMAC) Channel Interrupt Enable Set */
+#define REG_DMAC_CHINTFLAG         (0x4100804E) /**< \brief (DMAC) Channel Interrupt Flag Status and Clear */
+#define REG_DMAC_CHSTATUS          (0x4100804F) /**< \brief (DMAC) Channel Status */
+#else
+#define REG_DMAC_CTRL              (*(RwReg16*)0x41008000UL) /**< \brief (DMAC) Control */
+#define REG_DMAC_CRCCTRL           (*(RwReg16*)0x41008002UL) /**< \brief (DMAC) CRC Control */
+#define REG_DMAC_CRCDATAIN         (*(RwReg  *)0x41008004UL) /**< \brief (DMAC) CRC Data Input */
+#define REG_DMAC_CRCCHKSUM         (*(RwReg  *)0x41008008UL) /**< \brief (DMAC) CRC Checksum */
+#define REG_DMAC_CRCSTATUS         (*(RwReg8 *)0x4100800CUL) /**< \brief (DMAC) CRC Status */
+#define REG_DMAC_DBGCTRL           (*(RwReg8 *)0x4100800DUL) /**< \brief (DMAC) Debug Control */
+#define REG_DMAC_QOSCTRL           (*(RwReg8 *)0x4100800EUL) /**< \brief (DMAC) QOS Control */
+#define REG_DMAC_SWTRIGCTRL        (*(RwReg  *)0x41008010UL) /**< \brief (DMAC) Software Trigger Control */
+#define REG_DMAC_PRICTRL0          (*(RwReg  *)0x41008014UL) /**< \brief (DMAC) Priority Control 0 */
+#define REG_DMAC_INTPEND           (*(RwReg16*)0x41008020UL) /**< \brief (DMAC) Interrupt Pending */
+#define REG_DMAC_INTSTATUS         (*(RoReg  *)0x41008024UL) /**< \brief (DMAC) Interrupt Status */
+#define REG_DMAC_BUSYCH            (*(RoReg  *)0x41008028UL) /**< \brief (DMAC) Busy Channels */
+#define REG_DMAC_PENDCH            (*(RoReg  *)0x4100802CUL) /**< \brief (DMAC) Pending Channels */
+#define REG_DMAC_ACTIVE            (*(RoReg  *)0x41008030UL) /**< \brief (DMAC) Active Channel and Levels */
+#define REG_DMAC_BASEADDR          (*(RwReg  *)0x41008034UL) /**< \brief (DMAC) Descriptor Memory Section Base Address */
+#define REG_DMAC_WRBADDR           (*(RwReg  *)0x41008038UL) /**< \brief (DMAC) Write-Back Memory Section Base Address */
+#define REG_DMAC_CHID              (*(RwReg8 *)0x4100803FUL) /**< \brief (DMAC) Channel ID */
+#define REG_DMAC_CHCTRLA           (*(RwReg8 *)0x41008040UL) /**< \brief (DMAC) Channel Control A */
+#define REG_DMAC_CHCTRLB           (*(RwReg  *)0x41008044UL) /**< \brief (DMAC) Channel Control B */
+#define REG_DMAC_CHINTENCLR        (*(RwReg8 *)0x4100804CUL) /**< \brief (DMAC) Channel Interrupt Enable Clear */
+#define REG_DMAC_CHINTENSET        (*(RwReg8 *)0x4100804DUL) /**< \brief (DMAC) Channel Interrupt Enable Set */
+#define REG_DMAC_CHINTFLAG         (*(RwReg8 *)0x4100804EUL) /**< \brief (DMAC) Channel Interrupt Flag Status and Clear */
+#define REG_DMAC_CHSTATUS          (*(RoReg8 *)0x4100804FUL) /**< \brief (DMAC) Channel Status */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for DMAC peripheral ========== */
+#define DMAC_CH_BITS                4        // Number of bits to select channel
+#define DMAC_CH_NUM                 16       // Number of channels
+#define DMAC_CLK_AHB_ID             3        // AHB clock index
+#define DMAC_EVIN_NUM               4        // Number of input events
+#define DMAC_EVOUT_NUM              4        // Number of output events
+#define DMAC_LVL_BITS               2        // Number of bit to select level priority
+#define DMAC_LVL_NUM                4        // Enable priority level number
+#define DMAC_QOSCTRL_D_RESETVALUE   2        // QOS dmac ahb interface reset value
+#define DMAC_QOSCTRL_F_RESETVALUE   2        // QOS dmac fetch interface reset value
+#define DMAC_QOSCTRL_WRB_RESETVALUE 2        // QOS dmac write back interface reset value
+#define DMAC_TRIG_BITS              6        // Number of bits to select trigger source
+#define DMAC_TRIG_NUM               40       // Number of peripheral triggers
+
+#endif /* _SAML22_DMAC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/dsu.h b/watch-library/hardware/include/instance/dsu.h
new file mode 100644
index 00000000..8c13d4f1
--- /dev/null
+++ b/watch-library/hardware/include/instance/dsu.h
@@ -0,0 +1,95 @@
+/**
+ * \file
+ *
+ * \brief Instance description for DSU
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_DSU_INSTANCE_
+#define _SAML22_DSU_INSTANCE_
+
+/* ========== Register definition for DSU peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_DSU_CTRL               (0x41002000) /**< \brief (DSU) Control */
+#define REG_DSU_STATUSA            (0x41002001) /**< \brief (DSU) Status A */
+#define REG_DSU_STATUSB            (0x41002002) /**< \brief (DSU) Status B */
+#define REG_DSU_ADDR               (0x41002004) /**< \brief (DSU) Address */
+#define REG_DSU_LENGTH             (0x41002008) /**< \brief (DSU) Length */
+#define REG_DSU_DATA               (0x4100200C) /**< \brief (DSU) Data */
+#define REG_DSU_DCC0               (0x41002010) /**< \brief (DSU) Debug Communication Channel 0 */
+#define REG_DSU_DCC1               (0x41002014) /**< \brief (DSU) Debug Communication Channel 1 */
+#define REG_DSU_DID                (0x41002018) /**< \brief (DSU) Device Identification */
+#define REG_DSU_DCFG0              (0x410020F0) /**< \brief (DSU) Device Configuration 0 */
+#define REG_DSU_DCFG1              (0x410020F4) /**< \brief (DSU) Device Configuration 1 */
+#define REG_DSU_ENTRY0             (0x41003000) /**< \brief (DSU) CoreSight ROM Table Entry 0 */
+#define REG_DSU_ENTRY1             (0x41003004) /**< \brief (DSU) CoreSight ROM Table Entry 1 */
+#define REG_DSU_END                (0x41003008) /**< \brief (DSU) CoreSight ROM Table End */
+#define REG_DSU_MEMTYPE            (0x41003FCC) /**< \brief (DSU) CoreSight ROM Table Memory Type */
+#define REG_DSU_PID4               (0x41003FD0) /**< \brief (DSU) Peripheral Identification 4 */
+#define REG_DSU_PID5               (0x41003FD4) /**< \brief (DSU) Peripheral Identification 5 */
+#define REG_DSU_PID6               (0x41003FD8) /**< \brief (DSU) Peripheral Identification 6 */
+#define REG_DSU_PID7               (0x41003FDC) /**< \brief (DSU) Peripheral Identification 7 */
+#define REG_DSU_PID0               (0x41003FE0) /**< \brief (DSU) Peripheral Identification 0 */
+#define REG_DSU_PID1               (0x41003FE4) /**< \brief (DSU) Peripheral Identification 1 */
+#define REG_DSU_PID2               (0x41003FE8) /**< \brief (DSU) Peripheral Identification 2 */
+#define REG_DSU_PID3               (0x41003FEC) /**< \brief (DSU) Peripheral Identification 3 */
+#define REG_DSU_CID0               (0x41003FF0) /**< \brief (DSU) Component Identification 0 */
+#define REG_DSU_CID1               (0x41003FF4) /**< \brief (DSU) Component Identification 1 */
+#define REG_DSU_CID2               (0x41003FF8) /**< \brief (DSU) Component Identification 2 */
+#define REG_DSU_CID3               (0x41003FFC) /**< \brief (DSU) Component Identification 3 */
+#else
+#define REG_DSU_CTRL               (*(WoReg8 *)0x41002000UL) /**< \brief (DSU) Control */
+#define REG_DSU_STATUSA            (*(RwReg8 *)0x41002001UL) /**< \brief (DSU) Status A */
+#define REG_DSU_STATUSB            (*(RoReg8 *)0x41002002UL) /**< \brief (DSU) Status B */
+#define REG_DSU_ADDR               (*(RwReg  *)0x41002004UL) /**< \brief (DSU) Address */
+#define REG_DSU_LENGTH             (*(RwReg  *)0x41002008UL) /**< \brief (DSU) Length */
+#define REG_DSU_DATA               (*(RwReg  *)0x4100200CUL) /**< \brief (DSU) Data */
+#define REG_DSU_DCC0               (*(RwReg  *)0x41002010UL) /**< \brief (DSU) Debug Communication Channel 0 */
+#define REG_DSU_DCC1               (*(RwReg  *)0x41002014UL) /**< \brief (DSU) Debug Communication Channel 1 */
+#define REG_DSU_DID                (*(RoReg  *)0x41002018UL) /**< \brief (DSU) Device Identification */
+#define REG_DSU_DCFG0              (*(RwReg  *)0x410020F0UL) /**< \brief (DSU) Device Configuration 0 */
+#define REG_DSU_DCFG1              (*(RwReg  *)0x410020F4UL) /**< \brief (DSU) Device Configuration 1 */
+#define REG_DSU_ENTRY0             (*(RoReg  *)0x41003000UL) /**< \brief (DSU) CoreSight ROM Table Entry 0 */
+#define REG_DSU_ENTRY1             (*(RoReg  *)0x41003004UL) /**< \brief (DSU) CoreSight ROM Table Entry 1 */
+#define REG_DSU_END                (*(RoReg  *)0x41003008UL) /**< \brief (DSU) CoreSight ROM Table End */
+#define REG_DSU_MEMTYPE            (*(RoReg  *)0x41003FCCUL) /**< \brief (DSU) CoreSight ROM Table Memory Type */
+#define REG_DSU_PID4               (*(RoReg  *)0x41003FD0UL) /**< \brief (DSU) Peripheral Identification 4 */
+#define REG_DSU_PID5               (*(RoReg  *)0x41003FD4UL) /**< \brief (DSU) Peripheral Identification 5 */
+#define REG_DSU_PID6               (*(RoReg  *)0x41003FD8UL) /**< \brief (DSU) Peripheral Identification 6 */
+#define REG_DSU_PID7               (*(RoReg  *)0x41003FDCUL) /**< \brief (DSU) Peripheral Identification 7 */
+#define REG_DSU_PID0               (*(RoReg  *)0x41003FE0UL) /**< \brief (DSU) Peripheral Identification 0 */
+#define REG_DSU_PID1               (*(RoReg  *)0x41003FE4UL) /**< \brief (DSU) Peripheral Identification 1 */
+#define REG_DSU_PID2               (*(RoReg  *)0x41003FE8UL) /**< \brief (DSU) Peripheral Identification 2 */
+#define REG_DSU_PID3               (*(RoReg  *)0x41003FECUL) /**< \brief (DSU) Peripheral Identification 3 */
+#define REG_DSU_CID0               (*(RoReg  *)0x41003FF0UL) /**< \brief (DSU) Component Identification 0 */
+#define REG_DSU_CID1               (*(RoReg  *)0x41003FF4UL) /**< \brief (DSU) Component Identification 1 */
+#define REG_DSU_CID2               (*(RoReg  *)0x41003FF8UL) /**< \brief (DSU) Component Identification 2 */
+#define REG_DSU_CID3               (*(RoReg  *)0x41003FFCUL) /**< \brief (DSU) Component Identification 3 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for DSU peripheral ========== */
+#define DSU_CLK_AHB_ID              5       
+
+#endif /* _SAML22_DSU_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/eic.h b/watch-library/hardware/include/instance/eic.h
new file mode 100644
index 00000000..31a5a31f
--- /dev/null
+++ b/watch-library/hardware/include/instance/eic.h
@@ -0,0 +1,66 @@
+/**
+ * \file
+ *
+ * \brief Instance description for EIC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_EIC_INSTANCE_
+#define _SAML22_EIC_INSTANCE_
+
+/* ========== Register definition for EIC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_EIC_CTRLA              (0x40002800) /**< \brief (EIC) Control */
+#define REG_EIC_NMICTRL            (0x40002801) /**< \brief (EIC) NMI Control */
+#define REG_EIC_NMIFLAG            (0x40002802) /**< \brief (EIC) NMI Interrupt Flag */
+#define REG_EIC_SYNCBUSY           (0x40002804) /**< \brief (EIC) Syncbusy register */
+#define REG_EIC_EVCTRL             (0x40002808) /**< \brief (EIC) Event Control */
+#define REG_EIC_INTENCLR           (0x4000280C) /**< \brief (EIC) Interrupt Enable Clear */
+#define REG_EIC_INTENSET           (0x40002810) /**< \brief (EIC) Interrupt Enable Set */
+#define REG_EIC_INTFLAG            (0x40002814) /**< \brief (EIC) Interrupt Flag Status and Clear */
+#define REG_EIC_ASYNCH             (0x40002818) /**< \brief (EIC) EIC Asynchronous edge Detection Enable */
+#define REG_EIC_CONFIG0            (0x4000281C) /**< \brief (EIC) Configuration 0 */
+#define REG_EIC_CONFIG1            (0x40002820) /**< \brief (EIC) Configuration 1 */
+#else
+#define REG_EIC_CTRLA              (*(RwReg8 *)0x40002800UL) /**< \brief (EIC) Control */
+#define REG_EIC_NMICTRL            (*(RwReg8 *)0x40002801UL) /**< \brief (EIC) NMI Control */
+#define REG_EIC_NMIFLAG            (*(RwReg16*)0x40002802UL) /**< \brief (EIC) NMI Interrupt Flag */
+#define REG_EIC_SYNCBUSY           (*(RoReg  *)0x40002804UL) /**< \brief (EIC) Syncbusy register */
+#define REG_EIC_EVCTRL             (*(RwReg  *)0x40002808UL) /**< \brief (EIC) Event Control */
+#define REG_EIC_INTENCLR           (*(RwReg  *)0x4000280CUL) /**< \brief (EIC) Interrupt Enable Clear */
+#define REG_EIC_INTENSET           (*(RwReg  *)0x40002810UL) /**< \brief (EIC) Interrupt Enable Set */
+#define REG_EIC_INTFLAG            (*(RwReg  *)0x40002814UL) /**< \brief (EIC) Interrupt Flag Status and Clear */
+#define REG_EIC_ASYNCH             (*(RwReg  *)0x40002818UL) /**< \brief (EIC) EIC Asynchronous edge Detection Enable */
+#define REG_EIC_CONFIG0            (*(RwReg  *)0x4000281CUL) /**< \brief (EIC) Configuration 0 */
+#define REG_EIC_CONFIG1            (*(RwReg  *)0x40002820UL) /**< \brief (EIC) Configuration 1 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for EIC peripheral ========== */
+#define EIC_EXTINT_NUM              16      
+#define EIC_GCLK_ID                 3       
+#define EIC_NUMBER_OF_CONFIG_REGS   2       
+#define EIC_NUMBER_OF_INTERRUPTS    16      
+
+#endif /* _SAML22_EIC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/evsys.h b/watch-library/hardware/include/instance/evsys.h
new file mode 100644
index 00000000..a78277ac
--- /dev/null
+++ b/watch-library/hardware/include/instance/evsys.h
@@ -0,0 +1,250 @@
+/**
+ * \file
+ *
+ * \brief Instance description for EVSYS
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_EVSYS_INSTANCE_
+#define _SAML22_EVSYS_INSTANCE_
+
+/* ========== Register definition for EVSYS peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_EVSYS_CTRLA            (0x42000000) /**< \brief (EVSYS) Control */
+#define REG_EVSYS_CHSTATUS         (0x4200000C) /**< \brief (EVSYS) Channel Status */
+#define REG_EVSYS_INTENCLR         (0x42000010) /**< \brief (EVSYS) Interrupt Enable Clear */
+#define REG_EVSYS_INTENSET         (0x42000014) /**< \brief (EVSYS) Interrupt Enable Set */
+#define REG_EVSYS_INTFLAG          (0x42000018) /**< \brief (EVSYS) Interrupt Flag Status and Clear */
+#define REG_EVSYS_SWEVT            (0x4200001C) /**< \brief (EVSYS) Software Event */
+#define REG_EVSYS_CHANNEL0         (0x42000020) /**< \brief (EVSYS) Channel 0 */
+#define REG_EVSYS_CHANNEL1         (0x42000024) /**< \brief (EVSYS) Channel 1 */
+#define REG_EVSYS_CHANNEL2         (0x42000028) /**< \brief (EVSYS) Channel 2 */
+#define REG_EVSYS_CHANNEL3         (0x4200002C) /**< \brief (EVSYS) Channel 3 */
+#define REG_EVSYS_CHANNEL4         (0x42000030) /**< \brief (EVSYS) Channel 4 */
+#define REG_EVSYS_CHANNEL5         (0x42000034) /**< \brief (EVSYS) Channel 5 */
+#define REG_EVSYS_CHANNEL6         (0x42000038) /**< \brief (EVSYS) Channel 6 */
+#define REG_EVSYS_CHANNEL7         (0x4200003C) /**< \brief (EVSYS) Channel 7 */
+#define REG_EVSYS_USER0            (0x42000080) /**< \brief (EVSYS) User Multiplexer 0 */
+#define REG_EVSYS_USER1            (0x42000084) /**< \brief (EVSYS) User Multiplexer 1 */
+#define REG_EVSYS_USER2            (0x42000088) /**< \brief (EVSYS) User Multiplexer 2 */
+#define REG_EVSYS_USER3            (0x4200008C) /**< \brief (EVSYS) User Multiplexer 3 */
+#define REG_EVSYS_USER4            (0x42000090) /**< \brief (EVSYS) User Multiplexer 4 */
+#define REG_EVSYS_USER5            (0x42000094) /**< \brief (EVSYS) User Multiplexer 5 */
+#define REG_EVSYS_USER6            (0x42000098) /**< \brief (EVSYS) User Multiplexer 6 */
+#define REG_EVSYS_USER7            (0x4200009C) /**< \brief (EVSYS) User Multiplexer 7 */
+#define REG_EVSYS_USER8            (0x420000A0) /**< \brief (EVSYS) User Multiplexer 8 */
+#define REG_EVSYS_USER9            (0x420000A4) /**< \brief (EVSYS) User Multiplexer 9 */
+#define REG_EVSYS_USER10           (0x420000A8) /**< \brief (EVSYS) User Multiplexer 10 */
+#define REG_EVSYS_USER11           (0x420000AC) /**< \brief (EVSYS) User Multiplexer 11 */
+#define REG_EVSYS_USER12           (0x420000B0) /**< \brief (EVSYS) User Multiplexer 12 */
+#define REG_EVSYS_USER13           (0x420000B4) /**< \brief (EVSYS) User Multiplexer 13 */
+#define REG_EVSYS_USER14           (0x420000B8) /**< \brief (EVSYS) User Multiplexer 14 */
+#define REG_EVSYS_USER15           (0x420000BC) /**< \brief (EVSYS) User Multiplexer 15 */
+#define REG_EVSYS_USER16           (0x420000C0) /**< \brief (EVSYS) User Multiplexer 16 */
+#define REG_EVSYS_USER17           (0x420000C4) /**< \brief (EVSYS) User Multiplexer 17 */
+#define REG_EVSYS_USER18           (0x420000C8) /**< \brief (EVSYS) User Multiplexer 18 */
+#define REG_EVSYS_USER19           (0x420000CC) /**< \brief (EVSYS) User Multiplexer 19 */
+#define REG_EVSYS_USER20           (0x420000D0) /**< \brief (EVSYS) User Multiplexer 20 */
+#define REG_EVSYS_USER21           (0x420000D4) /**< \brief (EVSYS) User Multiplexer 21 */
+#define REG_EVSYS_USER22           (0x420000D8) /**< \brief (EVSYS) User Multiplexer 22 */
+#define REG_EVSYS_USER23           (0x420000DC) /**< \brief (EVSYS) User Multiplexer 23 */
+#define REG_EVSYS_USER24           (0x420000E0) /**< \brief (EVSYS) User Multiplexer 24 */
+#define REG_EVSYS_USER25           (0x420000E4) /**< \brief (EVSYS) User Multiplexer 25 */
+#define REG_EVSYS_USER26           (0x420000E8) /**< \brief (EVSYS) User Multiplexer 26 */
+#define REG_EVSYS_USER27           (0x420000EC) /**< \brief (EVSYS) User Multiplexer 27 */
+#define REG_EVSYS_USER28           (0x420000F0) /**< \brief (EVSYS) User Multiplexer 28 */
+#define REG_EVSYS_USER29           (0x420000F4) /**< \brief (EVSYS) User Multiplexer 29 */
+#define REG_EVSYS_USER30           (0x420000F8) /**< \brief (EVSYS) User Multiplexer 30 */
+#else
+#define REG_EVSYS_CTRLA            (*(RwReg8 *)0x42000000UL) /**< \brief (EVSYS) Control */
+#define REG_EVSYS_CHSTATUS         (*(RoReg  *)0x4200000CUL) /**< \brief (EVSYS) Channel Status */
+#define REG_EVSYS_INTENCLR         (*(RwReg  *)0x42000010UL) /**< \brief (EVSYS) Interrupt Enable Clear */
+#define REG_EVSYS_INTENSET         (*(RwReg  *)0x42000014UL) /**< \brief (EVSYS) Interrupt Enable Set */
+#define REG_EVSYS_INTFLAG          (*(RwReg  *)0x42000018UL) /**< \brief (EVSYS) Interrupt Flag Status and Clear */
+#define REG_EVSYS_SWEVT            (*(WoReg  *)0x4200001CUL) /**< \brief (EVSYS) Software Event */
+#define REG_EVSYS_CHANNEL0         (*(RwReg  *)0x42000020UL) /**< \brief (EVSYS) Channel 0 */
+#define REG_EVSYS_CHANNEL1         (*(RwReg  *)0x42000024UL) /**< \brief (EVSYS) Channel 1 */
+#define REG_EVSYS_CHANNEL2         (*(RwReg  *)0x42000028UL) /**< \brief (EVSYS) Channel 2 */
+#define REG_EVSYS_CHANNEL3         (*(RwReg  *)0x4200002CUL) /**< \brief (EVSYS) Channel 3 */
+#define REG_EVSYS_CHANNEL4         (*(RwReg  *)0x42000030UL) /**< \brief (EVSYS) Channel 4 */
+#define REG_EVSYS_CHANNEL5         (*(RwReg  *)0x42000034UL) /**< \brief (EVSYS) Channel 5 */
+#define REG_EVSYS_CHANNEL6         (*(RwReg  *)0x42000038UL) /**< \brief (EVSYS) Channel 6 */
+#define REG_EVSYS_CHANNEL7         (*(RwReg  *)0x4200003CUL) /**< \brief (EVSYS) Channel 7 */
+#define REG_EVSYS_USER0            (*(RwReg  *)0x42000080UL) /**< \brief (EVSYS) User Multiplexer 0 */
+#define REG_EVSYS_USER1            (*(RwReg  *)0x42000084UL) /**< \brief (EVSYS) User Multiplexer 1 */
+#define REG_EVSYS_USER2            (*(RwReg  *)0x42000088UL) /**< \brief (EVSYS) User Multiplexer 2 */
+#define REG_EVSYS_USER3            (*(RwReg  *)0x4200008CUL) /**< \brief (EVSYS) User Multiplexer 3 */
+#define REG_EVSYS_USER4            (*(RwReg  *)0x42000090UL) /**< \brief (EVSYS) User Multiplexer 4 */
+#define REG_EVSYS_USER5            (*(RwReg  *)0x42000094UL) /**< \brief (EVSYS) User Multiplexer 5 */
+#define REG_EVSYS_USER6            (*(RwReg  *)0x42000098UL) /**< \brief (EVSYS) User Multiplexer 6 */
+#define REG_EVSYS_USER7            (*(RwReg  *)0x4200009CUL) /**< \brief (EVSYS) User Multiplexer 7 */
+#define REG_EVSYS_USER8            (*(RwReg  *)0x420000A0UL) /**< \brief (EVSYS) User Multiplexer 8 */
+#define REG_EVSYS_USER9            (*(RwReg  *)0x420000A4UL) /**< \brief (EVSYS) User Multiplexer 9 */
+#define REG_EVSYS_USER10           (*(RwReg  *)0x420000A8UL) /**< \brief (EVSYS) User Multiplexer 10 */
+#define REG_EVSYS_USER11           (*(RwReg  *)0x420000ACUL) /**< \brief (EVSYS) User Multiplexer 11 */
+#define REG_EVSYS_USER12           (*(RwReg  *)0x420000B0UL) /**< \brief (EVSYS) User Multiplexer 12 */
+#define REG_EVSYS_USER13           (*(RwReg  *)0x420000B4UL) /**< \brief (EVSYS) User Multiplexer 13 */
+#define REG_EVSYS_USER14           (*(RwReg  *)0x420000B8UL) /**< \brief (EVSYS) User Multiplexer 14 */
+#define REG_EVSYS_USER15           (*(RwReg  *)0x420000BCUL) /**< \brief (EVSYS) User Multiplexer 15 */
+#define REG_EVSYS_USER16           (*(RwReg  *)0x420000C0UL) /**< \brief (EVSYS) User Multiplexer 16 */
+#define REG_EVSYS_USER17           (*(RwReg  *)0x420000C4UL) /**< \brief (EVSYS) User Multiplexer 17 */
+#define REG_EVSYS_USER18           (*(RwReg  *)0x420000C8UL) /**< \brief (EVSYS) User Multiplexer 18 */
+#define REG_EVSYS_USER19           (*(RwReg  *)0x420000CCUL) /**< \brief (EVSYS) User Multiplexer 19 */
+#define REG_EVSYS_USER20           (*(RwReg  *)0x420000D0UL) /**< \brief (EVSYS) User Multiplexer 20 */
+#define REG_EVSYS_USER21           (*(RwReg  *)0x420000D4UL) /**< \brief (EVSYS) User Multiplexer 21 */
+#define REG_EVSYS_USER22           (*(RwReg  *)0x420000D8UL) /**< \brief (EVSYS) User Multiplexer 22 */
+#define REG_EVSYS_USER23           (*(RwReg  *)0x420000DCUL) /**< \brief (EVSYS) User Multiplexer 23 */
+#define REG_EVSYS_USER24           (*(RwReg  *)0x420000E0UL) /**< \brief (EVSYS) User Multiplexer 24 */
+#define REG_EVSYS_USER25           (*(RwReg  *)0x420000E4UL) /**< \brief (EVSYS) User Multiplexer 25 */
+#define REG_EVSYS_USER26           (*(RwReg  *)0x420000E8UL) /**< \brief (EVSYS) User Multiplexer 26 */
+#define REG_EVSYS_USER27           (*(RwReg  *)0x420000ECUL) /**< \brief (EVSYS) User Multiplexer 27 */
+#define REG_EVSYS_USER28           (*(RwReg  *)0x420000F0UL) /**< \brief (EVSYS) User Multiplexer 28 */
+#define REG_EVSYS_USER29           (*(RwReg  *)0x420000F4UL) /**< \brief (EVSYS) User Multiplexer 29 */
+#define REG_EVSYS_USER30           (*(RwReg  *)0x420000F8UL) /**< \brief (EVSYS) User Multiplexer 30 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for EVSYS peripheral ========== */
+#define EVSYS_CHANNELS              8        // Number of Channels
+#define EVSYS_CHANNELS_BITS         3        // Number of bits to select Channel
+#define EVSYS_CHANNELS_MSB          7        // Number of Channels - 1
+#define EVSYS_EXTEVT_NUM            0        // Number of External Event Generators
+#define EVSYS_GCLK_ID_0             7
+#define EVSYS_GCLK_ID_1             8
+#define EVSYS_GCLK_ID_2             9
+#define EVSYS_GCLK_ID_3             10
+#define EVSYS_GCLK_ID_4             11
+#define EVSYS_GCLK_ID_5             12
+#define EVSYS_GCLK_ID_6             13
+#define EVSYS_GCLK_ID_7             14
+#define EVSYS_GCLK_ID_LSB           7
+#define EVSYS_GCLK_ID_MSB           14
+#define EVSYS_GCLK_ID_SIZE          8
+#define EVSYS_GENERATORS            71       // Total Number of Event Generators
+#define EVSYS_GENERATORS_BITS       7        // Number of bits to select Event Generator
+#define EVSYS_USERS                 31       // Total Number of Event Users
+#define EVSYS_USERS_BITS            5        // Number of bits to select Event User
+
+// GENERATORS
+#define EVSYS_ID_GEN_OSCCTRL_XOSC_FAIL 1
+#define EVSYS_ID_GEN_OSC32KCTRL_XOSC32K_FAIL 2
+#define EVSYS_ID_GEN_RTC_CMP_0      3
+#define EVSYS_ID_GEN_RTC_CMP_1      4
+#define EVSYS_ID_GEN_RTC_TAMPER     5
+#define EVSYS_ID_GEN_RTC_OVF        6
+#define EVSYS_ID_GEN_RTC_PER_0      7
+#define EVSYS_ID_GEN_RTC_PER_1      8
+#define EVSYS_ID_GEN_RTC_PER_2      9
+#define EVSYS_ID_GEN_RTC_PER_3      10
+#define EVSYS_ID_GEN_RTC_PER_4      11
+#define EVSYS_ID_GEN_RTC_PER_5      12
+#define EVSYS_ID_GEN_RTC_PER_6      13
+#define EVSYS_ID_GEN_RTC_PER_7      14
+#define EVSYS_ID_GEN_EIC_EXTINT_0   15
+#define EVSYS_ID_GEN_EIC_EXTINT_1   16
+#define EVSYS_ID_GEN_EIC_EXTINT_2   17
+#define EVSYS_ID_GEN_EIC_EXTINT_3   18
+#define EVSYS_ID_GEN_EIC_EXTINT_4   19
+#define EVSYS_ID_GEN_EIC_EXTINT_5   20
+#define EVSYS_ID_GEN_EIC_EXTINT_6   21
+#define EVSYS_ID_GEN_EIC_EXTINT_7   22
+#define EVSYS_ID_GEN_EIC_EXTINT_8   23
+#define EVSYS_ID_GEN_EIC_EXTINT_9   24
+#define EVSYS_ID_GEN_EIC_EXTINT_10  25
+#define EVSYS_ID_GEN_EIC_EXTINT_11  26
+#define EVSYS_ID_GEN_EIC_EXTINT_12  27
+#define EVSYS_ID_GEN_EIC_EXTINT_13  28
+#define EVSYS_ID_GEN_EIC_EXTINT_14  29
+#define EVSYS_ID_GEN_EIC_EXTINT_15  30
+#define EVSYS_ID_GEN_DMAC_CH_0      31
+#define EVSYS_ID_GEN_DMAC_CH_1      32
+#define EVSYS_ID_GEN_DMAC_CH_2      33
+#define EVSYS_ID_GEN_DMAC_CH_3      34
+#define EVSYS_ID_GEN_TCC0_OVF       35
+#define EVSYS_ID_GEN_TCC0_TRG       36
+#define EVSYS_ID_GEN_TCC0_CNT       37
+#define EVSYS_ID_GEN_TCC0_MCX_0     38
+#define EVSYS_ID_GEN_TCC0_MCX_1     39
+#define EVSYS_ID_GEN_TCC0_MCX_2     40
+#define EVSYS_ID_GEN_TCC0_MCX_3     41
+#define EVSYS_ID_GEN_TC0_OVF        42
+#define EVSYS_ID_GEN_TC0_MCX_0      43
+#define EVSYS_ID_GEN_TC0_MCX_1      44
+#define EVSYS_ID_GEN_TC1_OVF        45
+#define EVSYS_ID_GEN_TC1_MCX_0      46
+#define EVSYS_ID_GEN_TC1_MCX_1      47
+#define EVSYS_ID_GEN_TC2_OVF        48
+#define EVSYS_ID_GEN_TC2_MCX_0      49
+#define EVSYS_ID_GEN_TC2_MCX_1      50
+#define EVSYS_ID_GEN_TC3_OVF        51
+#define EVSYS_ID_GEN_TC3_MCX_0      52
+#define EVSYS_ID_GEN_TC3_MCX_1      53
+#define EVSYS_ID_GEN_ADC_RESRDY     54
+#define EVSYS_ID_GEN_ADC_WINMON     55
+#define EVSYS_ID_GEN_AC_COMP_0      56
+#define EVSYS_ID_GEN_AC_COMP_1      57
+#define EVSYS_ID_GEN_AC_WIN_0       58
+#define EVSYS_ID_GEN_SLCD_FC0OVERFLOW 61
+#define EVSYS_ID_GEN_SLCD_FC1OVERFLOW 62
+#define EVSYS_ID_GEN_SLCD_FC2OVERFLOW 63
+#define EVSYS_ID_GEN_SLCD_DT        64
+#define EVSYS_ID_GEN_TRNG_READY     65
+#define EVSYS_ID_GEN_CCL_LUTOUT_0   66
+#define EVSYS_ID_GEN_CCL_LUTOUT_1   67
+#define EVSYS_ID_GEN_CCL_LUTOUT_2   68
+#define EVSYS_ID_GEN_CCL_LUTOUT_3   69
+#define EVSYS_ID_GEN_PAC_ACCERR     70
+
+// USERS
+#define EVSYS_ID_USER_RTC_TAMPER    0
+#define EVSYS_ID_USER_PORT_EV_0     1
+#define EVSYS_ID_USER_PORT_EV_1     2
+#define EVSYS_ID_USER_PORT_EV_2     3
+#define EVSYS_ID_USER_PORT_EV_3     4
+#define EVSYS_ID_USER_DMAC_CH_0     5
+#define EVSYS_ID_USER_DMAC_CH_1     6
+#define EVSYS_ID_USER_DMAC_CH_2     7
+#define EVSYS_ID_USER_DMAC_CH_3     8
+#define EVSYS_ID_USER_TCC0_EV_0     9
+#define EVSYS_ID_USER_TCC0_EV_1     10
+#define EVSYS_ID_USER_TCC0_MC_0     11
+#define EVSYS_ID_USER_TCC0_MC_1     12
+#define EVSYS_ID_USER_TCC0_MC_2     13
+#define EVSYS_ID_USER_TCC0_MC_3     14
+#define EVSYS_ID_USER_TC0_EVU       15
+#define EVSYS_ID_USER_TC1_EVU       16
+#define EVSYS_ID_USER_TC2_EVU       17
+#define EVSYS_ID_USER_TC3_EVU       18
+#define EVSYS_ID_USER_ADC_START     19
+#define EVSYS_ID_USER_ADC_SYNC      20
+#define EVSYS_ID_USER_AC_SOC_0      21
+#define EVSYS_ID_USER_AC_SOC_1      22
+#define EVSYS_ID_USER_CCL_LUTIN_0   24
+#define EVSYS_ID_USER_CCL_LUTIN_1   25
+#define EVSYS_ID_USER_CCL_LUTIN_2   26
+#define EVSYS_ID_USER_CCL_LUTIN_3   27
+#define EVSYS_ID_USER_MTB_START     29
+#define EVSYS_ID_USER_MTB_STOP      30
+
+#endif /* _SAML22_EVSYS_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/freqm.h b/watch-library/hardware/include/instance/freqm.h
new file mode 100644
index 00000000..4c2e2102
--- /dev/null
+++ b/watch-library/hardware/include/instance/freqm.h
@@ -0,0 +1,60 @@
+/**
+ * \file
+ *
+ * \brief Instance description for FREQM
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_FREQM_INSTANCE_
+#define _SAML22_FREQM_INSTANCE_
+
+/* ========== Register definition for FREQM peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_FREQM_CTRLA            (0x40002C00) /**< \brief (FREQM) Control A Register */
+#define REG_FREQM_CTRLB            (0x40002C01) /**< \brief (FREQM) Control B Register */
+#define REG_FREQM_CFGA             (0x40002C02) /**< \brief (FREQM) Config A register */
+#define REG_FREQM_INTENCLR         (0x40002C08) /**< \brief (FREQM) Interrupt Enable Clear Register */
+#define REG_FREQM_INTENSET         (0x40002C09) /**< \brief (FREQM) Interrupt Enable Set Register */
+#define REG_FREQM_INTFLAG          (0x40002C0A) /**< \brief (FREQM) Interrupt Flag Register */
+#define REG_FREQM_STATUS           (0x40002C0B) /**< \brief (FREQM) Status Register */
+#define REG_FREQM_SYNCBUSY         (0x40002C0C) /**< \brief (FREQM) Synchronization Busy Register */
+#define REG_FREQM_VALUE            (0x40002C10) /**< \brief (FREQM) Count Value Register */
+#else
+#define REG_FREQM_CTRLA            (*(RwReg8 *)0x40002C00UL) /**< \brief (FREQM) Control A Register */
+#define REG_FREQM_CTRLB            (*(WoReg8 *)0x40002C01UL) /**< \brief (FREQM) Control B Register */
+#define REG_FREQM_CFGA             (*(RwReg16*)0x40002C02UL) /**< \brief (FREQM) Config A register */
+#define REG_FREQM_INTENCLR         (*(RwReg8 *)0x40002C08UL) /**< \brief (FREQM) Interrupt Enable Clear Register */
+#define REG_FREQM_INTENSET         (*(RwReg8 *)0x40002C09UL) /**< \brief (FREQM) Interrupt Enable Set Register */
+#define REG_FREQM_INTFLAG          (*(RwReg8 *)0x40002C0AUL) /**< \brief (FREQM) Interrupt Flag Register */
+#define REG_FREQM_STATUS           (*(RwReg8 *)0x40002C0BUL) /**< \brief (FREQM) Status Register */
+#define REG_FREQM_SYNCBUSY         (*(RoReg  *)0x40002C0CUL) /**< \brief (FREQM) Synchronization Busy Register */
+#define REG_FREQM_VALUE            (*(RoReg  *)0x40002C10UL) /**< \brief (FREQM) Count Value Register */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for FREQM peripheral ========== */
+#define FREQM_GCLK_ID_MSR           4        // Index of measure generic clock
+#define FREQM_GCLK_ID_REF           5        // Index of reference generic clock
+
+#endif /* _SAML22_FREQM_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/gclk.h b/watch-library/hardware/include/instance/gclk.h
new file mode 100644
index 00000000..869d77c6
--- /dev/null
+++ b/watch-library/hardware/include/instance/gclk.h
@@ -0,0 +1,130 @@
+/**
+ * \file
+ *
+ * \brief Instance description for GCLK
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_GCLK_INSTANCE_
+#define _SAML22_GCLK_INSTANCE_
+
+/* ========== Register definition for GCLK peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_GCLK_CTRLA             (0x40001C00) /**< \brief (GCLK) Control */
+#define REG_GCLK_SYNCBUSY          (0x40001C04) /**< \brief (GCLK) Synchronization Busy */
+#define REG_GCLK_GENCTRL0          (0x40001C20) /**< \brief (GCLK) Generic Clock Generator Control 0 */
+#define REG_GCLK_GENCTRL1          (0x40001C24) /**< \brief (GCLK) Generic Clock Generator Control 1 */
+#define REG_GCLK_GENCTRL2          (0x40001C28) /**< \brief (GCLK) Generic Clock Generator Control 2 */
+#define REG_GCLK_GENCTRL3          (0x40001C2C) /**< \brief (GCLK) Generic Clock Generator Control 3 */
+#define REG_GCLK_GENCTRL4          (0x40001C30) /**< \brief (GCLK) Generic Clock Generator Control 4 */
+#define REG_GCLK_PCHCTRL0          (0x40001C80) /**< \brief (GCLK) Peripheral Clock Control 0 */
+#define REG_GCLK_PCHCTRL1          (0x40001C84) /**< \brief (GCLK) Peripheral Clock Control 1 */
+#define REG_GCLK_PCHCTRL2          (0x40001C88) /**< \brief (GCLK) Peripheral Clock Control 2 */
+#define REG_GCLK_PCHCTRL3          (0x40001C8C) /**< \brief (GCLK) Peripheral Clock Control 3 */
+#define REG_GCLK_PCHCTRL4          (0x40001C90) /**< \brief (GCLK) Peripheral Clock Control 4 */
+#define REG_GCLK_PCHCTRL5          (0x40001C94) /**< \brief (GCLK) Peripheral Clock Control 5 */
+#define REG_GCLK_PCHCTRL6          (0x40001C98) /**< \brief (GCLK) Peripheral Clock Control 6 */
+#define REG_GCLK_PCHCTRL7          (0x40001C9C) /**< \brief (GCLK) Peripheral Clock Control 7 */
+#define REG_GCLK_PCHCTRL8          (0x40001CA0) /**< \brief (GCLK) Peripheral Clock Control 8 */
+#define REG_GCLK_PCHCTRL9          (0x40001CA4) /**< \brief (GCLK) Peripheral Clock Control 9 */
+#define REG_GCLK_PCHCTRL10         (0x40001CA8) /**< \brief (GCLK) Peripheral Clock Control 10 */
+#define REG_GCLK_PCHCTRL11         (0x40001CAC) /**< \brief (GCLK) Peripheral Clock Control 11 */
+#define REG_GCLK_PCHCTRL12         (0x40001CB0) /**< \brief (GCLK) Peripheral Clock Control 12 */
+#define REG_GCLK_PCHCTRL13         (0x40001CB4) /**< \brief (GCLK) Peripheral Clock Control 13 */
+#define REG_GCLK_PCHCTRL14         (0x40001CB8) /**< \brief (GCLK) Peripheral Clock Control 14 */
+#define REG_GCLK_PCHCTRL15         (0x40001CBC) /**< \brief (GCLK) Peripheral Clock Control 15 */
+#define REG_GCLK_PCHCTRL16         (0x40001CC0) /**< \brief (GCLK) Peripheral Clock Control 16 */
+#define REG_GCLK_PCHCTRL17         (0x40001CC4) /**< \brief (GCLK) Peripheral Clock Control 17 */
+#define REG_GCLK_PCHCTRL18         (0x40001CC8) /**< \brief (GCLK) Peripheral Clock Control 18 */
+#define REG_GCLK_PCHCTRL19         (0x40001CCC) /**< \brief (GCLK) Peripheral Clock Control 19 */
+#define REG_GCLK_PCHCTRL20         (0x40001CD0) /**< \brief (GCLK) Peripheral Clock Control 20 */
+#define REG_GCLK_PCHCTRL21         (0x40001CD4) /**< \brief (GCLK) Peripheral Clock Control 21 */
+#define REG_GCLK_PCHCTRL22         (0x40001CD8) /**< \brief (GCLK) Peripheral Clock Control 22 */
+#define REG_GCLK_PCHCTRL23         (0x40001CDC) /**< \brief (GCLK) Peripheral Clock Control 23 */
+#define REG_GCLK_PCHCTRL24         (0x40001CE0) /**< \brief (GCLK) Peripheral Clock Control 24 */
+#define REG_GCLK_PCHCTRL25         (0x40001CE4) /**< \brief (GCLK) Peripheral Clock Control 25 */
+#define REG_GCLK_PCHCTRL26         (0x40001CE8) /**< \brief (GCLK) Peripheral Clock Control 26 */
+#define REG_GCLK_PCHCTRL27         (0x40001CEC) /**< \brief (GCLK) Peripheral Clock Control 27 */
+#define REG_GCLK_PCHCTRL28         (0x40001CF0) /**< \brief (GCLK) Peripheral Clock Control 28 */
+#define REG_GCLK_PCHCTRL29         (0x40001CF4) /**< \brief (GCLK) Peripheral Clock Control 29 */
+#else
+#define REG_GCLK_CTRLA             (*(RwReg8 *)0x40001C00UL) /**< \brief (GCLK) Control */
+#define REG_GCLK_SYNCBUSY          (*(RoReg  *)0x40001C04UL) /**< \brief (GCLK) Synchronization Busy */
+#define REG_GCLK_GENCTRL0          (*(RwReg  *)0x40001C20UL) /**< \brief (GCLK) Generic Clock Generator Control 0 */
+#define REG_GCLK_GENCTRL1          (*(RwReg  *)0x40001C24UL) /**< \brief (GCLK) Generic Clock Generator Control 1 */
+#define REG_GCLK_GENCTRL2          (*(RwReg  *)0x40001C28UL) /**< \brief (GCLK) Generic Clock Generator Control 2 */
+#define REG_GCLK_GENCTRL3          (*(RwReg  *)0x40001C2CUL) /**< \brief (GCLK) Generic Clock Generator Control 3 */
+#define REG_GCLK_GENCTRL4          (*(RwReg  *)0x40001C30UL) /**< \brief (GCLK) Generic Clock Generator Control 4 */
+#define REG_GCLK_PCHCTRL0          (*(RwReg  *)0x40001C80UL) /**< \brief (GCLK) Peripheral Clock Control 0 */
+#define REG_GCLK_PCHCTRL1          (*(RwReg  *)0x40001C84UL) /**< \brief (GCLK) Peripheral Clock Control 1 */
+#define REG_GCLK_PCHCTRL2          (*(RwReg  *)0x40001C88UL) /**< \brief (GCLK) Peripheral Clock Control 2 */
+#define REG_GCLK_PCHCTRL3          (*(RwReg  *)0x40001C8CUL) /**< \brief (GCLK) Peripheral Clock Control 3 */
+#define REG_GCLK_PCHCTRL4          (*(RwReg  *)0x40001C90UL) /**< \brief (GCLK) Peripheral Clock Control 4 */
+#define REG_GCLK_PCHCTRL5          (*(RwReg  *)0x40001C94UL) /**< \brief (GCLK) Peripheral Clock Control 5 */
+#define REG_GCLK_PCHCTRL6          (*(RwReg  *)0x40001C98UL) /**< \brief (GCLK) Peripheral Clock Control 6 */
+#define REG_GCLK_PCHCTRL7          (*(RwReg  *)0x40001C9CUL) /**< \brief (GCLK) Peripheral Clock Control 7 */
+#define REG_GCLK_PCHCTRL8          (*(RwReg  *)0x40001CA0UL) /**< \brief (GCLK) Peripheral Clock Control 8 */
+#define REG_GCLK_PCHCTRL9          (*(RwReg  *)0x40001CA4UL) /**< \brief (GCLK) Peripheral Clock Control 9 */
+#define REG_GCLK_PCHCTRL10         (*(RwReg  *)0x40001CA8UL) /**< \brief (GCLK) Peripheral Clock Control 10 */
+#define REG_GCLK_PCHCTRL11         (*(RwReg  *)0x40001CACUL) /**< \brief (GCLK) Peripheral Clock Control 11 */
+#define REG_GCLK_PCHCTRL12         (*(RwReg  *)0x40001CB0UL) /**< \brief (GCLK) Peripheral Clock Control 12 */
+#define REG_GCLK_PCHCTRL13         (*(RwReg  *)0x40001CB4UL) /**< \brief (GCLK) Peripheral Clock Control 13 */
+#define REG_GCLK_PCHCTRL14         (*(RwReg  *)0x40001CB8UL) /**< \brief (GCLK) Peripheral Clock Control 14 */
+#define REG_GCLK_PCHCTRL15         (*(RwReg  *)0x40001CBCUL) /**< \brief (GCLK) Peripheral Clock Control 15 */
+#define REG_GCLK_PCHCTRL16         (*(RwReg  *)0x40001CC0UL) /**< \brief (GCLK) Peripheral Clock Control 16 */
+#define REG_GCLK_PCHCTRL17         (*(RwReg  *)0x40001CC4UL) /**< \brief (GCLK) Peripheral Clock Control 17 */
+#define REG_GCLK_PCHCTRL18         (*(RwReg  *)0x40001CC8UL) /**< \brief (GCLK) Peripheral Clock Control 18 */
+#define REG_GCLK_PCHCTRL19         (*(RwReg  *)0x40001CCCUL) /**< \brief (GCLK) Peripheral Clock Control 19 */
+#define REG_GCLK_PCHCTRL20         (*(RwReg  *)0x40001CD0UL) /**< \brief (GCLK) Peripheral Clock Control 20 */
+#define REG_GCLK_PCHCTRL21         (*(RwReg  *)0x40001CD4UL) /**< \brief (GCLK) Peripheral Clock Control 21 */
+#define REG_GCLK_PCHCTRL22         (*(RwReg  *)0x40001CD8UL) /**< \brief (GCLK) Peripheral Clock Control 22 */
+#define REG_GCLK_PCHCTRL23         (*(RwReg  *)0x40001CDCUL) /**< \brief (GCLK) Peripheral Clock Control 23 */
+#define REG_GCLK_PCHCTRL24         (*(RwReg  *)0x40001CE0UL) /**< \brief (GCLK) Peripheral Clock Control 24 */
+#define REG_GCLK_PCHCTRL25         (*(RwReg  *)0x40001CE4UL) /**< \brief (GCLK) Peripheral Clock Control 25 */
+#define REG_GCLK_PCHCTRL26         (*(RwReg  *)0x40001CE8UL) /**< \brief (GCLK) Peripheral Clock Control 26 */
+#define REG_GCLK_PCHCTRL27         (*(RwReg  *)0x40001CECUL) /**< \brief (GCLK) Peripheral Clock Control 27 */
+#define REG_GCLK_PCHCTRL28         (*(RwReg  *)0x40001CF0UL) /**< \brief (GCLK) Peripheral Clock Control 28 */
+#define REG_GCLK_PCHCTRL29         (*(RwReg  *)0x40001CF4UL) /**< \brief (GCLK) Peripheral Clock Control 29 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for GCLK peripheral ========== */
+#define GCLK_GENDIV_BITS            16      
+#define GCLK_GEN_BITS               3       
+#define GCLK_GEN_NUM                5        // Number of Generic Clock Generators
+#define GCLK_GEN_NUM_MSB            4        // Number of Generic Clock Generators - 1
+#define GCLK_GEN_SOURCE_NUM_MSB     7        // Number of Generic Clock Sources - 1
+#define GCLK_NUM                    30       // Number of Generic Clock Users
+#define GCLK_SOURCE_BITS            3       
+#define GCLK_SOURCE_DFLL48M         6       
+#define GCLK_SOURCE_DPLL96M         7       
+#define GCLK_SOURCE_GCLKGEN1        2       
+#define GCLK_SOURCE_GCLKIN          1       
+#define GCLK_SOURCE_NUM             8        // Number of Generic Clock Sources
+#define GCLK_SOURCE_OSCULP32K       3       
+#define GCLK_SOURCE_OSC16M          5       
+#define GCLK_SOURCE_XOSC            0       
+#define GCLK_SOURCE_XOSC32K         4       
+
+#endif /* _SAML22_GCLK_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/mclk.h b/watch-library/hardware/include/instance/mclk.h
new file mode 100644
index 00000000..32af4f13
--- /dev/null
+++ b/watch-library/hardware/include/instance/mclk.h
@@ -0,0 +1,63 @@
+/**
+ * \file
+ *
+ * \brief Instance description for MCLK
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_MCLK_INSTANCE_
+#define _SAML22_MCLK_INSTANCE_
+
+/* ========== Register definition for MCLK peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_MCLK_INTENCLR          (0x40000801) /**< \brief (MCLK) Interrupt Enable Clear */
+#define REG_MCLK_INTENSET          (0x40000802) /**< \brief (MCLK) Interrupt Enable Set */
+#define REG_MCLK_INTFLAG           (0x40000803) /**< \brief (MCLK) Interrupt Flag Status and Clear */
+#define REG_MCLK_CPUDIV            (0x40000804) /**< \brief (MCLK) CPU Clock Division */
+#define REG_MCLK_BUPDIV            (0x40000806) /**< \brief (MCLK) Backup Clock Division */
+#define REG_MCLK_AHBMASK           (0x40000810) /**< \brief (MCLK) AHB Mask */
+#define REG_MCLK_APBAMASK          (0x40000814) /**< \brief (MCLK) APBA Mask */
+#define REG_MCLK_APBBMASK          (0x40000818) /**< \brief (MCLK) APBB Mask */
+#define REG_MCLK_APBCMASK          (0x4000081C) /**< \brief (MCLK) APBC Mask */
+#else
+#define REG_MCLK_INTENCLR          (*(RwReg8 *)0x40000801UL) /**< \brief (MCLK) Interrupt Enable Clear */
+#define REG_MCLK_INTENSET          (*(RwReg8 *)0x40000802UL) /**< \brief (MCLK) Interrupt Enable Set */
+#define REG_MCLK_INTFLAG           (*(RwReg8 *)0x40000803UL) /**< \brief (MCLK) Interrupt Flag Status and Clear */
+#define REG_MCLK_CPUDIV            (*(RwReg8 *)0x40000804UL) /**< \brief (MCLK) CPU Clock Division */
+#define REG_MCLK_BUPDIV            (*(RwReg8 *)0x40000806UL) /**< \brief (MCLK) Backup Clock Division */
+#define REG_MCLK_AHBMASK           (*(RwReg  *)0x40000810UL) /**< \brief (MCLK) AHB Mask */
+#define REG_MCLK_APBAMASK          (*(RwReg  *)0x40000814UL) /**< \brief (MCLK) APBA Mask */
+#define REG_MCLK_APBBMASK          (*(RwReg  *)0x40000818UL) /**< \brief (MCLK) APBB Mask */
+#define REG_MCLK_APBCMASK          (*(RwReg  *)0x4000081CUL) /**< \brief (MCLK) APBC Mask */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for MCLK peripheral ========== */
+#define MCLK_BUPDIV_IMPLEMENTED     1       
+#define MCLK_CTRLA_MCSEL_GCLK       1       
+#define MCLK_CTRLA_MCSEL_OSC8M      0       
+#define MCLK_MCLK_CLK_APB_NUM       3       
+#define MCLK_SYSTEM_CLOCK           1000000  // System Clock Frequency at Reset
+
+#endif /* _SAML22_MCLK_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/mtb.h b/watch-library/hardware/include/instance/mtb.h
new file mode 100644
index 00000000..02e67161
--- /dev/null
+++ b/watch-library/hardware/include/instance/mtb.h
@@ -0,0 +1,89 @@
+/**
+ * \file
+ *
+ * \brief Instance description for MTB
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_MTB_INSTANCE_
+#define _SAML22_MTB_INSTANCE_
+
+/* ========== Register definition for MTB peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_MTB_POSITION           (0x4100A000) /**< \brief (MTB) MTB Position */
+#define REG_MTB_MASTER             (0x4100A004) /**< \brief (MTB) MTB Master */
+#define REG_MTB_FLOW               (0x4100A008) /**< \brief (MTB) MTB Flow */
+#define REG_MTB_BASE               (0x4100A00C) /**< \brief (MTB) MTB Base */
+#define REG_MTB_ITCTRL             (0x4100AF00) /**< \brief (MTB) MTB Integration Mode Control */
+#define REG_MTB_CLAIMSET           (0x4100AFA0) /**< \brief (MTB) MTB Claim Set */
+#define REG_MTB_CLAIMCLR           (0x4100AFA4) /**< \brief (MTB) MTB Claim Clear */
+#define REG_MTB_LOCKACCESS         (0x4100AFB0) /**< \brief (MTB) MTB Lock Access */
+#define REG_MTB_LOCKSTATUS         (0x4100AFB4) /**< \brief (MTB) MTB Lock Status */
+#define REG_MTB_AUTHSTATUS         (0x4100AFB8) /**< \brief (MTB) MTB Authentication Status */
+#define REG_MTB_DEVARCH            (0x4100AFBC) /**< \brief (MTB) MTB Device Architecture */
+#define REG_MTB_DEVID              (0x4100AFC8) /**< \brief (MTB) MTB Device Configuration */
+#define REG_MTB_DEVTYPE            (0x4100AFCC) /**< \brief (MTB) MTB Device Type */
+#define REG_MTB_PID4               (0x4100AFD0) /**< \brief (MTB) Peripheral Identification 4 */
+#define REG_MTB_PID5               (0x4100AFD4) /**< \brief (MTB) Peripheral Identification 5 */
+#define REG_MTB_PID6               (0x4100AFD8) /**< \brief (MTB) Peripheral Identification 6 */
+#define REG_MTB_PID7               (0x4100AFDC) /**< \brief (MTB) Peripheral Identification 7 */
+#define REG_MTB_PID0               (0x4100AFE0) /**< \brief (MTB) Peripheral Identification 0 */
+#define REG_MTB_PID1               (0x4100AFE4) /**< \brief (MTB) Peripheral Identification 1 */
+#define REG_MTB_PID2               (0x4100AFE8) /**< \brief (MTB) Peripheral Identification 2 */
+#define REG_MTB_PID3               (0x4100AFEC) /**< \brief (MTB) Peripheral Identification 3 */
+#define REG_MTB_CID0               (0x4100AFF0) /**< \brief (MTB) Component Identification 0 */
+#define REG_MTB_CID1               (0x4100AFF4) /**< \brief (MTB) Component Identification 1 */
+#define REG_MTB_CID2               (0x4100AFF8) /**< \brief (MTB) Component Identification 2 */
+#define REG_MTB_CID3               (0x4100AFFC) /**< \brief (MTB) Component Identification 3 */
+#else
+#define REG_MTB_POSITION           (*(RwReg  *)0x4100A000UL) /**< \brief (MTB) MTB Position */
+#define REG_MTB_MASTER             (*(RwReg  *)0x4100A004UL) /**< \brief (MTB) MTB Master */
+#define REG_MTB_FLOW               (*(RwReg  *)0x4100A008UL) /**< \brief (MTB) MTB Flow */
+#define REG_MTB_BASE               (*(RoReg  *)0x4100A00CUL) /**< \brief (MTB) MTB Base */
+#define REG_MTB_ITCTRL             (*(RwReg  *)0x4100AF00UL) /**< \brief (MTB) MTB Integration Mode Control */
+#define REG_MTB_CLAIMSET           (*(RwReg  *)0x4100AFA0UL) /**< \brief (MTB) MTB Claim Set */
+#define REG_MTB_CLAIMCLR           (*(RwReg  *)0x4100AFA4UL) /**< \brief (MTB) MTB Claim Clear */
+#define REG_MTB_LOCKACCESS         (*(RwReg  *)0x4100AFB0UL) /**< \brief (MTB) MTB Lock Access */
+#define REG_MTB_LOCKSTATUS         (*(RoReg  *)0x4100AFB4UL) /**< \brief (MTB) MTB Lock Status */
+#define REG_MTB_AUTHSTATUS         (*(RoReg  *)0x4100AFB8UL) /**< \brief (MTB) MTB Authentication Status */
+#define REG_MTB_DEVARCH            (*(RoReg  *)0x4100AFBCUL) /**< \brief (MTB) MTB Device Architecture */
+#define REG_MTB_DEVID              (*(RoReg  *)0x4100AFC8UL) /**< \brief (MTB) MTB Device Configuration */
+#define REG_MTB_DEVTYPE            (*(RoReg  *)0x4100AFCCUL) /**< \brief (MTB) MTB Device Type */
+#define REG_MTB_PID4               (*(RoReg  *)0x4100AFD0UL) /**< \brief (MTB) Peripheral Identification 4 */
+#define REG_MTB_PID5               (*(RoReg  *)0x4100AFD4UL) /**< \brief (MTB) Peripheral Identification 5 */
+#define REG_MTB_PID6               (*(RoReg  *)0x4100AFD8UL) /**< \brief (MTB) Peripheral Identification 6 */
+#define REG_MTB_PID7               (*(RoReg  *)0x4100AFDCUL) /**< \brief (MTB) Peripheral Identification 7 */
+#define REG_MTB_PID0               (*(RoReg  *)0x4100AFE0UL) /**< \brief (MTB) Peripheral Identification 0 */
+#define REG_MTB_PID1               (*(RoReg  *)0x4100AFE4UL) /**< \brief (MTB) Peripheral Identification 1 */
+#define REG_MTB_PID2               (*(RoReg  *)0x4100AFE8UL) /**< \brief (MTB) Peripheral Identification 2 */
+#define REG_MTB_PID3               (*(RoReg  *)0x4100AFECUL) /**< \brief (MTB) Peripheral Identification 3 */
+#define REG_MTB_CID0               (*(RoReg  *)0x4100AFF0UL) /**< \brief (MTB) Component Identification 0 */
+#define REG_MTB_CID1               (*(RoReg  *)0x4100AFF4UL) /**< \brief (MTB) Component Identification 1 */
+#define REG_MTB_CID2               (*(RoReg  *)0x4100AFF8UL) /**< \brief (MTB) Component Identification 2 */
+#define REG_MTB_CID3               (*(RoReg  *)0x4100AFFCUL) /**< \brief (MTB) Component Identification 3 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+
+#endif /* _SAML22_MTB_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/nvmctrl.h b/watch-library/hardware/include/instance/nvmctrl.h
new file mode 100644
index 00000000..89adf7ee
--- /dev/null
+++ b/watch-library/hardware/include/instance/nvmctrl.h
@@ -0,0 +1,80 @@
+/**
+ * \file
+ *
+ * \brief Instance description for NVMCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_NVMCTRL_INSTANCE_
+#define _SAML22_NVMCTRL_INSTANCE_
+
+/* ========== Register definition for NVMCTRL peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_NVMCTRL_CTRLA          (0x41004000) /**< \brief (NVMCTRL) Control A */
+#define REG_NVMCTRL_CTRLB          (0x41004004) /**< \brief (NVMCTRL) Control B */
+#define REG_NVMCTRL_PARAM          (0x41004008) /**< \brief (NVMCTRL) NVM Parameter */
+#define REG_NVMCTRL_INTENCLR       (0x4100400C) /**< \brief (NVMCTRL) Interrupt Enable Clear */
+#define REG_NVMCTRL_INTENSET       (0x41004010) /**< \brief (NVMCTRL) Interrupt Enable Set */
+#define REG_NVMCTRL_INTFLAG        (0x41004014) /**< \brief (NVMCTRL) Interrupt Flag Status and Clear */
+#define REG_NVMCTRL_STATUS         (0x41004018) /**< \brief (NVMCTRL) Status */
+#define REG_NVMCTRL_ADDR           (0x4100401C) /**< \brief (NVMCTRL) Address */
+#define REG_NVMCTRL_LOCK           (0x41004020) /**< \brief (NVMCTRL) Lock Section */
+#else
+#define REG_NVMCTRL_CTRLA          (*(RwReg16*)0x41004000UL) /**< \brief (NVMCTRL) Control A */
+#define REG_NVMCTRL_CTRLB          (*(RwReg  *)0x41004004UL) /**< \brief (NVMCTRL) Control B */
+#define REG_NVMCTRL_PARAM          (*(RwReg  *)0x41004008UL) /**< \brief (NVMCTRL) NVM Parameter */
+#define REG_NVMCTRL_INTENCLR       (*(RwReg8 *)0x4100400CUL) /**< \brief (NVMCTRL) Interrupt Enable Clear */
+#define REG_NVMCTRL_INTENSET       (*(RwReg8 *)0x41004010UL) /**< \brief (NVMCTRL) Interrupt Enable Set */
+#define REG_NVMCTRL_INTFLAG        (*(RwReg8 *)0x41004014UL) /**< \brief (NVMCTRL) Interrupt Flag Status and Clear */
+#define REG_NVMCTRL_STATUS         (*(RwReg16*)0x41004018UL) /**< \brief (NVMCTRL) Status */
+#define REG_NVMCTRL_ADDR           (*(RwReg  *)0x4100401CUL) /**< \brief (NVMCTRL) Address */
+#define REG_NVMCTRL_LOCK           (*(RwReg16*)0x41004020UL) /**< \brief (NVMCTRL) Lock Section */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for NVMCTRL peripheral ========== */
+#define NVMCTRL_AUX0_ADDRESS        0x00804000
+#define NVMCTRL_AUX1_ADDRESS        0x00806000
+#define NVMCTRL_AUX2_ADDRESS        0x00808000
+#define NVMCTRL_AUX3_ADDRESS        0x0080A000
+#define NVMCTRL_CLK_AHB_ID          8        // Index of AHB Clock in PM.AHBMASK register
+#define NVMCTRL_CLK_AHB_ID_PICACHU  10       // Index of PICACHU AHB Clock
+#define NVMCTRL_FACTORY_WORD_IMPLEMENTED_MASK 0XC0000007FFFFFFFF
+#define NVMCTRL_FLASH_SIZE          262144  
+#define NVMCTRL_GCLK_ID             29       // Index of Generic Clock for test
+#define NVMCTRL_LOCKBIT_ADDRESS     0x00802000
+#define NVMCTRL_PAGE_HW             32      
+#define NVMCTRL_PAGE_SIZE           64      
+#define NVMCTRL_PAGE_W              16      
+#define NVMCTRL_PMSB                3       
+#define NVMCTRL_PSZ_BITS            6       
+#define NVMCTRL_ROW_PAGES           4       
+#define NVMCTRL_ROW_SIZE            256     
+#define NVMCTRL_USER_PAGE_ADDRESS   0x00800000
+#define NVMCTRL_USER_PAGE_OFFSET    0x00800000
+#define NVMCTRL_USER_WORD_IMPLEMENTED_MASK 0XC01FFFFFFFFFFFFF
+#define NVMCTRL_RWWEE_PAGES         128     
+#define NVMCTRL_RWW_EEPROM_ADDR     0x00400000 // Start address of the RWW EEPROM area
+
+#endif /* _SAML22_NVMCTRL_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/osc32kctrl.h b/watch-library/hardware/include/instance/osc32kctrl.h
new file mode 100644
index 00000000..6edc7597
--- /dev/null
+++ b/watch-library/hardware/include/instance/osc32kctrl.h
@@ -0,0 +1,61 @@
+/**
+ * \file
+ *
+ * \brief Instance description for OSC32KCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_OSC32KCTRL_INSTANCE_
+#define _SAML22_OSC32KCTRL_INSTANCE_
+
+/* ========== Register definition for OSC32KCTRL peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_OSC32KCTRL_INTENCLR    (0x40001400) /**< \brief (OSC32KCTRL) Interrupt Enable Clear */
+#define REG_OSC32KCTRL_INTENSET    (0x40001404) /**< \brief (OSC32KCTRL) Interrupt Enable Set */
+#define REG_OSC32KCTRL_INTFLAG     (0x40001408) /**< \brief (OSC32KCTRL) Interrupt Flag Status and Clear */
+#define REG_OSC32KCTRL_STATUS      (0x4000140C) /**< \brief (OSC32KCTRL) Power and Clocks Status */
+#define REG_OSC32KCTRL_RTCCTRL     (0x40001410) /**< \brief (OSC32KCTRL) RTC Clock Selection */
+#define REG_OSC32KCTRL_SLCDCTRL    (0x40001411) /**< \brief (OSC32KCTRL) SLCD Clock Selection */
+#define REG_OSC32KCTRL_XOSC32K     (0x40001414) /**< \brief (OSC32KCTRL) 32kHz External Crystal Oscillator (XOSC32K) Control */
+#define REG_OSC32KCTRL_CFDCTRL     (0x40001416) /**< \brief (OSC32KCTRL) Clock Failure Detector Control */
+#define REG_OSC32KCTRL_EVCTRL      (0x40001417) /**< \brief (OSC32KCTRL) Event Control */
+#define REG_OSC32KCTRL_OSCULP32K   (0x4000141C) /**< \brief (OSC32KCTRL) 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control */
+#else
+#define REG_OSC32KCTRL_INTENCLR    (*(RwReg  *)0x40001400UL) /**< \brief (OSC32KCTRL) Interrupt Enable Clear */
+#define REG_OSC32KCTRL_INTENSET    (*(RwReg  *)0x40001404UL) /**< \brief (OSC32KCTRL) Interrupt Enable Set */
+#define REG_OSC32KCTRL_INTFLAG     (*(RwReg  *)0x40001408UL) /**< \brief (OSC32KCTRL) Interrupt Flag Status and Clear */
+#define REG_OSC32KCTRL_STATUS      (*(RoReg  *)0x4000140CUL) /**< \brief (OSC32KCTRL) Power and Clocks Status */
+#define REG_OSC32KCTRL_RTCCTRL     (*(RwReg8 *)0x40001410UL) /**< \brief (OSC32KCTRL) RTC Clock Selection */
+#define REG_OSC32KCTRL_SLCDCTRL    (*(RwReg8 *)0x40001411UL) /**< \brief (OSC32KCTRL) SLCD Clock Selection */
+#define REG_OSC32KCTRL_XOSC32K     (*(RwReg16*)0x40001414UL) /**< \brief (OSC32KCTRL) 32kHz External Crystal Oscillator (XOSC32K) Control */
+#define REG_OSC32KCTRL_CFDCTRL     (*(RwReg8 *)0x40001416UL) /**< \brief (OSC32KCTRL) Clock Failure Detector Control */
+#define REG_OSC32KCTRL_EVCTRL      (*(RwReg8 *)0x40001417UL) /**< \brief (OSC32KCTRL) Event Control */
+#define REG_OSC32KCTRL_OSCULP32K   (*(RwReg  *)0x4000141CUL) /**< \brief (OSC32KCTRL) 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for OSC32KCTRL peripheral ========== */
+#define OSC32KCTRL_OSC32K_COARSE_CALIB_MSB 6       
+
+#endif /* _SAML22_OSC32KCTRL_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/oscctrl.h b/watch-library/hardware/include/instance/oscctrl.h
new file mode 100644
index 00000000..bd390207
--- /dev/null
+++ b/watch-library/hardware/include/instance/oscctrl.h
@@ -0,0 +1,86 @@
+/**
+ * \file
+ *
+ * \brief Instance description for OSCCTRL
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_OSCCTRL_INSTANCE_
+#define _SAML22_OSCCTRL_INSTANCE_
+
+/* ========== Register definition for OSCCTRL peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_OSCCTRL_INTENCLR       (0x40001000) /**< \brief (OSCCTRL) Interrupt Enable Clear */
+#define REG_OSCCTRL_INTENSET       (0x40001004) /**< \brief (OSCCTRL) Interrupt Enable Set */
+#define REG_OSCCTRL_INTFLAG        (0x40001008) /**< \brief (OSCCTRL) Interrupt Flag Status and Clear */
+#define REG_OSCCTRL_STATUS         (0x4000100C) /**< \brief (OSCCTRL) Power and Clocks Status */
+#define REG_OSCCTRL_XOSCCTRL       (0x40001010) /**< \brief (OSCCTRL) External Multipurpose Crystal Oscillator (XOSC) Control */
+#define REG_OSCCTRL_CFDPRESC       (0x40001012) /**< \brief (OSCCTRL) Cloc Failure Detector Prescaler */
+#define REG_OSCCTRL_EVCTRL         (0x40001013) /**< \brief (OSCCTRL) Event Control */
+#define REG_OSCCTRL_OSC16MCTRL     (0x40001014) /**< \brief (OSCCTRL) 16MHz Internal Oscillator (OSC16M) Control */
+#define REG_OSCCTRL_DFLLCTRL       (0x40001018) /**< \brief (OSCCTRL) DFLL48M Control */
+#define REG_OSCCTRL_DFLLVAL        (0x4000101C) /**< \brief (OSCCTRL) DFLL48M Value */
+#define REG_OSCCTRL_DFLLMUL        (0x40001020) /**< \brief (OSCCTRL) DFLL48M Multiplier */
+#define REG_OSCCTRL_DFLLSYNC       (0x40001024) /**< \brief (OSCCTRL) DFLL48M Synchronization */
+#define REG_OSCCTRL_DPLLCTRLA      (0x40001028) /**< \brief (OSCCTRL) DPLL Control */
+#define REG_OSCCTRL_DPLLRATIO      (0x4000102C) /**< \brief (OSCCTRL) DPLL Ratio Control */
+#define REG_OSCCTRL_DPLLCTRLB      (0x40001030) /**< \brief (OSCCTRL) Digital Core Configuration */
+#define REG_OSCCTRL_DPLLPRESC      (0x40001034) /**< \brief (OSCCTRL) DPLL Prescaler */
+#define REG_OSCCTRL_DPLLSYNCBUSY   (0x40001038) /**< \brief (OSCCTRL) DPLL Synchronization Busy */
+#define REG_OSCCTRL_DPLLSTATUS     (0x4000103C) /**< \brief (OSCCTRL) DPLL Status */
+#else
+#define REG_OSCCTRL_INTENCLR       (*(RwReg  *)0x40001000UL) /**< \brief (OSCCTRL) Interrupt Enable Clear */
+#define REG_OSCCTRL_INTENSET       (*(RwReg  *)0x40001004UL) /**< \brief (OSCCTRL) Interrupt Enable Set */
+#define REG_OSCCTRL_INTFLAG        (*(RwReg  *)0x40001008UL) /**< \brief (OSCCTRL) Interrupt Flag Status and Clear */
+#define REG_OSCCTRL_STATUS         (*(RoReg  *)0x4000100CUL) /**< \brief (OSCCTRL) Power and Clocks Status */
+#define REG_OSCCTRL_XOSCCTRL       (*(RwReg16*)0x40001010UL) /**< \brief (OSCCTRL) External Multipurpose Crystal Oscillator (XOSC) Control */
+#define REG_OSCCTRL_CFDPRESC       (*(RwReg8 *)0x40001012UL) /**< \brief (OSCCTRL) Cloc Failure Detector Prescaler */
+#define REG_OSCCTRL_EVCTRL         (*(RwReg8 *)0x40001013UL) /**< \brief (OSCCTRL) Event Control */
+#define REG_OSCCTRL_OSC16MCTRL     (*(RwReg8 *)0x40001014UL) /**< \brief (OSCCTRL) 16MHz Internal Oscillator (OSC16M) Control */
+#define REG_OSCCTRL_DFLLCTRL       (*(RwReg16*)0x40001018UL) /**< \brief (OSCCTRL) DFLL48M Control */
+#define REG_OSCCTRL_DFLLVAL        (*(RwReg  *)0x4000101CUL) /**< \brief (OSCCTRL) DFLL48M Value */
+#define REG_OSCCTRL_DFLLMUL        (*(RwReg  *)0x40001020UL) /**< \brief (OSCCTRL) DFLL48M Multiplier */
+#define REG_OSCCTRL_DFLLSYNC       (*(RwReg8 *)0x40001024UL) /**< \brief (OSCCTRL) DFLL48M Synchronization */
+#define REG_OSCCTRL_DPLLCTRLA      (*(RwReg8 *)0x40001028UL) /**< \brief (OSCCTRL) DPLL Control */
+#define REG_OSCCTRL_DPLLRATIO      (*(RwReg  *)0x4000102CUL) /**< \brief (OSCCTRL) DPLL Ratio Control */
+#define REG_OSCCTRL_DPLLCTRLB      (*(RwReg  *)0x40001030UL) /**< \brief (OSCCTRL) Digital Core Configuration */
+#define REG_OSCCTRL_DPLLPRESC      (*(RwReg8 *)0x40001034UL) /**< \brief (OSCCTRL) DPLL Prescaler */
+#define REG_OSCCTRL_DPLLSYNCBUSY   (*(RoReg8 *)0x40001038UL) /**< \brief (OSCCTRL) DPLL Synchronization Busy */
+#define REG_OSCCTRL_DPLLSTATUS     (*(RoReg8 *)0x4000103CUL) /**< \brief (OSCCTRL) DPLL Status */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for OSCCTRL peripheral ========== */
+#define OSCCTRL_DFLL48M_COARSE_MSB  5       
+#define OSCCTRL_DFLL48M_FINE_MSB    9       
+#define OSCCTRL_GCLK_ID_DFLL48      0        // Index of Generic Clock for DFLL48
+#define OSCCTRL_GCLK_ID_FDPLL       1        // Index of Generic Clock for DPLL
+#define OSCCTRL_GCLK_ID_FDPLL32K    2        // Index of Generic Clock for DPLL 32K
+#define OSCCTRL_CFD_VERSION         0x100   
+#define OSCCTRL_DFLL48M_VERSION     0x320   
+#define OSCCTRL_FDPLL_VERSION       0x211   
+#define OSCCTRL_OSC16M_VERSION      0x101   
+#define OSCCTRL_XOSC_VERSION        0x201   
+
+#endif /* _SAML22_OSCCTRL_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/pac.h b/watch-library/hardware/include/instance/pac.h
new file mode 100644
index 00000000..cc3d94d5
--- /dev/null
+++ b/watch-library/hardware/include/instance/pac.h
@@ -0,0 +1,66 @@
+/**
+ * \file
+ *
+ * \brief Instance description for PAC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PAC_INSTANCE_
+#define _SAML22_PAC_INSTANCE_
+
+/* ========== Register definition for PAC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_PAC_WRCTRL             (0x40000000) /**< \brief (PAC) Write control */
+#define REG_PAC_EVCTRL             (0x40000004) /**< \brief (PAC) Event control */
+#define REG_PAC_INTENCLR           (0x40000008) /**< \brief (PAC) Interrupt enable clear */
+#define REG_PAC_INTENSET           (0x40000009) /**< \brief (PAC) Interrupt enable set */
+#define REG_PAC_INTFLAGAHB         (0x40000010) /**< \brief (PAC) Bridge interrupt flag status */
+#define REG_PAC_INTFLAGA           (0x40000014) /**< \brief (PAC) Peripheral interrupt flag status - Bridge A */
+#define REG_PAC_INTFLAGB           (0x40000018) /**< \brief (PAC) Peripheral interrupt flag status - Bridge B */
+#define REG_PAC_INTFLAGC           (0x4000001C) /**< \brief (PAC) Peripheral interrupt flag status - Bridge C */
+#define REG_PAC_STATUSA            (0x40000034) /**< \brief (PAC) Peripheral write protection status - Bridge A */
+#define REG_PAC_STATUSB            (0x40000038) /**< \brief (PAC) Peripheral write protection status - Bridge B */
+#define REG_PAC_STATUSC            (0x4000003C) /**< \brief (PAC) Peripheral write protection status - Bridge C */
+#else
+#define REG_PAC_WRCTRL             (*(RwReg  *)0x40000000UL) /**< \brief (PAC) Write control */
+#define REG_PAC_EVCTRL             (*(RwReg8 *)0x40000004UL) /**< \brief (PAC) Event control */
+#define REG_PAC_INTENCLR           (*(RwReg8 *)0x40000008UL) /**< \brief (PAC) Interrupt enable clear */
+#define REG_PAC_INTENSET           (*(RwReg8 *)0x40000009UL) /**< \brief (PAC) Interrupt enable set */
+#define REG_PAC_INTFLAGAHB         (*(RwReg  *)0x40000010UL) /**< \brief (PAC) Bridge interrupt flag status */
+#define REG_PAC_INTFLAGA           (*(RwReg  *)0x40000014UL) /**< \brief (PAC) Peripheral interrupt flag status - Bridge A */
+#define REG_PAC_INTFLAGB           (*(RwReg  *)0x40000018UL) /**< \brief (PAC) Peripheral interrupt flag status - Bridge B */
+#define REG_PAC_INTFLAGC           (*(RwReg  *)0x4000001CUL) /**< \brief (PAC) Peripheral interrupt flag status - Bridge C */
+#define REG_PAC_STATUSA            (*(RoReg  *)0x40000034UL) /**< \brief (PAC) Peripheral write protection status - Bridge A */
+#define REG_PAC_STATUSB            (*(RoReg  *)0x40000038UL) /**< \brief (PAC) Peripheral write protection status - Bridge B */
+#define REG_PAC_STATUSC            (*(RoReg  *)0x4000003CUL) /**< \brief (PAC) Peripheral write protection status - Bridge C */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for PAC peripheral ========== */
+#define PAC_CLK_AHB_DOMAIN                   // Clock domain of AHB clock
+#define PAC_CLK_AHB_ID              7        // AHB clock index
+#define PAC_HPB_NUM                 3        // Number of bridges AHB/APB
+#define PAC_INTFLAG_NUM             4        // Number of intflag registers
+
+#endif /* _SAML22_PAC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/pm.h b/watch-library/hardware/include/instance/pm.h
new file mode 100644
index 00000000..6ca464f2
--- /dev/null
+++ b/watch-library/hardware/include/instance/pm.h
@@ -0,0 +1,56 @@
+/**
+ * \file
+ *
+ * \brief Instance description for PM
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PM_INSTANCE_
+#define _SAML22_PM_INSTANCE_
+
+/* ========== Register definition for PM peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_PM_CTRLA               (0x40000400) /**< \brief (PM) Control A */
+#define REG_PM_SLEEPCFG            (0x40000401) /**< \brief (PM) Sleep Configuration */
+#define REG_PM_PLCFG               (0x40000402) /**< \brief (PM) Performance Level Configuration */
+#define REG_PM_INTENCLR            (0x40000404) /**< \brief (PM) Interrupt Enable Clear */
+#define REG_PM_INTENSET            (0x40000405) /**< \brief (PM) Interrupt Enable Set */
+#define REG_PM_INTFLAG             (0x40000406) /**< \brief (PM) Interrupt Flag Status and Clear */
+#define REG_PM_STDBYCFG            (0x40000408) /**< \brief (PM) Standby Configuration */
+#else
+#define REG_PM_CTRLA               (*(RwReg8 *)0x40000400UL) /**< \brief (PM) Control A */
+#define REG_PM_SLEEPCFG            (*(RwReg8 *)0x40000401UL) /**< \brief (PM) Sleep Configuration */
+#define REG_PM_PLCFG               (*(RwReg8 *)0x40000402UL) /**< \brief (PM) Performance Level Configuration */
+#define REG_PM_INTENCLR            (*(RwReg8 *)0x40000404UL) /**< \brief (PM) Interrupt Enable Clear */
+#define REG_PM_INTENSET            (*(RwReg8 *)0x40000405UL) /**< \brief (PM) Interrupt Enable Set */
+#define REG_PM_INTFLAG             (*(RwReg8 *)0x40000406UL) /**< \brief (PM) Interrupt Flag Status and Clear */
+#define REG_PM_STDBYCFG            (*(RwReg16*)0x40000408UL) /**< \brief (PM) Standby Configuration */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for PM peripheral ========== */
+#define PM_BIAS_RAM_HS              1        // one if RAM HS can be back biased
+#define PM_PD_NUM                   0        // Number of switchable Power Domain
+
+#endif /* _SAML22_PM_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/port.h b/watch-library/hardware/include/instance/port.h
new file mode 100644
index 00000000..6ec1564d
--- /dev/null
+++ b/watch-library/hardware/include/instance/port.h
@@ -0,0 +1,155 @@
+/**
+ * \file
+ *
+ * \brief Instance description for PORT
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PORT_INSTANCE_
+#define _SAML22_PORT_INSTANCE_
+
+/* ========== Register definition for PORT peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_PORT_DIR0              (0x41006000) /**< \brief (PORT) Data Direction 0 */
+#define REG_PORT_DIRCLR0           (0x41006004) /**< \brief (PORT) Data Direction Clear 0 */
+#define REG_PORT_DIRSET0           (0x41006008) /**< \brief (PORT) Data Direction Set 0 */
+#define REG_PORT_DIRTGL0           (0x4100600C) /**< \brief (PORT) Data Direction Toggle 0 */
+#define REG_PORT_OUT0              (0x41006010) /**< \brief (PORT) Data Output Value 0 */
+#define REG_PORT_OUTCLR0           (0x41006014) /**< \brief (PORT) Data Output Value Clear 0 */
+#define REG_PORT_OUTSET0           (0x41006018) /**< \brief (PORT) Data Output Value Set 0 */
+#define REG_PORT_OUTTGL0           (0x4100601C) /**< \brief (PORT) Data Output Value Toggle 0 */
+#define REG_PORT_IN0               (0x41006020) /**< \brief (PORT) Data Input Value 0 */
+#define REG_PORT_CTRL0             (0x41006024) /**< \brief (PORT) Control 0 */
+#define REG_PORT_WRCONFIG0         (0x41006028) /**< \brief (PORT) Write Configuration 0 */
+#define REG_PORT_EVCTRL0           (0x4100602C) /**< \brief (PORT) Event Input Control 0 */
+#define REG_PORT_PMUX0             (0x41006030) /**< \brief (PORT) Peripheral Multiplexing 0 */
+#define REG_PORT_PINCFG0           (0x41006040) /**< \brief (PORT) Pin Configuration 0 */
+#define REG_PORT_DIR1              (0x41006080) /**< \brief (PORT) Data Direction 1 */
+#define REG_PORT_DIRCLR1           (0x41006084) /**< \brief (PORT) Data Direction Clear 1 */
+#define REG_PORT_DIRSET1           (0x41006088) /**< \brief (PORT) Data Direction Set 1 */
+#define REG_PORT_DIRTGL1           (0x4100608C) /**< \brief (PORT) Data Direction Toggle 1 */
+#define REG_PORT_OUT1              (0x41006090) /**< \brief (PORT) Data Output Value 1 */
+#define REG_PORT_OUTCLR1           (0x41006094) /**< \brief (PORT) Data Output Value Clear 1 */
+#define REG_PORT_OUTSET1           (0x41006098) /**< \brief (PORT) Data Output Value Set 1 */
+#define REG_PORT_OUTTGL1           (0x4100609C) /**< \brief (PORT) Data Output Value Toggle 1 */
+#define REG_PORT_IN1               (0x410060A0) /**< \brief (PORT) Data Input Value 1 */
+#define REG_PORT_CTRL1             (0x410060A4) /**< \brief (PORT) Control 1 */
+#define REG_PORT_WRCONFIG1         (0x410060A8) /**< \brief (PORT) Write Configuration 1 */
+#define REG_PORT_EVCTRL1           (0x410060AC) /**< \brief (PORT) Event Input Control 1 */
+#define REG_PORT_PMUX1             (0x410060B0) /**< \brief (PORT) Peripheral Multiplexing 1 */
+#define REG_PORT_PINCFG1           (0x410060C0) /**< \brief (PORT) Pin Configuration 1 */
+#define REG_PORT_DIR2              (0x41006100) /**< \brief (PORT) Data Direction 2 */
+#define REG_PORT_DIRCLR2           (0x41006104) /**< \brief (PORT) Data Direction Clear 2 */
+#define REG_PORT_DIRSET2           (0x41006108) /**< \brief (PORT) Data Direction Set 2 */
+#define REG_PORT_DIRTGL2           (0x4100610C) /**< \brief (PORT) Data Direction Toggle 2 */
+#define REG_PORT_OUT2              (0x41006110) /**< \brief (PORT) Data Output Value 2 */
+#define REG_PORT_OUTCLR2           (0x41006114) /**< \brief (PORT) Data Output Value Clear 2 */
+#define REG_PORT_OUTSET2           (0x41006118) /**< \brief (PORT) Data Output Value Set 2 */
+#define REG_PORT_OUTTGL2           (0x4100611C) /**< \brief (PORT) Data Output Value Toggle 2 */
+#define REG_PORT_IN2               (0x41006120) /**< \brief (PORT) Data Input Value 2 */
+#define REG_PORT_CTRL2             (0x41006124) /**< \brief (PORT) Control 2 */
+#define REG_PORT_WRCONFIG2         (0x41006128) /**< \brief (PORT) Write Configuration 2 */
+#define REG_PORT_EVCTRL2           (0x4100612C) /**< \brief (PORT) Event Input Control 2 */
+#define REG_PORT_PMUX2             (0x41006130) /**< \brief (PORT) Peripheral Multiplexing 2 */
+#define REG_PORT_PINCFG2           (0x41006140) /**< \brief (PORT) Pin Configuration 2 */
+#else
+#define REG_PORT_DIR0              (*(RwReg  *)0x41006000UL) /**< \brief (PORT) Data Direction 0 */
+#define REG_PORT_DIRCLR0           (*(RwReg  *)0x41006004UL) /**< \brief (PORT) Data Direction Clear 0 */
+#define REG_PORT_DIRSET0           (*(RwReg  *)0x41006008UL) /**< \brief (PORT) Data Direction Set 0 */
+#define REG_PORT_DIRTGL0           (*(RwReg  *)0x4100600CUL) /**< \brief (PORT) Data Direction Toggle 0 */
+#define REG_PORT_OUT0              (*(RwReg  *)0x41006010UL) /**< \brief (PORT) Data Output Value 0 */
+#define REG_PORT_OUTCLR0           (*(RwReg  *)0x41006014UL) /**< \brief (PORT) Data Output Value Clear 0 */
+#define REG_PORT_OUTSET0           (*(RwReg  *)0x41006018UL) /**< \brief (PORT) Data Output Value Set 0 */
+#define REG_PORT_OUTTGL0           (*(RwReg  *)0x4100601CUL) /**< \brief (PORT) Data Output Value Toggle 0 */
+#define REG_PORT_IN0               (*(RoReg  *)0x41006020UL) /**< \brief (PORT) Data Input Value 0 */
+#define REG_PORT_CTRL0             (*(RwReg  *)0x41006024UL) /**< \brief (PORT) Control 0 */
+#define REG_PORT_WRCONFIG0         (*(WoReg  *)0x41006028UL) /**< \brief (PORT) Write Configuration 0 */
+#define REG_PORT_EVCTRL0           (*(RwReg  *)0x4100602CUL) /**< \brief (PORT) Event Input Control 0 */
+#define REG_PORT_PMUX0             (*(RwReg8 *)0x41006030UL) /**< \brief (PORT) Peripheral Multiplexing 0 */
+#define REG_PORT_PINCFG0           (*(RwReg8 *)0x41006040UL) /**< \brief (PORT) Pin Configuration 0 */
+#define REG_PORT_DIR1              (*(RwReg  *)0x41006080UL) /**< \brief (PORT) Data Direction 1 */
+#define REG_PORT_DIRCLR1           (*(RwReg  *)0x41006084UL) /**< \brief (PORT) Data Direction Clear 1 */
+#define REG_PORT_DIRSET1           (*(RwReg  *)0x41006088UL) /**< \brief (PORT) Data Direction Set 1 */
+#define REG_PORT_DIRTGL1           (*(RwReg  *)0x4100608CUL) /**< \brief (PORT) Data Direction Toggle 1 */
+#define REG_PORT_OUT1              (*(RwReg  *)0x41006090UL) /**< \brief (PORT) Data Output Value 1 */
+#define REG_PORT_OUTCLR1           (*(RwReg  *)0x41006094UL) /**< \brief (PORT) Data Output Value Clear 1 */
+#define REG_PORT_OUTSET1           (*(RwReg  *)0x41006098UL) /**< \brief (PORT) Data Output Value Set 1 */
+#define REG_PORT_OUTTGL1           (*(RwReg  *)0x4100609CUL) /**< \brief (PORT) Data Output Value Toggle 1 */
+#define REG_PORT_IN1               (*(RoReg  *)0x410060A0UL) /**< \brief (PORT) Data Input Value 1 */
+#define REG_PORT_CTRL1             (*(RwReg  *)0x410060A4UL) /**< \brief (PORT) Control 1 */
+#define REG_PORT_WRCONFIG1         (*(WoReg  *)0x410060A8UL) /**< \brief (PORT) Write Configuration 1 */
+#define REG_PORT_EVCTRL1           (*(RwReg  *)0x410060ACUL) /**< \brief (PORT) Event Input Control 1 */
+#define REG_PORT_PMUX1             (*(RwReg8 *)0x410060B0UL) /**< \brief (PORT) Peripheral Multiplexing 1 */
+#define REG_PORT_PINCFG1           (*(RwReg8 *)0x410060C0UL) /**< \brief (PORT) Pin Configuration 1 */
+#define REG_PORT_DIR2              (*(RwReg  *)0x41006100UL) /**< \brief (PORT) Data Direction 2 */
+#define REG_PORT_DIRCLR2           (*(RwReg  *)0x41006104UL) /**< \brief (PORT) Data Direction Clear 2 */
+#define REG_PORT_DIRSET2           (*(RwReg  *)0x41006108UL) /**< \brief (PORT) Data Direction Set 2 */
+#define REG_PORT_DIRTGL2           (*(RwReg  *)0x4100610CUL) /**< \brief (PORT) Data Direction Toggle 2 */
+#define REG_PORT_OUT2              (*(RwReg  *)0x41006110UL) /**< \brief (PORT) Data Output Value 2 */
+#define REG_PORT_OUTCLR2           (*(RwReg  *)0x41006114UL) /**< \brief (PORT) Data Output Value Clear 2 */
+#define REG_PORT_OUTSET2           (*(RwReg  *)0x41006118UL) /**< \brief (PORT) Data Output Value Set 2 */
+#define REG_PORT_OUTTGL2           (*(RwReg  *)0x4100611CUL) /**< \brief (PORT) Data Output Value Toggle 2 */
+#define REG_PORT_IN2               (*(RoReg  *)0x41006120UL) /**< \brief (PORT) Data Input Value 2 */
+#define REG_PORT_CTRL2             (*(RwReg  *)0x41006124UL) /**< \brief (PORT) Control 2 */
+#define REG_PORT_WRCONFIG2         (*(WoReg  *)0x41006128UL) /**< \brief (PORT) Write Configuration 2 */
+#define REG_PORT_EVCTRL2           (*(RwReg  *)0x4100612CUL) /**< \brief (PORT) Event Input Control 2 */
+#define REG_PORT_PMUX2             (*(RwReg8 *)0x41006130UL) /**< \brief (PORT) Peripheral Multiplexing 2 */
+#define REG_PORT_PINCFG2           (*(RwReg8 *)0x41006140UL) /**< \brief (PORT) Pin Configuration 2 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for PORT peripheral ========== */
+#define PORT_BITS                   93      
+#define PORT_DIR_DEFAULT_VAL        { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_DIR_IMPLEMENTED        { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_DRVSTR                 1        // DRVSTR supported
+#define PORT_DRVSTR_DEFAULT_VAL     { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_DRVSTR_IMPLEMENTED     { 0xC8FFFFFF, 0xC3FFFBFF, 0x1F3FF0EF }
+#define PORT_EVENT_IMPLEMENTED      { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F03F0EF }
+#define PORT_EV_NUM                 4       
+#define PORT_INEN_DEFAULT_VAL       { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_INEN_IMPLEMENTED       { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_ODRAIN                 0        // ODRAIN supported
+#define PORT_ODRAIN_DEFAULT_VAL     { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_ODRAIN_IMPLEMENTED     { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_OUT_DEFAULT_VAL        { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_OUT_IMPLEMENTED        { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_PIN_IMPLEMENTED        { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_PMUXBIT0_DEFAULT_VAL   { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_PMUXBIT0_IMPLEMENTED   { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_PMUXBIT1_DEFAULT_VAL   { 0x40000000, 0x00000000, 0x00000000 }
+#define PORT_PMUXBIT1_IMPLEMENTED   { 0xCBFFFFF7, 0xC3FFFB0F, 0x1B003C03 }
+#define PORT_PMUXBIT2_DEFAULT_VAL   { 0x40000000, 0x00000000, 0x00000000 }
+#define PORT_PMUXBIT2_IMPLEMENTED   { 0x4BFFFF34, 0xC3FFFB0F, 0x1F000003 }
+#define PORT_PMUXBIT3_DEFAULT_VAL   { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_PMUXBIT3_IMPLEMENTED   { 0xC3CF0FF0, 0x00C3CBC7, 0x18300000 }
+#define PORT_PMUXEN_DEFAULT_VAL     { 0x40000000, 0x00000000, 0x00000000 }
+#define PORT_PMUXEN_IMPLEMENTED     { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_PULLEN_DEFAULT_VAL     { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_PULLEN_IMPLEMENTED     { 0xCBFFFFFF, 0xC3FFFBFF, 0x1F3FFFEF }
+#define PORT_SLEWLIM                0        // SLEWLIM supported
+#define PORT_SLEWLIM_DEFAULT_VAL    { 0x00000000, 0x00000000, 0x00000000 }
+#define PORT_SLEWLIM_IMPLEMENTED    { 0x00000000, 0x00000000, 0x00000000 }
+
+#endif /* _SAML22_PORT_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/ptc.h b/watch-library/hardware/include/instance/ptc.h
new file mode 100644
index 00000000..03c6b30d
--- /dev/null
+++ b/watch-library/hardware/include/instance/ptc.h
@@ -0,0 +1,43 @@
+/**
+ * \file
+ *
+ * \brief Instance description for PTC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_PTC_INSTANCE_
+#define _SAML22_PTC_INSTANCE_
+
+/* ========== Instance parameters for PTC peripheral ========== */
+#define PTC_DMAC_ID_EOC             37       // Index of DMA EOC trigger
+#define PTC_DMAC_ID_SEQ             38       // Index of DMA SEQ trigger
+#define PTC_DMAC_ID_WCOMP           39       // Index of DMA WCOMP trigger
+#define PTC_GCLK_ID                 27       // Index of Generic Clock
+#define PTC_LINES_MSB               31      
+#define PTC_LINES_NUM               32       // Number of PTC lines
+#define PTC_Y_LINES_MSB             23      
+#define PTC_Y_LINES_NUM             24       // Number of Y lines
+
+#endif /* _SAML22_PTC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/rstc.h b/watch-library/hardware/include/instance/rstc.h
new file mode 100644
index 00000000..e6186fd4
--- /dev/null
+++ b/watch-library/hardware/include/instance/rstc.h
@@ -0,0 +1,46 @@
+/**
+ * \file
+ *
+ * \brief Instance description for RSTC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_RSTC_INSTANCE_
+#define _SAML22_RSTC_INSTANCE_
+
+/* ========== Register definition for RSTC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_RSTC_RCAUSE            (0x40000C00) /**< \brief (RSTC) Reset Cause */
+#define REG_RSTC_BKUPEXIT          (0x40000C02) /**< \brief (RSTC) Backup Exit Source */
+#else
+#define REG_RSTC_RCAUSE            (*(RoReg8 *)0x40000C00UL) /**< \brief (RSTC) Reset Cause */
+#define REG_RSTC_BKUPEXIT          (*(RoReg8 *)0x40000C02UL) /**< \brief (RSTC) Backup Exit Source */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for RSTC peripheral ========== */
+#define RSTC_BACKUP_IMPLEMENTED     1       
+#define RSTC_NUMBER_OF_EXTWAKE      0        // number of external wakeup line
+
+#endif /* _SAML22_RSTC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/rtc.h b/watch-library/hardware/include/instance/rtc.h
new file mode 100644
index 00000000..5c6bf72d
--- /dev/null
+++ b/watch-library/hardware/include/instance/rtc.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for RTC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_RTC_INSTANCE_
+#define _SAML22_RTC_INSTANCE_
+
+/* ========== Register definition for RTC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_RTC_DBGCTRL            (0x4000240E) /**< \brief (RTC) Debug Control */
+#define REG_RTC_FREQCORR           (0x40002414) /**< \brief (RTC) Frequency Correction */
+#define REG_RTC_GP0                (0x40002440) /**< \brief (RTC) General Purpose 0 */
+#define REG_RTC_GP1                (0x40002444) /**< \brief (RTC) General Purpose 1 */
+#define REG_RTC_TAMPCTRL           (0x40002460) /**< \brief (RTC) Tamper Control */
+#define REG_RTC_TAMPID             (0x40002468) /**< \brief (RTC) Tamper ID */
+#define REG_RTC_BKUP0              (0x40002480) /**< \brief (RTC) Backup 0 */
+#define REG_RTC_BKUP1              (0x40002484) /**< \brief (RTC) Backup 1 */
+#define REG_RTC_BKUP2              (0x40002488) /**< \brief (RTC) Backup 2 */
+#define REG_RTC_BKUP3              (0x4000248C) /**< \brief (RTC) Backup 3 */
+#define REG_RTC_BKUP4              (0x40002490) /**< \brief (RTC) Backup 4 */
+#define REG_RTC_BKUP5              (0x40002494) /**< \brief (RTC) Backup 5 */
+#define REG_RTC_BKUP6              (0x40002498) /**< \brief (RTC) Backup 6 */
+#define REG_RTC_BKUP7              (0x4000249C) /**< \brief (RTC) Backup 7 */
+#define REG_RTC_MODE0_CTRLA        (0x40002400) /**< \brief (RTC) MODE0 Control A */
+#define REG_RTC_MODE0_CTRLB        (0x40002402) /**< \brief (RTC) MODE0 Control B */
+#define REG_RTC_MODE0_EVCTRL       (0x40002404) /**< \brief (RTC) MODE0 Event Control */
+#define REG_RTC_MODE0_INTENCLR     (0x40002408) /**< \brief (RTC) MODE0 Interrupt Enable Clear */
+#define REG_RTC_MODE0_INTENSET     (0x4000240A) /**< \brief (RTC) MODE0 Interrupt Enable Set */
+#define REG_RTC_MODE0_INTFLAG      (0x4000240C) /**< \brief (RTC) MODE0 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE0_SYNCBUSY     (0x40002410) /**< \brief (RTC) MODE0 Synchronization Busy Status */
+#define REG_RTC_MODE0_COUNT        (0x40002418) /**< \brief (RTC) MODE0 Counter Value */
+#define REG_RTC_MODE0_COMP0        (0x40002420) /**< \brief (RTC) MODE0 Compare 0 Value */
+#define REG_RTC_MODE0_TIMESTAMP    (0x40002464) /**< \brief (RTC) MODE0 Timestamp */
+#define REG_RTC_MODE1_CTRLA        (0x40002400) /**< \brief (RTC) MODE1 Control A */
+#define REG_RTC_MODE1_CTRLB        (0x40002402) /**< \brief (RTC) MODE1 Control B */
+#define REG_RTC_MODE1_EVCTRL       (0x40002404) /**< \brief (RTC) MODE1 Event Control */
+#define REG_RTC_MODE1_INTENCLR     (0x40002408) /**< \brief (RTC) MODE1 Interrupt Enable Clear */
+#define REG_RTC_MODE1_INTENSET     (0x4000240A) /**< \brief (RTC) MODE1 Interrupt Enable Set */
+#define REG_RTC_MODE1_INTFLAG      (0x4000240C) /**< \brief (RTC) MODE1 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE1_SYNCBUSY     (0x40002410) /**< \brief (RTC) MODE1 Synchronization Busy Status */
+#define REG_RTC_MODE1_COUNT        (0x40002418) /**< \brief (RTC) MODE1 Counter Value */
+#define REG_RTC_MODE1_PER          (0x4000241C) /**< \brief (RTC) MODE1 Counter Period */
+#define REG_RTC_MODE1_COMP0        (0x40002420) /**< \brief (RTC) MODE1 Compare 0 Value */
+#define REG_RTC_MODE1_COMP1        (0x40002422) /**< \brief (RTC) MODE1 Compare 1 Value */
+#define REG_RTC_MODE1_TIMESTAMP    (0x40002464) /**< \brief (RTC) MODE1 Timestamp */
+#define REG_RTC_MODE2_CTRLA        (0x40002400) /**< \brief (RTC) MODE2 Control A */
+#define REG_RTC_MODE2_CTRLB        (0x40002402) /**< \brief (RTC) MODE2 Control B */
+#define REG_RTC_MODE2_EVCTRL       (0x40002404) /**< \brief (RTC) MODE2 Event Control */
+#define REG_RTC_MODE2_INTENCLR     (0x40002408) /**< \brief (RTC) MODE2 Interrupt Enable Clear */
+#define REG_RTC_MODE2_INTENSET     (0x4000240A) /**< \brief (RTC) MODE2 Interrupt Enable Set */
+#define REG_RTC_MODE2_INTFLAG      (0x4000240C) /**< \brief (RTC) MODE2 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE2_SYNCBUSY     (0x40002410) /**< \brief (RTC) MODE2 Synchronization Busy Status */
+#define REG_RTC_MODE2_CLOCK        (0x40002418) /**< \brief (RTC) MODE2 Clock Value */
+#define REG_RTC_MODE2_TIMESTAMP    (0x40002464) /**< \brief (RTC) MODE2 Timestamp */
+#define REG_RTC_MODE2_ALARM_ALARM0 (0x40002420) /**< \brief (RTC) MODE2_ALARM Alarm 0 Value */
+#define REG_RTC_MODE2_ALARM_MASK0  (0x40002424) /**< \brief (RTC) MODE2_ALARM Alarm 0 Mask */
+#else
+#define REG_RTC_DBGCTRL            (*(RwReg8 *)0x4000240EUL) /**< \brief (RTC) Debug Control */
+#define REG_RTC_FREQCORR           (*(RwReg8 *)0x40002414UL) /**< \brief (RTC) Frequency Correction */
+#define REG_RTC_GP0                (*(RwReg  *)0x40002440UL) /**< \brief (RTC) General Purpose 0 */
+#define REG_RTC_GP1                (*(RwReg  *)0x40002444UL) /**< \brief (RTC) General Purpose 1 */
+#define REG_RTC_TAMPCTRL           (*(RwReg  *)0x40002460UL) /**< \brief (RTC) Tamper Control */
+#define REG_RTC_TAMPID             (*(RwReg  *)0x40002468UL) /**< \brief (RTC) Tamper ID */
+#define REG_RTC_BKUP0              (*(RwReg  *)0x40002480UL) /**< \brief (RTC) Backup 0 */
+#define REG_RTC_BKUP1              (*(RwReg  *)0x40002484UL) /**< \brief (RTC) Backup 1 */
+#define REG_RTC_BKUP2              (*(RwReg  *)0x40002488UL) /**< \brief (RTC) Backup 2 */
+#define REG_RTC_BKUP3              (*(RwReg  *)0x4000248CUL) /**< \brief (RTC) Backup 3 */
+#define REG_RTC_BKUP4              (*(RwReg  *)0x40002490UL) /**< \brief (RTC) Backup 4 */
+#define REG_RTC_BKUP5              (*(RwReg  *)0x40002494UL) /**< \brief (RTC) Backup 5 */
+#define REG_RTC_BKUP6              (*(RwReg  *)0x40002498UL) /**< \brief (RTC) Backup 6 */
+#define REG_RTC_BKUP7              (*(RwReg  *)0x4000249CUL) /**< \brief (RTC) Backup 7 */
+#define REG_RTC_MODE0_CTRLA        (*(RwReg16*)0x40002400UL) /**< \brief (RTC) MODE0 Control A */
+#define REG_RTC_MODE0_CTRLB        (*(RwReg16*)0x40002402UL) /**< \brief (RTC) MODE0 Control B */
+#define REG_RTC_MODE0_EVCTRL       (*(RwReg  *)0x40002404UL) /**< \brief (RTC) MODE0 Event Control */
+#define REG_RTC_MODE0_INTENCLR     (*(RwReg16*)0x40002408UL) /**< \brief (RTC) MODE0 Interrupt Enable Clear */
+#define REG_RTC_MODE0_INTENSET     (*(RwReg16*)0x4000240AUL) /**< \brief (RTC) MODE0 Interrupt Enable Set */
+#define REG_RTC_MODE0_INTFLAG      (*(RwReg16*)0x4000240CUL) /**< \brief (RTC) MODE0 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE0_SYNCBUSY     (*(RoReg  *)0x40002410UL) /**< \brief (RTC) MODE0 Synchronization Busy Status */
+#define REG_RTC_MODE0_COUNT        (*(RwReg  *)0x40002418UL) /**< \brief (RTC) MODE0 Counter Value */
+#define REG_RTC_MODE0_COMP0        (*(RwReg  *)0x40002420UL) /**< \brief (RTC) MODE0 Compare 0 Value */
+#define REG_RTC_MODE0_TIMESTAMP    (*(RoReg  *)0x40002464UL) /**< \brief (RTC) MODE0 Timestamp */
+#define REG_RTC_MODE1_CTRLA        (*(RwReg16*)0x40002400UL) /**< \brief (RTC) MODE1 Control A */
+#define REG_RTC_MODE1_CTRLB        (*(RwReg16*)0x40002402UL) /**< \brief (RTC) MODE1 Control B */
+#define REG_RTC_MODE1_EVCTRL       (*(RwReg  *)0x40002404UL) /**< \brief (RTC) MODE1 Event Control */
+#define REG_RTC_MODE1_INTENCLR     (*(RwReg16*)0x40002408UL) /**< \brief (RTC) MODE1 Interrupt Enable Clear */
+#define REG_RTC_MODE1_INTENSET     (*(RwReg16*)0x4000240AUL) /**< \brief (RTC) MODE1 Interrupt Enable Set */
+#define REG_RTC_MODE1_INTFLAG      (*(RwReg16*)0x4000240CUL) /**< \brief (RTC) MODE1 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE1_SYNCBUSY     (*(RoReg  *)0x40002410UL) /**< \brief (RTC) MODE1 Synchronization Busy Status */
+#define REG_RTC_MODE1_COUNT        (*(RwReg16*)0x40002418UL) /**< \brief (RTC) MODE1 Counter Value */
+#define REG_RTC_MODE1_PER          (*(RwReg16*)0x4000241CUL) /**< \brief (RTC) MODE1 Counter Period */
+#define REG_RTC_MODE1_COMP0        (*(RwReg16*)0x40002420UL) /**< \brief (RTC) MODE1 Compare 0 Value */
+#define REG_RTC_MODE1_COMP1        (*(RwReg16*)0x40002422UL) /**< \brief (RTC) MODE1 Compare 1 Value */
+#define REG_RTC_MODE1_TIMESTAMP    (*(RoReg  *)0x40002464UL) /**< \brief (RTC) MODE1 Timestamp */
+#define REG_RTC_MODE2_CTRLA        (*(RwReg16*)0x40002400UL) /**< \brief (RTC) MODE2 Control A */
+#define REG_RTC_MODE2_CTRLB        (*(RwReg16*)0x40002402UL) /**< \brief (RTC) MODE2 Control B */
+#define REG_RTC_MODE2_EVCTRL       (*(RwReg  *)0x40002404UL) /**< \brief (RTC) MODE2 Event Control */
+#define REG_RTC_MODE2_INTENCLR     (*(RwReg16*)0x40002408UL) /**< \brief (RTC) MODE2 Interrupt Enable Clear */
+#define REG_RTC_MODE2_INTENSET     (*(RwReg16*)0x4000240AUL) /**< \brief (RTC) MODE2 Interrupt Enable Set */
+#define REG_RTC_MODE2_INTFLAG      (*(RwReg16*)0x4000240CUL) /**< \brief (RTC) MODE2 Interrupt Flag Status and Clear */
+#define REG_RTC_MODE2_SYNCBUSY     (*(RoReg  *)0x40002410UL) /**< \brief (RTC) MODE2 Synchronization Busy Status */
+#define REG_RTC_MODE2_CLOCK        (*(RwReg  *)0x40002418UL) /**< \brief (RTC) MODE2 Clock Value */
+#define REG_RTC_MODE2_TIMESTAMP    (*(RoReg  *)0x40002464UL) /**< \brief (RTC) MODE2 Timestamp */
+#define REG_RTC_MODE2_ALARM_ALARM0 (*(RwReg  *)0x40002420UL) /**< \brief (RTC) MODE2_ALARM Alarm 0 Value */
+#define REG_RTC_MODE2_ALARM_MASK0  (*(RwReg8 *)0x40002424UL) /**< \brief (RTC) MODE2_ALARM Alarm 0 Mask */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for RTC peripheral ========== */
+#define RTC_ALARM_NUM               1        // Number of Alarms
+#define RTC_BKUP_NUM                8        // Number of Backup Registers
+#define RTC_COMP16_NUM              2        // Number of 16-bit Comparators
+#define RTC_COMP32_NUM              1        // Number of 32-bit Comparators
+#define RTC_DMAC_ID_TIMESTAMP       1        // DMA RTC timestamp trigger
+#define RTC_GPR_NUM                 2        // Number of General-Purpose Registers
+#define RTC_PER_NUM                 8        // Number of Periodic Intervals
+#define RTC_TAMPER_NUM              5        // Number of Tamper Inputs
+
+#endif /* _SAML22_RTC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom0.h b/watch-library/hardware/include/instance/sercom0.h
new file mode 100644
index 00000000..7160d497
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom0.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM0
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM0_INSTANCE_
+#define _SAML22_SERCOM0_INSTANCE_
+
+/* ========== Register definition for SERCOM0 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM0_I2CM_CTRLA     (0x42000400) /**< \brief (SERCOM0) I2CM Control A */
+#define REG_SERCOM0_I2CM_CTRLB     (0x42000404) /**< \brief (SERCOM0) I2CM Control B */
+#define REG_SERCOM0_I2CM_BAUD      (0x4200040C) /**< \brief (SERCOM0) I2CM Baud Rate */
+#define REG_SERCOM0_I2CM_INTENCLR  (0x42000414) /**< \brief (SERCOM0) I2CM Interrupt Enable Clear */
+#define REG_SERCOM0_I2CM_INTENSET  (0x42000416) /**< \brief (SERCOM0) I2CM Interrupt Enable Set */
+#define REG_SERCOM0_I2CM_INTFLAG   (0x42000418) /**< \brief (SERCOM0) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM0_I2CM_STATUS    (0x4200041A) /**< \brief (SERCOM0) I2CM Status */
+#define REG_SERCOM0_I2CM_SYNCBUSY  (0x4200041C) /**< \brief (SERCOM0) I2CM Synchronization Busy */
+#define REG_SERCOM0_I2CM_ADDR      (0x42000424) /**< \brief (SERCOM0) I2CM Address */
+#define REG_SERCOM0_I2CM_DATA      (0x42000428) /**< \brief (SERCOM0) I2CM Data */
+#define REG_SERCOM0_I2CM_DBGCTRL   (0x42000430) /**< \brief (SERCOM0) I2CM Debug Control */
+#define REG_SERCOM0_I2CS_CTRLA     (0x42000400) /**< \brief (SERCOM0) I2CS Control A */
+#define REG_SERCOM0_I2CS_CTRLB     (0x42000404) /**< \brief (SERCOM0) I2CS Control B */
+#define REG_SERCOM0_I2CS_INTENCLR  (0x42000414) /**< \brief (SERCOM0) I2CS Interrupt Enable Clear */
+#define REG_SERCOM0_I2CS_INTENSET  (0x42000416) /**< \brief (SERCOM0) I2CS Interrupt Enable Set */
+#define REG_SERCOM0_I2CS_INTFLAG   (0x42000418) /**< \brief (SERCOM0) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM0_I2CS_STATUS    (0x4200041A) /**< \brief (SERCOM0) I2CS Status */
+#define REG_SERCOM0_I2CS_SYNCBUSY  (0x4200041C) /**< \brief (SERCOM0) I2CS Synchronization Busy */
+#define REG_SERCOM0_I2CS_ADDR      (0x42000424) /**< \brief (SERCOM0) I2CS Address */
+#define REG_SERCOM0_I2CS_DATA      (0x42000428) /**< \brief (SERCOM0) I2CS Data */
+#define REG_SERCOM0_SPI_CTRLA      (0x42000400) /**< \brief (SERCOM0) SPI Control A */
+#define REG_SERCOM0_SPI_CTRLB      (0x42000404) /**< \brief (SERCOM0) SPI Control B */
+#define REG_SERCOM0_SPI_BAUD       (0x4200040C) /**< \brief (SERCOM0) SPI Baud Rate */
+#define REG_SERCOM0_SPI_INTENCLR   (0x42000414) /**< \brief (SERCOM0) SPI Interrupt Enable Clear */
+#define REG_SERCOM0_SPI_INTENSET   (0x42000416) /**< \brief (SERCOM0) SPI Interrupt Enable Set */
+#define REG_SERCOM0_SPI_INTFLAG    (0x42000418) /**< \brief (SERCOM0) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM0_SPI_STATUS     (0x4200041A) /**< \brief (SERCOM0) SPI Status */
+#define REG_SERCOM0_SPI_SYNCBUSY   (0x4200041C) /**< \brief (SERCOM0) SPI Synchronization Busy */
+#define REG_SERCOM0_SPI_ADDR       (0x42000424) /**< \brief (SERCOM0) SPI Address */
+#define REG_SERCOM0_SPI_DATA       (0x42000428) /**< \brief (SERCOM0) SPI Data */
+#define REG_SERCOM0_SPI_DBGCTRL    (0x42000430) /**< \brief (SERCOM0) SPI Debug Control */
+#define REG_SERCOM0_USART_CTRLA    (0x42000400) /**< \brief (SERCOM0) USART Control A */
+#define REG_SERCOM0_USART_CTRLB    (0x42000404) /**< \brief (SERCOM0) USART Control B */
+#define REG_SERCOM0_USART_CTRLC    (0x42000408) /**< \brief (SERCOM0) USART Control C */
+#define REG_SERCOM0_USART_BAUD     (0x4200040C) /**< \brief (SERCOM0) USART Baud Rate */
+#define REG_SERCOM0_USART_RXPL     (0x4200040E) /**< \brief (SERCOM0) USART Receive Pulse Length */
+#define REG_SERCOM0_USART_INTENCLR (0x42000414) /**< \brief (SERCOM0) USART Interrupt Enable Clear */
+#define REG_SERCOM0_USART_INTENSET (0x42000416) /**< \brief (SERCOM0) USART Interrupt Enable Set */
+#define REG_SERCOM0_USART_INTFLAG  (0x42000418) /**< \brief (SERCOM0) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM0_USART_STATUS   (0x4200041A) /**< \brief (SERCOM0) USART Status */
+#define REG_SERCOM0_USART_SYNCBUSY (0x4200041C) /**< \brief (SERCOM0) USART Synchronization Busy */
+#define REG_SERCOM0_USART_RXERRCNT (0x42000420) /**< \brief (SERCOM0) USART Receive Error Count */
+#define REG_SERCOM0_USART_DATA     (0x42000428) /**< \brief (SERCOM0) USART Data */
+#define REG_SERCOM0_USART_DBGCTRL  (0x42000430) /**< \brief (SERCOM0) USART Debug Control */
+#else
+#define REG_SERCOM0_I2CM_CTRLA     (*(RwReg  *)0x42000400UL) /**< \brief (SERCOM0) I2CM Control A */
+#define REG_SERCOM0_I2CM_CTRLB     (*(RwReg  *)0x42000404UL) /**< \brief (SERCOM0) I2CM Control B */
+#define REG_SERCOM0_I2CM_BAUD      (*(RwReg  *)0x4200040CUL) /**< \brief (SERCOM0) I2CM Baud Rate */
+#define REG_SERCOM0_I2CM_INTENCLR  (*(RwReg8 *)0x42000414UL) /**< \brief (SERCOM0) I2CM Interrupt Enable Clear */
+#define REG_SERCOM0_I2CM_INTENSET  (*(RwReg8 *)0x42000416UL) /**< \brief (SERCOM0) I2CM Interrupt Enable Set */
+#define REG_SERCOM0_I2CM_INTFLAG   (*(RwReg8 *)0x42000418UL) /**< \brief (SERCOM0) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM0_I2CM_STATUS    (*(RwReg16*)0x4200041AUL) /**< \brief (SERCOM0) I2CM Status */
+#define REG_SERCOM0_I2CM_SYNCBUSY  (*(RoReg  *)0x4200041CUL) /**< \brief (SERCOM0) I2CM Synchronization Busy */
+#define REG_SERCOM0_I2CM_ADDR      (*(RwReg  *)0x42000424UL) /**< \brief (SERCOM0) I2CM Address */
+#define REG_SERCOM0_I2CM_DATA      (*(RwReg8 *)0x42000428UL) /**< \brief (SERCOM0) I2CM Data */
+#define REG_SERCOM0_I2CM_DBGCTRL   (*(RwReg8 *)0x42000430UL) /**< \brief (SERCOM0) I2CM Debug Control */
+#define REG_SERCOM0_I2CS_CTRLA     (*(RwReg  *)0x42000400UL) /**< \brief (SERCOM0) I2CS Control A */
+#define REG_SERCOM0_I2CS_CTRLB     (*(RwReg  *)0x42000404UL) /**< \brief (SERCOM0) I2CS Control B */
+#define REG_SERCOM0_I2CS_INTENCLR  (*(RwReg8 *)0x42000414UL) /**< \brief (SERCOM0) I2CS Interrupt Enable Clear */
+#define REG_SERCOM0_I2CS_INTENSET  (*(RwReg8 *)0x42000416UL) /**< \brief (SERCOM0) I2CS Interrupt Enable Set */
+#define REG_SERCOM0_I2CS_INTFLAG   (*(RwReg8 *)0x42000418UL) /**< \brief (SERCOM0) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM0_I2CS_STATUS    (*(RwReg16*)0x4200041AUL) /**< \brief (SERCOM0) I2CS Status */
+#define REG_SERCOM0_I2CS_SYNCBUSY  (*(RoReg  *)0x4200041CUL) /**< \brief (SERCOM0) I2CS Synchronization Busy */
+#define REG_SERCOM0_I2CS_ADDR      (*(RwReg  *)0x42000424UL) /**< \brief (SERCOM0) I2CS Address */
+#define REG_SERCOM0_I2CS_DATA      (*(RwReg8 *)0x42000428UL) /**< \brief (SERCOM0) I2CS Data */
+#define REG_SERCOM0_SPI_CTRLA      (*(RwReg  *)0x42000400UL) /**< \brief (SERCOM0) SPI Control A */
+#define REG_SERCOM0_SPI_CTRLB      (*(RwReg  *)0x42000404UL) /**< \brief (SERCOM0) SPI Control B */
+#define REG_SERCOM0_SPI_BAUD       (*(RwReg8 *)0x4200040CUL) /**< \brief (SERCOM0) SPI Baud Rate */
+#define REG_SERCOM0_SPI_INTENCLR   (*(RwReg8 *)0x42000414UL) /**< \brief (SERCOM0) SPI Interrupt Enable Clear */
+#define REG_SERCOM0_SPI_INTENSET   (*(RwReg8 *)0x42000416UL) /**< \brief (SERCOM0) SPI Interrupt Enable Set */
+#define REG_SERCOM0_SPI_INTFLAG    (*(RwReg8 *)0x42000418UL) /**< \brief (SERCOM0) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM0_SPI_STATUS     (*(RwReg16*)0x4200041AUL) /**< \brief (SERCOM0) SPI Status */
+#define REG_SERCOM0_SPI_SYNCBUSY   (*(RoReg  *)0x4200041CUL) /**< \brief (SERCOM0) SPI Synchronization Busy */
+#define REG_SERCOM0_SPI_ADDR       (*(RwReg  *)0x42000424UL) /**< \brief (SERCOM0) SPI Address */
+#define REG_SERCOM0_SPI_DATA       (*(RwReg  *)0x42000428UL) /**< \brief (SERCOM0) SPI Data */
+#define REG_SERCOM0_SPI_DBGCTRL    (*(RwReg8 *)0x42000430UL) /**< \brief (SERCOM0) SPI Debug Control */
+#define REG_SERCOM0_USART_CTRLA    (*(RwReg  *)0x42000400UL) /**< \brief (SERCOM0) USART Control A */
+#define REG_SERCOM0_USART_CTRLB    (*(RwReg  *)0x42000404UL) /**< \brief (SERCOM0) USART Control B */
+#define REG_SERCOM0_USART_CTRLC    (*(RwReg  *)0x42000408UL) /**< \brief (SERCOM0) USART Control C */
+#define REG_SERCOM0_USART_BAUD     (*(RwReg16*)0x4200040CUL) /**< \brief (SERCOM0) USART Baud Rate */
+#define REG_SERCOM0_USART_RXPL     (*(RwReg8 *)0x4200040EUL) /**< \brief (SERCOM0) USART Receive Pulse Length */
+#define REG_SERCOM0_USART_INTENCLR (*(RwReg8 *)0x42000414UL) /**< \brief (SERCOM0) USART Interrupt Enable Clear */
+#define REG_SERCOM0_USART_INTENSET (*(RwReg8 *)0x42000416UL) /**< \brief (SERCOM0) USART Interrupt Enable Set */
+#define REG_SERCOM0_USART_INTFLAG  (*(RwReg8 *)0x42000418UL) /**< \brief (SERCOM0) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM0_USART_STATUS   (*(RwReg16*)0x4200041AUL) /**< \brief (SERCOM0) USART Status */
+#define REG_SERCOM0_USART_SYNCBUSY (*(RoReg  *)0x4200041CUL) /**< \brief (SERCOM0) USART Synchronization Busy */
+#define REG_SERCOM0_USART_RXERRCNT (*(RoReg8 *)0x42000420UL) /**< \brief (SERCOM0) USART Receive Error Count */
+#define REG_SERCOM0_USART_DATA     (*(RwReg16*)0x42000428UL) /**< \brief (SERCOM0) USART Data */
+#define REG_SERCOM0_USART_DBGCTRL  (*(RwReg8 *)0x42000430UL) /**< \brief (SERCOM0) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM0 peripheral ========== */
+#define SERCOM0_DMAC_ID_RX          2        // Index of DMA RX trigger
+#define SERCOM0_DMAC_ID_TX          3        // Index of DMA TX trigger
+#define SERCOM0_GCLK_ID_CORE        16      
+#define SERCOM0_GCLK_ID_SLOW        15      
+#define SERCOM0_INT_MSB             6       
+#define SERCOM0_PMSB                3       
+#define SERCOM0_SPI                 1        // SPI mode implemented?
+#define SERCOM0_TWIM                0        // TWI Master mode implemented?
+#define SERCOM0_TWIS                0        // TWI Slave mode implemented?
+#define SERCOM0_TWI_HSMODE          0        // TWI HighSpeed mode implemented?
+#define SERCOM0_USART               1        // USART mode implemented?
+#define SERCOM0_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM0_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM0_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM0_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom1.h b/watch-library/hardware/include/instance/sercom1.h
new file mode 100644
index 00000000..1c0176ef
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom1.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM1
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM1_INSTANCE_
+#define _SAML22_SERCOM1_INSTANCE_
+
+/* ========== Register definition for SERCOM1 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM1_I2CM_CTRLA     (0x42000800) /**< \brief (SERCOM1) I2CM Control A */
+#define REG_SERCOM1_I2CM_CTRLB     (0x42000804) /**< \brief (SERCOM1) I2CM Control B */
+#define REG_SERCOM1_I2CM_BAUD      (0x4200080C) /**< \brief (SERCOM1) I2CM Baud Rate */
+#define REG_SERCOM1_I2CM_INTENCLR  (0x42000814) /**< \brief (SERCOM1) I2CM Interrupt Enable Clear */
+#define REG_SERCOM1_I2CM_INTENSET  (0x42000816) /**< \brief (SERCOM1) I2CM Interrupt Enable Set */
+#define REG_SERCOM1_I2CM_INTFLAG   (0x42000818) /**< \brief (SERCOM1) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM1_I2CM_STATUS    (0x4200081A) /**< \brief (SERCOM1) I2CM Status */
+#define REG_SERCOM1_I2CM_SYNCBUSY  (0x4200081C) /**< \brief (SERCOM1) I2CM Synchronization Busy */
+#define REG_SERCOM1_I2CM_ADDR      (0x42000824) /**< \brief (SERCOM1) I2CM Address */
+#define REG_SERCOM1_I2CM_DATA      (0x42000828) /**< \brief (SERCOM1) I2CM Data */
+#define REG_SERCOM1_I2CM_DBGCTRL   (0x42000830) /**< \brief (SERCOM1) I2CM Debug Control */
+#define REG_SERCOM1_I2CS_CTRLA     (0x42000800) /**< \brief (SERCOM1) I2CS Control A */
+#define REG_SERCOM1_I2CS_CTRLB     (0x42000804) /**< \brief (SERCOM1) I2CS Control B */
+#define REG_SERCOM1_I2CS_INTENCLR  (0x42000814) /**< \brief (SERCOM1) I2CS Interrupt Enable Clear */
+#define REG_SERCOM1_I2CS_INTENSET  (0x42000816) /**< \brief (SERCOM1) I2CS Interrupt Enable Set */
+#define REG_SERCOM1_I2CS_INTFLAG   (0x42000818) /**< \brief (SERCOM1) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM1_I2CS_STATUS    (0x4200081A) /**< \brief (SERCOM1) I2CS Status */
+#define REG_SERCOM1_I2CS_SYNCBUSY  (0x4200081C) /**< \brief (SERCOM1) I2CS Synchronization Busy */
+#define REG_SERCOM1_I2CS_ADDR      (0x42000824) /**< \brief (SERCOM1) I2CS Address */
+#define REG_SERCOM1_I2CS_DATA      (0x42000828) /**< \brief (SERCOM1) I2CS Data */
+#define REG_SERCOM1_SPI_CTRLA      (0x42000800) /**< \brief (SERCOM1) SPI Control A */
+#define REG_SERCOM1_SPI_CTRLB      (0x42000804) /**< \brief (SERCOM1) SPI Control B */
+#define REG_SERCOM1_SPI_BAUD       (0x4200080C) /**< \brief (SERCOM1) SPI Baud Rate */
+#define REG_SERCOM1_SPI_INTENCLR   (0x42000814) /**< \brief (SERCOM1) SPI Interrupt Enable Clear */
+#define REG_SERCOM1_SPI_INTENSET   (0x42000816) /**< \brief (SERCOM1) SPI Interrupt Enable Set */
+#define REG_SERCOM1_SPI_INTFLAG    (0x42000818) /**< \brief (SERCOM1) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM1_SPI_STATUS     (0x4200081A) /**< \brief (SERCOM1) SPI Status */
+#define REG_SERCOM1_SPI_SYNCBUSY   (0x4200081C) /**< \brief (SERCOM1) SPI Synchronization Busy */
+#define REG_SERCOM1_SPI_ADDR       (0x42000824) /**< \brief (SERCOM1) SPI Address */
+#define REG_SERCOM1_SPI_DATA       (0x42000828) /**< \brief (SERCOM1) SPI Data */
+#define REG_SERCOM1_SPI_DBGCTRL    (0x42000830) /**< \brief (SERCOM1) SPI Debug Control */
+#define REG_SERCOM1_USART_CTRLA    (0x42000800) /**< \brief (SERCOM1) USART Control A */
+#define REG_SERCOM1_USART_CTRLB    (0x42000804) /**< \brief (SERCOM1) USART Control B */
+#define REG_SERCOM1_USART_CTRLC    (0x42000808) /**< \brief (SERCOM1) USART Control C */
+#define REG_SERCOM1_USART_BAUD     (0x4200080C) /**< \brief (SERCOM1) USART Baud Rate */
+#define REG_SERCOM1_USART_RXPL     (0x4200080E) /**< \brief (SERCOM1) USART Receive Pulse Length */
+#define REG_SERCOM1_USART_INTENCLR (0x42000814) /**< \brief (SERCOM1) USART Interrupt Enable Clear */
+#define REG_SERCOM1_USART_INTENSET (0x42000816) /**< \brief (SERCOM1) USART Interrupt Enable Set */
+#define REG_SERCOM1_USART_INTFLAG  (0x42000818) /**< \brief (SERCOM1) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM1_USART_STATUS   (0x4200081A) /**< \brief (SERCOM1) USART Status */
+#define REG_SERCOM1_USART_SYNCBUSY (0x4200081C) /**< \brief (SERCOM1) USART Synchronization Busy */
+#define REG_SERCOM1_USART_RXERRCNT (0x42000820) /**< \brief (SERCOM1) USART Receive Error Count */
+#define REG_SERCOM1_USART_DATA     (0x42000828) /**< \brief (SERCOM1) USART Data */
+#define REG_SERCOM1_USART_DBGCTRL  (0x42000830) /**< \brief (SERCOM1) USART Debug Control */
+#else
+#define REG_SERCOM1_I2CM_CTRLA     (*(RwReg  *)0x42000800UL) /**< \brief (SERCOM1) I2CM Control A */
+#define REG_SERCOM1_I2CM_CTRLB     (*(RwReg  *)0x42000804UL) /**< \brief (SERCOM1) I2CM Control B */
+#define REG_SERCOM1_I2CM_BAUD      (*(RwReg  *)0x4200080CUL) /**< \brief (SERCOM1) I2CM Baud Rate */
+#define REG_SERCOM1_I2CM_INTENCLR  (*(RwReg8 *)0x42000814UL) /**< \brief (SERCOM1) I2CM Interrupt Enable Clear */
+#define REG_SERCOM1_I2CM_INTENSET  (*(RwReg8 *)0x42000816UL) /**< \brief (SERCOM1) I2CM Interrupt Enable Set */
+#define REG_SERCOM1_I2CM_INTFLAG   (*(RwReg8 *)0x42000818UL) /**< \brief (SERCOM1) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM1_I2CM_STATUS    (*(RwReg16*)0x4200081AUL) /**< \brief (SERCOM1) I2CM Status */
+#define REG_SERCOM1_I2CM_SYNCBUSY  (*(RoReg  *)0x4200081CUL) /**< \brief (SERCOM1) I2CM Synchronization Busy */
+#define REG_SERCOM1_I2CM_ADDR      (*(RwReg  *)0x42000824UL) /**< \brief (SERCOM1) I2CM Address */
+#define REG_SERCOM1_I2CM_DATA      (*(RwReg8 *)0x42000828UL) /**< \brief (SERCOM1) I2CM Data */
+#define REG_SERCOM1_I2CM_DBGCTRL   (*(RwReg8 *)0x42000830UL) /**< \brief (SERCOM1) I2CM Debug Control */
+#define REG_SERCOM1_I2CS_CTRLA     (*(RwReg  *)0x42000800UL) /**< \brief (SERCOM1) I2CS Control A */
+#define REG_SERCOM1_I2CS_CTRLB     (*(RwReg  *)0x42000804UL) /**< \brief (SERCOM1) I2CS Control B */
+#define REG_SERCOM1_I2CS_INTENCLR  (*(RwReg8 *)0x42000814UL) /**< \brief (SERCOM1) I2CS Interrupt Enable Clear */
+#define REG_SERCOM1_I2CS_INTENSET  (*(RwReg8 *)0x42000816UL) /**< \brief (SERCOM1) I2CS Interrupt Enable Set */
+#define REG_SERCOM1_I2CS_INTFLAG   (*(RwReg8 *)0x42000818UL) /**< \brief (SERCOM1) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM1_I2CS_STATUS    (*(RwReg16*)0x4200081AUL) /**< \brief (SERCOM1) I2CS Status */
+#define REG_SERCOM1_I2CS_SYNCBUSY  (*(RoReg  *)0x4200081CUL) /**< \brief (SERCOM1) I2CS Synchronization Busy */
+#define REG_SERCOM1_I2CS_ADDR      (*(RwReg  *)0x42000824UL) /**< \brief (SERCOM1) I2CS Address */
+#define REG_SERCOM1_I2CS_DATA      (*(RwReg8 *)0x42000828UL) /**< \brief (SERCOM1) I2CS Data */
+#define REG_SERCOM1_SPI_CTRLA      (*(RwReg  *)0x42000800UL) /**< \brief (SERCOM1) SPI Control A */
+#define REG_SERCOM1_SPI_CTRLB      (*(RwReg  *)0x42000804UL) /**< \brief (SERCOM1) SPI Control B */
+#define REG_SERCOM1_SPI_BAUD       (*(RwReg8 *)0x4200080CUL) /**< \brief (SERCOM1) SPI Baud Rate */
+#define REG_SERCOM1_SPI_INTENCLR   (*(RwReg8 *)0x42000814UL) /**< \brief (SERCOM1) SPI Interrupt Enable Clear */
+#define REG_SERCOM1_SPI_INTENSET   (*(RwReg8 *)0x42000816UL) /**< \brief (SERCOM1) SPI Interrupt Enable Set */
+#define REG_SERCOM1_SPI_INTFLAG    (*(RwReg8 *)0x42000818UL) /**< \brief (SERCOM1) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM1_SPI_STATUS     (*(RwReg16*)0x4200081AUL) /**< \brief (SERCOM1) SPI Status */
+#define REG_SERCOM1_SPI_SYNCBUSY   (*(RoReg  *)0x4200081CUL) /**< \brief (SERCOM1) SPI Synchronization Busy */
+#define REG_SERCOM1_SPI_ADDR       (*(RwReg  *)0x42000824UL) /**< \brief (SERCOM1) SPI Address */
+#define REG_SERCOM1_SPI_DATA       (*(RwReg  *)0x42000828UL) /**< \brief (SERCOM1) SPI Data */
+#define REG_SERCOM1_SPI_DBGCTRL    (*(RwReg8 *)0x42000830UL) /**< \brief (SERCOM1) SPI Debug Control */
+#define REG_SERCOM1_USART_CTRLA    (*(RwReg  *)0x42000800UL) /**< \brief (SERCOM1) USART Control A */
+#define REG_SERCOM1_USART_CTRLB    (*(RwReg  *)0x42000804UL) /**< \brief (SERCOM1) USART Control B */
+#define REG_SERCOM1_USART_CTRLC    (*(RwReg  *)0x42000808UL) /**< \brief (SERCOM1) USART Control C */
+#define REG_SERCOM1_USART_BAUD     (*(RwReg16*)0x4200080CUL) /**< \brief (SERCOM1) USART Baud Rate */
+#define REG_SERCOM1_USART_RXPL     (*(RwReg8 *)0x4200080EUL) /**< \brief (SERCOM1) USART Receive Pulse Length */
+#define REG_SERCOM1_USART_INTENCLR (*(RwReg8 *)0x42000814UL) /**< \brief (SERCOM1) USART Interrupt Enable Clear */
+#define REG_SERCOM1_USART_INTENSET (*(RwReg8 *)0x42000816UL) /**< \brief (SERCOM1) USART Interrupt Enable Set */
+#define REG_SERCOM1_USART_INTFLAG  (*(RwReg8 *)0x42000818UL) /**< \brief (SERCOM1) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM1_USART_STATUS   (*(RwReg16*)0x4200081AUL) /**< \brief (SERCOM1) USART Status */
+#define REG_SERCOM1_USART_SYNCBUSY (*(RoReg  *)0x4200081CUL) /**< \brief (SERCOM1) USART Synchronization Busy */
+#define REG_SERCOM1_USART_RXERRCNT (*(RoReg8 *)0x42000820UL) /**< \brief (SERCOM1) USART Receive Error Count */
+#define REG_SERCOM1_USART_DATA     (*(RwReg16*)0x42000828UL) /**< \brief (SERCOM1) USART Data */
+#define REG_SERCOM1_USART_DBGCTRL  (*(RwReg8 *)0x42000830UL) /**< \brief (SERCOM1) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM1 peripheral ========== */
+#define SERCOM1_DMAC_ID_RX          4        // Index of DMA RX trigger
+#define SERCOM1_DMAC_ID_TX          5        // Index of DMA TX trigger
+#define SERCOM1_GCLK_ID_CORE        17      
+#define SERCOM1_GCLK_ID_SLOW        15      
+#define SERCOM1_INT_MSB             6       
+#define SERCOM1_PMSB                3       
+#define SERCOM1_SPI                 1        // SPI mode implemented?
+#define SERCOM1_TWIM                1        // TWI Master mode implemented?
+#define SERCOM1_TWIS                1        // TWI Slave mode implemented?
+#define SERCOM1_TWI_HSMODE          1        // TWI HighSpeed mode implemented?
+#define SERCOM1_USART               1        // USART mode implemented?
+#define SERCOM1_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM1_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM1_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM1_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom2.h b/watch-library/hardware/include/instance/sercom2.h
new file mode 100644
index 00000000..6c8458cc
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom2.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM2
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM2_INSTANCE_
+#define _SAML22_SERCOM2_INSTANCE_
+
+/* ========== Register definition for SERCOM2 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM2_I2CM_CTRLA     (0x42000C00) /**< \brief (SERCOM2) I2CM Control A */
+#define REG_SERCOM2_I2CM_CTRLB     (0x42000C04) /**< \brief (SERCOM2) I2CM Control B */
+#define REG_SERCOM2_I2CM_BAUD      (0x42000C0C) /**< \brief (SERCOM2) I2CM Baud Rate */
+#define REG_SERCOM2_I2CM_INTENCLR  (0x42000C14) /**< \brief (SERCOM2) I2CM Interrupt Enable Clear */
+#define REG_SERCOM2_I2CM_INTENSET  (0x42000C16) /**< \brief (SERCOM2) I2CM Interrupt Enable Set */
+#define REG_SERCOM2_I2CM_INTFLAG   (0x42000C18) /**< \brief (SERCOM2) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM2_I2CM_STATUS    (0x42000C1A) /**< \brief (SERCOM2) I2CM Status */
+#define REG_SERCOM2_I2CM_SYNCBUSY  (0x42000C1C) /**< \brief (SERCOM2) I2CM Synchronization Busy */
+#define REG_SERCOM2_I2CM_ADDR      (0x42000C24) /**< \brief (SERCOM2) I2CM Address */
+#define REG_SERCOM2_I2CM_DATA      (0x42000C28) /**< \brief (SERCOM2) I2CM Data */
+#define REG_SERCOM2_I2CM_DBGCTRL   (0x42000C30) /**< \brief (SERCOM2) I2CM Debug Control */
+#define REG_SERCOM2_I2CS_CTRLA     (0x42000C00) /**< \brief (SERCOM2) I2CS Control A */
+#define REG_SERCOM2_I2CS_CTRLB     (0x42000C04) /**< \brief (SERCOM2) I2CS Control B */
+#define REG_SERCOM2_I2CS_INTENCLR  (0x42000C14) /**< \brief (SERCOM2) I2CS Interrupt Enable Clear */
+#define REG_SERCOM2_I2CS_INTENSET  (0x42000C16) /**< \brief (SERCOM2) I2CS Interrupt Enable Set */
+#define REG_SERCOM2_I2CS_INTFLAG   (0x42000C18) /**< \brief (SERCOM2) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM2_I2CS_STATUS    (0x42000C1A) /**< \brief (SERCOM2) I2CS Status */
+#define REG_SERCOM2_I2CS_SYNCBUSY  (0x42000C1C) /**< \brief (SERCOM2) I2CS Synchronization Busy */
+#define REG_SERCOM2_I2CS_ADDR      (0x42000C24) /**< \brief (SERCOM2) I2CS Address */
+#define REG_SERCOM2_I2CS_DATA      (0x42000C28) /**< \brief (SERCOM2) I2CS Data */
+#define REG_SERCOM2_SPI_CTRLA      (0x42000C00) /**< \brief (SERCOM2) SPI Control A */
+#define REG_SERCOM2_SPI_CTRLB      (0x42000C04) /**< \brief (SERCOM2) SPI Control B */
+#define REG_SERCOM2_SPI_BAUD       (0x42000C0C) /**< \brief (SERCOM2) SPI Baud Rate */
+#define REG_SERCOM2_SPI_INTENCLR   (0x42000C14) /**< \brief (SERCOM2) SPI Interrupt Enable Clear */
+#define REG_SERCOM2_SPI_INTENSET   (0x42000C16) /**< \brief (SERCOM2) SPI Interrupt Enable Set */
+#define REG_SERCOM2_SPI_INTFLAG    (0x42000C18) /**< \brief (SERCOM2) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM2_SPI_STATUS     (0x42000C1A) /**< \brief (SERCOM2) SPI Status */
+#define REG_SERCOM2_SPI_SYNCBUSY   (0x42000C1C) /**< \brief (SERCOM2) SPI Synchronization Busy */
+#define REG_SERCOM2_SPI_ADDR       (0x42000C24) /**< \brief (SERCOM2) SPI Address */
+#define REG_SERCOM2_SPI_DATA       (0x42000C28) /**< \brief (SERCOM2) SPI Data */
+#define REG_SERCOM2_SPI_DBGCTRL    (0x42000C30) /**< \brief (SERCOM2) SPI Debug Control */
+#define REG_SERCOM2_USART_CTRLA    (0x42000C00) /**< \brief (SERCOM2) USART Control A */
+#define REG_SERCOM2_USART_CTRLB    (0x42000C04) /**< \brief (SERCOM2) USART Control B */
+#define REG_SERCOM2_USART_CTRLC    (0x42000C08) /**< \brief (SERCOM2) USART Control C */
+#define REG_SERCOM2_USART_BAUD     (0x42000C0C) /**< \brief (SERCOM2) USART Baud Rate */
+#define REG_SERCOM2_USART_RXPL     (0x42000C0E) /**< \brief (SERCOM2) USART Receive Pulse Length */
+#define REG_SERCOM2_USART_INTENCLR (0x42000C14) /**< \brief (SERCOM2) USART Interrupt Enable Clear */
+#define REG_SERCOM2_USART_INTENSET (0x42000C16) /**< \brief (SERCOM2) USART Interrupt Enable Set */
+#define REG_SERCOM2_USART_INTFLAG  (0x42000C18) /**< \brief (SERCOM2) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM2_USART_STATUS   (0x42000C1A) /**< \brief (SERCOM2) USART Status */
+#define REG_SERCOM2_USART_SYNCBUSY (0x42000C1C) /**< \brief (SERCOM2) USART Synchronization Busy */
+#define REG_SERCOM2_USART_RXERRCNT (0x42000C20) /**< \brief (SERCOM2) USART Receive Error Count */
+#define REG_SERCOM2_USART_DATA     (0x42000C28) /**< \brief (SERCOM2) USART Data */
+#define REG_SERCOM2_USART_DBGCTRL  (0x42000C30) /**< \brief (SERCOM2) USART Debug Control */
+#else
+#define REG_SERCOM2_I2CM_CTRLA     (*(RwReg  *)0x42000C00UL) /**< \brief (SERCOM2) I2CM Control A */
+#define REG_SERCOM2_I2CM_CTRLB     (*(RwReg  *)0x42000C04UL) /**< \brief (SERCOM2) I2CM Control B */
+#define REG_SERCOM2_I2CM_BAUD      (*(RwReg  *)0x42000C0CUL) /**< \brief (SERCOM2) I2CM Baud Rate */
+#define REG_SERCOM2_I2CM_INTENCLR  (*(RwReg8 *)0x42000C14UL) /**< \brief (SERCOM2) I2CM Interrupt Enable Clear */
+#define REG_SERCOM2_I2CM_INTENSET  (*(RwReg8 *)0x42000C16UL) /**< \brief (SERCOM2) I2CM Interrupt Enable Set */
+#define REG_SERCOM2_I2CM_INTFLAG   (*(RwReg8 *)0x42000C18UL) /**< \brief (SERCOM2) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM2_I2CM_STATUS    (*(RwReg16*)0x42000C1AUL) /**< \brief (SERCOM2) I2CM Status */
+#define REG_SERCOM2_I2CM_SYNCBUSY  (*(RoReg  *)0x42000C1CUL) /**< \brief (SERCOM2) I2CM Synchronization Busy */
+#define REG_SERCOM2_I2CM_ADDR      (*(RwReg  *)0x42000C24UL) /**< \brief (SERCOM2) I2CM Address */
+#define REG_SERCOM2_I2CM_DATA      (*(RwReg8 *)0x42000C28UL) /**< \brief (SERCOM2) I2CM Data */
+#define REG_SERCOM2_I2CM_DBGCTRL   (*(RwReg8 *)0x42000C30UL) /**< \brief (SERCOM2) I2CM Debug Control */
+#define REG_SERCOM2_I2CS_CTRLA     (*(RwReg  *)0x42000C00UL) /**< \brief (SERCOM2) I2CS Control A */
+#define REG_SERCOM2_I2CS_CTRLB     (*(RwReg  *)0x42000C04UL) /**< \brief (SERCOM2) I2CS Control B */
+#define REG_SERCOM2_I2CS_INTENCLR  (*(RwReg8 *)0x42000C14UL) /**< \brief (SERCOM2) I2CS Interrupt Enable Clear */
+#define REG_SERCOM2_I2CS_INTENSET  (*(RwReg8 *)0x42000C16UL) /**< \brief (SERCOM2) I2CS Interrupt Enable Set */
+#define REG_SERCOM2_I2CS_INTFLAG   (*(RwReg8 *)0x42000C18UL) /**< \brief (SERCOM2) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM2_I2CS_STATUS    (*(RwReg16*)0x42000C1AUL) /**< \brief (SERCOM2) I2CS Status */
+#define REG_SERCOM2_I2CS_SYNCBUSY  (*(RoReg  *)0x42000C1CUL) /**< \brief (SERCOM2) I2CS Synchronization Busy */
+#define REG_SERCOM2_I2CS_ADDR      (*(RwReg  *)0x42000C24UL) /**< \brief (SERCOM2) I2CS Address */
+#define REG_SERCOM2_I2CS_DATA      (*(RwReg8 *)0x42000C28UL) /**< \brief (SERCOM2) I2CS Data */
+#define REG_SERCOM2_SPI_CTRLA      (*(RwReg  *)0x42000C00UL) /**< \brief (SERCOM2) SPI Control A */
+#define REG_SERCOM2_SPI_CTRLB      (*(RwReg  *)0x42000C04UL) /**< \brief (SERCOM2) SPI Control B */
+#define REG_SERCOM2_SPI_BAUD       (*(RwReg8 *)0x42000C0CUL) /**< \brief (SERCOM2) SPI Baud Rate */
+#define REG_SERCOM2_SPI_INTENCLR   (*(RwReg8 *)0x42000C14UL) /**< \brief (SERCOM2) SPI Interrupt Enable Clear */
+#define REG_SERCOM2_SPI_INTENSET   (*(RwReg8 *)0x42000C16UL) /**< \brief (SERCOM2) SPI Interrupt Enable Set */
+#define REG_SERCOM2_SPI_INTFLAG    (*(RwReg8 *)0x42000C18UL) /**< \brief (SERCOM2) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM2_SPI_STATUS     (*(RwReg16*)0x42000C1AUL) /**< \brief (SERCOM2) SPI Status */
+#define REG_SERCOM2_SPI_SYNCBUSY   (*(RoReg  *)0x42000C1CUL) /**< \brief (SERCOM2) SPI Synchronization Busy */
+#define REG_SERCOM2_SPI_ADDR       (*(RwReg  *)0x42000C24UL) /**< \brief (SERCOM2) SPI Address */
+#define REG_SERCOM2_SPI_DATA       (*(RwReg  *)0x42000C28UL) /**< \brief (SERCOM2) SPI Data */
+#define REG_SERCOM2_SPI_DBGCTRL    (*(RwReg8 *)0x42000C30UL) /**< \brief (SERCOM2) SPI Debug Control */
+#define REG_SERCOM2_USART_CTRLA    (*(RwReg  *)0x42000C00UL) /**< \brief (SERCOM2) USART Control A */
+#define REG_SERCOM2_USART_CTRLB    (*(RwReg  *)0x42000C04UL) /**< \brief (SERCOM2) USART Control B */
+#define REG_SERCOM2_USART_CTRLC    (*(RwReg  *)0x42000C08UL) /**< \brief (SERCOM2) USART Control C */
+#define REG_SERCOM2_USART_BAUD     (*(RwReg16*)0x42000C0CUL) /**< \brief (SERCOM2) USART Baud Rate */
+#define REG_SERCOM2_USART_RXPL     (*(RwReg8 *)0x42000C0EUL) /**< \brief (SERCOM2) USART Receive Pulse Length */
+#define REG_SERCOM2_USART_INTENCLR (*(RwReg8 *)0x42000C14UL) /**< \brief (SERCOM2) USART Interrupt Enable Clear */
+#define REG_SERCOM2_USART_INTENSET (*(RwReg8 *)0x42000C16UL) /**< \brief (SERCOM2) USART Interrupt Enable Set */
+#define REG_SERCOM2_USART_INTFLAG  (*(RwReg8 *)0x42000C18UL) /**< \brief (SERCOM2) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM2_USART_STATUS   (*(RwReg16*)0x42000C1AUL) /**< \brief (SERCOM2) USART Status */
+#define REG_SERCOM2_USART_SYNCBUSY (*(RoReg  *)0x42000C1CUL) /**< \brief (SERCOM2) USART Synchronization Busy */
+#define REG_SERCOM2_USART_RXERRCNT (*(RoReg8 *)0x42000C20UL) /**< \brief (SERCOM2) USART Receive Error Count */
+#define REG_SERCOM2_USART_DATA     (*(RwReg16*)0x42000C28UL) /**< \brief (SERCOM2) USART Data */
+#define REG_SERCOM2_USART_DBGCTRL  (*(RwReg8 *)0x42000C30UL) /**< \brief (SERCOM2) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM2 peripheral ========== */
+#define SERCOM2_DMAC_ID_RX          6        // Index of DMA RX trigger
+#define SERCOM2_DMAC_ID_TX          7        // Index of DMA TX trigger
+#define SERCOM2_GCLK_ID_CORE        18      
+#define SERCOM2_GCLK_ID_SLOW        15      
+#define SERCOM2_INT_MSB             6       
+#define SERCOM2_PMSB                3       
+#define SERCOM2_SPI                 1        // SPI mode implemented?
+#define SERCOM2_TWIM                1        // TWI Master mode implemented?
+#define SERCOM2_TWIS                1        // TWI Slave mode implemented?
+#define SERCOM2_TWI_HSMODE          0        // TWI HighSpeed mode implemented?
+#define SERCOM2_USART               1        // USART mode implemented?
+#define SERCOM2_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM2_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM2_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM2_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom3.h b/watch-library/hardware/include/instance/sercom3.h
new file mode 100644
index 00000000..f7256e22
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom3.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM3
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM3_INSTANCE_
+#define _SAML22_SERCOM3_INSTANCE_
+
+/* ========== Register definition for SERCOM3 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM3_I2CM_CTRLA     (0x42001000) /**< \brief (SERCOM3) I2CM Control A */
+#define REG_SERCOM3_I2CM_CTRLB     (0x42001004) /**< \brief (SERCOM3) I2CM Control B */
+#define REG_SERCOM3_I2CM_BAUD      (0x4200100C) /**< \brief (SERCOM3) I2CM Baud Rate */
+#define REG_SERCOM3_I2CM_INTENCLR  (0x42001014) /**< \brief (SERCOM3) I2CM Interrupt Enable Clear */
+#define REG_SERCOM3_I2CM_INTENSET  (0x42001016) /**< \brief (SERCOM3) I2CM Interrupt Enable Set */
+#define REG_SERCOM3_I2CM_INTFLAG   (0x42001018) /**< \brief (SERCOM3) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM3_I2CM_STATUS    (0x4200101A) /**< \brief (SERCOM3) I2CM Status */
+#define REG_SERCOM3_I2CM_SYNCBUSY  (0x4200101C) /**< \brief (SERCOM3) I2CM Synchronization Busy */
+#define REG_SERCOM3_I2CM_ADDR      (0x42001024) /**< \brief (SERCOM3) I2CM Address */
+#define REG_SERCOM3_I2CM_DATA      (0x42001028) /**< \brief (SERCOM3) I2CM Data */
+#define REG_SERCOM3_I2CM_DBGCTRL   (0x42001030) /**< \brief (SERCOM3) I2CM Debug Control */
+#define REG_SERCOM3_I2CS_CTRLA     (0x42001000) /**< \brief (SERCOM3) I2CS Control A */
+#define REG_SERCOM3_I2CS_CTRLB     (0x42001004) /**< \brief (SERCOM3) I2CS Control B */
+#define REG_SERCOM3_I2CS_INTENCLR  (0x42001014) /**< \brief (SERCOM3) I2CS Interrupt Enable Clear */
+#define REG_SERCOM3_I2CS_INTENSET  (0x42001016) /**< \brief (SERCOM3) I2CS Interrupt Enable Set */
+#define REG_SERCOM3_I2CS_INTFLAG   (0x42001018) /**< \brief (SERCOM3) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM3_I2CS_STATUS    (0x4200101A) /**< \brief (SERCOM3) I2CS Status */
+#define REG_SERCOM3_I2CS_SYNCBUSY  (0x4200101C) /**< \brief (SERCOM3) I2CS Synchronization Busy */
+#define REG_SERCOM3_I2CS_ADDR      (0x42001024) /**< \brief (SERCOM3) I2CS Address */
+#define REG_SERCOM3_I2CS_DATA      (0x42001028) /**< \brief (SERCOM3) I2CS Data */
+#define REG_SERCOM3_SPI_CTRLA      (0x42001000) /**< \brief (SERCOM3) SPI Control A */
+#define REG_SERCOM3_SPI_CTRLB      (0x42001004) /**< \brief (SERCOM3) SPI Control B */
+#define REG_SERCOM3_SPI_BAUD       (0x4200100C) /**< \brief (SERCOM3) SPI Baud Rate */
+#define REG_SERCOM3_SPI_INTENCLR   (0x42001014) /**< \brief (SERCOM3) SPI Interrupt Enable Clear */
+#define REG_SERCOM3_SPI_INTENSET   (0x42001016) /**< \brief (SERCOM3) SPI Interrupt Enable Set */
+#define REG_SERCOM3_SPI_INTFLAG    (0x42001018) /**< \brief (SERCOM3) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM3_SPI_STATUS     (0x4200101A) /**< \brief (SERCOM3) SPI Status */
+#define REG_SERCOM3_SPI_SYNCBUSY   (0x4200101C) /**< \brief (SERCOM3) SPI Synchronization Busy */
+#define REG_SERCOM3_SPI_ADDR       (0x42001024) /**< \brief (SERCOM3) SPI Address */
+#define REG_SERCOM3_SPI_DATA       (0x42001028) /**< \brief (SERCOM3) SPI Data */
+#define REG_SERCOM3_SPI_DBGCTRL    (0x42001030) /**< \brief (SERCOM3) SPI Debug Control */
+#define REG_SERCOM3_USART_CTRLA    (0x42001000) /**< \brief (SERCOM3) USART Control A */
+#define REG_SERCOM3_USART_CTRLB    (0x42001004) /**< \brief (SERCOM3) USART Control B */
+#define REG_SERCOM3_USART_CTRLC    (0x42001008) /**< \brief (SERCOM3) USART Control C */
+#define REG_SERCOM3_USART_BAUD     (0x4200100C) /**< \brief (SERCOM3) USART Baud Rate */
+#define REG_SERCOM3_USART_RXPL     (0x4200100E) /**< \brief (SERCOM3) USART Receive Pulse Length */
+#define REG_SERCOM3_USART_INTENCLR (0x42001014) /**< \brief (SERCOM3) USART Interrupt Enable Clear */
+#define REG_SERCOM3_USART_INTENSET (0x42001016) /**< \brief (SERCOM3) USART Interrupt Enable Set */
+#define REG_SERCOM3_USART_INTFLAG  (0x42001018) /**< \brief (SERCOM3) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM3_USART_STATUS   (0x4200101A) /**< \brief (SERCOM3) USART Status */
+#define REG_SERCOM3_USART_SYNCBUSY (0x4200101C) /**< \brief (SERCOM3) USART Synchronization Busy */
+#define REG_SERCOM3_USART_RXERRCNT (0x42001020) /**< \brief (SERCOM3) USART Receive Error Count */
+#define REG_SERCOM3_USART_DATA     (0x42001028) /**< \brief (SERCOM3) USART Data */
+#define REG_SERCOM3_USART_DBGCTRL  (0x42001030) /**< \brief (SERCOM3) USART Debug Control */
+#else
+#define REG_SERCOM3_I2CM_CTRLA     (*(RwReg  *)0x42001000UL) /**< \brief (SERCOM3) I2CM Control A */
+#define REG_SERCOM3_I2CM_CTRLB     (*(RwReg  *)0x42001004UL) /**< \brief (SERCOM3) I2CM Control B */
+#define REG_SERCOM3_I2CM_BAUD      (*(RwReg  *)0x4200100CUL) /**< \brief (SERCOM3) I2CM Baud Rate */
+#define REG_SERCOM3_I2CM_INTENCLR  (*(RwReg8 *)0x42001014UL) /**< \brief (SERCOM3) I2CM Interrupt Enable Clear */
+#define REG_SERCOM3_I2CM_INTENSET  (*(RwReg8 *)0x42001016UL) /**< \brief (SERCOM3) I2CM Interrupt Enable Set */
+#define REG_SERCOM3_I2CM_INTFLAG   (*(RwReg8 *)0x42001018UL) /**< \brief (SERCOM3) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM3_I2CM_STATUS    (*(RwReg16*)0x4200101AUL) /**< \brief (SERCOM3) I2CM Status */
+#define REG_SERCOM3_I2CM_SYNCBUSY  (*(RoReg  *)0x4200101CUL) /**< \brief (SERCOM3) I2CM Synchronization Busy */
+#define REG_SERCOM3_I2CM_ADDR      (*(RwReg  *)0x42001024UL) /**< \brief (SERCOM3) I2CM Address */
+#define REG_SERCOM3_I2CM_DATA      (*(RwReg8 *)0x42001028UL) /**< \brief (SERCOM3) I2CM Data */
+#define REG_SERCOM3_I2CM_DBGCTRL   (*(RwReg8 *)0x42001030UL) /**< \brief (SERCOM3) I2CM Debug Control */
+#define REG_SERCOM3_I2CS_CTRLA     (*(RwReg  *)0x42001000UL) /**< \brief (SERCOM3) I2CS Control A */
+#define REG_SERCOM3_I2CS_CTRLB     (*(RwReg  *)0x42001004UL) /**< \brief (SERCOM3) I2CS Control B */
+#define REG_SERCOM3_I2CS_INTENCLR  (*(RwReg8 *)0x42001014UL) /**< \brief (SERCOM3) I2CS Interrupt Enable Clear */
+#define REG_SERCOM3_I2CS_INTENSET  (*(RwReg8 *)0x42001016UL) /**< \brief (SERCOM3) I2CS Interrupt Enable Set */
+#define REG_SERCOM3_I2CS_INTFLAG   (*(RwReg8 *)0x42001018UL) /**< \brief (SERCOM3) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM3_I2CS_STATUS    (*(RwReg16*)0x4200101AUL) /**< \brief (SERCOM3) I2CS Status */
+#define REG_SERCOM3_I2CS_SYNCBUSY  (*(RoReg  *)0x4200101CUL) /**< \brief (SERCOM3) I2CS Synchronization Busy */
+#define REG_SERCOM3_I2CS_ADDR      (*(RwReg  *)0x42001024UL) /**< \brief (SERCOM3) I2CS Address */
+#define REG_SERCOM3_I2CS_DATA      (*(RwReg8 *)0x42001028UL) /**< \brief (SERCOM3) I2CS Data */
+#define REG_SERCOM3_SPI_CTRLA      (*(RwReg  *)0x42001000UL) /**< \brief (SERCOM3) SPI Control A */
+#define REG_SERCOM3_SPI_CTRLB      (*(RwReg  *)0x42001004UL) /**< \brief (SERCOM3) SPI Control B */
+#define REG_SERCOM3_SPI_BAUD       (*(RwReg8 *)0x4200100CUL) /**< \brief (SERCOM3) SPI Baud Rate */
+#define REG_SERCOM3_SPI_INTENCLR   (*(RwReg8 *)0x42001014UL) /**< \brief (SERCOM3) SPI Interrupt Enable Clear */
+#define REG_SERCOM3_SPI_INTENSET   (*(RwReg8 *)0x42001016UL) /**< \brief (SERCOM3) SPI Interrupt Enable Set */
+#define REG_SERCOM3_SPI_INTFLAG    (*(RwReg8 *)0x42001018UL) /**< \brief (SERCOM3) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM3_SPI_STATUS     (*(RwReg16*)0x4200101AUL) /**< \brief (SERCOM3) SPI Status */
+#define REG_SERCOM3_SPI_SYNCBUSY   (*(RoReg  *)0x4200101CUL) /**< \brief (SERCOM3) SPI Synchronization Busy */
+#define REG_SERCOM3_SPI_ADDR       (*(RwReg  *)0x42001024UL) /**< \brief (SERCOM3) SPI Address */
+#define REG_SERCOM3_SPI_DATA       (*(RwReg  *)0x42001028UL) /**< \brief (SERCOM3) SPI Data */
+#define REG_SERCOM3_SPI_DBGCTRL    (*(RwReg8 *)0x42001030UL) /**< \brief (SERCOM3) SPI Debug Control */
+#define REG_SERCOM3_USART_CTRLA    (*(RwReg  *)0x42001000UL) /**< \brief (SERCOM3) USART Control A */
+#define REG_SERCOM3_USART_CTRLB    (*(RwReg  *)0x42001004UL) /**< \brief (SERCOM3) USART Control B */
+#define REG_SERCOM3_USART_CTRLC    (*(RwReg  *)0x42001008UL) /**< \brief (SERCOM3) USART Control C */
+#define REG_SERCOM3_USART_BAUD     (*(RwReg16*)0x4200100CUL) /**< \brief (SERCOM3) USART Baud Rate */
+#define REG_SERCOM3_USART_RXPL     (*(RwReg8 *)0x4200100EUL) /**< \brief (SERCOM3) USART Receive Pulse Length */
+#define REG_SERCOM3_USART_INTENCLR (*(RwReg8 *)0x42001014UL) /**< \brief (SERCOM3) USART Interrupt Enable Clear */
+#define REG_SERCOM3_USART_INTENSET (*(RwReg8 *)0x42001016UL) /**< \brief (SERCOM3) USART Interrupt Enable Set */
+#define REG_SERCOM3_USART_INTFLAG  (*(RwReg8 *)0x42001018UL) /**< \brief (SERCOM3) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM3_USART_STATUS   (*(RwReg16*)0x4200101AUL) /**< \brief (SERCOM3) USART Status */
+#define REG_SERCOM3_USART_SYNCBUSY (*(RoReg  *)0x4200101CUL) /**< \brief (SERCOM3) USART Synchronization Busy */
+#define REG_SERCOM3_USART_RXERRCNT (*(RoReg8 *)0x42001020UL) /**< \brief (SERCOM3) USART Receive Error Count */
+#define REG_SERCOM3_USART_DATA     (*(RwReg16*)0x42001028UL) /**< \brief (SERCOM3) USART Data */
+#define REG_SERCOM3_USART_DBGCTRL  (*(RwReg8 *)0x42001030UL) /**< \brief (SERCOM3) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM3 peripheral ========== */
+#define SERCOM3_DMAC_ID_RX          8        // Index of DMA RX trigger
+#define SERCOM3_DMAC_ID_TX          9        // Index of DMA TX trigger
+#define SERCOM3_GCLK_ID_CORE        19      
+#define SERCOM3_GCLK_ID_SLOW        15      
+#define SERCOM3_INT_MSB             6       
+#define SERCOM3_PMSB                3       
+#define SERCOM3_SPI                 1        // SPI mode implemented?
+#define SERCOM3_TWIM                1        // TWI Master mode implemented?
+#define SERCOM3_TWIS                1        // TWI Slave mode implemented?
+#define SERCOM3_TWI_HSMODE          0        // TWI HighSpeed mode implemented?
+#define SERCOM3_USART               1        // USART mode implemented?
+#define SERCOM3_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM3_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM3_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM3_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom4.h b/watch-library/hardware/include/instance/sercom4.h
new file mode 100644
index 00000000..d5f5d736
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom4.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM4
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM4_INSTANCE_
+#define _SAML22_SERCOM4_INSTANCE_
+
+/* ========== Register definition for SERCOM4 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM4_I2CM_CTRLA     (0x42001400) /**< \brief (SERCOM4) I2CM Control A */
+#define REG_SERCOM4_I2CM_CTRLB     (0x42001404) /**< \brief (SERCOM4) I2CM Control B */
+#define REG_SERCOM4_I2CM_BAUD      (0x4200140C) /**< \brief (SERCOM4) I2CM Baud Rate */
+#define REG_SERCOM4_I2CM_INTENCLR  (0x42001414) /**< \brief (SERCOM4) I2CM Interrupt Enable Clear */
+#define REG_SERCOM4_I2CM_INTENSET  (0x42001416) /**< \brief (SERCOM4) I2CM Interrupt Enable Set */
+#define REG_SERCOM4_I2CM_INTFLAG   (0x42001418) /**< \brief (SERCOM4) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM4_I2CM_STATUS    (0x4200141A) /**< \brief (SERCOM4) I2CM Status */
+#define REG_SERCOM4_I2CM_SYNCBUSY  (0x4200141C) /**< \brief (SERCOM4) I2CM Synchronization Busy */
+#define REG_SERCOM4_I2CM_ADDR      (0x42001424) /**< \brief (SERCOM4) I2CM Address */
+#define REG_SERCOM4_I2CM_DATA      (0x42001428) /**< \brief (SERCOM4) I2CM Data */
+#define REG_SERCOM4_I2CM_DBGCTRL   (0x42001430) /**< \brief (SERCOM4) I2CM Debug Control */
+#define REG_SERCOM4_I2CS_CTRLA     (0x42001400) /**< \brief (SERCOM4) I2CS Control A */
+#define REG_SERCOM4_I2CS_CTRLB     (0x42001404) /**< \brief (SERCOM4) I2CS Control B */
+#define REG_SERCOM4_I2CS_INTENCLR  (0x42001414) /**< \brief (SERCOM4) I2CS Interrupt Enable Clear */
+#define REG_SERCOM4_I2CS_INTENSET  (0x42001416) /**< \brief (SERCOM4) I2CS Interrupt Enable Set */
+#define REG_SERCOM4_I2CS_INTFLAG   (0x42001418) /**< \brief (SERCOM4) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM4_I2CS_STATUS    (0x4200141A) /**< \brief (SERCOM4) I2CS Status */
+#define REG_SERCOM4_I2CS_SYNCBUSY  (0x4200141C) /**< \brief (SERCOM4) I2CS Synchronization Busy */
+#define REG_SERCOM4_I2CS_ADDR      (0x42001424) /**< \brief (SERCOM4) I2CS Address */
+#define REG_SERCOM4_I2CS_DATA      (0x42001428) /**< \brief (SERCOM4) I2CS Data */
+#define REG_SERCOM4_SPI_CTRLA      (0x42001400) /**< \brief (SERCOM4) SPI Control A */
+#define REG_SERCOM4_SPI_CTRLB      (0x42001404) /**< \brief (SERCOM4) SPI Control B */
+#define REG_SERCOM4_SPI_BAUD       (0x4200140C) /**< \brief (SERCOM4) SPI Baud Rate */
+#define REG_SERCOM4_SPI_INTENCLR   (0x42001414) /**< \brief (SERCOM4) SPI Interrupt Enable Clear */
+#define REG_SERCOM4_SPI_INTENSET   (0x42001416) /**< \brief (SERCOM4) SPI Interrupt Enable Set */
+#define REG_SERCOM4_SPI_INTFLAG    (0x42001418) /**< \brief (SERCOM4) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM4_SPI_STATUS     (0x4200141A) /**< \brief (SERCOM4) SPI Status */
+#define REG_SERCOM4_SPI_SYNCBUSY   (0x4200141C) /**< \brief (SERCOM4) SPI Synchronization Busy */
+#define REG_SERCOM4_SPI_ADDR       (0x42001424) /**< \brief (SERCOM4) SPI Address */
+#define REG_SERCOM4_SPI_DATA       (0x42001428) /**< \brief (SERCOM4) SPI Data */
+#define REG_SERCOM4_SPI_DBGCTRL    (0x42001430) /**< \brief (SERCOM4) SPI Debug Control */
+#define REG_SERCOM4_USART_CTRLA    (0x42001400) /**< \brief (SERCOM4) USART Control A */
+#define REG_SERCOM4_USART_CTRLB    (0x42001404) /**< \brief (SERCOM4) USART Control B */
+#define REG_SERCOM4_USART_CTRLC    (0x42001408) /**< \brief (SERCOM4) USART Control C */
+#define REG_SERCOM4_USART_BAUD     (0x4200140C) /**< \brief (SERCOM4) USART Baud Rate */
+#define REG_SERCOM4_USART_RXPL     (0x4200140E) /**< \brief (SERCOM4) USART Receive Pulse Length */
+#define REG_SERCOM4_USART_INTENCLR (0x42001414) /**< \brief (SERCOM4) USART Interrupt Enable Clear */
+#define REG_SERCOM4_USART_INTENSET (0x42001416) /**< \brief (SERCOM4) USART Interrupt Enable Set */
+#define REG_SERCOM4_USART_INTFLAG  (0x42001418) /**< \brief (SERCOM4) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM4_USART_STATUS   (0x4200141A) /**< \brief (SERCOM4) USART Status */
+#define REG_SERCOM4_USART_SYNCBUSY (0x4200141C) /**< \brief (SERCOM4) USART Synchronization Busy */
+#define REG_SERCOM4_USART_RXERRCNT (0x42001420) /**< \brief (SERCOM4) USART Receive Error Count */
+#define REG_SERCOM4_USART_DATA     (0x42001428) /**< \brief (SERCOM4) USART Data */
+#define REG_SERCOM4_USART_DBGCTRL  (0x42001430) /**< \brief (SERCOM4) USART Debug Control */
+#else
+#define REG_SERCOM4_I2CM_CTRLA     (*(RwReg  *)0x42001400UL) /**< \brief (SERCOM4) I2CM Control A */
+#define REG_SERCOM4_I2CM_CTRLB     (*(RwReg  *)0x42001404UL) /**< \brief (SERCOM4) I2CM Control B */
+#define REG_SERCOM4_I2CM_BAUD      (*(RwReg  *)0x4200140CUL) /**< \brief (SERCOM4) I2CM Baud Rate */
+#define REG_SERCOM4_I2CM_INTENCLR  (*(RwReg8 *)0x42001414UL) /**< \brief (SERCOM4) I2CM Interrupt Enable Clear */
+#define REG_SERCOM4_I2CM_INTENSET  (*(RwReg8 *)0x42001416UL) /**< \brief (SERCOM4) I2CM Interrupt Enable Set */
+#define REG_SERCOM4_I2CM_INTFLAG   (*(RwReg8 *)0x42001418UL) /**< \brief (SERCOM4) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM4_I2CM_STATUS    (*(RwReg16*)0x4200141AUL) /**< \brief (SERCOM4) I2CM Status */
+#define REG_SERCOM4_I2CM_SYNCBUSY  (*(RoReg  *)0x4200141CUL) /**< \brief (SERCOM4) I2CM Synchronization Busy */
+#define REG_SERCOM4_I2CM_ADDR      (*(RwReg  *)0x42001424UL) /**< \brief (SERCOM4) I2CM Address */
+#define REG_SERCOM4_I2CM_DATA      (*(RwReg8 *)0x42001428UL) /**< \brief (SERCOM4) I2CM Data */
+#define REG_SERCOM4_I2CM_DBGCTRL   (*(RwReg8 *)0x42001430UL) /**< \brief (SERCOM4) I2CM Debug Control */
+#define REG_SERCOM4_I2CS_CTRLA     (*(RwReg  *)0x42001400UL) /**< \brief (SERCOM4) I2CS Control A */
+#define REG_SERCOM4_I2CS_CTRLB     (*(RwReg  *)0x42001404UL) /**< \brief (SERCOM4) I2CS Control B */
+#define REG_SERCOM4_I2CS_INTENCLR  (*(RwReg8 *)0x42001414UL) /**< \brief (SERCOM4) I2CS Interrupt Enable Clear */
+#define REG_SERCOM4_I2CS_INTENSET  (*(RwReg8 *)0x42001416UL) /**< \brief (SERCOM4) I2CS Interrupt Enable Set */
+#define REG_SERCOM4_I2CS_INTFLAG   (*(RwReg8 *)0x42001418UL) /**< \brief (SERCOM4) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM4_I2CS_STATUS    (*(RwReg16*)0x4200141AUL) /**< \brief (SERCOM4) I2CS Status */
+#define REG_SERCOM4_I2CS_SYNCBUSY  (*(RoReg  *)0x4200141CUL) /**< \brief (SERCOM4) I2CS Synchronization Busy */
+#define REG_SERCOM4_I2CS_ADDR      (*(RwReg  *)0x42001424UL) /**< \brief (SERCOM4) I2CS Address */
+#define REG_SERCOM4_I2CS_DATA      (*(RwReg8 *)0x42001428UL) /**< \brief (SERCOM4) I2CS Data */
+#define REG_SERCOM4_SPI_CTRLA      (*(RwReg  *)0x42001400UL) /**< \brief (SERCOM4) SPI Control A */
+#define REG_SERCOM4_SPI_CTRLB      (*(RwReg  *)0x42001404UL) /**< \brief (SERCOM4) SPI Control B */
+#define REG_SERCOM4_SPI_BAUD       (*(RwReg8 *)0x4200140CUL) /**< \brief (SERCOM4) SPI Baud Rate */
+#define REG_SERCOM4_SPI_INTENCLR   (*(RwReg8 *)0x42001414UL) /**< \brief (SERCOM4) SPI Interrupt Enable Clear */
+#define REG_SERCOM4_SPI_INTENSET   (*(RwReg8 *)0x42001416UL) /**< \brief (SERCOM4) SPI Interrupt Enable Set */
+#define REG_SERCOM4_SPI_INTFLAG    (*(RwReg8 *)0x42001418UL) /**< \brief (SERCOM4) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM4_SPI_STATUS     (*(RwReg16*)0x4200141AUL) /**< \brief (SERCOM4) SPI Status */
+#define REG_SERCOM4_SPI_SYNCBUSY   (*(RoReg  *)0x4200141CUL) /**< \brief (SERCOM4) SPI Synchronization Busy */
+#define REG_SERCOM4_SPI_ADDR       (*(RwReg  *)0x42001424UL) /**< \brief (SERCOM4) SPI Address */
+#define REG_SERCOM4_SPI_DATA       (*(RwReg  *)0x42001428UL) /**< \brief (SERCOM4) SPI Data */
+#define REG_SERCOM4_SPI_DBGCTRL    (*(RwReg8 *)0x42001430UL) /**< \brief (SERCOM4) SPI Debug Control */
+#define REG_SERCOM4_USART_CTRLA    (*(RwReg  *)0x42001400UL) /**< \brief (SERCOM4) USART Control A */
+#define REG_SERCOM4_USART_CTRLB    (*(RwReg  *)0x42001404UL) /**< \brief (SERCOM4) USART Control B */
+#define REG_SERCOM4_USART_CTRLC    (*(RwReg  *)0x42001408UL) /**< \brief (SERCOM4) USART Control C */
+#define REG_SERCOM4_USART_BAUD     (*(RwReg16*)0x4200140CUL) /**< \brief (SERCOM4) USART Baud Rate */
+#define REG_SERCOM4_USART_RXPL     (*(RwReg8 *)0x4200140EUL) /**< \brief (SERCOM4) USART Receive Pulse Length */
+#define REG_SERCOM4_USART_INTENCLR (*(RwReg8 *)0x42001414UL) /**< \brief (SERCOM4) USART Interrupt Enable Clear */
+#define REG_SERCOM4_USART_INTENSET (*(RwReg8 *)0x42001416UL) /**< \brief (SERCOM4) USART Interrupt Enable Set */
+#define REG_SERCOM4_USART_INTFLAG  (*(RwReg8 *)0x42001418UL) /**< \brief (SERCOM4) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM4_USART_STATUS   (*(RwReg16*)0x4200141AUL) /**< \brief (SERCOM4) USART Status */
+#define REG_SERCOM4_USART_SYNCBUSY (*(RoReg  *)0x4200141CUL) /**< \brief (SERCOM4) USART Synchronization Busy */
+#define REG_SERCOM4_USART_RXERRCNT (*(RoReg8 *)0x42001420UL) /**< \brief (SERCOM4) USART Receive Error Count */
+#define REG_SERCOM4_USART_DATA     (*(RwReg16*)0x42001428UL) /**< \brief (SERCOM4) USART Data */
+#define REG_SERCOM4_USART_DBGCTRL  (*(RwReg8 *)0x42001430UL) /**< \brief (SERCOM4) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM4 peripheral ========== */
+#define SERCOM4_DMAC_ID_RX          10       // Index of DMA RX trigger
+#define SERCOM4_DMAC_ID_TX          11       // Index of DMA TX trigger
+#define SERCOM4_GCLK_ID_CORE        20      
+#define SERCOM4_GCLK_ID_SLOW        15      
+#define SERCOM4_INT_MSB             6       
+#define SERCOM4_PMSB                3       
+#define SERCOM4_SPI                 1        // SPI mode implemented?
+#define SERCOM4_TWIM                1        // TWI Master mode implemented?
+#define SERCOM4_TWIS                1        // TWI Slave mode implemented?
+#define SERCOM4_TWI_HSMODE          0        // TWI HighSpeed mode implemented?
+#define SERCOM4_USART               1        // USART mode implemented?
+#define SERCOM4_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM4_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM4_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM4_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/sercom5.h b/watch-library/hardware/include/instance/sercom5.h
new file mode 100644
index 00000000..93214cf3
--- /dev/null
+++ b/watch-library/hardware/include/instance/sercom5.h
@@ -0,0 +1,142 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SERCOM5
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SERCOM5_INSTANCE_
+#define _SAML22_SERCOM5_INSTANCE_
+
+/* ========== Register definition for SERCOM5 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SERCOM5_I2CM_CTRLA     (0x42001800) /**< \brief (SERCOM5) I2CM Control A */
+#define REG_SERCOM5_I2CM_CTRLB     (0x42001804) /**< \brief (SERCOM5) I2CM Control B */
+#define REG_SERCOM5_I2CM_BAUD      (0x4200180C) /**< \brief (SERCOM5) I2CM Baud Rate */
+#define REG_SERCOM5_I2CM_INTENCLR  (0x42001814) /**< \brief (SERCOM5) I2CM Interrupt Enable Clear */
+#define REG_SERCOM5_I2CM_INTENSET  (0x42001816) /**< \brief (SERCOM5) I2CM Interrupt Enable Set */
+#define REG_SERCOM5_I2CM_INTFLAG   (0x42001818) /**< \brief (SERCOM5) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM5_I2CM_STATUS    (0x4200181A) /**< \brief (SERCOM5) I2CM Status */
+#define REG_SERCOM5_I2CM_SYNCBUSY  (0x4200181C) /**< \brief (SERCOM5) I2CM Synchronization Busy */
+#define REG_SERCOM5_I2CM_ADDR      (0x42001824) /**< \brief (SERCOM5) I2CM Address */
+#define REG_SERCOM5_I2CM_DATA      (0x42001828) /**< \brief (SERCOM5) I2CM Data */
+#define REG_SERCOM5_I2CM_DBGCTRL   (0x42001830) /**< \brief (SERCOM5) I2CM Debug Control */
+#define REG_SERCOM5_I2CS_CTRLA     (0x42001800) /**< \brief (SERCOM5) I2CS Control A */
+#define REG_SERCOM5_I2CS_CTRLB     (0x42001804) /**< \brief (SERCOM5) I2CS Control B */
+#define REG_SERCOM5_I2CS_INTENCLR  (0x42001814) /**< \brief (SERCOM5) I2CS Interrupt Enable Clear */
+#define REG_SERCOM5_I2CS_INTENSET  (0x42001816) /**< \brief (SERCOM5) I2CS Interrupt Enable Set */
+#define REG_SERCOM5_I2CS_INTFLAG   (0x42001818) /**< \brief (SERCOM5) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM5_I2CS_STATUS    (0x4200181A) /**< \brief (SERCOM5) I2CS Status */
+#define REG_SERCOM5_I2CS_SYNCBUSY  (0x4200181C) /**< \brief (SERCOM5) I2CS Synchronization Busy */
+#define REG_SERCOM5_I2CS_ADDR      (0x42001824) /**< \brief (SERCOM5) I2CS Address */
+#define REG_SERCOM5_I2CS_DATA      (0x42001828) /**< \brief (SERCOM5) I2CS Data */
+#define REG_SERCOM5_SPI_CTRLA      (0x42001800) /**< \brief (SERCOM5) SPI Control A */
+#define REG_SERCOM5_SPI_CTRLB      (0x42001804) /**< \brief (SERCOM5) SPI Control B */
+#define REG_SERCOM5_SPI_BAUD       (0x4200180C) /**< \brief (SERCOM5) SPI Baud Rate */
+#define REG_SERCOM5_SPI_INTENCLR   (0x42001814) /**< \brief (SERCOM5) SPI Interrupt Enable Clear */
+#define REG_SERCOM5_SPI_INTENSET   (0x42001816) /**< \brief (SERCOM5) SPI Interrupt Enable Set */
+#define REG_SERCOM5_SPI_INTFLAG    (0x42001818) /**< \brief (SERCOM5) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM5_SPI_STATUS     (0x4200181A) /**< \brief (SERCOM5) SPI Status */
+#define REG_SERCOM5_SPI_SYNCBUSY   (0x4200181C) /**< \brief (SERCOM5) SPI Synchronization Busy */
+#define REG_SERCOM5_SPI_ADDR       (0x42001824) /**< \brief (SERCOM5) SPI Address */
+#define REG_SERCOM5_SPI_DATA       (0x42001828) /**< \brief (SERCOM5) SPI Data */
+#define REG_SERCOM5_SPI_DBGCTRL    (0x42001830) /**< \brief (SERCOM5) SPI Debug Control */
+#define REG_SERCOM5_USART_CTRLA    (0x42001800) /**< \brief (SERCOM5) USART Control A */
+#define REG_SERCOM5_USART_CTRLB    (0x42001804) /**< \brief (SERCOM5) USART Control B */
+#define REG_SERCOM5_USART_CTRLC    (0x42001808) /**< \brief (SERCOM5) USART Control C */
+#define REG_SERCOM5_USART_BAUD     (0x4200180C) /**< \brief (SERCOM5) USART Baud Rate */
+#define REG_SERCOM5_USART_RXPL     (0x4200180E) /**< \brief (SERCOM5) USART Receive Pulse Length */
+#define REG_SERCOM5_USART_INTENCLR (0x42001814) /**< \brief (SERCOM5) USART Interrupt Enable Clear */
+#define REG_SERCOM5_USART_INTENSET (0x42001816) /**< \brief (SERCOM5) USART Interrupt Enable Set */
+#define REG_SERCOM5_USART_INTFLAG  (0x42001818) /**< \brief (SERCOM5) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM5_USART_STATUS   (0x4200181A) /**< \brief (SERCOM5) USART Status */
+#define REG_SERCOM5_USART_SYNCBUSY (0x4200181C) /**< \brief (SERCOM5) USART Synchronization Busy */
+#define REG_SERCOM5_USART_RXERRCNT (0x42001820) /**< \brief (SERCOM5) USART Receive Error Count */
+#define REG_SERCOM5_USART_DATA     (0x42001828) /**< \brief (SERCOM5) USART Data */
+#define REG_SERCOM5_USART_DBGCTRL  (0x42001830) /**< \brief (SERCOM5) USART Debug Control */
+#else
+#define REG_SERCOM5_I2CM_CTRLA     (*(RwReg  *)0x42001800UL) /**< \brief (SERCOM5) I2CM Control A */
+#define REG_SERCOM5_I2CM_CTRLB     (*(RwReg  *)0x42001804UL) /**< \brief (SERCOM5) I2CM Control B */
+#define REG_SERCOM5_I2CM_BAUD      (*(RwReg  *)0x4200180CUL) /**< \brief (SERCOM5) I2CM Baud Rate */
+#define REG_SERCOM5_I2CM_INTENCLR  (*(RwReg8 *)0x42001814UL) /**< \brief (SERCOM5) I2CM Interrupt Enable Clear */
+#define REG_SERCOM5_I2CM_INTENSET  (*(RwReg8 *)0x42001816UL) /**< \brief (SERCOM5) I2CM Interrupt Enable Set */
+#define REG_SERCOM5_I2CM_INTFLAG   (*(RwReg8 *)0x42001818UL) /**< \brief (SERCOM5) I2CM Interrupt Flag Status and Clear */
+#define REG_SERCOM5_I2CM_STATUS    (*(RwReg16*)0x4200181AUL) /**< \brief (SERCOM5) I2CM Status */
+#define REG_SERCOM5_I2CM_SYNCBUSY  (*(RoReg  *)0x4200181CUL) /**< \brief (SERCOM5) I2CM Synchronization Busy */
+#define REG_SERCOM5_I2CM_ADDR      (*(RwReg  *)0x42001824UL) /**< \brief (SERCOM5) I2CM Address */
+#define REG_SERCOM5_I2CM_DATA      (*(RwReg8 *)0x42001828UL) /**< \brief (SERCOM5) I2CM Data */
+#define REG_SERCOM5_I2CM_DBGCTRL   (*(RwReg8 *)0x42001830UL) /**< \brief (SERCOM5) I2CM Debug Control */
+#define REG_SERCOM5_I2CS_CTRLA     (*(RwReg  *)0x42001800UL) /**< \brief (SERCOM5) I2CS Control A */
+#define REG_SERCOM5_I2CS_CTRLB     (*(RwReg  *)0x42001804UL) /**< \brief (SERCOM5) I2CS Control B */
+#define REG_SERCOM5_I2CS_INTENCLR  (*(RwReg8 *)0x42001814UL) /**< \brief (SERCOM5) I2CS Interrupt Enable Clear */
+#define REG_SERCOM5_I2CS_INTENSET  (*(RwReg8 *)0x42001816UL) /**< \brief (SERCOM5) I2CS Interrupt Enable Set */
+#define REG_SERCOM5_I2CS_INTFLAG   (*(RwReg8 *)0x42001818UL) /**< \brief (SERCOM5) I2CS Interrupt Flag Status and Clear */
+#define REG_SERCOM5_I2CS_STATUS    (*(RwReg16*)0x4200181AUL) /**< \brief (SERCOM5) I2CS Status */
+#define REG_SERCOM5_I2CS_SYNCBUSY  (*(RoReg  *)0x4200181CUL) /**< \brief (SERCOM5) I2CS Synchronization Busy */
+#define REG_SERCOM5_I2CS_ADDR      (*(RwReg  *)0x42001824UL) /**< \brief (SERCOM5) I2CS Address */
+#define REG_SERCOM5_I2CS_DATA      (*(RwReg8 *)0x42001828UL) /**< \brief (SERCOM5) I2CS Data */
+#define REG_SERCOM5_SPI_CTRLA      (*(RwReg  *)0x42001800UL) /**< \brief (SERCOM5) SPI Control A */
+#define REG_SERCOM5_SPI_CTRLB      (*(RwReg  *)0x42001804UL) /**< \brief (SERCOM5) SPI Control B */
+#define REG_SERCOM5_SPI_BAUD       (*(RwReg8 *)0x4200180CUL) /**< \brief (SERCOM5) SPI Baud Rate */
+#define REG_SERCOM5_SPI_INTENCLR   (*(RwReg8 *)0x42001814UL) /**< \brief (SERCOM5) SPI Interrupt Enable Clear */
+#define REG_SERCOM5_SPI_INTENSET   (*(RwReg8 *)0x42001816UL) /**< \brief (SERCOM5) SPI Interrupt Enable Set */
+#define REG_SERCOM5_SPI_INTFLAG    (*(RwReg8 *)0x42001818UL) /**< \brief (SERCOM5) SPI Interrupt Flag Status and Clear */
+#define REG_SERCOM5_SPI_STATUS     (*(RwReg16*)0x4200181AUL) /**< \brief (SERCOM5) SPI Status */
+#define REG_SERCOM5_SPI_SYNCBUSY   (*(RoReg  *)0x4200181CUL) /**< \brief (SERCOM5) SPI Synchronization Busy */
+#define REG_SERCOM5_SPI_ADDR       (*(RwReg  *)0x42001824UL) /**< \brief (SERCOM5) SPI Address */
+#define REG_SERCOM5_SPI_DATA       (*(RwReg  *)0x42001828UL) /**< \brief (SERCOM5) SPI Data */
+#define REG_SERCOM5_SPI_DBGCTRL    (*(RwReg8 *)0x42001830UL) /**< \brief (SERCOM5) SPI Debug Control */
+#define REG_SERCOM5_USART_CTRLA    (*(RwReg  *)0x42001800UL) /**< \brief (SERCOM5) USART Control A */
+#define REG_SERCOM5_USART_CTRLB    (*(RwReg  *)0x42001804UL) /**< \brief (SERCOM5) USART Control B */
+#define REG_SERCOM5_USART_CTRLC    (*(RwReg  *)0x42001808UL) /**< \brief (SERCOM5) USART Control C */
+#define REG_SERCOM5_USART_BAUD     (*(RwReg16*)0x4200180CUL) /**< \brief (SERCOM5) USART Baud Rate */
+#define REG_SERCOM5_USART_RXPL     (*(RwReg8 *)0x4200180EUL) /**< \brief (SERCOM5) USART Receive Pulse Length */
+#define REG_SERCOM5_USART_INTENCLR (*(RwReg8 *)0x42001814UL) /**< \brief (SERCOM5) USART Interrupt Enable Clear */
+#define REG_SERCOM5_USART_INTENSET (*(RwReg8 *)0x42001816UL) /**< \brief (SERCOM5) USART Interrupt Enable Set */
+#define REG_SERCOM5_USART_INTFLAG  (*(RwReg8 *)0x42001818UL) /**< \brief (SERCOM5) USART Interrupt Flag Status and Clear */
+#define REG_SERCOM5_USART_STATUS   (*(RwReg16*)0x4200181AUL) /**< \brief (SERCOM5) USART Status */
+#define REG_SERCOM5_USART_SYNCBUSY (*(RoReg  *)0x4200181CUL) /**< \brief (SERCOM5) USART Synchronization Busy */
+#define REG_SERCOM5_USART_RXERRCNT (*(RoReg8 *)0x42001820UL) /**< \brief (SERCOM5) USART Receive Error Count */
+#define REG_SERCOM5_USART_DATA     (*(RwReg16*)0x42001828UL) /**< \brief (SERCOM5) USART Data */
+#define REG_SERCOM5_USART_DBGCTRL  (*(RwReg8 *)0x42001830UL) /**< \brief (SERCOM5) USART Debug Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SERCOM5 peripheral ========== */
+#define SERCOM5_DMAC_ID_RX          12       // Index of DMA RX trigger
+#define SERCOM5_DMAC_ID_TX          13       // Index of DMA TX trigger
+#define SERCOM5_GCLK_ID_CORE        21      
+#define SERCOM5_GCLK_ID_SLOW        15      
+#define SERCOM5_INT_MSB             3       
+#define SERCOM5_PMSB                3       
+#define SERCOM5_SPI                 1        // SPI mode implemented?
+#define SERCOM5_TWIM                1        // TWI Master mode implemented?
+#define SERCOM5_TWIS                1        // TWI Slave mode implemented?
+#define SERCOM5_TWI_HSMODE          1        // TWI HighSpeed mode implemented?
+#define SERCOM5_USART               1        // USART mode implemented?
+#define SERCOM5_USART_ISO7816       1        // USART ISO7816 mode implemented?
+#define SERCOM5_USART_LIN_MASTER    0        // USART LIN Master mode implemented?
+#define SERCOM5_USART_RS485         1        // USART RS485 mode implemented?
+
+#endif /* _SAML22_SERCOM5_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/slcd.h b/watch-library/hardware/include/instance/slcd.h
new file mode 100644
index 00000000..c4785831
--- /dev/null
+++ b/watch-library/hardware/include/instance/slcd.h
@@ -0,0 +1,126 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SLCD
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SLCD_INSTANCE_
+#define _SAML22_SLCD_INSTANCE_
+
+/* ========== Register definition for SLCD peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SLCD_CTRLA             (0x42003C00) /**< \brief (SLCD) Control A */
+#define REG_SLCD_CTRLB             (0x42003C04) /**< \brief (SLCD) Control B */
+#define REG_SLCD_CTRLC             (0x42003C06) /**< \brief (SLCD) Control C */
+#define REG_SLCD_CTRLD             (0x42003C08) /**< \brief (SLCD) Control D */
+#define REG_SLCD_EVCTRL            (0x42003C0C) /**< \brief (SLCD) Event Control */
+#define REG_SLCD_INTENCLR          (0x42003C0D) /**< \brief (SLCD) Interrupt Enable Clear */
+#define REG_SLCD_INTENSET          (0x42003C0E) /**< \brief (SLCD) Interrupt Enable Set */
+#define REG_SLCD_INTFLAG           (0x42003C0F) /**< \brief (SLCD) Interrupt Flag Status and Clear */
+#define REG_SLCD_STATUS            (0x42003C10) /**< \brief (SLCD) Status */
+#define REG_SLCD_SYNCBUSY          (0x42003C14) /**< \brief (SLCD) Synchronization Busy */
+#define REG_SLCD_FC0               (0x42003C18) /**< \brief (SLCD) Frame Counter 0 Configuration */
+#define REG_SLCD_FC1               (0x42003C19) /**< \brief (SLCD) Frame Counter 1 Configuration */
+#define REG_SLCD_FC2               (0x42003C1A) /**< \brief (SLCD) Frame Counter 2 Configuration */
+#define REG_SLCD_LPENL             (0x42003C1C) /**< \brief (SLCD) LCD Pin Enable Low */
+#define REG_SLCD_LPENH             (0x42003C20) /**< \brief (SLCD) LCD Pin Enable High */
+#define REG_SLCD_SDATAL0           (0x42003C24) /**< \brief (SLCD) Segments Data Low for COM0 Line */
+#define REG_SLCD_SDATAH0           (0x42003C28) /**< \brief (SLCD) Segments Data High for COM0 Line */
+#define REG_SLCD_SDATAL1           (0x42003C2C) /**< \brief (SLCD) Segments Data Low for COM1 Line */
+#define REG_SLCD_SDATAH1           (0x42003C30) /**< \brief (SLCD) Segments Data High for COM1 Line */
+#define REG_SLCD_SDATAL2           (0x42003C34) /**< \brief (SLCD) Segments Data Low for COM2 Line */
+#define REG_SLCD_SDATAH2           (0x42003C38) /**< \brief (SLCD) Segments Data High for COM2 Line */
+#define REG_SLCD_SDATAL3           (0x42003C3C) /**< \brief (SLCD) Segments Data Low for COM3 Line */
+#define REG_SLCD_SDATAH3           (0x42003C40) /**< \brief (SLCD) Segments Data High for COM3 Line */
+#define REG_SLCD_SDATAL4           (0x42003C44) /**< \brief (SLCD) Segments Data Low for COM4 Line */
+#define REG_SLCD_SDATAH4           (0x42003C48) /**< \brief (SLCD) Segments Data High for COM4 Line */
+#define REG_SLCD_SDATAL5           (0x42003C4C) /**< \brief (SLCD) Segments Data Low for COM5 Line */
+#define REG_SLCD_SDATAH5           (0x42003C50) /**< \brief (SLCD) Segments Data High for COM5 Line */
+#define REG_SLCD_SDATAL6           (0x42003C54) /**< \brief (SLCD) Segments Data Low for COM6 Line */
+#define REG_SLCD_SDATAH6           (0x42003C58) /**< \brief (SLCD) Segments Data High for COM6 Line */
+#define REG_SLCD_SDATAL7           (0x42003C5C) /**< \brief (SLCD) Segments Data Low for COM7 Line */
+#define REG_SLCD_SDATAH7           (0x42003C60) /**< \brief (SLCD) Segments Data High for COM7 Line */
+#define REG_SLCD_ISDATA            (0x42003C64) /**< \brief (SLCD) Indirect Segments Data Access */
+#define REG_SLCD_BCFG              (0x42003C68) /**< \brief (SLCD) Blink Configuration */
+#define REG_SLCD_CSRCFG            (0x42003C6C) /**< \brief (SLCD) Circular Shift Register Configuration */
+#define REG_SLCD_CMCFG             (0x42003C70) /**< \brief (SLCD) Character Mapping Configuration */
+#define REG_SLCD_ACMCFG            (0x42003C74) /**< \brief (SLCD) Automated Character Mapping Configuration */
+#define REG_SLCD_ABMCFG            (0x42003C78) /**< \brief (SLCD) Automated Bit Mapping Configuration */
+#define REG_SLCD_CMDATA            (0x42003C7C) /**< \brief (SLCD) Character Mapping Segments Data */
+#define REG_SLCD_CMDMASK           (0x42003C80) /**< \brief (SLCD) Character Mapping Segments Data Mask */
+#define REG_SLCD_CMINDEX           (0x42003C84) /**< \brief (SLCD) Character Mapping SEG/COM Index */
+#else
+#define REG_SLCD_CTRLA             (*(RwReg  *)0x42003C00UL) /**< \brief (SLCD) Control A */
+#define REG_SLCD_CTRLB             (*(RwReg16*)0x42003C04UL) /**< \brief (SLCD) Control B */
+#define REG_SLCD_CTRLC             (*(RwReg16*)0x42003C06UL) /**< \brief (SLCD) Control C */
+#define REG_SLCD_CTRLD             (*(RwReg8 *)0x42003C08UL) /**< \brief (SLCD) Control D */
+#define REG_SLCD_EVCTRL            (*(RwReg8 *)0x42003C0CUL) /**< \brief (SLCD) Event Control */
+#define REG_SLCD_INTENCLR          (*(RwReg8 *)0x42003C0DUL) /**< \brief (SLCD) Interrupt Enable Clear */
+#define REG_SLCD_INTENSET          (*(RwReg8 *)0x42003C0EUL) /**< \brief (SLCD) Interrupt Enable Set */
+#define REG_SLCD_INTFLAG           (*(RwReg8 *)0x42003C0FUL) /**< \brief (SLCD) Interrupt Flag Status and Clear */
+#define REG_SLCD_STATUS            (*(RoReg8 *)0x42003C10UL) /**< \brief (SLCD) Status */
+#define REG_SLCD_SYNCBUSY          (*(RoReg  *)0x42003C14UL) /**< \brief (SLCD) Synchronization Busy */
+#define REG_SLCD_FC0               (*(RwReg8 *)0x42003C18UL) /**< \brief (SLCD) Frame Counter 0 Configuration */
+#define REG_SLCD_FC1               (*(RwReg8 *)0x42003C19UL) /**< \brief (SLCD) Frame Counter 1 Configuration */
+#define REG_SLCD_FC2               (*(RwReg8 *)0x42003C1AUL) /**< \brief (SLCD) Frame Counter 2 Configuration */
+#define REG_SLCD_LPENL             (*(RwReg  *)0x42003C1CUL) /**< \brief (SLCD) LCD Pin Enable Low */
+#define REG_SLCD_LPENH             (*(RwReg  *)0x42003C20UL) /**< \brief (SLCD) LCD Pin Enable High */
+#define REG_SLCD_SDATAL0           (*(RwReg  *)0x42003C24UL) /**< \brief (SLCD) Segments Data Low for COM0 Line */
+#define REG_SLCD_SDATAH0           (*(RwReg  *)0x42003C28UL) /**< \brief (SLCD) Segments Data High for COM0 Line */
+#define REG_SLCD_SDATAL1           (*(RwReg  *)0x42003C2CUL) /**< \brief (SLCD) Segments Data Low for COM1 Line */
+#define REG_SLCD_SDATAH1           (*(RwReg  *)0x42003C30UL) /**< \brief (SLCD) Segments Data High for COM1 Line */
+#define REG_SLCD_SDATAL2           (*(RwReg  *)0x42003C34UL) /**< \brief (SLCD) Segments Data Low for COM2 Line */
+#define REG_SLCD_SDATAH2           (*(RwReg  *)0x42003C38UL) /**< \brief (SLCD) Segments Data High for COM2 Line */
+#define REG_SLCD_SDATAL3           (*(RwReg  *)0x42003C3CUL) /**< \brief (SLCD) Segments Data Low for COM3 Line */
+#define REG_SLCD_SDATAH3           (*(RwReg  *)0x42003C40UL) /**< \brief (SLCD) Segments Data High for COM3 Line */
+#define REG_SLCD_SDATAL4           (*(RwReg  *)0x42003C44UL) /**< \brief (SLCD) Segments Data Low for COM4 Line */
+#define REG_SLCD_SDATAH4           (*(RwReg  *)0x42003C48UL) /**< \brief (SLCD) Segments Data High for COM4 Line */
+#define REG_SLCD_SDATAL5           (*(RwReg  *)0x42003C4CUL) /**< \brief (SLCD) Segments Data Low for COM5 Line */
+#define REG_SLCD_SDATAH5           (*(RwReg  *)0x42003C50UL) /**< \brief (SLCD) Segments Data High for COM5 Line */
+#define REG_SLCD_SDATAL6           (*(RwReg  *)0x42003C54UL) /**< \brief (SLCD) Segments Data Low for COM6 Line */
+#define REG_SLCD_SDATAH6           (*(RwReg  *)0x42003C58UL) /**< \brief (SLCD) Segments Data High for COM6 Line */
+#define REG_SLCD_SDATAL7           (*(RwReg  *)0x42003C5CUL) /**< \brief (SLCD) Segments Data Low for COM7 Line */
+#define REG_SLCD_SDATAH7           (*(RwReg  *)0x42003C60UL) /**< \brief (SLCD) Segments Data High for COM7 Line */
+#define REG_SLCD_ISDATA            (*(WoReg  *)0x42003C64UL) /**< \brief (SLCD) Indirect Segments Data Access */
+#define REG_SLCD_BCFG              (*(RwReg  *)0x42003C68UL) /**< \brief (SLCD) Blink Configuration */
+#define REG_SLCD_CSRCFG            (*(RwReg  *)0x42003C6CUL) /**< \brief (SLCD) Circular Shift Register Configuration */
+#define REG_SLCD_CMCFG             (*(RwReg8 *)0x42003C70UL) /**< \brief (SLCD) Character Mapping Configuration */
+#define REG_SLCD_ACMCFG            (*(RwReg  *)0x42003C74UL) /**< \brief (SLCD) Automated Character Mapping Configuration */
+#define REG_SLCD_ABMCFG            (*(RwReg8 *)0x42003C78UL) /**< \brief (SLCD) Automated Bit Mapping Configuration */
+#define REG_SLCD_CMDATA            (*(WoReg  *)0x42003C7CUL) /**< \brief (SLCD) Character Mapping Segments Data */
+#define REG_SLCD_CMDMASK           (*(RwReg  *)0x42003C80UL) /**< \brief (SLCD) Character Mapping Segments Data Mask */
+#define REG_SLCD_CMINDEX           (*(RwReg16*)0x42003C84UL) /**< \brief (SLCD) Character Mapping SEG/COM Index */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SLCD peripheral ========== */
+#define SLCD_DMAC_ID_ABMDRDY        34      
+#define SLCD_DMAC_ID_ACMDRDY        33      
+#define SLCD_DMAC_ID_DMU            32      
+#define SLCD_MAX_COM                8        // Max number of COM lines (4 or 8)
+#define SLCD_MAX_SEG                44       // Max number of SEG lines (24 or 44)
+#define SLCD_NB_LP                  52       // Number of LCD pins ([28..64] or [48..64])
+
+#endif /* _SAML22_SLCD_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/supc.h b/watch-library/hardware/include/instance/supc.h
new file mode 100644
index 00000000..0800c5f3
--- /dev/null
+++ b/watch-library/hardware/include/instance/supc.h
@@ -0,0 +1,65 @@
+/**
+ * \file
+ *
+ * \brief Instance description for SUPC
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_SUPC_INSTANCE_
+#define _SAML22_SUPC_INSTANCE_
+
+/* ========== Register definition for SUPC peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_SUPC_INTENCLR          (0x40001800) /**< \brief (SUPC) Interrupt Enable Clear */
+#define REG_SUPC_INTENSET          (0x40001804) /**< \brief (SUPC) Interrupt Enable Set */
+#define REG_SUPC_INTFLAG           (0x40001808) /**< \brief (SUPC) Interrupt Flag Status and Clear */
+#define REG_SUPC_STATUS            (0x4000180C) /**< \brief (SUPC) Power and Clocks Status */
+#define REG_SUPC_BOD33             (0x40001810) /**< \brief (SUPC) BOD33 Control */
+#define REG_SUPC_BOD12             (0x40001814) /**< \brief (SUPC) BOD12 Control */
+#define REG_SUPC_VREG              (0x40001818) /**< \brief (SUPC) VREG Control */
+#define REG_SUPC_VREF              (0x4000181C) /**< \brief (SUPC) VREF Control */
+#define REG_SUPC_BBPS              (0x40001820) /**< \brief (SUPC) Battery Backup Power Switch */
+#define REG_SUPC_BKOUT             (0x40001824) /**< \brief (SUPC) Backup Output Control */
+#define REG_SUPC_BKIN              (0x40001828) /**< \brief (SUPC) Backup Input Control */
+#else
+#define REG_SUPC_INTENCLR          (*(RwReg  *)0x40001800UL) /**< \brief (SUPC) Interrupt Enable Clear */
+#define REG_SUPC_INTENSET          (*(RwReg  *)0x40001804UL) /**< \brief (SUPC) Interrupt Enable Set */
+#define REG_SUPC_INTFLAG           (*(RwReg  *)0x40001808UL) /**< \brief (SUPC) Interrupt Flag Status and Clear */
+#define REG_SUPC_STATUS            (*(RoReg  *)0x4000180CUL) /**< \brief (SUPC) Power and Clocks Status */
+#define REG_SUPC_BOD33             (*(RwReg  *)0x40001810UL) /**< \brief (SUPC) BOD33 Control */
+#define REG_SUPC_BOD12             (*(RwReg  *)0x40001814UL) /**< \brief (SUPC) BOD12 Control */
+#define REG_SUPC_VREG              (*(RwReg  *)0x40001818UL) /**< \brief (SUPC) VREG Control */
+#define REG_SUPC_VREF              (*(RwReg  *)0x4000181CUL) /**< \brief (SUPC) VREF Control */
+#define REG_SUPC_BBPS              (*(RwReg  *)0x40001820UL) /**< \brief (SUPC) Battery Backup Power Switch */
+#define REG_SUPC_BKOUT             (*(RwReg  *)0x40001824UL) /**< \brief (SUPC) Backup Output Control */
+#define REG_SUPC_BKIN              (*(RoReg  *)0x40001828UL) /**< \brief (SUPC) Backup Input Control */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for SUPC peripheral ========== */
+#define SUPC_BOD12_CALIB_MSB        5       
+#define SUPC_BOD33_CALIB_MSB        5       
+#define SUPC_OUT_NUM_MSB            1        // MSB of backup output pad Number
+
+#endif /* _SAML22_SUPC_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/tc0.h b/watch-library/hardware/include/instance/tc0.h
new file mode 100644
index 00000000..a50b87e9
--- /dev/null
+++ b/watch-library/hardware/include/instance/tc0.h
@@ -0,0 +1,109 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TC0
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TC0_INSTANCE_
+#define _SAML22_TC0_INSTANCE_
+
+/* ========== Register definition for TC0 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TC0_CTRLA              (0x42002000) /**< \brief (TC0) Control A */
+#define REG_TC0_CTRLBCLR           (0x42002004) /**< \brief (TC0) Control B Clear */
+#define REG_TC0_CTRLBSET           (0x42002005) /**< \brief (TC0) Control B Set */
+#define REG_TC0_EVCTRL             (0x42002006) /**< \brief (TC0) Event Control */
+#define REG_TC0_INTENCLR           (0x42002008) /**< \brief (TC0) Interrupt Enable Clear */
+#define REG_TC0_INTENSET           (0x42002009) /**< \brief (TC0) Interrupt Enable Set */
+#define REG_TC0_INTFLAG            (0x4200200A) /**< \brief (TC0) Interrupt Flag Status and Clear */
+#define REG_TC0_STATUS             (0x4200200B) /**< \brief (TC0) Status */
+#define REG_TC0_WAVE               (0x4200200C) /**< \brief (TC0) Waveform Generation Control */
+#define REG_TC0_DRVCTRL            (0x4200200D) /**< \brief (TC0) Control C */
+#define REG_TC0_DBGCTRL            (0x4200200F) /**< \brief (TC0) Debug Control */
+#define REG_TC0_SYNCBUSY           (0x42002010) /**< \brief (TC0) Synchronization Status */
+#define REG_TC0_COUNT16_COUNT      (0x42002014) /**< \brief (TC0) COUNT16 Count */
+#define REG_TC0_COUNT16_CC0        (0x4200201C) /**< \brief (TC0) COUNT16 Compare and Capture 0 */
+#define REG_TC0_COUNT16_CC1        (0x4200201E) /**< \brief (TC0) COUNT16 Compare and Capture 1 */
+#define REG_TC0_COUNT16_CCBUF0     (0x42002030) /**< \brief (TC0) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT16_CCBUF1     (0x42002032) /**< \brief (TC0) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC0_COUNT32_COUNT      (0x42002014) /**< \brief (TC0) COUNT32 Count */
+#define REG_TC0_COUNT32_CC0        (0x4200201C) /**< \brief (TC0) COUNT32 Compare and Capture 0 */
+#define REG_TC0_COUNT32_CC1        (0x42002020) /**< \brief (TC0) COUNT32 Compare and Capture 1 */
+#define REG_TC0_COUNT32_CCBUF0     (0x42002030) /**< \brief (TC0) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT32_CCBUF1     (0x42002034) /**< \brief (TC0) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC0_COUNT8_COUNT       (0x42002014) /**< \brief (TC0) COUNT8 Count */
+#define REG_TC0_COUNT8_PER         (0x4200201B) /**< \brief (TC0) COUNT8 Period */
+#define REG_TC0_COUNT8_CC0         (0x4200201C) /**< \brief (TC0) COUNT8 Compare and Capture 0 */
+#define REG_TC0_COUNT8_CC1         (0x4200201D) /**< \brief (TC0) COUNT8 Compare and Capture 1 */
+#define REG_TC0_COUNT8_PERBUF      (0x4200202F) /**< \brief (TC0) COUNT8 Period Buffer */
+#define REG_TC0_COUNT8_CCBUF0      (0x42002030) /**< \brief (TC0) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT8_CCBUF1      (0x42002031) /**< \brief (TC0) COUNT8 Compare and Capture Buffer 1 */
+#else
+#define REG_TC0_CTRLA              (*(RwReg  *)0x42002000UL) /**< \brief (TC0) Control A */
+#define REG_TC0_CTRLBCLR           (*(RwReg8 *)0x42002004UL) /**< \brief (TC0) Control B Clear */
+#define REG_TC0_CTRLBSET           (*(RwReg8 *)0x42002005UL) /**< \brief (TC0) Control B Set */
+#define REG_TC0_EVCTRL             (*(RwReg16*)0x42002006UL) /**< \brief (TC0) Event Control */
+#define REG_TC0_INTENCLR           (*(RwReg8 *)0x42002008UL) /**< \brief (TC0) Interrupt Enable Clear */
+#define REG_TC0_INTENSET           (*(RwReg8 *)0x42002009UL) /**< \brief (TC0) Interrupt Enable Set */
+#define REG_TC0_INTFLAG            (*(RwReg8 *)0x4200200AUL) /**< \brief (TC0) Interrupt Flag Status and Clear */
+#define REG_TC0_STATUS             (*(RwReg8 *)0x4200200BUL) /**< \brief (TC0) Status */
+#define REG_TC0_WAVE               (*(RwReg8 *)0x4200200CUL) /**< \brief (TC0) Waveform Generation Control */
+#define REG_TC0_DRVCTRL            (*(RwReg8 *)0x4200200DUL) /**< \brief (TC0) Control C */
+#define REG_TC0_DBGCTRL            (*(RwReg8 *)0x4200200FUL) /**< \brief (TC0) Debug Control */
+#define REG_TC0_SYNCBUSY           (*(RoReg  *)0x42002010UL) /**< \brief (TC0) Synchronization Status */
+#define REG_TC0_COUNT16_COUNT      (*(RwReg16*)0x42002014UL) /**< \brief (TC0) COUNT16 Count */
+#define REG_TC0_COUNT16_CC0        (*(RwReg16*)0x4200201CUL) /**< \brief (TC0) COUNT16 Compare and Capture 0 */
+#define REG_TC0_COUNT16_CC1        (*(RwReg16*)0x4200201EUL) /**< \brief (TC0) COUNT16 Compare and Capture 1 */
+#define REG_TC0_COUNT16_CCBUF0     (*(RwReg16*)0x42002030UL) /**< \brief (TC0) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT16_CCBUF1     (*(RwReg16*)0x42002032UL) /**< \brief (TC0) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC0_COUNT32_COUNT      (*(RwReg  *)0x42002014UL) /**< \brief (TC0) COUNT32 Count */
+#define REG_TC0_COUNT32_CC0        (*(RwReg  *)0x4200201CUL) /**< \brief (TC0) COUNT32 Compare and Capture 0 */
+#define REG_TC0_COUNT32_CC1        (*(RwReg  *)0x42002020UL) /**< \brief (TC0) COUNT32 Compare and Capture 1 */
+#define REG_TC0_COUNT32_CCBUF0     (*(RwReg  *)0x42002030UL) /**< \brief (TC0) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT32_CCBUF1     (*(RwReg  *)0x42002034UL) /**< \brief (TC0) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC0_COUNT8_COUNT       (*(RwReg8 *)0x42002014UL) /**< \brief (TC0) COUNT8 Count */
+#define REG_TC0_COUNT8_PER         (*(RwReg8 *)0x4200201BUL) /**< \brief (TC0) COUNT8 Period */
+#define REG_TC0_COUNT8_CC0         (*(RwReg8 *)0x4200201CUL) /**< \brief (TC0) COUNT8 Compare and Capture 0 */
+#define REG_TC0_COUNT8_CC1         (*(RwReg8 *)0x4200201DUL) /**< \brief (TC0) COUNT8 Compare and Capture 1 */
+#define REG_TC0_COUNT8_PERBUF      (*(RwReg8 *)0x4200202FUL) /**< \brief (TC0) COUNT8 Period Buffer */
+#define REG_TC0_COUNT8_CCBUF0      (*(RwReg8 *)0x42002030UL) /**< \brief (TC0) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC0_COUNT8_CCBUF1      (*(RwReg8 *)0x42002031UL) /**< \brief (TC0) COUNT8 Compare and Capture Buffer 1 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for TC0 peripheral ========== */
+#define TC0_CC_NUM                  2       
+#define TC0_DMAC_ID_MC_0            20
+#define TC0_DMAC_ID_MC_1            21
+#define TC0_DMAC_ID_MC_LSB          20
+#define TC0_DMAC_ID_MC_MSB          21
+#define TC0_DMAC_ID_MC_SIZE         2
+#define TC0_DMAC_ID_OVF             19       // Indexes of DMA Overflow trigger
+#define TC0_EXT                     0       
+#define TC0_GCLK_ID                 23      
+#define TC0_MASTER                  1       
+#define TC0_OW_NUM                  2       
+
+#endif /* _SAML22_TC0_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/tc1.h b/watch-library/hardware/include/instance/tc1.h
new file mode 100644
index 00000000..9acada8a
--- /dev/null
+++ b/watch-library/hardware/include/instance/tc1.h
@@ -0,0 +1,109 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TC1
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TC1_INSTANCE_
+#define _SAML22_TC1_INSTANCE_
+
+/* ========== Register definition for TC1 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TC1_CTRLA              (0x42002400) /**< \brief (TC1) Control A */
+#define REG_TC1_CTRLBCLR           (0x42002404) /**< \brief (TC1) Control B Clear */
+#define REG_TC1_CTRLBSET           (0x42002405) /**< \brief (TC1) Control B Set */
+#define REG_TC1_EVCTRL             (0x42002406) /**< \brief (TC1) Event Control */
+#define REG_TC1_INTENCLR           (0x42002408) /**< \brief (TC1) Interrupt Enable Clear */
+#define REG_TC1_INTENSET           (0x42002409) /**< \brief (TC1) Interrupt Enable Set */
+#define REG_TC1_INTFLAG            (0x4200240A) /**< \brief (TC1) Interrupt Flag Status and Clear */
+#define REG_TC1_STATUS             (0x4200240B) /**< \brief (TC1) Status */
+#define REG_TC1_WAVE               (0x4200240C) /**< \brief (TC1) Waveform Generation Control */
+#define REG_TC1_DRVCTRL            (0x4200240D) /**< \brief (TC1) Control C */
+#define REG_TC1_DBGCTRL            (0x4200240F) /**< \brief (TC1) Debug Control */
+#define REG_TC1_SYNCBUSY           (0x42002410) /**< \brief (TC1) Synchronization Status */
+#define REG_TC1_COUNT16_COUNT      (0x42002414) /**< \brief (TC1) COUNT16 Count */
+#define REG_TC1_COUNT16_CC0        (0x4200241C) /**< \brief (TC1) COUNT16 Compare and Capture 0 */
+#define REG_TC1_COUNT16_CC1        (0x4200241E) /**< \brief (TC1) COUNT16 Compare and Capture 1 */
+#define REG_TC1_COUNT16_CCBUF0     (0x42002430) /**< \brief (TC1) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT16_CCBUF1     (0x42002432) /**< \brief (TC1) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC1_COUNT32_COUNT      (0x42002414) /**< \brief (TC1) COUNT32 Count */
+#define REG_TC1_COUNT32_CC0        (0x4200241C) /**< \brief (TC1) COUNT32 Compare and Capture 0 */
+#define REG_TC1_COUNT32_CC1        (0x42002420) /**< \brief (TC1) COUNT32 Compare and Capture 1 */
+#define REG_TC1_COUNT32_CCBUF0     (0x42002430) /**< \brief (TC1) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT32_CCBUF1     (0x42002434) /**< \brief (TC1) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC1_COUNT8_COUNT       (0x42002414) /**< \brief (TC1) COUNT8 Count */
+#define REG_TC1_COUNT8_PER         (0x4200241B) /**< \brief (TC1) COUNT8 Period */
+#define REG_TC1_COUNT8_CC0         (0x4200241C) /**< \brief (TC1) COUNT8 Compare and Capture 0 */
+#define REG_TC1_COUNT8_CC1         (0x4200241D) /**< \brief (TC1) COUNT8 Compare and Capture 1 */
+#define REG_TC1_COUNT8_PERBUF      (0x4200242F) /**< \brief (TC1) COUNT8 Period Buffer */
+#define REG_TC1_COUNT8_CCBUF0      (0x42002430) /**< \brief (TC1) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT8_CCBUF1      (0x42002431) /**< \brief (TC1) COUNT8 Compare and Capture Buffer 1 */
+#else
+#define REG_TC1_CTRLA              (*(RwReg  *)0x42002400UL) /**< \brief (TC1) Control A */
+#define REG_TC1_CTRLBCLR           (*(RwReg8 *)0x42002404UL) /**< \brief (TC1) Control B Clear */
+#define REG_TC1_CTRLBSET           (*(RwReg8 *)0x42002405UL) /**< \brief (TC1) Control B Set */
+#define REG_TC1_EVCTRL             (*(RwReg16*)0x42002406UL) /**< \brief (TC1) Event Control */
+#define REG_TC1_INTENCLR           (*(RwReg8 *)0x42002408UL) /**< \brief (TC1) Interrupt Enable Clear */
+#define REG_TC1_INTENSET           (*(RwReg8 *)0x42002409UL) /**< \brief (TC1) Interrupt Enable Set */
+#define REG_TC1_INTFLAG            (*(RwReg8 *)0x4200240AUL) /**< \brief (TC1) Interrupt Flag Status and Clear */
+#define REG_TC1_STATUS             (*(RwReg8 *)0x4200240BUL) /**< \brief (TC1) Status */
+#define REG_TC1_WAVE               (*(RwReg8 *)0x4200240CUL) /**< \brief (TC1) Waveform Generation Control */
+#define REG_TC1_DRVCTRL            (*(RwReg8 *)0x4200240DUL) /**< \brief (TC1) Control C */
+#define REG_TC1_DBGCTRL            (*(RwReg8 *)0x4200240FUL) /**< \brief (TC1) Debug Control */
+#define REG_TC1_SYNCBUSY           (*(RoReg  *)0x42002410UL) /**< \brief (TC1) Synchronization Status */
+#define REG_TC1_COUNT16_COUNT      (*(RwReg16*)0x42002414UL) /**< \brief (TC1) COUNT16 Count */
+#define REG_TC1_COUNT16_CC0        (*(RwReg16*)0x4200241CUL) /**< \brief (TC1) COUNT16 Compare and Capture 0 */
+#define REG_TC1_COUNT16_CC1        (*(RwReg16*)0x4200241EUL) /**< \brief (TC1) COUNT16 Compare and Capture 1 */
+#define REG_TC1_COUNT16_CCBUF0     (*(RwReg16*)0x42002430UL) /**< \brief (TC1) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT16_CCBUF1     (*(RwReg16*)0x42002432UL) /**< \brief (TC1) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC1_COUNT32_COUNT      (*(RwReg  *)0x42002414UL) /**< \brief (TC1) COUNT32 Count */
+#define REG_TC1_COUNT32_CC0        (*(RwReg  *)0x4200241CUL) /**< \brief (TC1) COUNT32 Compare and Capture 0 */
+#define REG_TC1_COUNT32_CC1        (*(RwReg  *)0x42002420UL) /**< \brief (TC1) COUNT32 Compare and Capture 1 */
+#define REG_TC1_COUNT32_CCBUF0     (*(RwReg  *)0x42002430UL) /**< \brief (TC1) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT32_CCBUF1     (*(RwReg  *)0x42002434UL) /**< \brief (TC1) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC1_COUNT8_COUNT       (*(RwReg8 *)0x42002414UL) /**< \brief (TC1) COUNT8 Count */
+#define REG_TC1_COUNT8_PER         (*(RwReg8 *)0x4200241BUL) /**< \brief (TC1) COUNT8 Period */
+#define REG_TC1_COUNT8_CC0         (*(RwReg8 *)0x4200241CUL) /**< \brief (TC1) COUNT8 Compare and Capture 0 */
+#define REG_TC1_COUNT8_CC1         (*(RwReg8 *)0x4200241DUL) /**< \brief (TC1) COUNT8 Compare and Capture 1 */
+#define REG_TC1_COUNT8_PERBUF      (*(RwReg8 *)0x4200242FUL) /**< \brief (TC1) COUNT8 Period Buffer */
+#define REG_TC1_COUNT8_CCBUF0      (*(RwReg8 *)0x42002430UL) /**< \brief (TC1) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC1_COUNT8_CCBUF1      (*(RwReg8 *)0x42002431UL) /**< \brief (TC1) COUNT8 Compare and Capture Buffer 1 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for TC1 peripheral ========== */
+#define TC1_CC_NUM                  2       
+#define TC1_DMAC_ID_MC_0            23
+#define TC1_DMAC_ID_MC_1            24
+#define TC1_DMAC_ID_MC_LSB          23
+#define TC1_DMAC_ID_MC_MSB          24
+#define TC1_DMAC_ID_MC_SIZE         2
+#define TC1_DMAC_ID_OVF             22       // Indexes of DMA Overflow trigger
+#define TC1_EXT                     0       
+#define TC1_GCLK_ID                 23      
+#define TC1_MASTER                  0       
+#define TC1_OW_NUM                  2       
+
+#endif /* _SAML22_TC1_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/tc2.h b/watch-library/hardware/include/instance/tc2.h
new file mode 100644
index 00000000..13b8fb2a
--- /dev/null
+++ b/watch-library/hardware/include/instance/tc2.h
@@ -0,0 +1,109 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TC2
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TC2_INSTANCE_
+#define _SAML22_TC2_INSTANCE_
+
+/* ========== Register definition for TC2 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TC2_CTRLA              (0x42002800) /**< \brief (TC2) Control A */
+#define REG_TC2_CTRLBCLR           (0x42002804) /**< \brief (TC2) Control B Clear */
+#define REG_TC2_CTRLBSET           (0x42002805) /**< \brief (TC2) Control B Set */
+#define REG_TC2_EVCTRL             (0x42002806) /**< \brief (TC2) Event Control */
+#define REG_TC2_INTENCLR           (0x42002808) /**< \brief (TC2) Interrupt Enable Clear */
+#define REG_TC2_INTENSET           (0x42002809) /**< \brief (TC2) Interrupt Enable Set */
+#define REG_TC2_INTFLAG            (0x4200280A) /**< \brief (TC2) Interrupt Flag Status and Clear */
+#define REG_TC2_STATUS             (0x4200280B) /**< \brief (TC2) Status */
+#define REG_TC2_WAVE               (0x4200280C) /**< \brief (TC2) Waveform Generation Control */
+#define REG_TC2_DRVCTRL            (0x4200280D) /**< \brief (TC2) Control C */
+#define REG_TC2_DBGCTRL            (0x4200280F) /**< \brief (TC2) Debug Control */
+#define REG_TC2_SYNCBUSY           (0x42002810) /**< \brief (TC2) Synchronization Status */
+#define REG_TC2_COUNT16_COUNT      (0x42002814) /**< \brief (TC2) COUNT16 Count */
+#define REG_TC2_COUNT16_CC0        (0x4200281C) /**< \brief (TC2) COUNT16 Compare and Capture 0 */
+#define REG_TC2_COUNT16_CC1        (0x4200281E) /**< \brief (TC2) COUNT16 Compare and Capture 1 */
+#define REG_TC2_COUNT16_CCBUF0     (0x42002830) /**< \brief (TC2) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT16_CCBUF1     (0x42002832) /**< \brief (TC2) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC2_COUNT32_COUNT      (0x42002814) /**< \brief (TC2) COUNT32 Count */
+#define REG_TC2_COUNT32_CC0        (0x4200281C) /**< \brief (TC2) COUNT32 Compare and Capture 0 */
+#define REG_TC2_COUNT32_CC1        (0x42002820) /**< \brief (TC2) COUNT32 Compare and Capture 1 */
+#define REG_TC2_COUNT32_CCBUF0     (0x42002830) /**< \brief (TC2) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT32_CCBUF1     (0x42002834) /**< \brief (TC2) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC2_COUNT8_COUNT       (0x42002814) /**< \brief (TC2) COUNT8 Count */
+#define REG_TC2_COUNT8_PER         (0x4200281B) /**< \brief (TC2) COUNT8 Period */
+#define REG_TC2_COUNT8_CC0         (0x4200281C) /**< \brief (TC2) COUNT8 Compare and Capture 0 */
+#define REG_TC2_COUNT8_CC1         (0x4200281D) /**< \brief (TC2) COUNT8 Compare and Capture 1 */
+#define REG_TC2_COUNT8_PERBUF      (0x4200282F) /**< \brief (TC2) COUNT8 Period Buffer */
+#define REG_TC2_COUNT8_CCBUF0      (0x42002830) /**< \brief (TC2) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT8_CCBUF1      (0x42002831) /**< \brief (TC2) COUNT8 Compare and Capture Buffer 1 */
+#else
+#define REG_TC2_CTRLA              (*(RwReg  *)0x42002800UL) /**< \brief (TC2) Control A */
+#define REG_TC2_CTRLBCLR           (*(RwReg8 *)0x42002804UL) /**< \brief (TC2) Control B Clear */
+#define REG_TC2_CTRLBSET           (*(RwReg8 *)0x42002805UL) /**< \brief (TC2) Control B Set */
+#define REG_TC2_EVCTRL             (*(RwReg16*)0x42002806UL) /**< \brief (TC2) Event Control */
+#define REG_TC2_INTENCLR           (*(RwReg8 *)0x42002808UL) /**< \brief (TC2) Interrupt Enable Clear */
+#define REG_TC2_INTENSET           (*(RwReg8 *)0x42002809UL) /**< \brief (TC2) Interrupt Enable Set */
+#define REG_TC2_INTFLAG            (*(RwReg8 *)0x4200280AUL) /**< \brief (TC2) Interrupt Flag Status and Clear */
+#define REG_TC2_STATUS             (*(RwReg8 *)0x4200280BUL) /**< \brief (TC2) Status */
+#define REG_TC2_WAVE               (*(RwReg8 *)0x4200280CUL) /**< \brief (TC2) Waveform Generation Control */
+#define REG_TC2_DRVCTRL            (*(RwReg8 *)0x4200280DUL) /**< \brief (TC2) Control C */
+#define REG_TC2_DBGCTRL            (*(RwReg8 *)0x4200280FUL) /**< \brief (TC2) Debug Control */
+#define REG_TC2_SYNCBUSY           (*(RoReg  *)0x42002810UL) /**< \brief (TC2) Synchronization Status */
+#define REG_TC2_COUNT16_COUNT      (*(RwReg16*)0x42002814UL) /**< \brief (TC2) COUNT16 Count */
+#define REG_TC2_COUNT16_CC0        (*(RwReg16*)0x4200281CUL) /**< \brief (TC2) COUNT16 Compare and Capture 0 */
+#define REG_TC2_COUNT16_CC1        (*(RwReg16*)0x4200281EUL) /**< \brief (TC2) COUNT16 Compare and Capture 1 */
+#define REG_TC2_COUNT16_CCBUF0     (*(RwReg16*)0x42002830UL) /**< \brief (TC2) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT16_CCBUF1     (*(RwReg16*)0x42002832UL) /**< \brief (TC2) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC2_COUNT32_COUNT      (*(RwReg  *)0x42002814UL) /**< \brief (TC2) COUNT32 Count */
+#define REG_TC2_COUNT32_CC0        (*(RwReg  *)0x4200281CUL) /**< \brief (TC2) COUNT32 Compare and Capture 0 */
+#define REG_TC2_COUNT32_CC1        (*(RwReg  *)0x42002820UL) /**< \brief (TC2) COUNT32 Compare and Capture 1 */
+#define REG_TC2_COUNT32_CCBUF0     (*(RwReg  *)0x42002830UL) /**< \brief (TC2) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT32_CCBUF1     (*(RwReg  *)0x42002834UL) /**< \brief (TC2) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC2_COUNT8_COUNT       (*(RwReg8 *)0x42002814UL) /**< \brief (TC2) COUNT8 Count */
+#define REG_TC2_COUNT8_PER         (*(RwReg8 *)0x4200281BUL) /**< \brief (TC2) COUNT8 Period */
+#define REG_TC2_COUNT8_CC0         (*(RwReg8 *)0x4200281CUL) /**< \brief (TC2) COUNT8 Compare and Capture 0 */
+#define REG_TC2_COUNT8_CC1         (*(RwReg8 *)0x4200281DUL) /**< \brief (TC2) COUNT8 Compare and Capture 1 */
+#define REG_TC2_COUNT8_PERBUF      (*(RwReg8 *)0x4200282FUL) /**< \brief (TC2) COUNT8 Period Buffer */
+#define REG_TC2_COUNT8_CCBUF0      (*(RwReg8 *)0x42002830UL) /**< \brief (TC2) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC2_COUNT8_CCBUF1      (*(RwReg8 *)0x42002831UL) /**< \brief (TC2) COUNT8 Compare and Capture Buffer 1 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for TC2 peripheral ========== */
+#define TC2_CC_NUM                  2       
+#define TC2_DMAC_ID_MC_0            26
+#define TC2_DMAC_ID_MC_1            27
+#define TC2_DMAC_ID_MC_LSB          26
+#define TC2_DMAC_ID_MC_MSB          27
+#define TC2_DMAC_ID_MC_SIZE         2
+#define TC2_DMAC_ID_OVF             25       // Indexes of DMA Overflow trigger
+#define TC2_EXT                     0       
+#define TC2_GCLK_ID                 24      
+#define TC2_MASTER                  1       
+#define TC2_OW_NUM                  2       
+
+#endif /* _SAML22_TC2_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/tc3.h b/watch-library/hardware/include/instance/tc3.h
new file mode 100644
index 00000000..7555903a
--- /dev/null
+++ b/watch-library/hardware/include/instance/tc3.h
@@ -0,0 +1,109 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TC3
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TC3_INSTANCE_
+#define _SAML22_TC3_INSTANCE_
+
+/* ========== Register definition for TC3 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TC3_CTRLA              (0x42002C00) /**< \brief (TC3) Control A */
+#define REG_TC3_CTRLBCLR           (0x42002C04) /**< \brief (TC3) Control B Clear */
+#define REG_TC3_CTRLBSET           (0x42002C05) /**< \brief (TC3) Control B Set */
+#define REG_TC3_EVCTRL             (0x42002C06) /**< \brief (TC3) Event Control */
+#define REG_TC3_INTENCLR           (0x42002C08) /**< \brief (TC3) Interrupt Enable Clear */
+#define REG_TC3_INTENSET           (0x42002C09) /**< \brief (TC3) Interrupt Enable Set */
+#define REG_TC3_INTFLAG            (0x42002C0A) /**< \brief (TC3) Interrupt Flag Status and Clear */
+#define REG_TC3_STATUS             (0x42002C0B) /**< \brief (TC3) Status */
+#define REG_TC3_WAVE               (0x42002C0C) /**< \brief (TC3) Waveform Generation Control */
+#define REG_TC3_DRVCTRL            (0x42002C0D) /**< \brief (TC3) Control C */
+#define REG_TC3_DBGCTRL            (0x42002C0F) /**< \brief (TC3) Debug Control */
+#define REG_TC3_SYNCBUSY           (0x42002C10) /**< \brief (TC3) Synchronization Status */
+#define REG_TC3_COUNT16_COUNT      (0x42002C14) /**< \brief (TC3) COUNT16 Count */
+#define REG_TC3_COUNT16_CC0        (0x42002C1C) /**< \brief (TC3) COUNT16 Compare and Capture 0 */
+#define REG_TC3_COUNT16_CC1        (0x42002C1E) /**< \brief (TC3) COUNT16 Compare and Capture 1 */
+#define REG_TC3_COUNT16_CCBUF0     (0x42002C30) /**< \brief (TC3) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT16_CCBUF1     (0x42002C32) /**< \brief (TC3) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC3_COUNT32_COUNT      (0x42002C14) /**< \brief (TC3) COUNT32 Count */
+#define REG_TC3_COUNT32_CC0        (0x42002C1C) /**< \brief (TC3) COUNT32 Compare and Capture 0 */
+#define REG_TC3_COUNT32_CC1        (0x42002C20) /**< \brief (TC3) COUNT32 Compare and Capture 1 */
+#define REG_TC3_COUNT32_CCBUF0     (0x42002C30) /**< \brief (TC3) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT32_CCBUF1     (0x42002C34) /**< \brief (TC3) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC3_COUNT8_COUNT       (0x42002C14) /**< \brief (TC3) COUNT8 Count */
+#define REG_TC3_COUNT8_PER         (0x42002C1B) /**< \brief (TC3) COUNT8 Period */
+#define REG_TC3_COUNT8_CC0         (0x42002C1C) /**< \brief (TC3) COUNT8 Compare and Capture 0 */
+#define REG_TC3_COUNT8_CC1         (0x42002C1D) /**< \brief (TC3) COUNT8 Compare and Capture 1 */
+#define REG_TC3_COUNT8_PERBUF      (0x42002C2F) /**< \brief (TC3) COUNT8 Period Buffer */
+#define REG_TC3_COUNT8_CCBUF0      (0x42002C30) /**< \brief (TC3) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT8_CCBUF1      (0x42002C31) /**< \brief (TC3) COUNT8 Compare and Capture Buffer 1 */
+#else
+#define REG_TC3_CTRLA              (*(RwReg  *)0x42002C00UL) /**< \brief (TC3) Control A */
+#define REG_TC3_CTRLBCLR           (*(RwReg8 *)0x42002C04UL) /**< \brief (TC3) Control B Clear */
+#define REG_TC3_CTRLBSET           (*(RwReg8 *)0x42002C05UL) /**< \brief (TC3) Control B Set */
+#define REG_TC3_EVCTRL             (*(RwReg16*)0x42002C06UL) /**< \brief (TC3) Event Control */
+#define REG_TC3_INTENCLR           (*(RwReg8 *)0x42002C08UL) /**< \brief (TC3) Interrupt Enable Clear */
+#define REG_TC3_INTENSET           (*(RwReg8 *)0x42002C09UL) /**< \brief (TC3) Interrupt Enable Set */
+#define REG_TC3_INTFLAG            (*(RwReg8 *)0x42002C0AUL) /**< \brief (TC3) Interrupt Flag Status and Clear */
+#define REG_TC3_STATUS             (*(RwReg8 *)0x42002C0BUL) /**< \brief (TC3) Status */
+#define REG_TC3_WAVE               (*(RwReg8 *)0x42002C0CUL) /**< \brief (TC3) Waveform Generation Control */
+#define REG_TC3_DRVCTRL            (*(RwReg8 *)0x42002C0DUL) /**< \brief (TC3) Control C */
+#define REG_TC3_DBGCTRL            (*(RwReg8 *)0x42002C0FUL) /**< \brief (TC3) Debug Control */
+#define REG_TC3_SYNCBUSY           (*(RoReg  *)0x42002C10UL) /**< \brief (TC3) Synchronization Status */
+#define REG_TC3_COUNT16_COUNT      (*(RwReg16*)0x42002C14UL) /**< \brief (TC3) COUNT16 Count */
+#define REG_TC3_COUNT16_CC0        (*(RwReg16*)0x42002C1CUL) /**< \brief (TC3) COUNT16 Compare and Capture 0 */
+#define REG_TC3_COUNT16_CC1        (*(RwReg16*)0x42002C1EUL) /**< \brief (TC3) COUNT16 Compare and Capture 1 */
+#define REG_TC3_COUNT16_CCBUF0     (*(RwReg16*)0x42002C30UL) /**< \brief (TC3) COUNT16 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT16_CCBUF1     (*(RwReg16*)0x42002C32UL) /**< \brief (TC3) COUNT16 Compare and Capture Buffer 1 */
+#define REG_TC3_COUNT32_COUNT      (*(RwReg  *)0x42002C14UL) /**< \brief (TC3) COUNT32 Count */
+#define REG_TC3_COUNT32_CC0        (*(RwReg  *)0x42002C1CUL) /**< \brief (TC3) COUNT32 Compare and Capture 0 */
+#define REG_TC3_COUNT32_CC1        (*(RwReg  *)0x42002C20UL) /**< \brief (TC3) COUNT32 Compare and Capture 1 */
+#define REG_TC3_COUNT32_CCBUF0     (*(RwReg  *)0x42002C30UL) /**< \brief (TC3) COUNT32 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT32_CCBUF1     (*(RwReg  *)0x42002C34UL) /**< \brief (TC3) COUNT32 Compare and Capture Buffer 1 */
+#define REG_TC3_COUNT8_COUNT       (*(RwReg8 *)0x42002C14UL) /**< \brief (TC3) COUNT8 Count */
+#define REG_TC3_COUNT8_PER         (*(RwReg8 *)0x42002C1BUL) /**< \brief (TC3) COUNT8 Period */
+#define REG_TC3_COUNT8_CC0         (*(RwReg8 *)0x42002C1CUL) /**< \brief (TC3) COUNT8 Compare and Capture 0 */
+#define REG_TC3_COUNT8_CC1         (*(RwReg8 *)0x42002C1DUL) /**< \brief (TC3) COUNT8 Compare and Capture 1 */
+#define REG_TC3_COUNT8_PERBUF      (*(RwReg8 *)0x42002C2FUL) /**< \brief (TC3) COUNT8 Period Buffer */
+#define REG_TC3_COUNT8_CCBUF0      (*(RwReg8 *)0x42002C30UL) /**< \brief (TC3) COUNT8 Compare and Capture Buffer 0 */
+#define REG_TC3_COUNT8_CCBUF1      (*(RwReg8 *)0x42002C31UL) /**< \brief (TC3) COUNT8 Compare and Capture Buffer 1 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for TC3 peripheral ========== */
+#define TC3_CC_NUM                  2       
+#define TC3_DMAC_ID_MC_0            29
+#define TC3_DMAC_ID_MC_1            30
+#define TC3_DMAC_ID_MC_LSB          29
+#define TC3_DMAC_ID_MC_MSB          30
+#define TC3_DMAC_ID_MC_SIZE         2
+#define TC3_DMAC_ID_OVF             28       // Indexes of DMA Overflow trigger
+#define TC3_EXT                     0       
+#define TC3_GCLK_ID                 24      
+#define TC3_MASTER                  0       
+#define TC3_OW_NUM                  2       
+
+#endif /* _SAML22_TC3_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/tcc0.h b/watch-library/hardware/include/instance/tcc0.h
new file mode 100644
index 00000000..e5567d45
--- /dev/null
+++ b/watch-library/hardware/include/instance/tcc0.h
@@ -0,0 +1,115 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TCC0
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TCC0_INSTANCE_
+#define _SAML22_TCC0_INSTANCE_
+
+/* ========== Register definition for TCC0 peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TCC0_CTRLA             (0x42001C00) /**< \brief (TCC0) Control A */
+#define REG_TCC0_CTRLBCLR          (0x42001C04) /**< \brief (TCC0) Control B Clear */
+#define REG_TCC0_CTRLBSET          (0x42001C05) /**< \brief (TCC0) Control B Set */
+#define REG_TCC0_SYNCBUSY          (0x42001C08) /**< \brief (TCC0) Synchronization Busy */
+#define REG_TCC0_FCTRLA            (0x42001C0C) /**< \brief (TCC0) Recoverable Fault A Configuration */
+#define REG_TCC0_FCTRLB            (0x42001C10) /**< \brief (TCC0) Recoverable Fault B Configuration */
+#define REG_TCC0_WEXCTRL           (0x42001C14) /**< \brief (TCC0) Waveform Extension Configuration */
+#define REG_TCC0_DRVCTRL           (0x42001C18) /**< \brief (TCC0) Driver Control */
+#define REG_TCC0_DBGCTRL           (0x42001C1E) /**< \brief (TCC0) Debug Control */
+#define REG_TCC0_EVCTRL            (0x42001C20) /**< \brief (TCC0) Event Control */
+#define REG_TCC0_INTENCLR          (0x42001C24) /**< \brief (TCC0) Interrupt Enable Clear */
+#define REG_TCC0_INTENSET          (0x42001C28) /**< \brief (TCC0) Interrupt Enable Set */
+#define REG_TCC0_INTFLAG           (0x42001C2C) /**< \brief (TCC0) Interrupt Flag Status and Clear */
+#define REG_TCC0_STATUS            (0x42001C30) /**< \brief (TCC0) Status */
+#define REG_TCC0_COUNT             (0x42001C34) /**< \brief (TCC0) Count */
+#define REG_TCC0_PATT              (0x42001C38) /**< \brief (TCC0) Pattern */
+#define REG_TCC0_WAVE              (0x42001C3C) /**< \brief (TCC0) Waveform Control */
+#define REG_TCC0_PER               (0x42001C40) /**< \brief (TCC0) Period */
+#define REG_TCC0_CC0               (0x42001C44) /**< \brief (TCC0) Compare and Capture 0 */
+#define REG_TCC0_CC1               (0x42001C48) /**< \brief (TCC0) Compare and Capture 1 */
+#define REG_TCC0_CC2               (0x42001C4C) /**< \brief (TCC0) Compare and Capture 2 */
+#define REG_TCC0_CC3               (0x42001C50) /**< \brief (TCC0) Compare and Capture 3 */
+#define REG_TCC0_PATTBUF           (0x42001C64) /**< \brief (TCC0) Pattern Buffer */
+#define REG_TCC0_PERBUF            (0x42001C6C) /**< \brief (TCC0) Period Buffer */
+#define REG_TCC0_CCBUF0            (0x42001C70) /**< \brief (TCC0) Compare and Capture Buffer 0 */
+#define REG_TCC0_CCBUF1            (0x42001C74) /**< \brief (TCC0) Compare and Capture Buffer 1 */
+#define REG_TCC0_CCBUF2            (0x42001C78) /**< \brief (TCC0) Compare and Capture Buffer 2 */
+#define REG_TCC0_CCBUF3            (0x42001C7C) /**< \brief (TCC0) Compare and Capture Buffer 3 */
+#else
+#define REG_TCC0_CTRLA             (*(RwReg  *)0x42001C00UL) /**< \brief (TCC0) Control A */
+#define REG_TCC0_CTRLBCLR          (*(RwReg8 *)0x42001C04UL) /**< \brief (TCC0) Control B Clear */
+#define REG_TCC0_CTRLBSET          (*(RwReg8 *)0x42001C05UL) /**< \brief (TCC0) Control B Set */
+#define REG_TCC0_SYNCBUSY          (*(RoReg  *)0x42001C08UL) /**< \brief (TCC0) Synchronization Busy */
+#define REG_TCC0_FCTRLA            (*(RwReg  *)0x42001C0CUL) /**< \brief (TCC0) Recoverable Fault A Configuration */
+#define REG_TCC0_FCTRLB            (*(RwReg  *)0x42001C10UL) /**< \brief (TCC0) Recoverable Fault B Configuration */
+#define REG_TCC0_WEXCTRL           (*(RwReg  *)0x42001C14UL) /**< \brief (TCC0) Waveform Extension Configuration */
+#define REG_TCC0_DRVCTRL           (*(RwReg  *)0x42001C18UL) /**< \brief (TCC0) Driver Control */
+#define REG_TCC0_DBGCTRL           (*(RwReg8 *)0x42001C1EUL) /**< \brief (TCC0) Debug Control */
+#define REG_TCC0_EVCTRL            (*(RwReg  *)0x42001C20UL) /**< \brief (TCC0) Event Control */
+#define REG_TCC0_INTENCLR          (*(RwReg  *)0x42001C24UL) /**< \brief (TCC0) Interrupt Enable Clear */
+#define REG_TCC0_INTENSET          (*(RwReg  *)0x42001C28UL) /**< \brief (TCC0) Interrupt Enable Set */
+#define REG_TCC0_INTFLAG           (*(RwReg  *)0x42001C2CUL) /**< \brief (TCC0) Interrupt Flag Status and Clear */
+#define REG_TCC0_STATUS            (*(RwReg  *)0x42001C30UL) /**< \brief (TCC0) Status */
+#define REG_TCC0_COUNT             (*(RwReg  *)0x42001C34UL) /**< \brief (TCC0) Count */
+#define REG_TCC0_PATT              (*(RwReg16*)0x42001C38UL) /**< \brief (TCC0) Pattern */
+#define REG_TCC0_WAVE              (*(RwReg  *)0x42001C3CUL) /**< \brief (TCC0) Waveform Control */
+#define REG_TCC0_PER               (*(RwReg  *)0x42001C40UL) /**< \brief (TCC0) Period */
+#define REG_TCC0_CC0               (*(RwReg  *)0x42001C44UL) /**< \brief (TCC0) Compare and Capture 0 */
+#define REG_TCC0_CC1               (*(RwReg  *)0x42001C48UL) /**< \brief (TCC0) Compare and Capture 1 */
+#define REG_TCC0_CC2               (*(RwReg  *)0x42001C4CUL) /**< \brief (TCC0) Compare and Capture 2 */
+#define REG_TCC0_CC3               (*(RwReg  *)0x42001C50UL) /**< \brief (TCC0) Compare and Capture 3 */
+#define REG_TCC0_PATTBUF           (*(RwReg16*)0x42001C64UL) /**< \brief (TCC0) Pattern Buffer */
+#define REG_TCC0_PERBUF            (*(RwReg  *)0x42001C6CUL) /**< \brief (TCC0) Period Buffer */
+#define REG_TCC0_CCBUF0            (*(RwReg  *)0x42001C70UL) /**< \brief (TCC0) Compare and Capture Buffer 0 */
+#define REG_TCC0_CCBUF1            (*(RwReg  *)0x42001C74UL) /**< \brief (TCC0) Compare and Capture Buffer 1 */
+#define REG_TCC0_CCBUF2            (*(RwReg  *)0x42001C78UL) /**< \brief (TCC0) Compare and Capture Buffer 2 */
+#define REG_TCC0_CCBUF3            (*(RwReg  *)0x42001C7CUL) /**< \brief (TCC0) Compare and Capture Buffer 3 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for TCC0 peripheral ========== */
+#define TCC0_CC_NUM                 4        // Number of Compare/Capture units
+#define TCC0_DITHERING              1        // Dithering feature implemented
+#define TCC0_DMAC_ID_MC_0           15
+#define TCC0_DMAC_ID_MC_1           16
+#define TCC0_DMAC_ID_MC_2           17
+#define TCC0_DMAC_ID_MC_3           18
+#define TCC0_DMAC_ID_MC_LSB         15
+#define TCC0_DMAC_ID_MC_MSB         18
+#define TCC0_DMAC_ID_MC_SIZE        4
+#define TCC0_DMAC_ID_OVF            14       // DMA overflow/underflow/retrigger trigger
+#define TCC0_DTI                    1        // Dead-Time-Insertion feature implemented
+#define TCC0_EXT                    31       // Coding of implemented extended features
+#define TCC0_GCLK_ID                22       // Index of Generic Clock
+#define TCC0_OTMX                   1        // Output Matrix feature implemented
+#define TCC0_OW_NUM                 8        // Number of Output Waveforms
+#define TCC0_PG                     1        // Pattern Generation feature implemented
+#define TCC0_SIZE                   24      
+#define TCC0_SWAP                   1        // DTI outputs swap feature implemented
+#define TCC0_TYPE                   0        // TCC type 0 : NA, 1 : Master, 2 : Slave
+
+#endif /* _SAML22_TCC0_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/trng.h b/watch-library/hardware/include/instance/trng.h
new file mode 100644
index 00000000..0f80f00a
--- /dev/null
+++ b/watch-library/hardware/include/instance/trng.h
@@ -0,0 +1,51 @@
+/**
+ * \file
+ *
+ * \brief Instance description for TRNG
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_TRNG_INSTANCE_
+#define _SAML22_TRNG_INSTANCE_
+
+/* ========== Register definition for TRNG peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_TRNG_CTRLA             (0x42004400) /**< \brief (TRNG) Control A */
+#define REG_TRNG_EVCTRL            (0x42004404) /**< \brief (TRNG) Event Control */
+#define REG_TRNG_INTENCLR          (0x42004408) /**< \brief (TRNG) Interrupt Enable Clear */
+#define REG_TRNG_INTENSET          (0x42004409) /**< \brief (TRNG) Interrupt Enable Set */
+#define REG_TRNG_INTFLAG           (0x4200440A) /**< \brief (TRNG) Interrupt Flag Status and Clear */
+#define REG_TRNG_DATA              (0x42004420) /**< \brief (TRNG) Output Data */
+#else
+#define REG_TRNG_CTRLA             (*(RwReg8 *)0x42004400UL) /**< \brief (TRNG) Control A */
+#define REG_TRNG_EVCTRL            (*(RwReg8 *)0x42004404UL) /**< \brief (TRNG) Event Control */
+#define REG_TRNG_INTENCLR          (*(RwReg8 *)0x42004408UL) /**< \brief (TRNG) Interrupt Enable Clear */
+#define REG_TRNG_INTENSET          (*(RwReg8 *)0x42004409UL) /**< \brief (TRNG) Interrupt Enable Set */
+#define REG_TRNG_INTFLAG           (*(RwReg8 *)0x4200440AUL) /**< \brief (TRNG) Interrupt Flag Status and Clear */
+#define REG_TRNG_DATA              (*(RoReg  *)0x42004420UL) /**< \brief (TRNG) Output Data */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+
+#endif /* _SAML22_TRNG_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/usb.h b/watch-library/hardware/include/instance/usb.h
new file mode 100644
index 00000000..9060d62e
--- /dev/null
+++ b/watch-library/hardware/include/instance/usb.h
@@ -0,0 +1,184 @@
+/**
+ * \file
+ *
+ * \brief Instance description for USB
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_USB_INSTANCE_
+#define _SAML22_USB_INSTANCE_
+
+/* ========== Register definition for USB peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_USB_CTRLA              (0x41000000) /**< \brief (USB) Control A */
+#define REG_USB_SYNCBUSY           (0x41000002) /**< \brief (USB) Synchronization Busy */
+#define REG_USB_QOSCTRL            (0x41000003) /**< \brief (USB) USB Quality Of Service */
+#define REG_USB_FSMSTATUS          (0x4100000D) /**< \brief (USB) Finite State Machine Status */
+#define REG_USB_DESCADD            (0x41000024) /**< \brief (USB) Descriptor Address */
+#define REG_USB_PADCAL             (0x41000028) /**< \brief (USB) USB PAD Calibration */
+#define REG_USB_DEVICE_CTRLB       (0x41000008) /**< \brief (USB) DEVICE Control B */
+#define REG_USB_DEVICE_DADD        (0x4100000A) /**< \brief (USB) DEVICE Device Address */
+#define REG_USB_DEVICE_STATUS      (0x4100000C) /**< \brief (USB) DEVICE Status */
+#define REG_USB_DEVICE_FNUM        (0x41000010) /**< \brief (USB) DEVICE Device Frame Number */
+#define REG_USB_DEVICE_INTENCLR    (0x41000014) /**< \brief (USB) DEVICE Device Interrupt Enable Clear */
+#define REG_USB_DEVICE_INTENSET    (0x41000018) /**< \brief (USB) DEVICE Device Interrupt Enable Set */
+#define REG_USB_DEVICE_INTFLAG     (0x4100001C) /**< \brief (USB) DEVICE Device Interrupt Flag */
+#define REG_USB_DEVICE_EPINTSMRY   (0x41000020) /**< \brief (USB) DEVICE End Point Interrupt Summary */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG0 (0x41000100) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR0 (0x41000104) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET0 (0x41000105) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS0 (0x41000106) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG0 (0x41000107) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR0 (0x41000108) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET0 (0x41000109) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG1 (0x41000120) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR1 (0x41000124) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET1 (0x41000125) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS1 (0x41000126) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG1 (0x41000127) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR1 (0x41000128) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET1 (0x41000129) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG2 (0x41000140) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR2 (0x41000144) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET2 (0x41000145) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS2 (0x41000146) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG2 (0x41000147) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR2 (0x41000148) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET2 (0x41000149) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG3 (0x41000160) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR3 (0x41000164) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET3 (0x41000165) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS3 (0x41000166) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG3 (0x41000167) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR3 (0x41000168) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET3 (0x41000169) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG4 (0x41000180) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR4 (0x41000184) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET4 (0x41000185) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS4 (0x41000186) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG4 (0x41000187) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR4 (0x41000188) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET4 (0x41000189) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG5 (0x410001A0) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR5 (0x410001A4) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET5 (0x410001A5) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS5 (0x410001A6) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG5 (0x410001A7) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR5 (0x410001A8) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET5 (0x410001A9) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG6 (0x410001C0) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR6 (0x410001C4) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET6 (0x410001C5) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS6 (0x410001C6) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG6 (0x410001C7) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR6 (0x410001C8) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET6 (0x410001C9) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG7 (0x410001E0) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR7 (0x410001E4) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET7 (0x410001E5) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS7 (0x410001E6) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG7 (0x410001E7) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR7 (0x410001E8) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET7 (0x410001E9) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 7 */
+#else
+#define REG_USB_CTRLA              (*(RwReg8 *)0x41000000UL) /**< \brief (USB) Control A */
+#define REG_USB_SYNCBUSY           (*(RoReg8 *)0x41000002UL) /**< \brief (USB) Synchronization Busy */
+#define REG_USB_QOSCTRL            (*(RwReg8 *)0x41000003UL) /**< \brief (USB) USB Quality Of Service */
+#define REG_USB_FSMSTATUS          (*(RoReg8 *)0x4100000DUL) /**< \brief (USB) Finite State Machine Status */
+#define REG_USB_DESCADD            (*(RwReg  *)0x41000024UL) /**< \brief (USB) Descriptor Address */
+#define REG_USB_PADCAL             (*(RwReg16*)0x41000028UL) /**< \brief (USB) USB PAD Calibration */
+#define REG_USB_DEVICE_CTRLB       (*(RwReg16*)0x41000008UL) /**< \brief (USB) DEVICE Control B */
+#define REG_USB_DEVICE_DADD        (*(RwReg8 *)0x4100000AUL) /**< \brief (USB) DEVICE Device Address */
+#define REG_USB_DEVICE_STATUS      (*(RoReg8 *)0x4100000CUL) /**< \brief (USB) DEVICE Status */
+#define REG_USB_DEVICE_FNUM        (*(RoReg16*)0x41000010UL) /**< \brief (USB) DEVICE Device Frame Number */
+#define REG_USB_DEVICE_INTENCLR    (*(RwReg16*)0x41000014UL) /**< \brief (USB) DEVICE Device Interrupt Enable Clear */
+#define REG_USB_DEVICE_INTENSET    (*(RwReg16*)0x41000018UL) /**< \brief (USB) DEVICE Device Interrupt Enable Set */
+#define REG_USB_DEVICE_INTFLAG     (*(RwReg16*)0x4100001CUL) /**< \brief (USB) DEVICE Device Interrupt Flag */
+#define REG_USB_DEVICE_EPINTSMRY   (*(RoReg16*)0x41000020UL) /**< \brief (USB) DEVICE End Point Interrupt Summary */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG0 (*(RwReg8 *)0x41000100UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR0 (*(WoReg8 *)0x41000104UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET0 (*(WoReg8 *)0x41000105UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS0 (*(RoReg8 *)0x41000106UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG0 (*(RwReg8 *)0x41000107UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR0 (*(RwReg8 *)0x41000108UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET0 (*(RwReg8 *)0x41000109UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 0 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG1 (*(RwReg8 *)0x41000120UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR1 (*(WoReg8 *)0x41000124UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET1 (*(WoReg8 *)0x41000125UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS1 (*(RoReg8 *)0x41000126UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG1 (*(RwReg8 *)0x41000127UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR1 (*(RwReg8 *)0x41000128UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET1 (*(RwReg8 *)0x41000129UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 1 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG2 (*(RwReg8 *)0x41000140UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR2 (*(WoReg8 *)0x41000144UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET2 (*(WoReg8 *)0x41000145UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS2 (*(RoReg8 *)0x41000146UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG2 (*(RwReg8 *)0x41000147UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR2 (*(RwReg8 *)0x41000148UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET2 (*(RwReg8 *)0x41000149UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 2 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG3 (*(RwReg8 *)0x41000160UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR3 (*(WoReg8 *)0x41000164UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET3 (*(WoReg8 *)0x41000165UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS3 (*(RoReg8 *)0x41000166UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG3 (*(RwReg8 *)0x41000167UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR3 (*(RwReg8 *)0x41000168UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET3 (*(RwReg8 *)0x41000169UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 3 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG4 (*(RwReg8 *)0x41000180UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR4 (*(WoReg8 *)0x41000184UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET4 (*(WoReg8 *)0x41000185UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS4 (*(RoReg8 *)0x41000186UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG4 (*(RwReg8 *)0x41000187UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR4 (*(RwReg8 *)0x41000188UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET4 (*(RwReg8 *)0x41000189UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 4 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG5 (*(RwReg8 *)0x410001A0UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR5 (*(WoReg8 *)0x410001A4UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET5 (*(WoReg8 *)0x410001A5UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS5 (*(RoReg8 *)0x410001A6UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG5 (*(RwReg8 *)0x410001A7UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR5 (*(RwReg8 *)0x410001A8UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET5 (*(RwReg8 *)0x410001A9UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 5 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG6 (*(RwReg8 *)0x410001C0UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR6 (*(WoReg8 *)0x410001C4UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET6 (*(WoReg8 *)0x410001C5UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS6 (*(RoReg8 *)0x410001C6UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG6 (*(RwReg8 *)0x410001C7UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR6 (*(RwReg8 *)0x410001C8UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET6 (*(RwReg8 *)0x410001C9UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 6 */
+#define REG_USB_DEVICE_ENDPOINT_EPCFG7 (*(RwReg8 *)0x410001E0UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Configuration 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSCLR7 (*(WoReg8 *)0x410001E4UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Clear 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUSSET7 (*(WoReg8 *)0x410001E5UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status Set 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPSTATUS7 (*(RoReg8 *)0x410001E6UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Pipe Status 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTFLAG7 (*(RwReg8 *)0x410001E7UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Flag 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENCLR7 (*(RwReg8 *)0x410001E8UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Clear Flag 7 */
+#define REG_USB_DEVICE_ENDPOINT_EPINTENSET7 (*(RwReg8 *)0x410001E9UL) /**< \brief (USB) DEVICE_ENDPOINT End Point Interrupt Set Flag 7 */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+/* ========== Instance parameters for USB peripheral ========== */
+#define USB_EPT_NBR                 8        // Number of USB end points (obsolete)
+#define USB_EPT_NUM                 8        // Number of USB end points
+#define USB_GCLK_ID                 6        // Index of Generic Clock
+#define USB_PIPE_NUM                0        // Number of USB pipes
+
+#endif /* _SAML22_USB_INSTANCE_ */
diff --git a/watch-library/hardware/include/instance/wdt.h b/watch-library/hardware/include/instance/wdt.h
new file mode 100644
index 00000000..2bb1d1ba
--- /dev/null
+++ b/watch-library/hardware/include/instance/wdt.h
@@ -0,0 +1,55 @@
+/**
+ * \file
+ *
+ * \brief Instance description for WDT
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22_WDT_INSTANCE_
+#define _SAML22_WDT_INSTANCE_
+
+/* ========== Register definition for WDT peripheral ========== */
+#if (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))
+#define REG_WDT_CTRLA              (0x40002000) /**< \brief (WDT) Control */
+#define REG_WDT_CONFIG             (0x40002001) /**< \brief (WDT) Configuration */
+#define REG_WDT_EWCTRL             (0x40002002) /**< \brief (WDT) Early Warning Interrupt Control */
+#define REG_WDT_INTENCLR           (0x40002004) /**< \brief (WDT) Interrupt Enable Clear */
+#define REG_WDT_INTENSET           (0x40002005) /**< \brief (WDT) Interrupt Enable Set */
+#define REG_WDT_INTFLAG            (0x40002006) /**< \brief (WDT) Interrupt Flag Status and Clear */
+#define REG_WDT_SYNCBUSY           (0x40002008) /**< \brief (WDT) Synchronization Busy */
+#define REG_WDT_CLEAR              (0x4000200C) /**< \brief (WDT) Clear */
+#else
+#define REG_WDT_CTRLA              (*(RwReg8 *)0x40002000UL) /**< \brief (WDT) Control */
+#define REG_WDT_CONFIG             (*(RwReg8 *)0x40002001UL) /**< \brief (WDT) Configuration */
+#define REG_WDT_EWCTRL             (*(RwReg8 *)0x40002002UL) /**< \brief (WDT) Early Warning Interrupt Control */
+#define REG_WDT_INTENCLR           (*(RwReg8 *)0x40002004UL) /**< \brief (WDT) Interrupt Enable Clear */
+#define REG_WDT_INTENSET           (*(RwReg8 *)0x40002005UL) /**< \brief (WDT) Interrupt Enable Set */
+#define REG_WDT_INTFLAG            (*(RwReg8 *)0x40002006UL) /**< \brief (WDT) Interrupt Flag Status and Clear */
+#define REG_WDT_SYNCBUSY           (*(RoReg  *)0x40002008UL) /**< \brief (WDT) Synchronization Busy */
+#define REG_WDT_CLEAR              (*(WoReg8 *)0x4000200CUL) /**< \brief (WDT) Clear */
+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */
+
+
+#endif /* _SAML22_WDT_INSTANCE_ */
diff --git a/watch-library/hardware/include/pio/saml22g16a.h b/watch-library/hardware/include/pio/saml22g16a.h
new file mode 100644
index 00000000..2c4d2ee5
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22g16a.h
@@ -0,0 +1,947 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22G16A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22G16A_PIO_
+#define _SAML22G16A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+
+#endif /* _SAML22G16A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22g17a.h b/watch-library/hardware/include/pio/saml22g17a.h
new file mode 100644
index 00000000..582cf91f
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22g17a.h
@@ -0,0 +1,947 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22G17A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22G17A_PIO_
+#define _SAML22G17A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+
+#endif /* _SAML22G17A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22g18a.h b/watch-library/hardware/include/pio/saml22g18a.h
new file mode 100644
index 00000000..3570da86
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22g18a.h
@@ -0,0 +1,947 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22G18A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22G18A_PIO_
+#define _SAML22G18A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+
+#endif /* _SAML22G18A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22j16a.h b/watch-library/hardware/include/pio/saml22j16a.h
new file mode 100644
index 00000000..055a2b55
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22j16a.h
@@ -0,0 +1,1265 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22J16A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22J16A_PIO_
+#define _SAML22J16A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22J16A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22j17a.h b/watch-library/hardware/include/pio/saml22j17a.h
new file mode 100644
index 00000000..9dae1d93
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22j17a.h
@@ -0,0 +1,1265 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22J17A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22J17A_PIO_
+#define _SAML22J17A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22J17A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22j18a.h b/watch-library/hardware/include/pio/saml22j18a.h
new file mode 100644
index 00000000..d2c8c3c7
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22j18a.h
@@ -0,0 +1,1265 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22J18A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22J18A_PIO_
+#define _SAML22J18A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22J18A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22n16a.h b/watch-library/hardware/include/pio/saml22n16a.h
new file mode 100644
index 00000000..bd4c515f
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22n16a.h
@@ -0,0 +1,1851 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22N16A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22N16A_PIO_
+#define _SAML22N16A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB18                           50  /**< \brief Pin Number for PB18 */
+#define PORT_PB18              (_UL_(1) << 18) /**< \brief PORT Mask  for PB18 */
+#define PIN_PB19                           51  /**< \brief Pin Number for PB19 */
+#define PORT_PB19              (_UL_(1) << 19) /**< \brief PORT Mask  for PB19 */
+#define PIN_PB20                           52  /**< \brief Pin Number for PB20 */
+#define PORT_PB20              (_UL_(1) << 20) /**< \brief PORT Mask  for PB20 */
+#define PIN_PB21                           53  /**< \brief Pin Number for PB21 */
+#define PORT_PB21              (_UL_(1) << 21) /**< \brief PORT Mask  for PB21 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB24                           56  /**< \brief Pin Number for PB24 */
+#define PORT_PB24              (_UL_(1) << 24) /**< \brief PORT Mask  for PB24 */
+#define PIN_PB25                           57  /**< \brief Pin Number for PB25 */
+#define PORT_PB25              (_UL_(1) << 25) /**< \brief PORT Mask  for PB25 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+#define PIN_PC00                           64  /**< \brief Pin Number for PC00 */
+#define PORT_PC00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PC00 */
+#define PIN_PC01                           65  /**< \brief Pin Number for PC01 */
+#define PORT_PC01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PC01 */
+#define PIN_PC02                           66  /**< \brief Pin Number for PC02 */
+#define PORT_PC02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PC02 */
+#define PIN_PC03                           67  /**< \brief Pin Number for PC03 */
+#define PORT_PC03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PC03 */
+#define PIN_PC05                           69  /**< \brief Pin Number for PC05 */
+#define PORT_PC05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PC05 */
+#define PIN_PC06                           70  /**< \brief Pin Number for PC06 */
+#define PORT_PC06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PC06 */
+#define PIN_PC07                           71  /**< \brief Pin Number for PC07 */
+#define PORT_PC07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PC07 */
+#define PIN_PC08                           72  /**< \brief Pin Number for PC08 */
+#define PORT_PC08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PC08 */
+#define PIN_PC09                           73  /**< \brief Pin Number for PC09 */
+#define PORT_PC09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PC09 */
+#define PIN_PC10                           74  /**< \brief Pin Number for PC10 */
+#define PORT_PC10              (_UL_(1) << 10) /**< \brief PORT Mask  for PC10 */
+#define PIN_PC11                           75  /**< \brief Pin Number for PC11 */
+#define PORT_PC11              (_UL_(1) << 11) /**< \brief PORT Mask  for PC11 */
+#define PIN_PC12                           76  /**< \brief Pin Number for PC12 */
+#define PORT_PC12              (_UL_(1) << 12) /**< \brief PORT Mask  for PC12 */
+#define PIN_PC13                           77  /**< \brief Pin Number for PC13 */
+#define PORT_PC13              (_UL_(1) << 13) /**< \brief PORT Mask  for PC13 */
+#define PIN_PC14                           78  /**< \brief Pin Number for PC14 */
+#define PORT_PC14              (_UL_(1) << 14) /**< \brief PORT Mask  for PC14 */
+#define PIN_PC15                           79  /**< \brief Pin Number for PC15 */
+#define PORT_PC15              (_UL_(1) << 15) /**< \brief PORT Mask  for PC15 */
+#define PIN_PC16                           80  /**< \brief Pin Number for PC16 */
+#define PORT_PC16              (_UL_(1) << 16) /**< \brief PORT Mask  for PC16 */
+#define PIN_PC17                           81  /**< \brief Pin Number for PC17 */
+#define PORT_PC17              (_UL_(1) << 17) /**< \brief PORT Mask  for PC17 */
+#define PIN_PC18                           82  /**< \brief Pin Number for PC18 */
+#define PORT_PC18              (_UL_(1) << 18) /**< \brief PORT Mask  for PC18 */
+#define PIN_PC19                           83  /**< \brief Pin Number for PC19 */
+#define PORT_PC19              (_UL_(1) << 19) /**< \brief PORT Mask  for PC19 */
+#define PIN_PC20                           84  /**< \brief Pin Number for PC20 */
+#define PORT_PC20              (_UL_(1) << 20) /**< \brief PORT Mask  for PC20 */
+#define PIN_PC21                           85  /**< \brief Pin Number for PC21 */
+#define PORT_PC21              (_UL_(1) << 21) /**< \brief PORT Mask  for PC21 */
+#define PIN_PC24                           88  /**< \brief Pin Number for PC24 */
+#define PORT_PC24              (_UL_(1) << 24) /**< \brief PORT Mask  for PC24 */
+#define PIN_PC25                           89  /**< \brief Pin Number for PC25 */
+#define PORT_PC25              (_UL_(1) << 25) /**< \brief PORT Mask  for PC25 */
+#define PIN_PC26                           90  /**< \brief Pin Number for PC26 */
+#define PORT_PC26              (_UL_(1) << 26) /**< \brief PORT Mask  for PC26 */
+#define PIN_PC27                           91  /**< \brief Pin Number for PC27 */
+#define PORT_PC27              (_UL_(1) << 27) /**< \brief PORT Mask  for PC27 */
+#define PIN_PC28                           92  /**< \brief Pin Number for PC28 */
+#define PORT_PC28              (_UL_(1) << 28) /**< \brief PORT Mask  for PC28 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PC00G_RTC_IN3              _L_(64) /**< \brief RTC signal: IN3 on PC00 mux G */
+#define MUX_PC00G_RTC_IN3               _L_(6)
+#define PINMUX_PC00G_RTC_IN3       ((PIN_PC00G_RTC_IN3 << 16) | MUX_PC00G_RTC_IN3)
+#define PORT_PC00G_RTC_IN3     (_UL_(1) <<  0)
+#define PIN_PC01G_RTC_IN4              _L_(65) /**< \brief RTC signal: IN4 on PC01 mux G */
+#define MUX_PC01G_RTC_IN4               _L_(6)
+#define PINMUX_PC01G_RTC_IN4       ((PIN_PC01G_RTC_IN4 << 16) | MUX_PC01G_RTC_IN4)
+#define PORT_PC01G_RTC_IN4     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PC08A_EIC_EXTINT0          _L_(72) /**< \brief EIC signal: EXTINT0 on PC08 mux A */
+#define MUX_PC08A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC08A_EIC_EXTINT0   ((PIN_PC08A_EIC_EXTINT0 << 16) | MUX_PC08A_EIC_EXTINT0)
+#define PORT_PC08A_EIC_EXTINT0  (_UL_(1) <<  8)
+#define PIN_PC08A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC08 External Interrupt Line */
+#define PIN_PC24A_EIC_EXTINT0          _L_(88) /**< \brief EIC signal: EXTINT0 on PC24 mux A */
+#define MUX_PC24A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC24A_EIC_EXTINT0   ((PIN_PC24A_EIC_EXTINT0 << 16) | MUX_PC24A_EIC_EXTINT0)
+#define PORT_PC24A_EIC_EXTINT0  (_UL_(1) << 24)
+#define PIN_PC24A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC24 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PC09A_EIC_EXTINT1          _L_(73) /**< \brief EIC signal: EXTINT1 on PC09 mux A */
+#define MUX_PC09A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC09A_EIC_EXTINT1   ((PIN_PC09A_EIC_EXTINT1 << 16) | MUX_PC09A_EIC_EXTINT1)
+#define PORT_PC09A_EIC_EXTINT1  (_UL_(1) <<  9)
+#define PIN_PC09A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC09 External Interrupt Line */
+#define PIN_PC25A_EIC_EXTINT1          _L_(89) /**< \brief EIC signal: EXTINT1 on PC25 mux A */
+#define MUX_PC25A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC25A_EIC_EXTINT1   ((PIN_PC25A_EIC_EXTINT1 << 16) | MUX_PC25A_EIC_EXTINT1)
+#define PORT_PC25A_EIC_EXTINT1  (_UL_(1) << 25)
+#define PIN_PC25A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC25 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PB18A_EIC_EXTINT2          _L_(50) /**< \brief EIC signal: EXTINT2 on PB18 mux A */
+#define MUX_PB18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB18A_EIC_EXTINT2   ((PIN_PB18A_EIC_EXTINT2 << 16) | MUX_PB18A_EIC_EXTINT2)
+#define PORT_PB18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PB18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB18 External Interrupt Line */
+#define PIN_PC10A_EIC_EXTINT2          _L_(74) /**< \brief EIC signal: EXTINT2 on PC10 mux A */
+#define MUX_PC10A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC10A_EIC_EXTINT2   ((PIN_PC10A_EIC_EXTINT2 << 16) | MUX_PC10A_EIC_EXTINT2)
+#define PORT_PC10A_EIC_EXTINT2  (_UL_(1) << 10)
+#define PIN_PC10A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC10 External Interrupt Line */
+#define PIN_PC26A_EIC_EXTINT2          _L_(90) /**< \brief EIC signal: EXTINT2 on PC26 mux A */
+#define MUX_PC26A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC26A_EIC_EXTINT2   ((PIN_PC26A_EIC_EXTINT2 << 16) | MUX_PC26A_EIC_EXTINT2)
+#define PORT_PC26A_EIC_EXTINT2  (_UL_(1) << 26)
+#define PIN_PC26A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC26 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PB19A_EIC_EXTINT3          _L_(51) /**< \brief EIC signal: EXTINT3 on PB19 mux A */
+#define MUX_PB19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB19A_EIC_EXTINT3   ((PIN_PB19A_EIC_EXTINT3 << 16) | MUX_PB19A_EIC_EXTINT3)
+#define PORT_PB19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PB19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB19 External Interrupt Line */
+#define PIN_PC11A_EIC_EXTINT3          _L_(75) /**< \brief EIC signal: EXTINT3 on PC11 mux A */
+#define MUX_PC11A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC11A_EIC_EXTINT3   ((PIN_PC11A_EIC_EXTINT3 << 16) | MUX_PC11A_EIC_EXTINT3)
+#define PORT_PC11A_EIC_EXTINT3  (_UL_(1) << 11)
+#define PIN_PC11A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC11 External Interrupt Line */
+#define PIN_PC27A_EIC_EXTINT3          _L_(91) /**< \brief EIC signal: EXTINT3 on PC27 mux A */
+#define MUX_PC27A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC27A_EIC_EXTINT3   ((PIN_PC27A_EIC_EXTINT3 << 16) | MUX_PC27A_EIC_EXTINT3)
+#define PORT_PC27A_EIC_EXTINT3  (_UL_(1) << 27)
+#define PIN_PC27A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC27 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PB20A_EIC_EXTINT4          _L_(52) /**< \brief EIC signal: EXTINT4 on PB20 mux A */
+#define MUX_PB20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB20A_EIC_EXTINT4   ((PIN_PB20A_EIC_EXTINT4 << 16) | MUX_PB20A_EIC_EXTINT4)
+#define PORT_PB20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PB20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB20 External Interrupt Line */
+#define PIN_PC12A_EIC_EXTINT4          _L_(76) /**< \brief EIC signal: EXTINT4 on PC12 mux A */
+#define MUX_PC12A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC12A_EIC_EXTINT4   ((PIN_PC12A_EIC_EXTINT4 << 16) | MUX_PC12A_EIC_EXTINT4)
+#define PORT_PC12A_EIC_EXTINT4  (_UL_(1) << 12)
+#define PIN_PC12A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC12 External Interrupt Line */
+#define PIN_PC28A_EIC_EXTINT4          _L_(92) /**< \brief EIC signal: EXTINT4 on PC28 mux A */
+#define MUX_PC28A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC28A_EIC_EXTINT4   ((PIN_PC28A_EIC_EXTINT4 << 16) | MUX_PC28A_EIC_EXTINT4)
+#define PORT_PC28A_EIC_EXTINT4  (_UL_(1) << 28)
+#define PIN_PC28A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC28 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PB21A_EIC_EXTINT5          _L_(53) /**< \brief EIC signal: EXTINT5 on PB21 mux A */
+#define MUX_PB21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB21A_EIC_EXTINT5   ((PIN_PB21A_EIC_EXTINT5 << 16) | MUX_PB21A_EIC_EXTINT5)
+#define PORT_PB21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PB21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB21 External Interrupt Line */
+#define PIN_PC13A_EIC_EXTINT5          _L_(77) /**< \brief EIC signal: EXTINT5 on PC13 mux A */
+#define MUX_PC13A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PC13A_EIC_EXTINT5   ((PIN_PC13A_EIC_EXTINT5 << 16) | MUX_PC13A_EIC_EXTINT5)
+#define PORT_PC13A_EIC_EXTINT5  (_UL_(1) << 13)
+#define PIN_PC13A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PC13 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PC14A_EIC_EXTINT6          _L_(78) /**< \brief EIC signal: EXTINT6 on PC14 mux A */
+#define MUX_PC14A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PC14A_EIC_EXTINT6   ((PIN_PC14A_EIC_EXTINT6 << 16) | MUX_PC14A_EIC_EXTINT6)
+#define PORT_PC14A_EIC_EXTINT6  (_UL_(1) << 14)
+#define PIN_PC14A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PC14 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PC15A_EIC_EXTINT7          _L_(79) /**< \brief EIC signal: EXTINT7 on PC15 mux A */
+#define MUX_PC15A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PC15A_EIC_EXTINT7   ((PIN_PC15A_EIC_EXTINT7 << 16) | MUX_PC15A_EIC_EXTINT7)
+#define PORT_PC15A_EIC_EXTINT7  (_UL_(1) << 15)
+#define PIN_PC15A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PC15 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PB24A_EIC_EXTINT8          _L_(56) /**< \brief EIC signal: EXTINT8 on PB24 mux A */
+#define MUX_PB24A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB24A_EIC_EXTINT8   ((PIN_PB24A_EIC_EXTINT8 << 16) | MUX_PB24A_EIC_EXTINT8)
+#define PORT_PB24A_EIC_EXTINT8  (_UL_(1) << 24)
+#define PIN_PB24A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB24 External Interrupt Line */
+#define PIN_PC00A_EIC_EXTINT8          _L_(64) /**< \brief EIC signal: EXTINT8 on PC00 mux A */
+#define MUX_PC00A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC00A_EIC_EXTINT8   ((PIN_PC00A_EIC_EXTINT8 << 16) | MUX_PC00A_EIC_EXTINT8)
+#define PORT_PC00A_EIC_EXTINT8  (_UL_(1) <<  0)
+#define PIN_PC00A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC00 External Interrupt Line */
+#define PIN_PC16A_EIC_EXTINT8          _L_(80) /**< \brief EIC signal: EXTINT8 on PC16 mux A */
+#define MUX_PC16A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC16A_EIC_EXTINT8   ((PIN_PC16A_EIC_EXTINT8 << 16) | MUX_PC16A_EIC_EXTINT8)
+#define PORT_PC16A_EIC_EXTINT8  (_UL_(1) << 16)
+#define PIN_PC16A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC16 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PB25A_EIC_EXTINT9          _L_(57) /**< \brief EIC signal: EXTINT9 on PB25 mux A */
+#define MUX_PB25A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB25A_EIC_EXTINT9   ((PIN_PB25A_EIC_EXTINT9 << 16) | MUX_PB25A_EIC_EXTINT9)
+#define PORT_PB25A_EIC_EXTINT9  (_UL_(1) << 25)
+#define PIN_PB25A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB25 External Interrupt Line */
+#define PIN_PC01A_EIC_EXTINT9          _L_(65) /**< \brief EIC signal: EXTINT9 on PC01 mux A */
+#define MUX_PC01A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC01A_EIC_EXTINT9   ((PIN_PC01A_EIC_EXTINT9 << 16) | MUX_PC01A_EIC_EXTINT9)
+#define PORT_PC01A_EIC_EXTINT9  (_UL_(1) <<  1)
+#define PIN_PC01A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC01 External Interrupt Line */
+#define PIN_PC17A_EIC_EXTINT9          _L_(81) /**< \brief EIC signal: EXTINT9 on PC17 mux A */
+#define MUX_PC17A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC17A_EIC_EXTINT9   ((PIN_PC17A_EIC_EXTINT9 << 16) | MUX_PC17A_EIC_EXTINT9)
+#define PORT_PC17A_EIC_EXTINT9  (_UL_(1) << 17)
+#define PIN_PC17A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC17 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PC02A_EIC_EXTINT10         _L_(66) /**< \brief EIC signal: EXTINT10 on PC02 mux A */
+#define MUX_PC02A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC02A_EIC_EXTINT10  ((PIN_PC02A_EIC_EXTINT10 << 16) | MUX_PC02A_EIC_EXTINT10)
+#define PORT_PC02A_EIC_EXTINT10  (_UL_(1) <<  2)
+#define PIN_PC02A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC02 External Interrupt Line */
+#define PIN_PC18A_EIC_EXTINT10         _L_(82) /**< \brief EIC signal: EXTINT10 on PC18 mux A */
+#define MUX_PC18A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC18A_EIC_EXTINT10  ((PIN_PC18A_EIC_EXTINT10 << 16) | MUX_PC18A_EIC_EXTINT10)
+#define PORT_PC18A_EIC_EXTINT10  (_UL_(1) << 18)
+#define PIN_PC18A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC18 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PC03A_EIC_EXTINT11         _L_(67) /**< \brief EIC signal: EXTINT11 on PC03 mux A */
+#define MUX_PC03A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC03A_EIC_EXTINT11  ((PIN_PC03A_EIC_EXTINT11 << 16) | MUX_PC03A_EIC_EXTINT11)
+#define PORT_PC03A_EIC_EXTINT11  (_UL_(1) <<  3)
+#define PIN_PC03A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC03 External Interrupt Line */
+#define PIN_PC19A_EIC_EXTINT11         _L_(83) /**< \brief EIC signal: EXTINT11 on PC19 mux A */
+#define MUX_PC19A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC19A_EIC_EXTINT11  ((PIN_PC19A_EIC_EXTINT11 << 16) | MUX_PC19A_EIC_EXTINT11)
+#define PORT_PC19A_EIC_EXTINT11  (_UL_(1) << 19)
+#define PIN_PC19A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC19 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PC20A_EIC_EXTINT12         _L_(84) /**< \brief EIC signal: EXTINT12 on PC20 mux A */
+#define MUX_PC20A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PC20A_EIC_EXTINT12  ((PIN_PC20A_EIC_EXTINT12 << 16) | MUX_PC20A_EIC_EXTINT12)
+#define PORT_PC20A_EIC_EXTINT12  (_UL_(1) << 20)
+#define PIN_PC20A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PC20 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PC05A_EIC_EXTINT13         _L_(69) /**< \brief EIC signal: EXTINT13 on PC05 mux A */
+#define MUX_PC05A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC05A_EIC_EXTINT13  ((PIN_PC05A_EIC_EXTINT13 << 16) | MUX_PC05A_EIC_EXTINT13)
+#define PORT_PC05A_EIC_EXTINT13  (_UL_(1) <<  5)
+#define PIN_PC05A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC05 External Interrupt Line */
+#define PIN_PC21A_EIC_EXTINT13         _L_(85) /**< \brief EIC signal: EXTINT13 on PC21 mux A */
+#define MUX_PC21A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC21A_EIC_EXTINT13  ((PIN_PC21A_EIC_EXTINT13 << 16) | MUX_PC21A_EIC_EXTINT13)
+#define PORT_PC21A_EIC_EXTINT13  (_UL_(1) << 21)
+#define PIN_PC21A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC21 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PC06A_EIC_EXTINT14         _L_(70) /**< \brief EIC signal: EXTINT14 on PC06 mux A */
+#define MUX_PC06A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PC06A_EIC_EXTINT14  ((PIN_PC06A_EIC_EXTINT14 << 16) | MUX_PC06A_EIC_EXTINT14)
+#define PORT_PC06A_EIC_EXTINT14  (_UL_(1) <<  6)
+#define PIN_PC06A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PC06 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PC07A_EIC_EXTINT15         _L_(71) /**< \brief EIC signal: EXTINT15 on PC07 mux A */
+#define MUX_PC07A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PC07A_EIC_EXTINT15  ((PIN_PC07A_EIC_EXTINT15 << 16) | MUX_PC07A_EIC_EXTINT15)
+#define PORT_PC07A_EIC_EXTINT15  (_UL_(1) <<  7)
+#define PIN_PC07A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PC07 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PB24C_SERCOM0_PAD0         _L_(56) /**< \brief SERCOM0 signal: PAD0 on PB24 mux C */
+#define MUX_PB24C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PB24C_SERCOM0_PAD0  ((PIN_PB24C_SERCOM0_PAD0 << 16) | MUX_PB24C_SERCOM0_PAD0)
+#define PORT_PB24C_SERCOM0_PAD0  (_UL_(1) << 24)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PB25C_SERCOM0_PAD1         _L_(57) /**< \brief SERCOM0 signal: PAD1 on PB25 mux C */
+#define MUX_PB25C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PB25C_SERCOM0_PAD1  ((PIN_PB25C_SERCOM0_PAD1 << 16) | MUX_PB25C_SERCOM0_PAD1)
+#define PORT_PB25C_SERCOM0_PAD1  (_UL_(1) << 25)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PC24C_SERCOM0_PAD2         _L_(88) /**< \brief SERCOM0 signal: PAD2 on PC24 mux C */
+#define MUX_PC24C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PC24C_SERCOM0_PAD2  ((PIN_PC24C_SERCOM0_PAD2 << 16) | MUX_PC24C_SERCOM0_PAD2)
+#define PORT_PC24C_SERCOM0_PAD2  (_UL_(1) << 24)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PC25C_SERCOM0_PAD3         _L_(89) /**< \brief SERCOM0 signal: PAD3 on PC25 mux C */
+#define MUX_PC25C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PC25C_SERCOM0_PAD3  ((PIN_PC25C_SERCOM0_PAD3 << 16) | MUX_PC25C_SERCOM0_PAD3)
+#define PORT_PC25C_SERCOM0_PAD3  (_UL_(1) << 25)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PC27D_SERCOM1_PAD0         _L_(91) /**< \brief SERCOM1 signal: PAD0 on PC27 mux D */
+#define MUX_PC27D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PC27D_SERCOM1_PAD0  ((PIN_PC27D_SERCOM1_PAD0 << 16) | MUX_PC27D_SERCOM1_PAD0)
+#define PORT_PC27D_SERCOM1_PAD0  (_UL_(1) << 27)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PC12C_SERCOM1_PAD0         _L_(76) /**< \brief SERCOM1 signal: PAD0 on PC12 mux C */
+#define MUX_PC12C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PC12C_SERCOM1_PAD0  ((PIN_PC12C_SERCOM1_PAD0 << 16) | MUX_PC12C_SERCOM1_PAD0)
+#define PORT_PC12C_SERCOM1_PAD0  (_UL_(1) << 12)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PC28D_SERCOM1_PAD1         _L_(92) /**< \brief SERCOM1 signal: PAD1 on PC28 mux D */
+#define MUX_PC28D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PC28D_SERCOM1_PAD1  ((PIN_PC28D_SERCOM1_PAD1 << 16) | MUX_PC28D_SERCOM1_PAD1)
+#define PORT_PC28D_SERCOM1_PAD1  (_UL_(1) << 28)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PC13C_SERCOM1_PAD1         _L_(77) /**< \brief SERCOM1 signal: PAD1 on PC13 mux C */
+#define MUX_PC13C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PC13C_SERCOM1_PAD1  ((PIN_PC13C_SERCOM1_PAD1 << 16) | MUX_PC13C_SERCOM1_PAD1)
+#define PORT_PC13C_SERCOM1_PAD1  (_UL_(1) << 13)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PC10C_SERCOM1_PAD2         _L_(74) /**< \brief SERCOM1 signal: PAD2 on PC10 mux C */
+#define MUX_PC10C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PC10C_SERCOM1_PAD2  ((PIN_PC10C_SERCOM1_PAD2 << 16) | MUX_PC10C_SERCOM1_PAD2)
+#define PORT_PC10C_SERCOM1_PAD2  (_UL_(1) << 10)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+#define PIN_PC11C_SERCOM1_PAD3         _L_(75) /**< \brief SERCOM1 signal: PAD3 on PC11 mux C */
+#define MUX_PC11C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PC11C_SERCOM1_PAD3  ((PIN_PC11C_SERCOM1_PAD3 << 16) | MUX_PC11C_SERCOM1_PAD3)
+#define PORT_PC11C_SERCOM1_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20C_SERCOM3_PAD0         _L_(52) /**< \brief SERCOM3 signal: PAD0 on PB20 mux C */
+#define MUX_PB20C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB20C_SERCOM3_PAD0  ((PIN_PB20C_SERCOM3_PAD0 << 16) | MUX_PB20C_SERCOM3_PAD0)
+#define PORT_PB20C_SERCOM3_PAD0  (_UL_(1) << 20)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21C_SERCOM3_PAD1         _L_(53) /**< \brief SERCOM3 signal: PAD1 on PB21 mux C */
+#define MUX_PB21C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB21C_SERCOM3_PAD1  ((PIN_PB21C_SERCOM3_PAD1 << 16) | MUX_PB21C_SERCOM3_PAD1)
+#define PORT_PB21C_SERCOM3_PAD1  (_UL_(1) << 21)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB18D_SERCOM3_PAD2         _L_(50) /**< \brief SERCOM3 signal: PAD2 on PB18 mux D */
+#define MUX_PB18D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PB18D_SERCOM3_PAD2  ((PIN_PB18D_SERCOM3_PAD2 << 16) | MUX_PB18D_SERCOM3_PAD2)
+#define PORT_PB18D_SERCOM3_PAD2  (_UL_(1) << 18)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB19D_SERCOM3_PAD3         _L_(51) /**< \brief SERCOM3 signal: PAD3 on PB19 mux D */
+#define MUX_PB19D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB19D_SERCOM3_PAD3  ((PIN_PB19D_SERCOM3_PAD3 << 16) | MUX_PB19D_SERCOM3_PAD3)
+#define PORT_PB19D_SERCOM3_PAD3  (_UL_(1) << 19)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for SERCOM4 peripheral ========== */
+#define PIN_PA08D_SERCOM4_PAD0          _L_(8) /**< \brief SERCOM4 signal: PAD0 on PA08 mux D */
+#define MUX_PA08D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PA08D_SERCOM4_PAD0  ((PIN_PA08D_SERCOM4_PAD0 << 16) | MUX_PA08D_SERCOM4_PAD0)
+#define PORT_PA08D_SERCOM4_PAD0  (_UL_(1) <<  8)
+#define PIN_PB24D_SERCOM4_PAD0         _L_(56) /**< \brief SERCOM4 signal: PAD0 on PB24 mux D */
+#define MUX_PB24D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PB24D_SERCOM4_PAD0  ((PIN_PB24D_SERCOM4_PAD0 << 16) | MUX_PB24D_SERCOM4_PAD0)
+#define PORT_PB24D_SERCOM4_PAD0  (_UL_(1) << 24)
+#define PIN_PA12C_SERCOM4_PAD0         _L_(12) /**< \brief SERCOM4 signal: PAD0 on PA12 mux C */
+#define MUX_PA12C_SERCOM4_PAD0          _L_(2)
+#define PINMUX_PA12C_SERCOM4_PAD0  ((PIN_PA12C_SERCOM4_PAD0 << 16) | MUX_PA12C_SERCOM4_PAD0)
+#define PORT_PA12C_SERCOM4_PAD0  (_UL_(1) << 12)
+#define PIN_PA09D_SERCOM4_PAD1          _L_(9) /**< \brief SERCOM4 signal: PAD1 on PA09 mux D */
+#define MUX_PA09D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PA09D_SERCOM4_PAD1  ((PIN_PA09D_SERCOM4_PAD1 << 16) | MUX_PA09D_SERCOM4_PAD1)
+#define PORT_PA09D_SERCOM4_PAD1  (_UL_(1) <<  9)
+#define PIN_PB25D_SERCOM4_PAD1         _L_(57) /**< \brief SERCOM4 signal: PAD1 on PB25 mux D */
+#define MUX_PB25D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PB25D_SERCOM4_PAD1  ((PIN_PB25D_SERCOM4_PAD1 << 16) | MUX_PB25D_SERCOM4_PAD1)
+#define PORT_PB25D_SERCOM4_PAD1  (_UL_(1) << 25)
+#define PIN_PA13C_SERCOM4_PAD1         _L_(13) /**< \brief SERCOM4 signal: PAD1 on PA13 mux C */
+#define MUX_PA13C_SERCOM4_PAD1          _L_(2)
+#define PINMUX_PA13C_SERCOM4_PAD1  ((PIN_PA13C_SERCOM4_PAD1 << 16) | MUX_PA13C_SERCOM4_PAD1)
+#define PORT_PA13C_SERCOM4_PAD1  (_UL_(1) << 13)
+#define PIN_PA10D_SERCOM4_PAD2         _L_(10) /**< \brief SERCOM4 signal: PAD2 on PA10 mux D */
+#define MUX_PA10D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PA10D_SERCOM4_PAD2  ((PIN_PA10D_SERCOM4_PAD2 << 16) | MUX_PA10D_SERCOM4_PAD2)
+#define PORT_PA10D_SERCOM4_PAD2  (_UL_(1) << 10)
+#define PIN_PC24D_SERCOM4_PAD2         _L_(88) /**< \brief SERCOM4 signal: PAD2 on PC24 mux D */
+#define MUX_PC24D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PC24D_SERCOM4_PAD2  ((PIN_PC24D_SERCOM4_PAD2 << 16) | MUX_PC24D_SERCOM4_PAD2)
+#define PORT_PC24D_SERCOM4_PAD2  (_UL_(1) << 24)
+#define PIN_PA14C_SERCOM4_PAD2         _L_(14) /**< \brief SERCOM4 signal: PAD2 on PA14 mux C */
+#define MUX_PA14C_SERCOM4_PAD2          _L_(2)
+#define PINMUX_PA14C_SERCOM4_PAD2  ((PIN_PA14C_SERCOM4_PAD2 << 16) | MUX_PA14C_SERCOM4_PAD2)
+#define PORT_PA14C_SERCOM4_PAD2  (_UL_(1) << 14)
+#define PIN_PA11D_SERCOM4_PAD3         _L_(11) /**< \brief SERCOM4 signal: PAD3 on PA11 mux D */
+#define MUX_PA11D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PA11D_SERCOM4_PAD3  ((PIN_PA11D_SERCOM4_PAD3 << 16) | MUX_PA11D_SERCOM4_PAD3)
+#define PORT_PA11D_SERCOM4_PAD3  (_UL_(1) << 11)
+#define PIN_PC25D_SERCOM4_PAD3         _L_(89) /**< \brief SERCOM4 signal: PAD3 on PC25 mux D */
+#define MUX_PC25D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PC25D_SERCOM4_PAD3  ((PIN_PC25D_SERCOM4_PAD3 << 16) | MUX_PC25D_SERCOM4_PAD3)
+#define PORT_PC25D_SERCOM4_PAD3  (_UL_(1) << 25)
+#define PIN_PA15C_SERCOM4_PAD3         _L_(15) /**< \brief SERCOM4 signal: PAD3 on PA15 mux C */
+#define MUX_PA15C_SERCOM4_PAD3          _L_(2)
+#define PINMUX_PA15C_SERCOM4_PAD3  ((PIN_PA15C_SERCOM4_PAD3 << 16) | MUX_PA15C_SERCOM4_PAD3)
+#define PORT_PA15C_SERCOM4_PAD3  (_UL_(1) << 15)
+/* ========== PORT definition for SERCOM5 peripheral ========== */
+#define PIN_PB30D_SERCOM5_PAD0         _L_(62) /**< \brief SERCOM5 signal: PAD0 on PB30 mux D */
+#define MUX_PB30D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB30D_SERCOM5_PAD0  ((PIN_PB30D_SERCOM5_PAD0 << 16) | MUX_PB30D_SERCOM5_PAD0)
+#define PORT_PB30D_SERCOM5_PAD0  (_UL_(1) << 30)
+#define PIN_PA24D_SERCOM5_PAD0         _L_(24) /**< \brief SERCOM5 signal: PAD0 on PA24 mux D */
+#define MUX_PA24D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PA24D_SERCOM5_PAD0  ((PIN_PA24D_SERCOM5_PAD0 << 16) | MUX_PA24D_SERCOM5_PAD0)
+#define PORT_PA24D_SERCOM5_PAD0  (_UL_(1) << 24)
+#define PIN_PB02D_SERCOM5_PAD0         _L_(34) /**< \brief SERCOM5 signal: PAD0 on PB02 mux D */
+#define MUX_PB02D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB02D_SERCOM5_PAD0  ((PIN_PB02D_SERCOM5_PAD0 << 16) | MUX_PB02D_SERCOM5_PAD0)
+#define PORT_PB02D_SERCOM5_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20D_SERCOM5_PAD0         _L_(52) /**< \brief SERCOM5 signal: PAD0 on PB20 mux D */
+#define MUX_PB20D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB20D_SERCOM5_PAD0  ((PIN_PB20D_SERCOM5_PAD0 << 16) | MUX_PB20D_SERCOM5_PAD0)
+#define PORT_PB20D_SERCOM5_PAD0  (_UL_(1) << 20)
+#define PIN_PB16C_SERCOM5_PAD0         _L_(48) /**< \brief SERCOM5 signal: PAD0 on PB16 mux C */
+#define MUX_PB16C_SERCOM5_PAD0          _L_(2)
+#define PINMUX_PB16C_SERCOM5_PAD0  ((PIN_PB16C_SERCOM5_PAD0 << 16) | MUX_PB16C_SERCOM5_PAD0)
+#define PORT_PB16C_SERCOM5_PAD0  (_UL_(1) << 16)
+#define PIN_PB31D_SERCOM5_PAD1         _L_(63) /**< \brief SERCOM5 signal: PAD1 on PB31 mux D */
+#define MUX_PB31D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB31D_SERCOM5_PAD1  ((PIN_PB31D_SERCOM5_PAD1 << 16) | MUX_PB31D_SERCOM5_PAD1)
+#define PORT_PB31D_SERCOM5_PAD1  (_UL_(1) << 31)
+#define PIN_PA25D_SERCOM5_PAD1         _L_(25) /**< \brief SERCOM5 signal: PAD1 on PA25 mux D */
+#define MUX_PA25D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PA25D_SERCOM5_PAD1  ((PIN_PA25D_SERCOM5_PAD1 << 16) | MUX_PA25D_SERCOM5_PAD1)
+#define PORT_PA25D_SERCOM5_PAD1  (_UL_(1) << 25)
+#define PIN_PB03D_SERCOM5_PAD1         _L_(35) /**< \brief SERCOM5 signal: PAD1 on PB03 mux D */
+#define MUX_PB03D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB03D_SERCOM5_PAD1  ((PIN_PB03D_SERCOM5_PAD1 << 16) | MUX_PB03D_SERCOM5_PAD1)
+#define PORT_PB03D_SERCOM5_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21D_SERCOM5_PAD1         _L_(53) /**< \brief SERCOM5 signal: PAD1 on PB21 mux D */
+#define MUX_PB21D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB21D_SERCOM5_PAD1  ((PIN_PB21D_SERCOM5_PAD1 << 16) | MUX_PB21D_SERCOM5_PAD1)
+#define PORT_PB21D_SERCOM5_PAD1  (_UL_(1) << 21)
+#define PIN_PB17C_SERCOM5_PAD1         _L_(49) /**< \brief SERCOM5 signal: PAD1 on PB17 mux C */
+#define MUX_PB17C_SERCOM5_PAD1          _L_(2)
+#define PINMUX_PB17C_SERCOM5_PAD1  ((PIN_PB17C_SERCOM5_PAD1 << 16) | MUX_PB17C_SERCOM5_PAD1)
+#define PORT_PB17C_SERCOM5_PAD1  (_UL_(1) << 17)
+#define PIN_PB18C_SERCOM5_PAD2         _L_(50) /**< \brief SERCOM5 signal: PAD2 on PB18 mux C */
+#define MUX_PB18C_SERCOM5_PAD2          _L_(2)
+#define PINMUX_PB18C_SERCOM5_PAD2  ((PIN_PB18C_SERCOM5_PAD2 << 16) | MUX_PB18C_SERCOM5_PAD2)
+#define PORT_PB18C_SERCOM5_PAD2  (_UL_(1) << 18)
+#define PIN_PB00D_SERCOM5_PAD2         _L_(32) /**< \brief SERCOM5 signal: PAD2 on PB00 mux D */
+#define MUX_PB00D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB00D_SERCOM5_PAD2  ((PIN_PB00D_SERCOM5_PAD2 << 16) | MUX_PB00D_SERCOM5_PAD2)
+#define PORT_PB00D_SERCOM5_PAD2  (_UL_(1) <<  0)
+#define PIN_PB22D_SERCOM5_PAD2         _L_(54) /**< \brief SERCOM5 signal: PAD2 on PB22 mux D */
+#define MUX_PB22D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB22D_SERCOM5_PAD2  ((PIN_PB22D_SERCOM5_PAD2 << 16) | MUX_PB22D_SERCOM5_PAD2)
+#define PORT_PB22D_SERCOM5_PAD2  (_UL_(1) << 22)
+#define PIN_PB19C_SERCOM5_PAD3         _L_(51) /**< \brief SERCOM5 signal: PAD3 on PB19 mux C */
+#define MUX_PB19C_SERCOM5_PAD3          _L_(2)
+#define PINMUX_PB19C_SERCOM5_PAD3  ((PIN_PB19C_SERCOM5_PAD3 << 16) | MUX_PB19C_SERCOM5_PAD3)
+#define PORT_PB19C_SERCOM5_PAD3  (_UL_(1) << 19)
+#define PIN_PB01D_SERCOM5_PAD3         _L_(33) /**< \brief SERCOM5 signal: PAD3 on PB01 mux D */
+#define MUX_PB01D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB01D_SERCOM5_PAD3  ((PIN_PB01D_SERCOM5_PAD3 << 16) | MUX_PB01D_SERCOM5_PAD3)
+#define PORT_PB01D_SERCOM5_PAD3  (_UL_(1) <<  1)
+#define PIN_PB23D_SERCOM5_PAD3         _L_(55) /**< \brief SERCOM5 signal: PAD3 on PB23 mux D */
+#define MUX_PB23D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB23D_SERCOM5_PAD3  ((PIN_PB23D_SERCOM5_PAD3 << 16) | MUX_PB23D_SERCOM5_PAD3)
+#define PORT_PB23D_SERCOM5_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PB18F_TCC0_WO0             _L_(50) /**< \brief TCC0 signal: WO0 on PB18 mux F */
+#define MUX_PB18F_TCC0_WO0              _L_(5)
+#define PINMUX_PB18F_TCC0_WO0      ((PIN_PB18F_TCC0_WO0 << 16) | MUX_PB18F_TCC0_WO0)
+#define PORT_PB18F_TCC0_WO0    (_UL_(1) << 18)
+#define PIN_PC24F_TCC0_WO0             _L_(88) /**< \brief TCC0 signal: WO0 on PC24 mux F */
+#define MUX_PC24F_TCC0_WO0              _L_(5)
+#define PINMUX_PC24F_TCC0_WO0      ((PIN_PC24F_TCC0_WO0 << 16) | MUX_PC24F_TCC0_WO0)
+#define PORT_PC24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PB19F_TCC0_WO1             _L_(51) /**< \brief TCC0 signal: WO1 on PB19 mux F */
+#define MUX_PB19F_TCC0_WO1              _L_(5)
+#define PINMUX_PB19F_TCC0_WO1      ((PIN_PB19F_TCC0_WO1 << 16) | MUX_PB19F_TCC0_WO1)
+#define PORT_PB19F_TCC0_WO1    (_UL_(1) << 19)
+#define PIN_PC25F_TCC0_WO1             _L_(89) /**< \brief TCC0 signal: WO1 on PC25 mux F */
+#define MUX_PC25F_TCC0_WO1              _L_(5)
+#define PINMUX_PC25F_TCC0_WO1      ((PIN_PC25F_TCC0_WO1 << 16) | MUX_PC25F_TCC0_WO1)
+#define PORT_PC25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB20F_TCC0_WO2             _L_(52) /**< \brief TCC0 signal: WO2 on PB20 mux F */
+#define MUX_PB20F_TCC0_WO2              _L_(5)
+#define PINMUX_PB20F_TCC0_WO2      ((PIN_PB20F_TCC0_WO2 << 16) | MUX_PB20F_TCC0_WO2)
+#define PORT_PB20F_TCC0_WO2    (_UL_(1) << 20)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PC26F_TCC0_WO2             _L_(90) /**< \brief TCC0 signal: WO2 on PC26 mux F */
+#define MUX_PC26F_TCC0_WO2              _L_(5)
+#define PINMUX_PC26F_TCC0_WO2      ((PIN_PC26F_TCC0_WO2 << 16) | MUX_PC26F_TCC0_WO2)
+#define PORT_PC26F_TCC0_WO2    (_UL_(1) << 26)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB21F_TCC0_WO3             _L_(53) /**< \brief TCC0 signal: WO3 on PB21 mux F */
+#define MUX_PB21F_TCC0_WO3              _L_(5)
+#define PINMUX_PB21F_TCC0_WO3      ((PIN_PB21F_TCC0_WO3 << 16) | MUX_PB21F_TCC0_WO3)
+#define PORT_PB21F_TCC0_WO3    (_UL_(1) << 21)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PC27F_TCC0_WO3             _L_(91) /**< \brief TCC0 signal: WO3 on PC27 mux F */
+#define MUX_PC27F_TCC0_WO3              _L_(5)
+#define PINMUX_PC27F_TCC0_WO3      ((PIN_PC27F_TCC0_WO3 << 16) | MUX_PC27F_TCC0_WO3)
+#define PORT_PC27F_TCC0_WO3    (_UL_(1) << 27)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PC28F_TCC0_WO4             _L_(92) /**< \brief TCC0 signal: WO4 on PC28 mux F */
+#define MUX_PC28F_TCC0_WO4              _L_(5)
+#define PINMUX_PC28F_TCC0_WO4      ((PIN_PC28F_TCC0_WO4 << 16) | MUX_PC28F_TCC0_WO4)
+#define PORT_PC28F_TCC0_WO4    (_UL_(1) << 28)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PB24F_TCC0_WO6             _L_(56) /**< \brief TCC0 signal: WO6 on PB24 mux F */
+#define MUX_PB24F_TCC0_WO6              _L_(5)
+#define PINMUX_PB24F_TCC0_WO6      ((PIN_PB24F_TCC0_WO6 << 16) | MUX_PB24F_TCC0_WO6)
+#define PORT_PB24F_TCC0_WO6    (_UL_(1) << 24)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PB25F_TCC0_WO7             _L_(57) /**< \brief TCC0 signal: WO7 on PB25 mux F */
+#define MUX_PB25F_TCC0_WO7              _L_(5)
+#define PINMUX_PB25F_TCC0_WO7      ((PIN_PB25F_TCC0_WO7 << 16) | MUX_PB25F_TCC0_WO7)
+#define PORT_PB25F_TCC0_WO7    (_UL_(1) << 25)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PC24E_TC2_WO0              _L_(88) /**< \brief TC2 signal: WO0 on PC24 mux E */
+#define MUX_PC24E_TC2_WO0               _L_(4)
+#define PINMUX_PC24E_TC2_WO0       ((PIN_PC24E_TC2_WO0 << 16) | MUX_PC24E_TC2_WO0)
+#define PORT_PC24E_TC2_WO0     (_UL_(1) << 24)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+#define PIN_PC25E_TC2_WO1              _L_(89) /**< \brief TC2 signal: WO1 on PC25 mux E */
+#define MUX_PC25E_TC2_WO1               _L_(4)
+#define PINMUX_PC25E_TC2_WO1       ((PIN_PC25E_TC2_WO1 << 16) | MUX_PC25E_TC2_WO1)
+#define PORT_PC25E_TC2_WO1     (_UL_(1) << 25)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PC26E_TC3_WO0              _L_(90) /**< \brief TC3 signal: WO0 on PC26 mux E */
+#define MUX_PC26E_TC3_WO0               _L_(4)
+#define PINMUX_PC26E_TC3_WO0       ((PIN_PC26E_TC3_WO0 << 16) | MUX_PC26E_TC3_WO0)
+#define PORT_PC26E_TC3_WO0     (_UL_(1) << 26)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+#define PIN_PC27E_TC3_WO1              _L_(91) /**< \brief TC3 signal: WO1 on PC27 mux E */
+#define MUX_PC27E_TC3_WO1               _L_(4)
+#define PINMUX_PC27E_TC3_WO1       ((PIN_PC27E_TC3_WO1 << 16) | MUX_PC27E_TC3_WO1)
+#define PORT_PC27E_TC3_WO1     (_UL_(1) << 27)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PC00B_ADC_AIN16            _L_(64) /**< \brief ADC signal: AIN16 on PC00 mux B */
+#define MUX_PC00B_ADC_AIN16             _L_(1)
+#define PINMUX_PC00B_ADC_AIN16     ((PIN_PC00B_ADC_AIN16 << 16) | MUX_PC00B_ADC_AIN16)
+#define PORT_PC00B_ADC_AIN16   (_UL_(1) <<  0)
+#define PIN_PC01B_ADC_AIN17            _L_(65) /**< \brief ADC signal: AIN17 on PC01 mux B */
+#define MUX_PC01B_ADC_AIN17             _L_(1)
+#define PINMUX_PC01B_ADC_AIN17     ((PIN_PC01B_ADC_AIN17 << 16) | MUX_PC01B_ADC_AIN17)
+#define PORT_PC01B_ADC_AIN17   (_UL_(1) <<  1)
+#define PIN_PC02B_ADC_AIN18            _L_(66) /**< \brief ADC signal: AIN18 on PC02 mux B */
+#define MUX_PC02B_ADC_AIN18             _L_(1)
+#define PINMUX_PC02B_ADC_AIN18     ((PIN_PC02B_ADC_AIN18 << 16) | MUX_PC02B_ADC_AIN18)
+#define PORT_PC02B_ADC_AIN18   (_UL_(1) <<  2)
+#define PIN_PC03B_ADC_AIN19            _L_(67) /**< \brief ADC signal: AIN19 on PC03 mux B */
+#define MUX_PC03B_ADC_AIN19             _L_(1)
+#define PINMUX_PC03B_ADC_AIN19     ((PIN_PC03B_ADC_AIN19 << 16) | MUX_PC03B_ADC_AIN19)
+#define PORT_PC03B_ADC_AIN19   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PB24H_AC_CMP0              _L_(56) /**< \brief AC signal: CMP0 on PB24 mux H */
+#define MUX_PB24H_AC_CMP0               _L_(7)
+#define PINMUX_PB24H_AC_CMP0       ((PIN_PB24H_AC_CMP0 << 16) | MUX_PB24H_AC_CMP0)
+#define PORT_PB24H_AC_CMP0     (_UL_(1) << 24)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+#define PIN_PB25H_AC_CMP1              _L_(57) /**< \brief AC signal: CMP1 on PB25 mux H */
+#define MUX_PB25H_AC_CMP1               _L_(7)
+#define PINMUX_PB25H_AC_CMP1       ((PIN_PB25H_AC_CMP1 << 16) | MUX_PB25H_AC_CMP1)
+#define PORT_PB25H_AC_CMP1     (_UL_(1) << 25)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PC05B_SLCD_LP8             _L_(69) /**< \brief SLCD signal: LP8 on PC05 mux B */
+#define MUX_PC05B_SLCD_LP8              _L_(1)
+#define PINMUX_PC05B_SLCD_LP8      ((PIN_PC05B_SLCD_LP8 << 16) | MUX_PC05B_SLCD_LP8)
+#define PORT_PC05B_SLCD_LP8    (_UL_(1) <<  5)
+#define PIN_PC06B_SLCD_LP9             _L_(70) /**< \brief SLCD signal: LP9 on PC06 mux B */
+#define MUX_PC06B_SLCD_LP9              _L_(1)
+#define PINMUX_PC06B_SLCD_LP9      ((PIN_PC06B_SLCD_LP9 << 16) | MUX_PC06B_SLCD_LP9)
+#define PORT_PC06B_SLCD_LP9    (_UL_(1) <<  6)
+#define PIN_PC07B_SLCD_LP10            _L_(71) /**< \brief SLCD signal: LP10 on PC07 mux B */
+#define MUX_PC07B_SLCD_LP10             _L_(1)
+#define PINMUX_PC07B_SLCD_LP10     ((PIN_PC07B_SLCD_LP10 << 16) | MUX_PC07B_SLCD_LP10)
+#define PORT_PC07B_SLCD_LP10   (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PC08B_SLCD_LP15            _L_(72) /**< \brief SLCD signal: LP15 on PC08 mux B */
+#define MUX_PC08B_SLCD_LP15             _L_(1)
+#define PINMUX_PC08B_SLCD_LP15     ((PIN_PC08B_SLCD_LP15 << 16) | MUX_PC08B_SLCD_LP15)
+#define PORT_PC08B_SLCD_LP15   (_UL_(1) <<  8)
+#define PIN_PC09B_SLCD_LP16            _L_(73) /**< \brief SLCD signal: LP16 on PC09 mux B */
+#define MUX_PC09B_SLCD_LP16             _L_(1)
+#define PINMUX_PC09B_SLCD_LP16     ((PIN_PC09B_SLCD_LP16 << 16) | MUX_PC09B_SLCD_LP16)
+#define PORT_PC09B_SLCD_LP16   (_UL_(1) <<  9)
+#define PIN_PC10B_SLCD_LP17            _L_(74) /**< \brief SLCD signal: LP17 on PC10 mux B */
+#define MUX_PC10B_SLCD_LP17             _L_(1)
+#define PINMUX_PC10B_SLCD_LP17     ((PIN_PC10B_SLCD_LP17 << 16) | MUX_PC10B_SLCD_LP17)
+#define PORT_PC10B_SLCD_LP17   (_UL_(1) << 10)
+#define PIN_PC11B_SLCD_LP18            _L_(75) /**< \brief SLCD signal: LP18 on PC11 mux B */
+#define MUX_PC11B_SLCD_LP18             _L_(1)
+#define PINMUX_PC11B_SLCD_LP18     ((PIN_PC11B_SLCD_LP18 << 16) | MUX_PC11B_SLCD_LP18)
+#define PORT_PC11B_SLCD_LP18   (_UL_(1) << 11)
+#define PIN_PC12B_SLCD_LP19            _L_(76) /**< \brief SLCD signal: LP19 on PC12 mux B */
+#define MUX_PC12B_SLCD_LP19             _L_(1)
+#define PINMUX_PC12B_SLCD_LP19     ((PIN_PC12B_SLCD_LP19 << 16) | MUX_PC12B_SLCD_LP19)
+#define PORT_PC12B_SLCD_LP19   (_UL_(1) << 12)
+#define PIN_PC13B_SLCD_LP20            _L_(77) /**< \brief SLCD signal: LP20 on PC13 mux B */
+#define MUX_PC13B_SLCD_LP20             _L_(1)
+#define PINMUX_PC13B_SLCD_LP20     ((PIN_PC13B_SLCD_LP20 << 16) | MUX_PC13B_SLCD_LP20)
+#define PORT_PC13B_SLCD_LP20   (_UL_(1) << 13)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PC14B_SLCD_LP26            _L_(78) /**< \brief SLCD signal: LP26 on PC14 mux B */
+#define MUX_PC14B_SLCD_LP26             _L_(1)
+#define PINMUX_PC14B_SLCD_LP26     ((PIN_PC14B_SLCD_LP26 << 16) | MUX_PC14B_SLCD_LP26)
+#define PORT_PC14B_SLCD_LP26   (_UL_(1) << 14)
+#define PIN_PC15B_SLCD_LP27            _L_(79) /**< \brief SLCD signal: LP27 on PC15 mux B */
+#define MUX_PC15B_SLCD_LP27             _L_(1)
+#define PINMUX_PC15B_SLCD_LP27     ((PIN_PC15B_SLCD_LP27 << 16) | MUX_PC15B_SLCD_LP27)
+#define PORT_PC15B_SLCD_LP27   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PC16B_SLCD_LP36            _L_(80) /**< \brief SLCD signal: LP36 on PC16 mux B */
+#define MUX_PC16B_SLCD_LP36             _L_(1)
+#define PINMUX_PC16B_SLCD_LP36     ((PIN_PC16B_SLCD_LP36 << 16) | MUX_PC16B_SLCD_LP36)
+#define PORT_PC16B_SLCD_LP36   (_UL_(1) << 16)
+#define PIN_PC17B_SLCD_LP37            _L_(81) /**< \brief SLCD signal: LP37 on PC17 mux B */
+#define MUX_PC17B_SLCD_LP37             _L_(1)
+#define PINMUX_PC17B_SLCD_LP37     ((PIN_PC17B_SLCD_LP37 << 16) | MUX_PC17B_SLCD_LP37)
+#define PORT_PC17B_SLCD_LP37   (_UL_(1) << 17)
+#define PIN_PC18B_SLCD_LP38            _L_(82) /**< \brief SLCD signal: LP38 on PC18 mux B */
+#define MUX_PC18B_SLCD_LP38             _L_(1)
+#define PINMUX_PC18B_SLCD_LP38     ((PIN_PC18B_SLCD_LP38 << 16) | MUX_PC18B_SLCD_LP38)
+#define PORT_PC18B_SLCD_LP38   (_UL_(1) << 18)
+#define PIN_PC19B_SLCD_LP39            _L_(83) /**< \brief SLCD signal: LP39 on PC19 mux B */
+#define MUX_PC19B_SLCD_LP39             _L_(1)
+#define PINMUX_PC19B_SLCD_LP39     ((PIN_PC19B_SLCD_LP39 << 16) | MUX_PC19B_SLCD_LP39)
+#define PORT_PC19B_SLCD_LP39   (_UL_(1) << 19)
+#define PIN_PC20B_SLCD_LP40            _L_(84) /**< \brief SLCD signal: LP40 on PC20 mux B */
+#define MUX_PC20B_SLCD_LP40             _L_(1)
+#define PINMUX_PC20B_SLCD_LP40     ((PIN_PC20B_SLCD_LP40 << 16) | MUX_PC20B_SLCD_LP40)
+#define PORT_PC20B_SLCD_LP40   (_UL_(1) << 20)
+#define PIN_PC21B_SLCD_LP41            _L_(85) /**< \brief SLCD signal: LP41 on PC21 mux B */
+#define MUX_PC21B_SLCD_LP41             _L_(1)
+#define PINMUX_PC21B_SLCD_LP41     ((PIN_PC21B_SLCD_LP41 << 16) | MUX_PC21B_SLCD_LP41)
+#define PORT_PC21B_SLCD_LP41   (_UL_(1) << 21)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PB18B_SLCD_LP44            _L_(50) /**< \brief SLCD signal: LP44 on PB18 mux B */
+#define MUX_PB18B_SLCD_LP44             _L_(1)
+#define PINMUX_PB18B_SLCD_LP44     ((PIN_PB18B_SLCD_LP44 << 16) | MUX_PB18B_SLCD_LP44)
+#define PORT_PB18B_SLCD_LP44   (_UL_(1) << 18)
+#define PIN_PB19B_SLCD_LP45            _L_(51) /**< \brief SLCD signal: LP45 on PB19 mux B */
+#define MUX_PB19B_SLCD_LP45             _L_(1)
+#define PINMUX_PB19B_SLCD_LP45     ((PIN_PB19B_SLCD_LP45 << 16) | MUX_PB19B_SLCD_LP45)
+#define PORT_PB19B_SLCD_LP45   (_UL_(1) << 19)
+#define PIN_PB20B_SLCD_LP46            _L_(52) /**< \brief SLCD signal: LP46 on PB20 mux B */
+#define MUX_PB20B_SLCD_LP46             _L_(1)
+#define PINMUX_PB20B_SLCD_LP46     ((PIN_PB20B_SLCD_LP46 << 16) | MUX_PB20B_SLCD_LP46)
+#define PORT_PB20B_SLCD_LP46   (_UL_(1) << 20)
+#define PIN_PB21B_SLCD_LP47            _L_(53) /**< \brief SLCD signal: LP47 on PB21 mux B */
+#define MUX_PB21B_SLCD_LP47             _L_(1)
+#define PINMUX_PB21B_SLCD_LP47     ((PIN_PB21B_SLCD_LP47 << 16) | MUX_PB21B_SLCD_LP47)
+#define PORT_PB21B_SLCD_LP47   (_UL_(1) << 21)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PC27I_CCL_IN4              _L_(91) /**< \brief CCL signal: IN4 on PC27 mux I */
+#define MUX_PC27I_CCL_IN4               _L_(8)
+#define PINMUX_PC27I_CCL_IN4       ((PIN_PC27I_CCL_IN4 << 16) | MUX_PC27I_CCL_IN4)
+#define PORT_PC27I_CCL_IN4     (_UL_(1) << 27)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PC28I_CCL_IN5              _L_(92) /**< \brief CCL signal: IN5 on PC28 mux I */
+#define MUX_PC28I_CCL_IN5               _L_(8)
+#define PINMUX_PC28I_CCL_IN5       ((PIN_PC28I_CCL_IN5 << 16) | MUX_PC28I_CCL_IN5)
+#define PORT_PC28I_CCL_IN5     (_UL_(1) << 28)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PC20I_CCL_IN9              _L_(84) /**< \brief CCL signal: IN9 on PC20 mux I */
+#define MUX_PC20I_CCL_IN9               _L_(8)
+#define PINMUX_PC20I_CCL_IN9       ((PIN_PC20I_CCL_IN9 << 16) | MUX_PC20I_CCL_IN9)
+#define PORT_PC20I_CCL_IN9     (_UL_(1) << 20)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PC21I_CCL_IN10             _L_(85) /**< \brief CCL signal: IN10 on PC21 mux I */
+#define MUX_PC21I_CCL_IN10              _L_(8)
+#define PINMUX_PC21I_CCL_IN10      ((PIN_PC21I_CCL_IN10 << 16) | MUX_PC21I_CCL_IN10)
+#define PORT_PC21I_CCL_IN10    (_UL_(1) << 21)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22N16A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22n17a.h b/watch-library/hardware/include/pio/saml22n17a.h
new file mode 100644
index 00000000..b7c98cd0
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22n17a.h
@@ -0,0 +1,1851 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22N17A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22N17A_PIO_
+#define _SAML22N17A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB18                           50  /**< \brief Pin Number for PB18 */
+#define PORT_PB18              (_UL_(1) << 18) /**< \brief PORT Mask  for PB18 */
+#define PIN_PB19                           51  /**< \brief Pin Number for PB19 */
+#define PORT_PB19              (_UL_(1) << 19) /**< \brief PORT Mask  for PB19 */
+#define PIN_PB20                           52  /**< \brief Pin Number for PB20 */
+#define PORT_PB20              (_UL_(1) << 20) /**< \brief PORT Mask  for PB20 */
+#define PIN_PB21                           53  /**< \brief Pin Number for PB21 */
+#define PORT_PB21              (_UL_(1) << 21) /**< \brief PORT Mask  for PB21 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB24                           56  /**< \brief Pin Number for PB24 */
+#define PORT_PB24              (_UL_(1) << 24) /**< \brief PORT Mask  for PB24 */
+#define PIN_PB25                           57  /**< \brief Pin Number for PB25 */
+#define PORT_PB25              (_UL_(1) << 25) /**< \brief PORT Mask  for PB25 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+#define PIN_PC00                           64  /**< \brief Pin Number for PC00 */
+#define PORT_PC00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PC00 */
+#define PIN_PC01                           65  /**< \brief Pin Number for PC01 */
+#define PORT_PC01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PC01 */
+#define PIN_PC02                           66  /**< \brief Pin Number for PC02 */
+#define PORT_PC02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PC02 */
+#define PIN_PC03                           67  /**< \brief Pin Number for PC03 */
+#define PORT_PC03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PC03 */
+#define PIN_PC05                           69  /**< \brief Pin Number for PC05 */
+#define PORT_PC05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PC05 */
+#define PIN_PC06                           70  /**< \brief Pin Number for PC06 */
+#define PORT_PC06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PC06 */
+#define PIN_PC07                           71  /**< \brief Pin Number for PC07 */
+#define PORT_PC07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PC07 */
+#define PIN_PC08                           72  /**< \brief Pin Number for PC08 */
+#define PORT_PC08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PC08 */
+#define PIN_PC09                           73  /**< \brief Pin Number for PC09 */
+#define PORT_PC09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PC09 */
+#define PIN_PC10                           74  /**< \brief Pin Number for PC10 */
+#define PORT_PC10              (_UL_(1) << 10) /**< \brief PORT Mask  for PC10 */
+#define PIN_PC11                           75  /**< \brief Pin Number for PC11 */
+#define PORT_PC11              (_UL_(1) << 11) /**< \brief PORT Mask  for PC11 */
+#define PIN_PC12                           76  /**< \brief Pin Number for PC12 */
+#define PORT_PC12              (_UL_(1) << 12) /**< \brief PORT Mask  for PC12 */
+#define PIN_PC13                           77  /**< \brief Pin Number for PC13 */
+#define PORT_PC13              (_UL_(1) << 13) /**< \brief PORT Mask  for PC13 */
+#define PIN_PC14                           78  /**< \brief Pin Number for PC14 */
+#define PORT_PC14              (_UL_(1) << 14) /**< \brief PORT Mask  for PC14 */
+#define PIN_PC15                           79  /**< \brief Pin Number for PC15 */
+#define PORT_PC15              (_UL_(1) << 15) /**< \brief PORT Mask  for PC15 */
+#define PIN_PC16                           80  /**< \brief Pin Number for PC16 */
+#define PORT_PC16              (_UL_(1) << 16) /**< \brief PORT Mask  for PC16 */
+#define PIN_PC17                           81  /**< \brief Pin Number for PC17 */
+#define PORT_PC17              (_UL_(1) << 17) /**< \brief PORT Mask  for PC17 */
+#define PIN_PC18                           82  /**< \brief Pin Number for PC18 */
+#define PORT_PC18              (_UL_(1) << 18) /**< \brief PORT Mask  for PC18 */
+#define PIN_PC19                           83  /**< \brief Pin Number for PC19 */
+#define PORT_PC19              (_UL_(1) << 19) /**< \brief PORT Mask  for PC19 */
+#define PIN_PC20                           84  /**< \brief Pin Number for PC20 */
+#define PORT_PC20              (_UL_(1) << 20) /**< \brief PORT Mask  for PC20 */
+#define PIN_PC21                           85  /**< \brief Pin Number for PC21 */
+#define PORT_PC21              (_UL_(1) << 21) /**< \brief PORT Mask  for PC21 */
+#define PIN_PC24                           88  /**< \brief Pin Number for PC24 */
+#define PORT_PC24              (_UL_(1) << 24) /**< \brief PORT Mask  for PC24 */
+#define PIN_PC25                           89  /**< \brief Pin Number for PC25 */
+#define PORT_PC25              (_UL_(1) << 25) /**< \brief PORT Mask  for PC25 */
+#define PIN_PC26                           90  /**< \brief Pin Number for PC26 */
+#define PORT_PC26              (_UL_(1) << 26) /**< \brief PORT Mask  for PC26 */
+#define PIN_PC27                           91  /**< \brief Pin Number for PC27 */
+#define PORT_PC27              (_UL_(1) << 27) /**< \brief PORT Mask  for PC27 */
+#define PIN_PC28                           92  /**< \brief Pin Number for PC28 */
+#define PORT_PC28              (_UL_(1) << 28) /**< \brief PORT Mask  for PC28 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PC00G_RTC_IN3              _L_(64) /**< \brief RTC signal: IN3 on PC00 mux G */
+#define MUX_PC00G_RTC_IN3               _L_(6)
+#define PINMUX_PC00G_RTC_IN3       ((PIN_PC00G_RTC_IN3 << 16) | MUX_PC00G_RTC_IN3)
+#define PORT_PC00G_RTC_IN3     (_UL_(1) <<  0)
+#define PIN_PC01G_RTC_IN4              _L_(65) /**< \brief RTC signal: IN4 on PC01 mux G */
+#define MUX_PC01G_RTC_IN4               _L_(6)
+#define PINMUX_PC01G_RTC_IN4       ((PIN_PC01G_RTC_IN4 << 16) | MUX_PC01G_RTC_IN4)
+#define PORT_PC01G_RTC_IN4     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PC08A_EIC_EXTINT0          _L_(72) /**< \brief EIC signal: EXTINT0 on PC08 mux A */
+#define MUX_PC08A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC08A_EIC_EXTINT0   ((PIN_PC08A_EIC_EXTINT0 << 16) | MUX_PC08A_EIC_EXTINT0)
+#define PORT_PC08A_EIC_EXTINT0  (_UL_(1) <<  8)
+#define PIN_PC08A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC08 External Interrupt Line */
+#define PIN_PC24A_EIC_EXTINT0          _L_(88) /**< \brief EIC signal: EXTINT0 on PC24 mux A */
+#define MUX_PC24A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC24A_EIC_EXTINT0   ((PIN_PC24A_EIC_EXTINT0 << 16) | MUX_PC24A_EIC_EXTINT0)
+#define PORT_PC24A_EIC_EXTINT0  (_UL_(1) << 24)
+#define PIN_PC24A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC24 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PC09A_EIC_EXTINT1          _L_(73) /**< \brief EIC signal: EXTINT1 on PC09 mux A */
+#define MUX_PC09A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC09A_EIC_EXTINT1   ((PIN_PC09A_EIC_EXTINT1 << 16) | MUX_PC09A_EIC_EXTINT1)
+#define PORT_PC09A_EIC_EXTINT1  (_UL_(1) <<  9)
+#define PIN_PC09A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC09 External Interrupt Line */
+#define PIN_PC25A_EIC_EXTINT1          _L_(89) /**< \brief EIC signal: EXTINT1 on PC25 mux A */
+#define MUX_PC25A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC25A_EIC_EXTINT1   ((PIN_PC25A_EIC_EXTINT1 << 16) | MUX_PC25A_EIC_EXTINT1)
+#define PORT_PC25A_EIC_EXTINT1  (_UL_(1) << 25)
+#define PIN_PC25A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC25 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PB18A_EIC_EXTINT2          _L_(50) /**< \brief EIC signal: EXTINT2 on PB18 mux A */
+#define MUX_PB18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB18A_EIC_EXTINT2   ((PIN_PB18A_EIC_EXTINT2 << 16) | MUX_PB18A_EIC_EXTINT2)
+#define PORT_PB18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PB18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB18 External Interrupt Line */
+#define PIN_PC10A_EIC_EXTINT2          _L_(74) /**< \brief EIC signal: EXTINT2 on PC10 mux A */
+#define MUX_PC10A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC10A_EIC_EXTINT2   ((PIN_PC10A_EIC_EXTINT2 << 16) | MUX_PC10A_EIC_EXTINT2)
+#define PORT_PC10A_EIC_EXTINT2  (_UL_(1) << 10)
+#define PIN_PC10A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC10 External Interrupt Line */
+#define PIN_PC26A_EIC_EXTINT2          _L_(90) /**< \brief EIC signal: EXTINT2 on PC26 mux A */
+#define MUX_PC26A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC26A_EIC_EXTINT2   ((PIN_PC26A_EIC_EXTINT2 << 16) | MUX_PC26A_EIC_EXTINT2)
+#define PORT_PC26A_EIC_EXTINT2  (_UL_(1) << 26)
+#define PIN_PC26A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC26 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PB19A_EIC_EXTINT3          _L_(51) /**< \brief EIC signal: EXTINT3 on PB19 mux A */
+#define MUX_PB19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB19A_EIC_EXTINT3   ((PIN_PB19A_EIC_EXTINT3 << 16) | MUX_PB19A_EIC_EXTINT3)
+#define PORT_PB19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PB19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB19 External Interrupt Line */
+#define PIN_PC11A_EIC_EXTINT3          _L_(75) /**< \brief EIC signal: EXTINT3 on PC11 mux A */
+#define MUX_PC11A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC11A_EIC_EXTINT3   ((PIN_PC11A_EIC_EXTINT3 << 16) | MUX_PC11A_EIC_EXTINT3)
+#define PORT_PC11A_EIC_EXTINT3  (_UL_(1) << 11)
+#define PIN_PC11A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC11 External Interrupt Line */
+#define PIN_PC27A_EIC_EXTINT3          _L_(91) /**< \brief EIC signal: EXTINT3 on PC27 mux A */
+#define MUX_PC27A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC27A_EIC_EXTINT3   ((PIN_PC27A_EIC_EXTINT3 << 16) | MUX_PC27A_EIC_EXTINT3)
+#define PORT_PC27A_EIC_EXTINT3  (_UL_(1) << 27)
+#define PIN_PC27A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC27 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PB20A_EIC_EXTINT4          _L_(52) /**< \brief EIC signal: EXTINT4 on PB20 mux A */
+#define MUX_PB20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB20A_EIC_EXTINT4   ((PIN_PB20A_EIC_EXTINT4 << 16) | MUX_PB20A_EIC_EXTINT4)
+#define PORT_PB20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PB20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB20 External Interrupt Line */
+#define PIN_PC12A_EIC_EXTINT4          _L_(76) /**< \brief EIC signal: EXTINT4 on PC12 mux A */
+#define MUX_PC12A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC12A_EIC_EXTINT4   ((PIN_PC12A_EIC_EXTINT4 << 16) | MUX_PC12A_EIC_EXTINT4)
+#define PORT_PC12A_EIC_EXTINT4  (_UL_(1) << 12)
+#define PIN_PC12A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC12 External Interrupt Line */
+#define PIN_PC28A_EIC_EXTINT4          _L_(92) /**< \brief EIC signal: EXTINT4 on PC28 mux A */
+#define MUX_PC28A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC28A_EIC_EXTINT4   ((PIN_PC28A_EIC_EXTINT4 << 16) | MUX_PC28A_EIC_EXTINT4)
+#define PORT_PC28A_EIC_EXTINT4  (_UL_(1) << 28)
+#define PIN_PC28A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC28 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PB21A_EIC_EXTINT5          _L_(53) /**< \brief EIC signal: EXTINT5 on PB21 mux A */
+#define MUX_PB21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB21A_EIC_EXTINT5   ((PIN_PB21A_EIC_EXTINT5 << 16) | MUX_PB21A_EIC_EXTINT5)
+#define PORT_PB21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PB21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB21 External Interrupt Line */
+#define PIN_PC13A_EIC_EXTINT5          _L_(77) /**< \brief EIC signal: EXTINT5 on PC13 mux A */
+#define MUX_PC13A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PC13A_EIC_EXTINT5   ((PIN_PC13A_EIC_EXTINT5 << 16) | MUX_PC13A_EIC_EXTINT5)
+#define PORT_PC13A_EIC_EXTINT5  (_UL_(1) << 13)
+#define PIN_PC13A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PC13 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PC14A_EIC_EXTINT6          _L_(78) /**< \brief EIC signal: EXTINT6 on PC14 mux A */
+#define MUX_PC14A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PC14A_EIC_EXTINT6   ((PIN_PC14A_EIC_EXTINT6 << 16) | MUX_PC14A_EIC_EXTINT6)
+#define PORT_PC14A_EIC_EXTINT6  (_UL_(1) << 14)
+#define PIN_PC14A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PC14 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PC15A_EIC_EXTINT7          _L_(79) /**< \brief EIC signal: EXTINT7 on PC15 mux A */
+#define MUX_PC15A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PC15A_EIC_EXTINT7   ((PIN_PC15A_EIC_EXTINT7 << 16) | MUX_PC15A_EIC_EXTINT7)
+#define PORT_PC15A_EIC_EXTINT7  (_UL_(1) << 15)
+#define PIN_PC15A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PC15 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PB24A_EIC_EXTINT8          _L_(56) /**< \brief EIC signal: EXTINT8 on PB24 mux A */
+#define MUX_PB24A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB24A_EIC_EXTINT8   ((PIN_PB24A_EIC_EXTINT8 << 16) | MUX_PB24A_EIC_EXTINT8)
+#define PORT_PB24A_EIC_EXTINT8  (_UL_(1) << 24)
+#define PIN_PB24A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB24 External Interrupt Line */
+#define PIN_PC00A_EIC_EXTINT8          _L_(64) /**< \brief EIC signal: EXTINT8 on PC00 mux A */
+#define MUX_PC00A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC00A_EIC_EXTINT8   ((PIN_PC00A_EIC_EXTINT8 << 16) | MUX_PC00A_EIC_EXTINT8)
+#define PORT_PC00A_EIC_EXTINT8  (_UL_(1) <<  0)
+#define PIN_PC00A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC00 External Interrupt Line */
+#define PIN_PC16A_EIC_EXTINT8          _L_(80) /**< \brief EIC signal: EXTINT8 on PC16 mux A */
+#define MUX_PC16A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC16A_EIC_EXTINT8   ((PIN_PC16A_EIC_EXTINT8 << 16) | MUX_PC16A_EIC_EXTINT8)
+#define PORT_PC16A_EIC_EXTINT8  (_UL_(1) << 16)
+#define PIN_PC16A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC16 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PB25A_EIC_EXTINT9          _L_(57) /**< \brief EIC signal: EXTINT9 on PB25 mux A */
+#define MUX_PB25A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB25A_EIC_EXTINT9   ((PIN_PB25A_EIC_EXTINT9 << 16) | MUX_PB25A_EIC_EXTINT9)
+#define PORT_PB25A_EIC_EXTINT9  (_UL_(1) << 25)
+#define PIN_PB25A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB25 External Interrupt Line */
+#define PIN_PC01A_EIC_EXTINT9          _L_(65) /**< \brief EIC signal: EXTINT9 on PC01 mux A */
+#define MUX_PC01A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC01A_EIC_EXTINT9   ((PIN_PC01A_EIC_EXTINT9 << 16) | MUX_PC01A_EIC_EXTINT9)
+#define PORT_PC01A_EIC_EXTINT9  (_UL_(1) <<  1)
+#define PIN_PC01A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC01 External Interrupt Line */
+#define PIN_PC17A_EIC_EXTINT9          _L_(81) /**< \brief EIC signal: EXTINT9 on PC17 mux A */
+#define MUX_PC17A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC17A_EIC_EXTINT9   ((PIN_PC17A_EIC_EXTINT9 << 16) | MUX_PC17A_EIC_EXTINT9)
+#define PORT_PC17A_EIC_EXTINT9  (_UL_(1) << 17)
+#define PIN_PC17A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC17 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PC02A_EIC_EXTINT10         _L_(66) /**< \brief EIC signal: EXTINT10 on PC02 mux A */
+#define MUX_PC02A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC02A_EIC_EXTINT10  ((PIN_PC02A_EIC_EXTINT10 << 16) | MUX_PC02A_EIC_EXTINT10)
+#define PORT_PC02A_EIC_EXTINT10  (_UL_(1) <<  2)
+#define PIN_PC02A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC02 External Interrupt Line */
+#define PIN_PC18A_EIC_EXTINT10         _L_(82) /**< \brief EIC signal: EXTINT10 on PC18 mux A */
+#define MUX_PC18A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC18A_EIC_EXTINT10  ((PIN_PC18A_EIC_EXTINT10 << 16) | MUX_PC18A_EIC_EXTINT10)
+#define PORT_PC18A_EIC_EXTINT10  (_UL_(1) << 18)
+#define PIN_PC18A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC18 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PC03A_EIC_EXTINT11         _L_(67) /**< \brief EIC signal: EXTINT11 on PC03 mux A */
+#define MUX_PC03A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC03A_EIC_EXTINT11  ((PIN_PC03A_EIC_EXTINT11 << 16) | MUX_PC03A_EIC_EXTINT11)
+#define PORT_PC03A_EIC_EXTINT11  (_UL_(1) <<  3)
+#define PIN_PC03A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC03 External Interrupt Line */
+#define PIN_PC19A_EIC_EXTINT11         _L_(83) /**< \brief EIC signal: EXTINT11 on PC19 mux A */
+#define MUX_PC19A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC19A_EIC_EXTINT11  ((PIN_PC19A_EIC_EXTINT11 << 16) | MUX_PC19A_EIC_EXTINT11)
+#define PORT_PC19A_EIC_EXTINT11  (_UL_(1) << 19)
+#define PIN_PC19A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC19 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PC20A_EIC_EXTINT12         _L_(84) /**< \brief EIC signal: EXTINT12 on PC20 mux A */
+#define MUX_PC20A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PC20A_EIC_EXTINT12  ((PIN_PC20A_EIC_EXTINT12 << 16) | MUX_PC20A_EIC_EXTINT12)
+#define PORT_PC20A_EIC_EXTINT12  (_UL_(1) << 20)
+#define PIN_PC20A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PC20 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PC05A_EIC_EXTINT13         _L_(69) /**< \brief EIC signal: EXTINT13 on PC05 mux A */
+#define MUX_PC05A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC05A_EIC_EXTINT13  ((PIN_PC05A_EIC_EXTINT13 << 16) | MUX_PC05A_EIC_EXTINT13)
+#define PORT_PC05A_EIC_EXTINT13  (_UL_(1) <<  5)
+#define PIN_PC05A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC05 External Interrupt Line */
+#define PIN_PC21A_EIC_EXTINT13         _L_(85) /**< \brief EIC signal: EXTINT13 on PC21 mux A */
+#define MUX_PC21A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC21A_EIC_EXTINT13  ((PIN_PC21A_EIC_EXTINT13 << 16) | MUX_PC21A_EIC_EXTINT13)
+#define PORT_PC21A_EIC_EXTINT13  (_UL_(1) << 21)
+#define PIN_PC21A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC21 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PC06A_EIC_EXTINT14         _L_(70) /**< \brief EIC signal: EXTINT14 on PC06 mux A */
+#define MUX_PC06A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PC06A_EIC_EXTINT14  ((PIN_PC06A_EIC_EXTINT14 << 16) | MUX_PC06A_EIC_EXTINT14)
+#define PORT_PC06A_EIC_EXTINT14  (_UL_(1) <<  6)
+#define PIN_PC06A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PC06 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PC07A_EIC_EXTINT15         _L_(71) /**< \brief EIC signal: EXTINT15 on PC07 mux A */
+#define MUX_PC07A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PC07A_EIC_EXTINT15  ((PIN_PC07A_EIC_EXTINT15 << 16) | MUX_PC07A_EIC_EXTINT15)
+#define PORT_PC07A_EIC_EXTINT15  (_UL_(1) <<  7)
+#define PIN_PC07A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PC07 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PB24C_SERCOM0_PAD0         _L_(56) /**< \brief SERCOM0 signal: PAD0 on PB24 mux C */
+#define MUX_PB24C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PB24C_SERCOM0_PAD0  ((PIN_PB24C_SERCOM0_PAD0 << 16) | MUX_PB24C_SERCOM0_PAD0)
+#define PORT_PB24C_SERCOM0_PAD0  (_UL_(1) << 24)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PB25C_SERCOM0_PAD1         _L_(57) /**< \brief SERCOM0 signal: PAD1 on PB25 mux C */
+#define MUX_PB25C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PB25C_SERCOM0_PAD1  ((PIN_PB25C_SERCOM0_PAD1 << 16) | MUX_PB25C_SERCOM0_PAD1)
+#define PORT_PB25C_SERCOM0_PAD1  (_UL_(1) << 25)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PC24C_SERCOM0_PAD2         _L_(88) /**< \brief SERCOM0 signal: PAD2 on PC24 mux C */
+#define MUX_PC24C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PC24C_SERCOM0_PAD2  ((PIN_PC24C_SERCOM0_PAD2 << 16) | MUX_PC24C_SERCOM0_PAD2)
+#define PORT_PC24C_SERCOM0_PAD2  (_UL_(1) << 24)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PC25C_SERCOM0_PAD3         _L_(89) /**< \brief SERCOM0 signal: PAD3 on PC25 mux C */
+#define MUX_PC25C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PC25C_SERCOM0_PAD3  ((PIN_PC25C_SERCOM0_PAD3 << 16) | MUX_PC25C_SERCOM0_PAD3)
+#define PORT_PC25C_SERCOM0_PAD3  (_UL_(1) << 25)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PC27D_SERCOM1_PAD0         _L_(91) /**< \brief SERCOM1 signal: PAD0 on PC27 mux D */
+#define MUX_PC27D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PC27D_SERCOM1_PAD0  ((PIN_PC27D_SERCOM1_PAD0 << 16) | MUX_PC27D_SERCOM1_PAD0)
+#define PORT_PC27D_SERCOM1_PAD0  (_UL_(1) << 27)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PC12C_SERCOM1_PAD0         _L_(76) /**< \brief SERCOM1 signal: PAD0 on PC12 mux C */
+#define MUX_PC12C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PC12C_SERCOM1_PAD0  ((PIN_PC12C_SERCOM1_PAD0 << 16) | MUX_PC12C_SERCOM1_PAD0)
+#define PORT_PC12C_SERCOM1_PAD0  (_UL_(1) << 12)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PC28D_SERCOM1_PAD1         _L_(92) /**< \brief SERCOM1 signal: PAD1 on PC28 mux D */
+#define MUX_PC28D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PC28D_SERCOM1_PAD1  ((PIN_PC28D_SERCOM1_PAD1 << 16) | MUX_PC28D_SERCOM1_PAD1)
+#define PORT_PC28D_SERCOM1_PAD1  (_UL_(1) << 28)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PC13C_SERCOM1_PAD1         _L_(77) /**< \brief SERCOM1 signal: PAD1 on PC13 mux C */
+#define MUX_PC13C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PC13C_SERCOM1_PAD1  ((PIN_PC13C_SERCOM1_PAD1 << 16) | MUX_PC13C_SERCOM1_PAD1)
+#define PORT_PC13C_SERCOM1_PAD1  (_UL_(1) << 13)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PC10C_SERCOM1_PAD2         _L_(74) /**< \brief SERCOM1 signal: PAD2 on PC10 mux C */
+#define MUX_PC10C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PC10C_SERCOM1_PAD2  ((PIN_PC10C_SERCOM1_PAD2 << 16) | MUX_PC10C_SERCOM1_PAD2)
+#define PORT_PC10C_SERCOM1_PAD2  (_UL_(1) << 10)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+#define PIN_PC11C_SERCOM1_PAD3         _L_(75) /**< \brief SERCOM1 signal: PAD3 on PC11 mux C */
+#define MUX_PC11C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PC11C_SERCOM1_PAD3  ((PIN_PC11C_SERCOM1_PAD3 << 16) | MUX_PC11C_SERCOM1_PAD3)
+#define PORT_PC11C_SERCOM1_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20C_SERCOM3_PAD0         _L_(52) /**< \brief SERCOM3 signal: PAD0 on PB20 mux C */
+#define MUX_PB20C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB20C_SERCOM3_PAD0  ((PIN_PB20C_SERCOM3_PAD0 << 16) | MUX_PB20C_SERCOM3_PAD0)
+#define PORT_PB20C_SERCOM3_PAD0  (_UL_(1) << 20)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21C_SERCOM3_PAD1         _L_(53) /**< \brief SERCOM3 signal: PAD1 on PB21 mux C */
+#define MUX_PB21C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB21C_SERCOM3_PAD1  ((PIN_PB21C_SERCOM3_PAD1 << 16) | MUX_PB21C_SERCOM3_PAD1)
+#define PORT_PB21C_SERCOM3_PAD1  (_UL_(1) << 21)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB18D_SERCOM3_PAD2         _L_(50) /**< \brief SERCOM3 signal: PAD2 on PB18 mux D */
+#define MUX_PB18D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PB18D_SERCOM3_PAD2  ((PIN_PB18D_SERCOM3_PAD2 << 16) | MUX_PB18D_SERCOM3_PAD2)
+#define PORT_PB18D_SERCOM3_PAD2  (_UL_(1) << 18)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB19D_SERCOM3_PAD3         _L_(51) /**< \brief SERCOM3 signal: PAD3 on PB19 mux D */
+#define MUX_PB19D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB19D_SERCOM3_PAD3  ((PIN_PB19D_SERCOM3_PAD3 << 16) | MUX_PB19D_SERCOM3_PAD3)
+#define PORT_PB19D_SERCOM3_PAD3  (_UL_(1) << 19)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for SERCOM4 peripheral ========== */
+#define PIN_PA08D_SERCOM4_PAD0          _L_(8) /**< \brief SERCOM4 signal: PAD0 on PA08 mux D */
+#define MUX_PA08D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PA08D_SERCOM4_PAD0  ((PIN_PA08D_SERCOM4_PAD0 << 16) | MUX_PA08D_SERCOM4_PAD0)
+#define PORT_PA08D_SERCOM4_PAD0  (_UL_(1) <<  8)
+#define PIN_PB24D_SERCOM4_PAD0         _L_(56) /**< \brief SERCOM4 signal: PAD0 on PB24 mux D */
+#define MUX_PB24D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PB24D_SERCOM4_PAD0  ((PIN_PB24D_SERCOM4_PAD0 << 16) | MUX_PB24D_SERCOM4_PAD0)
+#define PORT_PB24D_SERCOM4_PAD0  (_UL_(1) << 24)
+#define PIN_PA12C_SERCOM4_PAD0         _L_(12) /**< \brief SERCOM4 signal: PAD0 on PA12 mux C */
+#define MUX_PA12C_SERCOM4_PAD0          _L_(2)
+#define PINMUX_PA12C_SERCOM4_PAD0  ((PIN_PA12C_SERCOM4_PAD0 << 16) | MUX_PA12C_SERCOM4_PAD0)
+#define PORT_PA12C_SERCOM4_PAD0  (_UL_(1) << 12)
+#define PIN_PA09D_SERCOM4_PAD1          _L_(9) /**< \brief SERCOM4 signal: PAD1 on PA09 mux D */
+#define MUX_PA09D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PA09D_SERCOM4_PAD1  ((PIN_PA09D_SERCOM4_PAD1 << 16) | MUX_PA09D_SERCOM4_PAD1)
+#define PORT_PA09D_SERCOM4_PAD1  (_UL_(1) <<  9)
+#define PIN_PB25D_SERCOM4_PAD1         _L_(57) /**< \brief SERCOM4 signal: PAD1 on PB25 mux D */
+#define MUX_PB25D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PB25D_SERCOM4_PAD1  ((PIN_PB25D_SERCOM4_PAD1 << 16) | MUX_PB25D_SERCOM4_PAD1)
+#define PORT_PB25D_SERCOM4_PAD1  (_UL_(1) << 25)
+#define PIN_PA13C_SERCOM4_PAD1         _L_(13) /**< \brief SERCOM4 signal: PAD1 on PA13 mux C */
+#define MUX_PA13C_SERCOM4_PAD1          _L_(2)
+#define PINMUX_PA13C_SERCOM4_PAD1  ((PIN_PA13C_SERCOM4_PAD1 << 16) | MUX_PA13C_SERCOM4_PAD1)
+#define PORT_PA13C_SERCOM4_PAD1  (_UL_(1) << 13)
+#define PIN_PA10D_SERCOM4_PAD2         _L_(10) /**< \brief SERCOM4 signal: PAD2 on PA10 mux D */
+#define MUX_PA10D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PA10D_SERCOM4_PAD2  ((PIN_PA10D_SERCOM4_PAD2 << 16) | MUX_PA10D_SERCOM4_PAD2)
+#define PORT_PA10D_SERCOM4_PAD2  (_UL_(1) << 10)
+#define PIN_PC24D_SERCOM4_PAD2         _L_(88) /**< \brief SERCOM4 signal: PAD2 on PC24 mux D */
+#define MUX_PC24D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PC24D_SERCOM4_PAD2  ((PIN_PC24D_SERCOM4_PAD2 << 16) | MUX_PC24D_SERCOM4_PAD2)
+#define PORT_PC24D_SERCOM4_PAD2  (_UL_(1) << 24)
+#define PIN_PA14C_SERCOM4_PAD2         _L_(14) /**< \brief SERCOM4 signal: PAD2 on PA14 mux C */
+#define MUX_PA14C_SERCOM4_PAD2          _L_(2)
+#define PINMUX_PA14C_SERCOM4_PAD2  ((PIN_PA14C_SERCOM4_PAD2 << 16) | MUX_PA14C_SERCOM4_PAD2)
+#define PORT_PA14C_SERCOM4_PAD2  (_UL_(1) << 14)
+#define PIN_PA11D_SERCOM4_PAD3         _L_(11) /**< \brief SERCOM4 signal: PAD3 on PA11 mux D */
+#define MUX_PA11D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PA11D_SERCOM4_PAD3  ((PIN_PA11D_SERCOM4_PAD3 << 16) | MUX_PA11D_SERCOM4_PAD3)
+#define PORT_PA11D_SERCOM4_PAD3  (_UL_(1) << 11)
+#define PIN_PC25D_SERCOM4_PAD3         _L_(89) /**< \brief SERCOM4 signal: PAD3 on PC25 mux D */
+#define MUX_PC25D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PC25D_SERCOM4_PAD3  ((PIN_PC25D_SERCOM4_PAD3 << 16) | MUX_PC25D_SERCOM4_PAD3)
+#define PORT_PC25D_SERCOM4_PAD3  (_UL_(1) << 25)
+#define PIN_PA15C_SERCOM4_PAD3         _L_(15) /**< \brief SERCOM4 signal: PAD3 on PA15 mux C */
+#define MUX_PA15C_SERCOM4_PAD3          _L_(2)
+#define PINMUX_PA15C_SERCOM4_PAD3  ((PIN_PA15C_SERCOM4_PAD3 << 16) | MUX_PA15C_SERCOM4_PAD3)
+#define PORT_PA15C_SERCOM4_PAD3  (_UL_(1) << 15)
+/* ========== PORT definition for SERCOM5 peripheral ========== */
+#define PIN_PB30D_SERCOM5_PAD0         _L_(62) /**< \brief SERCOM5 signal: PAD0 on PB30 mux D */
+#define MUX_PB30D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB30D_SERCOM5_PAD0  ((PIN_PB30D_SERCOM5_PAD0 << 16) | MUX_PB30D_SERCOM5_PAD0)
+#define PORT_PB30D_SERCOM5_PAD0  (_UL_(1) << 30)
+#define PIN_PA24D_SERCOM5_PAD0         _L_(24) /**< \brief SERCOM5 signal: PAD0 on PA24 mux D */
+#define MUX_PA24D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PA24D_SERCOM5_PAD0  ((PIN_PA24D_SERCOM5_PAD0 << 16) | MUX_PA24D_SERCOM5_PAD0)
+#define PORT_PA24D_SERCOM5_PAD0  (_UL_(1) << 24)
+#define PIN_PB02D_SERCOM5_PAD0         _L_(34) /**< \brief SERCOM5 signal: PAD0 on PB02 mux D */
+#define MUX_PB02D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB02D_SERCOM5_PAD0  ((PIN_PB02D_SERCOM5_PAD0 << 16) | MUX_PB02D_SERCOM5_PAD0)
+#define PORT_PB02D_SERCOM5_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20D_SERCOM5_PAD0         _L_(52) /**< \brief SERCOM5 signal: PAD0 on PB20 mux D */
+#define MUX_PB20D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB20D_SERCOM5_PAD0  ((PIN_PB20D_SERCOM5_PAD0 << 16) | MUX_PB20D_SERCOM5_PAD0)
+#define PORT_PB20D_SERCOM5_PAD0  (_UL_(1) << 20)
+#define PIN_PB16C_SERCOM5_PAD0         _L_(48) /**< \brief SERCOM5 signal: PAD0 on PB16 mux C */
+#define MUX_PB16C_SERCOM5_PAD0          _L_(2)
+#define PINMUX_PB16C_SERCOM5_PAD0  ((PIN_PB16C_SERCOM5_PAD0 << 16) | MUX_PB16C_SERCOM5_PAD0)
+#define PORT_PB16C_SERCOM5_PAD0  (_UL_(1) << 16)
+#define PIN_PB31D_SERCOM5_PAD1         _L_(63) /**< \brief SERCOM5 signal: PAD1 on PB31 mux D */
+#define MUX_PB31D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB31D_SERCOM5_PAD1  ((PIN_PB31D_SERCOM5_PAD1 << 16) | MUX_PB31D_SERCOM5_PAD1)
+#define PORT_PB31D_SERCOM5_PAD1  (_UL_(1) << 31)
+#define PIN_PA25D_SERCOM5_PAD1         _L_(25) /**< \brief SERCOM5 signal: PAD1 on PA25 mux D */
+#define MUX_PA25D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PA25D_SERCOM5_PAD1  ((PIN_PA25D_SERCOM5_PAD1 << 16) | MUX_PA25D_SERCOM5_PAD1)
+#define PORT_PA25D_SERCOM5_PAD1  (_UL_(1) << 25)
+#define PIN_PB03D_SERCOM5_PAD1         _L_(35) /**< \brief SERCOM5 signal: PAD1 on PB03 mux D */
+#define MUX_PB03D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB03D_SERCOM5_PAD1  ((PIN_PB03D_SERCOM5_PAD1 << 16) | MUX_PB03D_SERCOM5_PAD1)
+#define PORT_PB03D_SERCOM5_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21D_SERCOM5_PAD1         _L_(53) /**< \brief SERCOM5 signal: PAD1 on PB21 mux D */
+#define MUX_PB21D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB21D_SERCOM5_PAD1  ((PIN_PB21D_SERCOM5_PAD1 << 16) | MUX_PB21D_SERCOM5_PAD1)
+#define PORT_PB21D_SERCOM5_PAD1  (_UL_(1) << 21)
+#define PIN_PB17C_SERCOM5_PAD1         _L_(49) /**< \brief SERCOM5 signal: PAD1 on PB17 mux C */
+#define MUX_PB17C_SERCOM5_PAD1          _L_(2)
+#define PINMUX_PB17C_SERCOM5_PAD1  ((PIN_PB17C_SERCOM5_PAD1 << 16) | MUX_PB17C_SERCOM5_PAD1)
+#define PORT_PB17C_SERCOM5_PAD1  (_UL_(1) << 17)
+#define PIN_PB18C_SERCOM5_PAD2         _L_(50) /**< \brief SERCOM5 signal: PAD2 on PB18 mux C */
+#define MUX_PB18C_SERCOM5_PAD2          _L_(2)
+#define PINMUX_PB18C_SERCOM5_PAD2  ((PIN_PB18C_SERCOM5_PAD2 << 16) | MUX_PB18C_SERCOM5_PAD2)
+#define PORT_PB18C_SERCOM5_PAD2  (_UL_(1) << 18)
+#define PIN_PB00D_SERCOM5_PAD2         _L_(32) /**< \brief SERCOM5 signal: PAD2 on PB00 mux D */
+#define MUX_PB00D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB00D_SERCOM5_PAD2  ((PIN_PB00D_SERCOM5_PAD2 << 16) | MUX_PB00D_SERCOM5_PAD2)
+#define PORT_PB00D_SERCOM5_PAD2  (_UL_(1) <<  0)
+#define PIN_PB22D_SERCOM5_PAD2         _L_(54) /**< \brief SERCOM5 signal: PAD2 on PB22 mux D */
+#define MUX_PB22D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB22D_SERCOM5_PAD2  ((PIN_PB22D_SERCOM5_PAD2 << 16) | MUX_PB22D_SERCOM5_PAD2)
+#define PORT_PB22D_SERCOM5_PAD2  (_UL_(1) << 22)
+#define PIN_PB19C_SERCOM5_PAD3         _L_(51) /**< \brief SERCOM5 signal: PAD3 on PB19 mux C */
+#define MUX_PB19C_SERCOM5_PAD3          _L_(2)
+#define PINMUX_PB19C_SERCOM5_PAD3  ((PIN_PB19C_SERCOM5_PAD3 << 16) | MUX_PB19C_SERCOM5_PAD3)
+#define PORT_PB19C_SERCOM5_PAD3  (_UL_(1) << 19)
+#define PIN_PB01D_SERCOM5_PAD3         _L_(33) /**< \brief SERCOM5 signal: PAD3 on PB01 mux D */
+#define MUX_PB01D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB01D_SERCOM5_PAD3  ((PIN_PB01D_SERCOM5_PAD3 << 16) | MUX_PB01D_SERCOM5_PAD3)
+#define PORT_PB01D_SERCOM5_PAD3  (_UL_(1) <<  1)
+#define PIN_PB23D_SERCOM5_PAD3         _L_(55) /**< \brief SERCOM5 signal: PAD3 on PB23 mux D */
+#define MUX_PB23D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB23D_SERCOM5_PAD3  ((PIN_PB23D_SERCOM5_PAD3 << 16) | MUX_PB23D_SERCOM5_PAD3)
+#define PORT_PB23D_SERCOM5_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PB18F_TCC0_WO0             _L_(50) /**< \brief TCC0 signal: WO0 on PB18 mux F */
+#define MUX_PB18F_TCC0_WO0              _L_(5)
+#define PINMUX_PB18F_TCC0_WO0      ((PIN_PB18F_TCC0_WO0 << 16) | MUX_PB18F_TCC0_WO0)
+#define PORT_PB18F_TCC0_WO0    (_UL_(1) << 18)
+#define PIN_PC24F_TCC0_WO0             _L_(88) /**< \brief TCC0 signal: WO0 on PC24 mux F */
+#define MUX_PC24F_TCC0_WO0              _L_(5)
+#define PINMUX_PC24F_TCC0_WO0      ((PIN_PC24F_TCC0_WO0 << 16) | MUX_PC24F_TCC0_WO0)
+#define PORT_PC24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PB19F_TCC0_WO1             _L_(51) /**< \brief TCC0 signal: WO1 on PB19 mux F */
+#define MUX_PB19F_TCC0_WO1              _L_(5)
+#define PINMUX_PB19F_TCC0_WO1      ((PIN_PB19F_TCC0_WO1 << 16) | MUX_PB19F_TCC0_WO1)
+#define PORT_PB19F_TCC0_WO1    (_UL_(1) << 19)
+#define PIN_PC25F_TCC0_WO1             _L_(89) /**< \brief TCC0 signal: WO1 on PC25 mux F */
+#define MUX_PC25F_TCC0_WO1              _L_(5)
+#define PINMUX_PC25F_TCC0_WO1      ((PIN_PC25F_TCC0_WO1 << 16) | MUX_PC25F_TCC0_WO1)
+#define PORT_PC25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB20F_TCC0_WO2             _L_(52) /**< \brief TCC0 signal: WO2 on PB20 mux F */
+#define MUX_PB20F_TCC0_WO2              _L_(5)
+#define PINMUX_PB20F_TCC0_WO2      ((PIN_PB20F_TCC0_WO2 << 16) | MUX_PB20F_TCC0_WO2)
+#define PORT_PB20F_TCC0_WO2    (_UL_(1) << 20)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PC26F_TCC0_WO2             _L_(90) /**< \brief TCC0 signal: WO2 on PC26 mux F */
+#define MUX_PC26F_TCC0_WO2              _L_(5)
+#define PINMUX_PC26F_TCC0_WO2      ((PIN_PC26F_TCC0_WO2 << 16) | MUX_PC26F_TCC0_WO2)
+#define PORT_PC26F_TCC0_WO2    (_UL_(1) << 26)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB21F_TCC0_WO3             _L_(53) /**< \brief TCC0 signal: WO3 on PB21 mux F */
+#define MUX_PB21F_TCC0_WO3              _L_(5)
+#define PINMUX_PB21F_TCC0_WO3      ((PIN_PB21F_TCC0_WO3 << 16) | MUX_PB21F_TCC0_WO3)
+#define PORT_PB21F_TCC0_WO3    (_UL_(1) << 21)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PC27F_TCC0_WO3             _L_(91) /**< \brief TCC0 signal: WO3 on PC27 mux F */
+#define MUX_PC27F_TCC0_WO3              _L_(5)
+#define PINMUX_PC27F_TCC0_WO3      ((PIN_PC27F_TCC0_WO3 << 16) | MUX_PC27F_TCC0_WO3)
+#define PORT_PC27F_TCC0_WO3    (_UL_(1) << 27)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PC28F_TCC0_WO4             _L_(92) /**< \brief TCC0 signal: WO4 on PC28 mux F */
+#define MUX_PC28F_TCC0_WO4              _L_(5)
+#define PINMUX_PC28F_TCC0_WO4      ((PIN_PC28F_TCC0_WO4 << 16) | MUX_PC28F_TCC0_WO4)
+#define PORT_PC28F_TCC0_WO4    (_UL_(1) << 28)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PB24F_TCC0_WO6             _L_(56) /**< \brief TCC0 signal: WO6 on PB24 mux F */
+#define MUX_PB24F_TCC0_WO6              _L_(5)
+#define PINMUX_PB24F_TCC0_WO6      ((PIN_PB24F_TCC0_WO6 << 16) | MUX_PB24F_TCC0_WO6)
+#define PORT_PB24F_TCC0_WO6    (_UL_(1) << 24)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PB25F_TCC0_WO7             _L_(57) /**< \brief TCC0 signal: WO7 on PB25 mux F */
+#define MUX_PB25F_TCC0_WO7              _L_(5)
+#define PINMUX_PB25F_TCC0_WO7      ((PIN_PB25F_TCC0_WO7 << 16) | MUX_PB25F_TCC0_WO7)
+#define PORT_PB25F_TCC0_WO7    (_UL_(1) << 25)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PC24E_TC2_WO0              _L_(88) /**< \brief TC2 signal: WO0 on PC24 mux E */
+#define MUX_PC24E_TC2_WO0               _L_(4)
+#define PINMUX_PC24E_TC2_WO0       ((PIN_PC24E_TC2_WO0 << 16) | MUX_PC24E_TC2_WO0)
+#define PORT_PC24E_TC2_WO0     (_UL_(1) << 24)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+#define PIN_PC25E_TC2_WO1              _L_(89) /**< \brief TC2 signal: WO1 on PC25 mux E */
+#define MUX_PC25E_TC2_WO1               _L_(4)
+#define PINMUX_PC25E_TC2_WO1       ((PIN_PC25E_TC2_WO1 << 16) | MUX_PC25E_TC2_WO1)
+#define PORT_PC25E_TC2_WO1     (_UL_(1) << 25)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PC26E_TC3_WO0              _L_(90) /**< \brief TC3 signal: WO0 on PC26 mux E */
+#define MUX_PC26E_TC3_WO0               _L_(4)
+#define PINMUX_PC26E_TC3_WO0       ((PIN_PC26E_TC3_WO0 << 16) | MUX_PC26E_TC3_WO0)
+#define PORT_PC26E_TC3_WO0     (_UL_(1) << 26)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+#define PIN_PC27E_TC3_WO1              _L_(91) /**< \brief TC3 signal: WO1 on PC27 mux E */
+#define MUX_PC27E_TC3_WO1               _L_(4)
+#define PINMUX_PC27E_TC3_WO1       ((PIN_PC27E_TC3_WO1 << 16) | MUX_PC27E_TC3_WO1)
+#define PORT_PC27E_TC3_WO1     (_UL_(1) << 27)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PC00B_ADC_AIN16            _L_(64) /**< \brief ADC signal: AIN16 on PC00 mux B */
+#define MUX_PC00B_ADC_AIN16             _L_(1)
+#define PINMUX_PC00B_ADC_AIN16     ((PIN_PC00B_ADC_AIN16 << 16) | MUX_PC00B_ADC_AIN16)
+#define PORT_PC00B_ADC_AIN16   (_UL_(1) <<  0)
+#define PIN_PC01B_ADC_AIN17            _L_(65) /**< \brief ADC signal: AIN17 on PC01 mux B */
+#define MUX_PC01B_ADC_AIN17             _L_(1)
+#define PINMUX_PC01B_ADC_AIN17     ((PIN_PC01B_ADC_AIN17 << 16) | MUX_PC01B_ADC_AIN17)
+#define PORT_PC01B_ADC_AIN17   (_UL_(1) <<  1)
+#define PIN_PC02B_ADC_AIN18            _L_(66) /**< \brief ADC signal: AIN18 on PC02 mux B */
+#define MUX_PC02B_ADC_AIN18             _L_(1)
+#define PINMUX_PC02B_ADC_AIN18     ((PIN_PC02B_ADC_AIN18 << 16) | MUX_PC02B_ADC_AIN18)
+#define PORT_PC02B_ADC_AIN18   (_UL_(1) <<  2)
+#define PIN_PC03B_ADC_AIN19            _L_(67) /**< \brief ADC signal: AIN19 on PC03 mux B */
+#define MUX_PC03B_ADC_AIN19             _L_(1)
+#define PINMUX_PC03B_ADC_AIN19     ((PIN_PC03B_ADC_AIN19 << 16) | MUX_PC03B_ADC_AIN19)
+#define PORT_PC03B_ADC_AIN19   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PB24H_AC_CMP0              _L_(56) /**< \brief AC signal: CMP0 on PB24 mux H */
+#define MUX_PB24H_AC_CMP0               _L_(7)
+#define PINMUX_PB24H_AC_CMP0       ((PIN_PB24H_AC_CMP0 << 16) | MUX_PB24H_AC_CMP0)
+#define PORT_PB24H_AC_CMP0     (_UL_(1) << 24)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+#define PIN_PB25H_AC_CMP1              _L_(57) /**< \brief AC signal: CMP1 on PB25 mux H */
+#define MUX_PB25H_AC_CMP1               _L_(7)
+#define PINMUX_PB25H_AC_CMP1       ((PIN_PB25H_AC_CMP1 << 16) | MUX_PB25H_AC_CMP1)
+#define PORT_PB25H_AC_CMP1     (_UL_(1) << 25)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PC05B_SLCD_LP8             _L_(69) /**< \brief SLCD signal: LP8 on PC05 mux B */
+#define MUX_PC05B_SLCD_LP8              _L_(1)
+#define PINMUX_PC05B_SLCD_LP8      ((PIN_PC05B_SLCD_LP8 << 16) | MUX_PC05B_SLCD_LP8)
+#define PORT_PC05B_SLCD_LP8    (_UL_(1) <<  5)
+#define PIN_PC06B_SLCD_LP9             _L_(70) /**< \brief SLCD signal: LP9 on PC06 mux B */
+#define MUX_PC06B_SLCD_LP9              _L_(1)
+#define PINMUX_PC06B_SLCD_LP9      ((PIN_PC06B_SLCD_LP9 << 16) | MUX_PC06B_SLCD_LP9)
+#define PORT_PC06B_SLCD_LP9    (_UL_(1) <<  6)
+#define PIN_PC07B_SLCD_LP10            _L_(71) /**< \brief SLCD signal: LP10 on PC07 mux B */
+#define MUX_PC07B_SLCD_LP10             _L_(1)
+#define PINMUX_PC07B_SLCD_LP10     ((PIN_PC07B_SLCD_LP10 << 16) | MUX_PC07B_SLCD_LP10)
+#define PORT_PC07B_SLCD_LP10   (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PC08B_SLCD_LP15            _L_(72) /**< \brief SLCD signal: LP15 on PC08 mux B */
+#define MUX_PC08B_SLCD_LP15             _L_(1)
+#define PINMUX_PC08B_SLCD_LP15     ((PIN_PC08B_SLCD_LP15 << 16) | MUX_PC08B_SLCD_LP15)
+#define PORT_PC08B_SLCD_LP15   (_UL_(1) <<  8)
+#define PIN_PC09B_SLCD_LP16            _L_(73) /**< \brief SLCD signal: LP16 on PC09 mux B */
+#define MUX_PC09B_SLCD_LP16             _L_(1)
+#define PINMUX_PC09B_SLCD_LP16     ((PIN_PC09B_SLCD_LP16 << 16) | MUX_PC09B_SLCD_LP16)
+#define PORT_PC09B_SLCD_LP16   (_UL_(1) <<  9)
+#define PIN_PC10B_SLCD_LP17            _L_(74) /**< \brief SLCD signal: LP17 on PC10 mux B */
+#define MUX_PC10B_SLCD_LP17             _L_(1)
+#define PINMUX_PC10B_SLCD_LP17     ((PIN_PC10B_SLCD_LP17 << 16) | MUX_PC10B_SLCD_LP17)
+#define PORT_PC10B_SLCD_LP17   (_UL_(1) << 10)
+#define PIN_PC11B_SLCD_LP18            _L_(75) /**< \brief SLCD signal: LP18 on PC11 mux B */
+#define MUX_PC11B_SLCD_LP18             _L_(1)
+#define PINMUX_PC11B_SLCD_LP18     ((PIN_PC11B_SLCD_LP18 << 16) | MUX_PC11B_SLCD_LP18)
+#define PORT_PC11B_SLCD_LP18   (_UL_(1) << 11)
+#define PIN_PC12B_SLCD_LP19            _L_(76) /**< \brief SLCD signal: LP19 on PC12 mux B */
+#define MUX_PC12B_SLCD_LP19             _L_(1)
+#define PINMUX_PC12B_SLCD_LP19     ((PIN_PC12B_SLCD_LP19 << 16) | MUX_PC12B_SLCD_LP19)
+#define PORT_PC12B_SLCD_LP19   (_UL_(1) << 12)
+#define PIN_PC13B_SLCD_LP20            _L_(77) /**< \brief SLCD signal: LP20 on PC13 mux B */
+#define MUX_PC13B_SLCD_LP20             _L_(1)
+#define PINMUX_PC13B_SLCD_LP20     ((PIN_PC13B_SLCD_LP20 << 16) | MUX_PC13B_SLCD_LP20)
+#define PORT_PC13B_SLCD_LP20   (_UL_(1) << 13)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PC14B_SLCD_LP26            _L_(78) /**< \brief SLCD signal: LP26 on PC14 mux B */
+#define MUX_PC14B_SLCD_LP26             _L_(1)
+#define PINMUX_PC14B_SLCD_LP26     ((PIN_PC14B_SLCD_LP26 << 16) | MUX_PC14B_SLCD_LP26)
+#define PORT_PC14B_SLCD_LP26   (_UL_(1) << 14)
+#define PIN_PC15B_SLCD_LP27            _L_(79) /**< \brief SLCD signal: LP27 on PC15 mux B */
+#define MUX_PC15B_SLCD_LP27             _L_(1)
+#define PINMUX_PC15B_SLCD_LP27     ((PIN_PC15B_SLCD_LP27 << 16) | MUX_PC15B_SLCD_LP27)
+#define PORT_PC15B_SLCD_LP27   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PC16B_SLCD_LP36            _L_(80) /**< \brief SLCD signal: LP36 on PC16 mux B */
+#define MUX_PC16B_SLCD_LP36             _L_(1)
+#define PINMUX_PC16B_SLCD_LP36     ((PIN_PC16B_SLCD_LP36 << 16) | MUX_PC16B_SLCD_LP36)
+#define PORT_PC16B_SLCD_LP36   (_UL_(1) << 16)
+#define PIN_PC17B_SLCD_LP37            _L_(81) /**< \brief SLCD signal: LP37 on PC17 mux B */
+#define MUX_PC17B_SLCD_LP37             _L_(1)
+#define PINMUX_PC17B_SLCD_LP37     ((PIN_PC17B_SLCD_LP37 << 16) | MUX_PC17B_SLCD_LP37)
+#define PORT_PC17B_SLCD_LP37   (_UL_(1) << 17)
+#define PIN_PC18B_SLCD_LP38            _L_(82) /**< \brief SLCD signal: LP38 on PC18 mux B */
+#define MUX_PC18B_SLCD_LP38             _L_(1)
+#define PINMUX_PC18B_SLCD_LP38     ((PIN_PC18B_SLCD_LP38 << 16) | MUX_PC18B_SLCD_LP38)
+#define PORT_PC18B_SLCD_LP38   (_UL_(1) << 18)
+#define PIN_PC19B_SLCD_LP39            _L_(83) /**< \brief SLCD signal: LP39 on PC19 mux B */
+#define MUX_PC19B_SLCD_LP39             _L_(1)
+#define PINMUX_PC19B_SLCD_LP39     ((PIN_PC19B_SLCD_LP39 << 16) | MUX_PC19B_SLCD_LP39)
+#define PORT_PC19B_SLCD_LP39   (_UL_(1) << 19)
+#define PIN_PC20B_SLCD_LP40            _L_(84) /**< \brief SLCD signal: LP40 on PC20 mux B */
+#define MUX_PC20B_SLCD_LP40             _L_(1)
+#define PINMUX_PC20B_SLCD_LP40     ((PIN_PC20B_SLCD_LP40 << 16) | MUX_PC20B_SLCD_LP40)
+#define PORT_PC20B_SLCD_LP40   (_UL_(1) << 20)
+#define PIN_PC21B_SLCD_LP41            _L_(85) /**< \brief SLCD signal: LP41 on PC21 mux B */
+#define MUX_PC21B_SLCD_LP41             _L_(1)
+#define PINMUX_PC21B_SLCD_LP41     ((PIN_PC21B_SLCD_LP41 << 16) | MUX_PC21B_SLCD_LP41)
+#define PORT_PC21B_SLCD_LP41   (_UL_(1) << 21)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PB18B_SLCD_LP44            _L_(50) /**< \brief SLCD signal: LP44 on PB18 mux B */
+#define MUX_PB18B_SLCD_LP44             _L_(1)
+#define PINMUX_PB18B_SLCD_LP44     ((PIN_PB18B_SLCD_LP44 << 16) | MUX_PB18B_SLCD_LP44)
+#define PORT_PB18B_SLCD_LP44   (_UL_(1) << 18)
+#define PIN_PB19B_SLCD_LP45            _L_(51) /**< \brief SLCD signal: LP45 on PB19 mux B */
+#define MUX_PB19B_SLCD_LP45             _L_(1)
+#define PINMUX_PB19B_SLCD_LP45     ((PIN_PB19B_SLCD_LP45 << 16) | MUX_PB19B_SLCD_LP45)
+#define PORT_PB19B_SLCD_LP45   (_UL_(1) << 19)
+#define PIN_PB20B_SLCD_LP46            _L_(52) /**< \brief SLCD signal: LP46 on PB20 mux B */
+#define MUX_PB20B_SLCD_LP46             _L_(1)
+#define PINMUX_PB20B_SLCD_LP46     ((PIN_PB20B_SLCD_LP46 << 16) | MUX_PB20B_SLCD_LP46)
+#define PORT_PB20B_SLCD_LP46   (_UL_(1) << 20)
+#define PIN_PB21B_SLCD_LP47            _L_(53) /**< \brief SLCD signal: LP47 on PB21 mux B */
+#define MUX_PB21B_SLCD_LP47             _L_(1)
+#define PINMUX_PB21B_SLCD_LP47     ((PIN_PB21B_SLCD_LP47 << 16) | MUX_PB21B_SLCD_LP47)
+#define PORT_PB21B_SLCD_LP47   (_UL_(1) << 21)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PC27I_CCL_IN4              _L_(91) /**< \brief CCL signal: IN4 on PC27 mux I */
+#define MUX_PC27I_CCL_IN4               _L_(8)
+#define PINMUX_PC27I_CCL_IN4       ((PIN_PC27I_CCL_IN4 << 16) | MUX_PC27I_CCL_IN4)
+#define PORT_PC27I_CCL_IN4     (_UL_(1) << 27)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PC28I_CCL_IN5              _L_(92) /**< \brief CCL signal: IN5 on PC28 mux I */
+#define MUX_PC28I_CCL_IN5               _L_(8)
+#define PINMUX_PC28I_CCL_IN5       ((PIN_PC28I_CCL_IN5 << 16) | MUX_PC28I_CCL_IN5)
+#define PORT_PC28I_CCL_IN5     (_UL_(1) << 28)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PC20I_CCL_IN9              _L_(84) /**< \brief CCL signal: IN9 on PC20 mux I */
+#define MUX_PC20I_CCL_IN9               _L_(8)
+#define PINMUX_PC20I_CCL_IN9       ((PIN_PC20I_CCL_IN9 << 16) | MUX_PC20I_CCL_IN9)
+#define PORT_PC20I_CCL_IN9     (_UL_(1) << 20)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PC21I_CCL_IN10             _L_(85) /**< \brief CCL signal: IN10 on PC21 mux I */
+#define MUX_PC21I_CCL_IN10              _L_(8)
+#define PINMUX_PC21I_CCL_IN10      ((PIN_PC21I_CCL_IN10 << 16) | MUX_PC21I_CCL_IN10)
+#define PORT_PC21I_CCL_IN10    (_UL_(1) << 21)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22N17A_PIO_ */
diff --git a/watch-library/hardware/include/pio/saml22n18a.h b/watch-library/hardware/include/pio/saml22n18a.h
new file mode 100644
index 00000000..ad683b1d
--- /dev/null
+++ b/watch-library/hardware/include/pio/saml22n18a.h
@@ -0,0 +1,1851 @@
+/**
+ * \file
+ *
+ * \brief Peripheral I/O description for SAML22N18A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#ifndef _SAML22N18A_PIO_
+#define _SAML22N18A_PIO_
+
+#define PIN_PA00                            0  /**< \brief Pin Number for PA00 */
+#define PORT_PA00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PA00 */
+#define PIN_PA01                            1  /**< \brief Pin Number for PA01 */
+#define PORT_PA01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PA01 */
+#define PIN_PA02                            2  /**< \brief Pin Number for PA02 */
+#define PORT_PA02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PA02 */
+#define PIN_PA03                            3  /**< \brief Pin Number for PA03 */
+#define PORT_PA03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PA03 */
+#define PIN_PA04                            4  /**< \brief Pin Number for PA04 */
+#define PORT_PA04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PA04 */
+#define PIN_PA05                            5  /**< \brief Pin Number for PA05 */
+#define PORT_PA05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PA05 */
+#define PIN_PA06                            6  /**< \brief Pin Number for PA06 */
+#define PORT_PA06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PA06 */
+#define PIN_PA07                            7  /**< \brief Pin Number for PA07 */
+#define PORT_PA07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PA07 */
+#define PIN_PA08                            8  /**< \brief Pin Number for PA08 */
+#define PORT_PA08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PA08 */
+#define PIN_PA09                            9  /**< \brief Pin Number for PA09 */
+#define PORT_PA09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PA09 */
+#define PIN_PA10                           10  /**< \brief Pin Number for PA10 */
+#define PORT_PA10              (_UL_(1) << 10) /**< \brief PORT Mask  for PA10 */
+#define PIN_PA11                           11  /**< \brief Pin Number for PA11 */
+#define PORT_PA11              (_UL_(1) << 11) /**< \brief PORT Mask  for PA11 */
+#define PIN_PA12                           12  /**< \brief Pin Number for PA12 */
+#define PORT_PA12              (_UL_(1) << 12) /**< \brief PORT Mask  for PA12 */
+#define PIN_PA13                           13  /**< \brief Pin Number for PA13 */
+#define PORT_PA13              (_UL_(1) << 13) /**< \brief PORT Mask  for PA13 */
+#define PIN_PA14                           14  /**< \brief Pin Number for PA14 */
+#define PORT_PA14              (_UL_(1) << 14) /**< \brief PORT Mask  for PA14 */
+#define PIN_PA15                           15  /**< \brief Pin Number for PA15 */
+#define PORT_PA15              (_UL_(1) << 15) /**< \brief PORT Mask  for PA15 */
+#define PIN_PA16                           16  /**< \brief Pin Number for PA16 */
+#define PORT_PA16              (_UL_(1) << 16) /**< \brief PORT Mask  for PA16 */
+#define PIN_PA17                           17  /**< \brief Pin Number for PA17 */
+#define PORT_PA17              (_UL_(1) << 17) /**< \brief PORT Mask  for PA17 */
+#define PIN_PA18                           18  /**< \brief Pin Number for PA18 */
+#define PORT_PA18              (_UL_(1) << 18) /**< \brief PORT Mask  for PA18 */
+#define PIN_PA19                           19  /**< \brief Pin Number for PA19 */
+#define PORT_PA19              (_UL_(1) << 19) /**< \brief PORT Mask  for PA19 */
+#define PIN_PA20                           20  /**< \brief Pin Number for PA20 */
+#define PORT_PA20              (_UL_(1) << 20) /**< \brief PORT Mask  for PA20 */
+#define PIN_PA21                           21  /**< \brief Pin Number for PA21 */
+#define PORT_PA21              (_UL_(1) << 21) /**< \brief PORT Mask  for PA21 */
+#define PIN_PA22                           22  /**< \brief Pin Number for PA22 */
+#define PORT_PA22              (_UL_(1) << 22) /**< \brief PORT Mask  for PA22 */
+#define PIN_PA23                           23  /**< \brief Pin Number for PA23 */
+#define PORT_PA23              (_UL_(1) << 23) /**< \brief PORT Mask  for PA23 */
+#define PIN_PA24                           24  /**< \brief Pin Number for PA24 */
+#define PORT_PA24              (_UL_(1) << 24) /**< \brief PORT Mask  for PA24 */
+#define PIN_PA25                           25  /**< \brief Pin Number for PA25 */
+#define PORT_PA25              (_UL_(1) << 25) /**< \brief PORT Mask  for PA25 */
+#define PIN_PA27                           27  /**< \brief Pin Number for PA27 */
+#define PORT_PA27              (_UL_(1) << 27) /**< \brief PORT Mask  for PA27 */
+#define PIN_PA30                           30  /**< \brief Pin Number for PA30 */
+#define PORT_PA30              (_UL_(1) << 30) /**< \brief PORT Mask  for PA30 */
+#define PIN_PA31                           31  /**< \brief Pin Number for PA31 */
+#define PORT_PA31              (_UL_(1) << 31) /**< \brief PORT Mask  for PA31 */
+#define PIN_PB00                           32  /**< \brief Pin Number for PB00 */
+#define PORT_PB00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PB00 */
+#define PIN_PB01                           33  /**< \brief Pin Number for PB01 */
+#define PORT_PB01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PB01 */
+#define PIN_PB02                           34  /**< \brief Pin Number for PB02 */
+#define PORT_PB02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PB02 */
+#define PIN_PB03                           35  /**< \brief Pin Number for PB03 */
+#define PORT_PB03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PB03 */
+#define PIN_PB04                           36  /**< \brief Pin Number for PB04 */
+#define PORT_PB04              (_UL_(1) <<  4) /**< \brief PORT Mask  for PB04 */
+#define PIN_PB05                           37  /**< \brief Pin Number for PB05 */
+#define PORT_PB05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PB05 */
+#define PIN_PB06                           38  /**< \brief Pin Number for PB06 */
+#define PORT_PB06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PB06 */
+#define PIN_PB07                           39  /**< \brief Pin Number for PB07 */
+#define PORT_PB07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PB07 */
+#define PIN_PB08                           40  /**< \brief Pin Number for PB08 */
+#define PORT_PB08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PB08 */
+#define PIN_PB09                           41  /**< \brief Pin Number for PB09 */
+#define PORT_PB09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PB09 */
+#define PIN_PB11                           43  /**< \brief Pin Number for PB11 */
+#define PORT_PB11              (_UL_(1) << 11) /**< \brief PORT Mask  for PB11 */
+#define PIN_PB12                           44  /**< \brief Pin Number for PB12 */
+#define PORT_PB12              (_UL_(1) << 12) /**< \brief PORT Mask  for PB12 */
+#define PIN_PB13                           45  /**< \brief Pin Number for PB13 */
+#define PORT_PB13              (_UL_(1) << 13) /**< \brief PORT Mask  for PB13 */
+#define PIN_PB14                           46  /**< \brief Pin Number for PB14 */
+#define PORT_PB14              (_UL_(1) << 14) /**< \brief PORT Mask  for PB14 */
+#define PIN_PB15                           47  /**< \brief Pin Number for PB15 */
+#define PORT_PB15              (_UL_(1) << 15) /**< \brief PORT Mask  for PB15 */
+#define PIN_PB16                           48  /**< \brief Pin Number for PB16 */
+#define PORT_PB16              (_UL_(1) << 16) /**< \brief PORT Mask  for PB16 */
+#define PIN_PB17                           49  /**< \brief Pin Number for PB17 */
+#define PORT_PB17              (_UL_(1) << 17) /**< \brief PORT Mask  for PB17 */
+#define PIN_PB18                           50  /**< \brief Pin Number for PB18 */
+#define PORT_PB18              (_UL_(1) << 18) /**< \brief PORT Mask  for PB18 */
+#define PIN_PB19                           51  /**< \brief Pin Number for PB19 */
+#define PORT_PB19              (_UL_(1) << 19) /**< \brief PORT Mask  for PB19 */
+#define PIN_PB20                           52  /**< \brief Pin Number for PB20 */
+#define PORT_PB20              (_UL_(1) << 20) /**< \brief PORT Mask  for PB20 */
+#define PIN_PB21                           53  /**< \brief Pin Number for PB21 */
+#define PORT_PB21              (_UL_(1) << 21) /**< \brief PORT Mask  for PB21 */
+#define PIN_PB22                           54  /**< \brief Pin Number for PB22 */
+#define PORT_PB22              (_UL_(1) << 22) /**< \brief PORT Mask  for PB22 */
+#define PIN_PB23                           55  /**< \brief Pin Number for PB23 */
+#define PORT_PB23              (_UL_(1) << 23) /**< \brief PORT Mask  for PB23 */
+#define PIN_PB24                           56  /**< \brief Pin Number for PB24 */
+#define PORT_PB24              (_UL_(1) << 24) /**< \brief PORT Mask  for PB24 */
+#define PIN_PB25                           57  /**< \brief Pin Number for PB25 */
+#define PORT_PB25              (_UL_(1) << 25) /**< \brief PORT Mask  for PB25 */
+#define PIN_PB30                           62  /**< \brief Pin Number for PB30 */
+#define PORT_PB30              (_UL_(1) << 30) /**< \brief PORT Mask  for PB30 */
+#define PIN_PB31                           63  /**< \brief Pin Number for PB31 */
+#define PORT_PB31              (_UL_(1) << 31) /**< \brief PORT Mask  for PB31 */
+#define PIN_PC00                           64  /**< \brief Pin Number for PC00 */
+#define PORT_PC00              (_UL_(1) <<  0) /**< \brief PORT Mask  for PC00 */
+#define PIN_PC01                           65  /**< \brief Pin Number for PC01 */
+#define PORT_PC01              (_UL_(1) <<  1) /**< \brief PORT Mask  for PC01 */
+#define PIN_PC02                           66  /**< \brief Pin Number for PC02 */
+#define PORT_PC02              (_UL_(1) <<  2) /**< \brief PORT Mask  for PC02 */
+#define PIN_PC03                           67  /**< \brief Pin Number for PC03 */
+#define PORT_PC03              (_UL_(1) <<  3) /**< \brief PORT Mask  for PC03 */
+#define PIN_PC05                           69  /**< \brief Pin Number for PC05 */
+#define PORT_PC05              (_UL_(1) <<  5) /**< \brief PORT Mask  for PC05 */
+#define PIN_PC06                           70  /**< \brief Pin Number for PC06 */
+#define PORT_PC06              (_UL_(1) <<  6) /**< \brief PORT Mask  for PC06 */
+#define PIN_PC07                           71  /**< \brief Pin Number for PC07 */
+#define PORT_PC07              (_UL_(1) <<  7) /**< \brief PORT Mask  for PC07 */
+#define PIN_PC08                           72  /**< \brief Pin Number for PC08 */
+#define PORT_PC08              (_UL_(1) <<  8) /**< \brief PORT Mask  for PC08 */
+#define PIN_PC09                           73  /**< \brief Pin Number for PC09 */
+#define PORT_PC09              (_UL_(1) <<  9) /**< \brief PORT Mask  for PC09 */
+#define PIN_PC10                           74  /**< \brief Pin Number for PC10 */
+#define PORT_PC10              (_UL_(1) << 10) /**< \brief PORT Mask  for PC10 */
+#define PIN_PC11                           75  /**< \brief Pin Number for PC11 */
+#define PORT_PC11              (_UL_(1) << 11) /**< \brief PORT Mask  for PC11 */
+#define PIN_PC12                           76  /**< \brief Pin Number for PC12 */
+#define PORT_PC12              (_UL_(1) << 12) /**< \brief PORT Mask  for PC12 */
+#define PIN_PC13                           77  /**< \brief Pin Number for PC13 */
+#define PORT_PC13              (_UL_(1) << 13) /**< \brief PORT Mask  for PC13 */
+#define PIN_PC14                           78  /**< \brief Pin Number for PC14 */
+#define PORT_PC14              (_UL_(1) << 14) /**< \brief PORT Mask  for PC14 */
+#define PIN_PC15                           79  /**< \brief Pin Number for PC15 */
+#define PORT_PC15              (_UL_(1) << 15) /**< \brief PORT Mask  for PC15 */
+#define PIN_PC16                           80  /**< \brief Pin Number for PC16 */
+#define PORT_PC16              (_UL_(1) << 16) /**< \brief PORT Mask  for PC16 */
+#define PIN_PC17                           81  /**< \brief Pin Number for PC17 */
+#define PORT_PC17              (_UL_(1) << 17) /**< \brief PORT Mask  for PC17 */
+#define PIN_PC18                           82  /**< \brief Pin Number for PC18 */
+#define PORT_PC18              (_UL_(1) << 18) /**< \brief PORT Mask  for PC18 */
+#define PIN_PC19                           83  /**< \brief Pin Number for PC19 */
+#define PORT_PC19              (_UL_(1) << 19) /**< \brief PORT Mask  for PC19 */
+#define PIN_PC20                           84  /**< \brief Pin Number for PC20 */
+#define PORT_PC20              (_UL_(1) << 20) /**< \brief PORT Mask  for PC20 */
+#define PIN_PC21                           85  /**< \brief Pin Number for PC21 */
+#define PORT_PC21              (_UL_(1) << 21) /**< \brief PORT Mask  for PC21 */
+#define PIN_PC24                           88  /**< \brief Pin Number for PC24 */
+#define PORT_PC24              (_UL_(1) << 24) /**< \brief PORT Mask  for PC24 */
+#define PIN_PC25                           89  /**< \brief Pin Number for PC25 */
+#define PORT_PC25              (_UL_(1) << 25) /**< \brief PORT Mask  for PC25 */
+#define PIN_PC26                           90  /**< \brief Pin Number for PC26 */
+#define PORT_PC26              (_UL_(1) << 26) /**< \brief PORT Mask  for PC26 */
+#define PIN_PC27                           91  /**< \brief Pin Number for PC27 */
+#define PORT_PC27              (_UL_(1) << 27) /**< \brief PORT Mask  for PC27 */
+#define PIN_PC28                           92  /**< \brief Pin Number for PC28 */
+#define PORT_PC28              (_UL_(1) << 28) /**< \brief PORT Mask  for PC28 */
+/* ========== PORT definition for SUPC peripheral ========== */
+#define PIN_PB01H_SUPC_OUT0            _L_(33) /**< \brief SUPC signal: OUT0 on PB01 mux H */
+#define MUX_PB01H_SUPC_OUT0             _L_(7)
+#define PINMUX_PB01H_SUPC_OUT0     ((PIN_PB01H_SUPC_OUT0 << 16) | MUX_PB01H_SUPC_OUT0)
+#define PORT_PB01H_SUPC_OUT0   (_UL_(1) <<  1)
+#define PIN_PB02H_SUPC_OUT1            _L_(34) /**< \brief SUPC signal: OUT1 on PB02 mux H */
+#define MUX_PB02H_SUPC_OUT1             _L_(7)
+#define PINMUX_PB02H_SUPC_OUT1     ((PIN_PB02H_SUPC_OUT1 << 16) | MUX_PB02H_SUPC_OUT1)
+#define PORT_PB02H_SUPC_OUT1   (_UL_(1) <<  2)
+#define PIN_PB00H_SUPC_PSOK            _L_(32) /**< \brief SUPC signal: PSOK on PB00 mux H */
+#define MUX_PB00H_SUPC_PSOK             _L_(7)
+#define PINMUX_PB00H_SUPC_PSOK     ((PIN_PB00H_SUPC_PSOK << 16) | MUX_PB00H_SUPC_PSOK)
+#define PORT_PB00H_SUPC_PSOK   (_UL_(1) <<  0)
+#define PIN_PB03H_SUPC_VBAT            _L_(35) /**< \brief SUPC signal: VBAT on PB03 mux H */
+#define MUX_PB03H_SUPC_VBAT             _L_(7)
+#define PINMUX_PB03H_SUPC_VBAT     ((PIN_PB03H_SUPC_VBAT << 16) | MUX_PB03H_SUPC_VBAT)
+#define PORT_PB03H_SUPC_VBAT   (_UL_(1) <<  3)
+/* ========== PORT definition for GCLK peripheral ========== */
+#define PIN_PB14H_GCLK_IO0             _L_(46) /**< \brief GCLK signal: IO0 on PB14 mux H */
+#define MUX_PB14H_GCLK_IO0              _L_(7)
+#define PINMUX_PB14H_GCLK_IO0      ((PIN_PB14H_GCLK_IO0 << 16) | MUX_PB14H_GCLK_IO0)
+#define PORT_PB14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PB22H_GCLK_IO0             _L_(54) /**< \brief GCLK signal: IO0 on PB22 mux H */
+#define MUX_PB22H_GCLK_IO0              _L_(7)
+#define PINMUX_PB22H_GCLK_IO0      ((PIN_PB22H_GCLK_IO0 << 16) | MUX_PB22H_GCLK_IO0)
+#define PORT_PB22H_GCLK_IO0    (_UL_(1) << 22)
+#define PIN_PA14H_GCLK_IO0             _L_(14) /**< \brief GCLK signal: IO0 on PA14 mux H */
+#define MUX_PA14H_GCLK_IO0              _L_(7)
+#define PINMUX_PA14H_GCLK_IO0      ((PIN_PA14H_GCLK_IO0 << 16) | MUX_PA14H_GCLK_IO0)
+#define PORT_PA14H_GCLK_IO0    (_UL_(1) << 14)
+#define PIN_PA27H_GCLK_IO0             _L_(27) /**< \brief GCLK signal: IO0 on PA27 mux H */
+#define MUX_PA27H_GCLK_IO0              _L_(7)
+#define PINMUX_PA27H_GCLK_IO0      ((PIN_PA27H_GCLK_IO0 << 16) | MUX_PA27H_GCLK_IO0)
+#define PORT_PA27H_GCLK_IO0    (_UL_(1) << 27)
+#define PIN_PA30H_GCLK_IO0             _L_(30) /**< \brief GCLK signal: IO0 on PA30 mux H */
+#define MUX_PA30H_GCLK_IO0              _L_(7)
+#define PINMUX_PA30H_GCLK_IO0      ((PIN_PA30H_GCLK_IO0 << 16) | MUX_PA30H_GCLK_IO0)
+#define PORT_PA30H_GCLK_IO0    (_UL_(1) << 30)
+#define PIN_PB15H_GCLK_IO1             _L_(47) /**< \brief GCLK signal: IO1 on PB15 mux H */
+#define MUX_PB15H_GCLK_IO1              _L_(7)
+#define PINMUX_PB15H_GCLK_IO1      ((PIN_PB15H_GCLK_IO1 << 16) | MUX_PB15H_GCLK_IO1)
+#define PORT_PB15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB23H_GCLK_IO1             _L_(55) /**< \brief GCLK signal: IO1 on PB23 mux H */
+#define MUX_PB23H_GCLK_IO1              _L_(7)
+#define PINMUX_PB23H_GCLK_IO1      ((PIN_PB23H_GCLK_IO1 << 16) | MUX_PB23H_GCLK_IO1)
+#define PORT_PB23H_GCLK_IO1    (_UL_(1) << 23)
+#define PIN_PA15H_GCLK_IO1             _L_(15) /**< \brief GCLK signal: IO1 on PA15 mux H */
+#define MUX_PA15H_GCLK_IO1              _L_(7)
+#define PINMUX_PA15H_GCLK_IO1      ((PIN_PA15H_GCLK_IO1 << 16) | MUX_PA15H_GCLK_IO1)
+#define PORT_PA15H_GCLK_IO1    (_UL_(1) << 15)
+#define PIN_PB16H_GCLK_IO2             _L_(48) /**< \brief GCLK signal: IO2 on PB16 mux H */
+#define MUX_PB16H_GCLK_IO2              _L_(7)
+#define PINMUX_PB16H_GCLK_IO2      ((PIN_PB16H_GCLK_IO2 << 16) | MUX_PB16H_GCLK_IO2)
+#define PORT_PB16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA16H_GCLK_IO2             _L_(16) /**< \brief GCLK signal: IO2 on PA16 mux H */
+#define MUX_PA16H_GCLK_IO2              _L_(7)
+#define PINMUX_PA16H_GCLK_IO2      ((PIN_PA16H_GCLK_IO2 << 16) | MUX_PA16H_GCLK_IO2)
+#define PORT_PA16H_GCLK_IO2    (_UL_(1) << 16)
+#define PIN_PA17H_GCLK_IO3             _L_(17) /**< \brief GCLK signal: IO3 on PA17 mux H */
+#define MUX_PA17H_GCLK_IO3              _L_(7)
+#define PINMUX_PA17H_GCLK_IO3      ((PIN_PA17H_GCLK_IO3 << 16) | MUX_PA17H_GCLK_IO3)
+#define PORT_PA17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PB17H_GCLK_IO3             _L_(49) /**< \brief GCLK signal: IO3 on PB17 mux H */
+#define MUX_PB17H_GCLK_IO3              _L_(7)
+#define PINMUX_PB17H_GCLK_IO3      ((PIN_PB17H_GCLK_IO3 << 16) | MUX_PB17H_GCLK_IO3)
+#define PORT_PB17H_GCLK_IO3    (_UL_(1) << 17)
+#define PIN_PA10H_GCLK_IO4             _L_(10) /**< \brief GCLK signal: IO4 on PA10 mux H */
+#define MUX_PA10H_GCLK_IO4              _L_(7)
+#define PINMUX_PA10H_GCLK_IO4      ((PIN_PA10H_GCLK_IO4 << 16) | MUX_PA10H_GCLK_IO4)
+#define PORT_PA10H_GCLK_IO4    (_UL_(1) << 10)
+#define PIN_PA20H_GCLK_IO4             _L_(20) /**< \brief GCLK signal: IO4 on PA20 mux H */
+#define MUX_PA20H_GCLK_IO4              _L_(7)
+#define PINMUX_PA20H_GCLK_IO4      ((PIN_PA20H_GCLK_IO4 << 16) | MUX_PA20H_GCLK_IO4)
+#define PORT_PA20H_GCLK_IO4    (_UL_(1) << 20)
+/* ========== PORT definition for RTC peripheral ========== */
+#define PIN_PB00G_RTC_IN0              _L_(32) /**< \brief RTC signal: IN0 on PB00 mux G */
+#define MUX_PB00G_RTC_IN0               _L_(6)
+#define PINMUX_PB00G_RTC_IN0       ((PIN_PB00G_RTC_IN0 << 16) | MUX_PB00G_RTC_IN0)
+#define PORT_PB00G_RTC_IN0     (_UL_(1) <<  0)
+#define PIN_PB02G_RTC_IN1              _L_(34) /**< \brief RTC signal: IN1 on PB02 mux G */
+#define MUX_PB02G_RTC_IN1               _L_(6)
+#define PINMUX_PB02G_RTC_IN1       ((PIN_PB02G_RTC_IN1 << 16) | MUX_PB02G_RTC_IN1)
+#define PORT_PB02G_RTC_IN1     (_UL_(1) <<  2)
+#define PIN_PA02G_RTC_IN2               _L_(2) /**< \brief RTC signal: IN2 on PA02 mux G */
+#define MUX_PA02G_RTC_IN2               _L_(6)
+#define PINMUX_PA02G_RTC_IN2       ((PIN_PA02G_RTC_IN2 << 16) | MUX_PA02G_RTC_IN2)
+#define PORT_PA02G_RTC_IN2     (_UL_(1) <<  2)
+#define PIN_PB01F_RTC_IN2              _L_(33) /**< \brief RTC signal: IN2 on PB01 mux F */
+#define MUX_PB01F_RTC_IN2               _L_(5)
+#define PINMUX_PB01F_RTC_IN2       ((PIN_PB01F_RTC_IN2 << 16) | MUX_PB01F_RTC_IN2)
+#define PORT_PB01F_RTC_IN2     (_UL_(1) <<  1)
+#define PIN_PC00G_RTC_IN3              _L_(64) /**< \brief RTC signal: IN3 on PC00 mux G */
+#define MUX_PC00G_RTC_IN3               _L_(6)
+#define PINMUX_PC00G_RTC_IN3       ((PIN_PC00G_RTC_IN3 << 16) | MUX_PC00G_RTC_IN3)
+#define PORT_PC00G_RTC_IN3     (_UL_(1) <<  0)
+#define PIN_PC01G_RTC_IN4              _L_(65) /**< \brief RTC signal: IN4 on PC01 mux G */
+#define MUX_PC01G_RTC_IN4               _L_(6)
+#define PINMUX_PC01G_RTC_IN4       ((PIN_PC01G_RTC_IN4 << 16) | MUX_PC01G_RTC_IN4)
+#define PORT_PC01G_RTC_IN4     (_UL_(1) <<  1)
+#define PIN_PB01G_RTC_OUT              _L_(33) /**< \brief RTC signal: OUT on PB01 mux G */
+#define MUX_PB01G_RTC_OUT               _L_(6)
+#define PINMUX_PB01G_RTC_OUT       ((PIN_PB01G_RTC_OUT << 16) | MUX_PB01G_RTC_OUT)
+#define PORT_PB01G_RTC_OUT     (_UL_(1) <<  1)
+/* ========== PORT definition for EIC peripheral ========== */
+#define PIN_PA16A_EIC_EXTINT0          _L_(16) /**< \brief EIC signal: EXTINT0 on PA16 mux A */
+#define MUX_PA16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA16A_EIC_EXTINT0   ((PIN_PA16A_EIC_EXTINT0 << 16) | MUX_PA16A_EIC_EXTINT0)
+#define PORT_PA16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PA16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA16 External Interrupt Line */
+#define PIN_PB00A_EIC_EXTINT0          _L_(32) /**< \brief EIC signal: EXTINT0 on PB00 mux A */
+#define MUX_PB00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB00A_EIC_EXTINT0   ((PIN_PB00A_EIC_EXTINT0 << 16) | MUX_PB00A_EIC_EXTINT0)
+#define PORT_PB00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PB00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB00 External Interrupt Line */
+#define PIN_PB16A_EIC_EXTINT0          _L_(48) /**< \brief EIC signal: EXTINT0 on PB16 mux A */
+#define MUX_PB16A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PB16A_EIC_EXTINT0   ((PIN_PB16A_EIC_EXTINT0 << 16) | MUX_PB16A_EIC_EXTINT0)
+#define PORT_PB16A_EIC_EXTINT0  (_UL_(1) << 16)
+#define PIN_PB16A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PB16 External Interrupt Line */
+#define PIN_PC08A_EIC_EXTINT0          _L_(72) /**< \brief EIC signal: EXTINT0 on PC08 mux A */
+#define MUX_PC08A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC08A_EIC_EXTINT0   ((PIN_PC08A_EIC_EXTINT0 << 16) | MUX_PC08A_EIC_EXTINT0)
+#define PORT_PC08A_EIC_EXTINT0  (_UL_(1) <<  8)
+#define PIN_PC08A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC08 External Interrupt Line */
+#define PIN_PC24A_EIC_EXTINT0          _L_(88) /**< \brief EIC signal: EXTINT0 on PC24 mux A */
+#define MUX_PC24A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PC24A_EIC_EXTINT0   ((PIN_PC24A_EIC_EXTINT0 << 16) | MUX_PC24A_EIC_EXTINT0)
+#define PORT_PC24A_EIC_EXTINT0  (_UL_(1) << 24)
+#define PIN_PC24A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PC24 External Interrupt Line */
+#define PIN_PA00A_EIC_EXTINT0           _L_(0) /**< \brief EIC signal: EXTINT0 on PA00 mux A */
+#define MUX_PA00A_EIC_EXTINT0           _L_(0)
+#define PINMUX_PA00A_EIC_EXTINT0   ((PIN_PA00A_EIC_EXTINT0 << 16) | MUX_PA00A_EIC_EXTINT0)
+#define PORT_PA00A_EIC_EXTINT0  (_UL_(1) <<  0)
+#define PIN_PA00A_EIC_EXTINT_NUM        _L_(0) /**< \brief EIC signal: PIN_PA00 External Interrupt Line */
+#define PIN_PA17A_EIC_EXTINT1          _L_(17) /**< \brief EIC signal: EXTINT1 on PA17 mux A */
+#define MUX_PA17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA17A_EIC_EXTINT1   ((PIN_PA17A_EIC_EXTINT1 << 16) | MUX_PA17A_EIC_EXTINT1)
+#define PORT_PA17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PA17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA17 External Interrupt Line */
+#define PIN_PB01A_EIC_EXTINT1          _L_(33) /**< \brief EIC signal: EXTINT1 on PB01 mux A */
+#define MUX_PB01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB01A_EIC_EXTINT1   ((PIN_PB01A_EIC_EXTINT1 << 16) | MUX_PB01A_EIC_EXTINT1)
+#define PORT_PB01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PB01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB01 External Interrupt Line */
+#define PIN_PB17A_EIC_EXTINT1          _L_(49) /**< \brief EIC signal: EXTINT1 on PB17 mux A */
+#define MUX_PB17A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PB17A_EIC_EXTINT1   ((PIN_PB17A_EIC_EXTINT1 << 16) | MUX_PB17A_EIC_EXTINT1)
+#define PORT_PB17A_EIC_EXTINT1  (_UL_(1) << 17)
+#define PIN_PB17A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PB17 External Interrupt Line */
+#define PIN_PC09A_EIC_EXTINT1          _L_(73) /**< \brief EIC signal: EXTINT1 on PC09 mux A */
+#define MUX_PC09A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC09A_EIC_EXTINT1   ((PIN_PC09A_EIC_EXTINT1 << 16) | MUX_PC09A_EIC_EXTINT1)
+#define PORT_PC09A_EIC_EXTINT1  (_UL_(1) <<  9)
+#define PIN_PC09A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC09 External Interrupt Line */
+#define PIN_PC25A_EIC_EXTINT1          _L_(89) /**< \brief EIC signal: EXTINT1 on PC25 mux A */
+#define MUX_PC25A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PC25A_EIC_EXTINT1   ((PIN_PC25A_EIC_EXTINT1 << 16) | MUX_PC25A_EIC_EXTINT1)
+#define PORT_PC25A_EIC_EXTINT1  (_UL_(1) << 25)
+#define PIN_PC25A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PC25 External Interrupt Line */
+#define PIN_PA01A_EIC_EXTINT1           _L_(1) /**< \brief EIC signal: EXTINT1 on PA01 mux A */
+#define MUX_PA01A_EIC_EXTINT1           _L_(0)
+#define PINMUX_PA01A_EIC_EXTINT1   ((PIN_PA01A_EIC_EXTINT1 << 16) | MUX_PA01A_EIC_EXTINT1)
+#define PORT_PA01A_EIC_EXTINT1  (_UL_(1) <<  1)
+#define PIN_PA01A_EIC_EXTINT_NUM        _L_(1) /**< \brief EIC signal: PIN_PA01 External Interrupt Line */
+#define PIN_PA02A_EIC_EXTINT2           _L_(2) /**< \brief EIC signal: EXTINT2 on PA02 mux A */
+#define MUX_PA02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA02A_EIC_EXTINT2   ((PIN_PA02A_EIC_EXTINT2 << 16) | MUX_PA02A_EIC_EXTINT2)
+#define PORT_PA02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PA02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA02 External Interrupt Line */
+#define PIN_PA18A_EIC_EXTINT2          _L_(18) /**< \brief EIC signal: EXTINT2 on PA18 mux A */
+#define MUX_PA18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PA18A_EIC_EXTINT2   ((PIN_PA18A_EIC_EXTINT2 << 16) | MUX_PA18A_EIC_EXTINT2)
+#define PORT_PA18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PA18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PA18 External Interrupt Line */
+#define PIN_PB02A_EIC_EXTINT2          _L_(34) /**< \brief EIC signal: EXTINT2 on PB02 mux A */
+#define MUX_PB02A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB02A_EIC_EXTINT2   ((PIN_PB02A_EIC_EXTINT2 << 16) | MUX_PB02A_EIC_EXTINT2)
+#define PORT_PB02A_EIC_EXTINT2  (_UL_(1) <<  2)
+#define PIN_PB02A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB02 External Interrupt Line */
+#define PIN_PB18A_EIC_EXTINT2          _L_(50) /**< \brief EIC signal: EXTINT2 on PB18 mux A */
+#define MUX_PB18A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PB18A_EIC_EXTINT2   ((PIN_PB18A_EIC_EXTINT2 << 16) | MUX_PB18A_EIC_EXTINT2)
+#define PORT_PB18A_EIC_EXTINT2  (_UL_(1) << 18)
+#define PIN_PB18A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PB18 External Interrupt Line */
+#define PIN_PC10A_EIC_EXTINT2          _L_(74) /**< \brief EIC signal: EXTINT2 on PC10 mux A */
+#define MUX_PC10A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC10A_EIC_EXTINT2   ((PIN_PC10A_EIC_EXTINT2 << 16) | MUX_PC10A_EIC_EXTINT2)
+#define PORT_PC10A_EIC_EXTINT2  (_UL_(1) << 10)
+#define PIN_PC10A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC10 External Interrupt Line */
+#define PIN_PC26A_EIC_EXTINT2          _L_(90) /**< \brief EIC signal: EXTINT2 on PC26 mux A */
+#define MUX_PC26A_EIC_EXTINT2           _L_(0)
+#define PINMUX_PC26A_EIC_EXTINT2   ((PIN_PC26A_EIC_EXTINT2 << 16) | MUX_PC26A_EIC_EXTINT2)
+#define PORT_PC26A_EIC_EXTINT2  (_UL_(1) << 26)
+#define PIN_PC26A_EIC_EXTINT_NUM        _L_(2) /**< \brief EIC signal: PIN_PC26 External Interrupt Line */
+#define PIN_PA03A_EIC_EXTINT3           _L_(3) /**< \brief EIC signal: EXTINT3 on PA03 mux A */
+#define MUX_PA03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA03A_EIC_EXTINT3   ((PIN_PA03A_EIC_EXTINT3 << 16) | MUX_PA03A_EIC_EXTINT3)
+#define PORT_PA03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PA03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA03 External Interrupt Line */
+#define PIN_PA19A_EIC_EXTINT3          _L_(19) /**< \brief EIC signal: EXTINT3 on PA19 mux A */
+#define MUX_PA19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PA19A_EIC_EXTINT3   ((PIN_PA19A_EIC_EXTINT3 << 16) | MUX_PA19A_EIC_EXTINT3)
+#define PORT_PA19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PA19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PA19 External Interrupt Line */
+#define PIN_PB03A_EIC_EXTINT3          _L_(35) /**< \brief EIC signal: EXTINT3 on PB03 mux A */
+#define MUX_PB03A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB03A_EIC_EXTINT3   ((PIN_PB03A_EIC_EXTINT3 << 16) | MUX_PB03A_EIC_EXTINT3)
+#define PORT_PB03A_EIC_EXTINT3  (_UL_(1) <<  3)
+#define PIN_PB03A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB03 External Interrupt Line */
+#define PIN_PB19A_EIC_EXTINT3          _L_(51) /**< \brief EIC signal: EXTINT3 on PB19 mux A */
+#define MUX_PB19A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PB19A_EIC_EXTINT3   ((PIN_PB19A_EIC_EXTINT3 << 16) | MUX_PB19A_EIC_EXTINT3)
+#define PORT_PB19A_EIC_EXTINT3  (_UL_(1) << 19)
+#define PIN_PB19A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PB19 External Interrupt Line */
+#define PIN_PC11A_EIC_EXTINT3          _L_(75) /**< \brief EIC signal: EXTINT3 on PC11 mux A */
+#define MUX_PC11A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC11A_EIC_EXTINT3   ((PIN_PC11A_EIC_EXTINT3 << 16) | MUX_PC11A_EIC_EXTINT3)
+#define PORT_PC11A_EIC_EXTINT3  (_UL_(1) << 11)
+#define PIN_PC11A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC11 External Interrupt Line */
+#define PIN_PC27A_EIC_EXTINT3          _L_(91) /**< \brief EIC signal: EXTINT3 on PC27 mux A */
+#define MUX_PC27A_EIC_EXTINT3           _L_(0)
+#define PINMUX_PC27A_EIC_EXTINT3   ((PIN_PC27A_EIC_EXTINT3 << 16) | MUX_PC27A_EIC_EXTINT3)
+#define PORT_PC27A_EIC_EXTINT3  (_UL_(1) << 27)
+#define PIN_PC27A_EIC_EXTINT_NUM        _L_(3) /**< \brief EIC signal: PIN_PC27 External Interrupt Line */
+#define PIN_PA04A_EIC_EXTINT4           _L_(4) /**< \brief EIC signal: EXTINT4 on PA04 mux A */
+#define MUX_PA04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA04A_EIC_EXTINT4   ((PIN_PA04A_EIC_EXTINT4 << 16) | MUX_PA04A_EIC_EXTINT4)
+#define PORT_PA04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PA04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA04 External Interrupt Line */
+#define PIN_PA20A_EIC_EXTINT4          _L_(20) /**< \brief EIC signal: EXTINT4 on PA20 mux A */
+#define MUX_PA20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PA20A_EIC_EXTINT4   ((PIN_PA20A_EIC_EXTINT4 << 16) | MUX_PA20A_EIC_EXTINT4)
+#define PORT_PA20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PA20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PA20 External Interrupt Line */
+#define PIN_PB04A_EIC_EXTINT4          _L_(36) /**< \brief EIC signal: EXTINT4 on PB04 mux A */
+#define MUX_PB04A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB04A_EIC_EXTINT4   ((PIN_PB04A_EIC_EXTINT4 << 16) | MUX_PB04A_EIC_EXTINT4)
+#define PORT_PB04A_EIC_EXTINT4  (_UL_(1) <<  4)
+#define PIN_PB04A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB04 External Interrupt Line */
+#define PIN_PB20A_EIC_EXTINT4          _L_(52) /**< \brief EIC signal: EXTINT4 on PB20 mux A */
+#define MUX_PB20A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PB20A_EIC_EXTINT4   ((PIN_PB20A_EIC_EXTINT4 << 16) | MUX_PB20A_EIC_EXTINT4)
+#define PORT_PB20A_EIC_EXTINT4  (_UL_(1) << 20)
+#define PIN_PB20A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PB20 External Interrupt Line */
+#define PIN_PC12A_EIC_EXTINT4          _L_(76) /**< \brief EIC signal: EXTINT4 on PC12 mux A */
+#define MUX_PC12A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC12A_EIC_EXTINT4   ((PIN_PC12A_EIC_EXTINT4 << 16) | MUX_PC12A_EIC_EXTINT4)
+#define PORT_PC12A_EIC_EXTINT4  (_UL_(1) << 12)
+#define PIN_PC12A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC12 External Interrupt Line */
+#define PIN_PC28A_EIC_EXTINT4          _L_(92) /**< \brief EIC signal: EXTINT4 on PC28 mux A */
+#define MUX_PC28A_EIC_EXTINT4           _L_(0)
+#define PINMUX_PC28A_EIC_EXTINT4   ((PIN_PC28A_EIC_EXTINT4 << 16) | MUX_PC28A_EIC_EXTINT4)
+#define PORT_PC28A_EIC_EXTINT4  (_UL_(1) << 28)
+#define PIN_PC28A_EIC_EXTINT_NUM        _L_(4) /**< \brief EIC signal: PIN_PC28 External Interrupt Line */
+#define PIN_PA05A_EIC_EXTINT5           _L_(5) /**< \brief EIC signal: EXTINT5 on PA05 mux A */
+#define MUX_PA05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA05A_EIC_EXTINT5   ((PIN_PA05A_EIC_EXTINT5 << 16) | MUX_PA05A_EIC_EXTINT5)
+#define PORT_PA05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PA05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA05 External Interrupt Line */
+#define PIN_PA21A_EIC_EXTINT5          _L_(21) /**< \brief EIC signal: EXTINT5 on PA21 mux A */
+#define MUX_PA21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PA21A_EIC_EXTINT5   ((PIN_PA21A_EIC_EXTINT5 << 16) | MUX_PA21A_EIC_EXTINT5)
+#define PORT_PA21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PA21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PA21 External Interrupt Line */
+#define PIN_PB05A_EIC_EXTINT5          _L_(37) /**< \brief EIC signal: EXTINT5 on PB05 mux A */
+#define MUX_PB05A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB05A_EIC_EXTINT5   ((PIN_PB05A_EIC_EXTINT5 << 16) | MUX_PB05A_EIC_EXTINT5)
+#define PORT_PB05A_EIC_EXTINT5  (_UL_(1) <<  5)
+#define PIN_PB05A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB05 External Interrupt Line */
+#define PIN_PB21A_EIC_EXTINT5          _L_(53) /**< \brief EIC signal: EXTINT5 on PB21 mux A */
+#define MUX_PB21A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PB21A_EIC_EXTINT5   ((PIN_PB21A_EIC_EXTINT5 << 16) | MUX_PB21A_EIC_EXTINT5)
+#define PORT_PB21A_EIC_EXTINT5  (_UL_(1) << 21)
+#define PIN_PB21A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PB21 External Interrupt Line */
+#define PIN_PC13A_EIC_EXTINT5          _L_(77) /**< \brief EIC signal: EXTINT5 on PC13 mux A */
+#define MUX_PC13A_EIC_EXTINT5           _L_(0)
+#define PINMUX_PC13A_EIC_EXTINT5   ((PIN_PC13A_EIC_EXTINT5 << 16) | MUX_PC13A_EIC_EXTINT5)
+#define PORT_PC13A_EIC_EXTINT5  (_UL_(1) << 13)
+#define PIN_PC13A_EIC_EXTINT_NUM        _L_(5) /**< \brief EIC signal: PIN_PC13 External Interrupt Line */
+#define PIN_PA06A_EIC_EXTINT6           _L_(6) /**< \brief EIC signal: EXTINT6 on PA06 mux A */
+#define MUX_PA06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA06A_EIC_EXTINT6   ((PIN_PA06A_EIC_EXTINT6 << 16) | MUX_PA06A_EIC_EXTINT6)
+#define PORT_PA06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PA06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA06 External Interrupt Line */
+#define PIN_PA22A_EIC_EXTINT6          _L_(22) /**< \brief EIC signal: EXTINT6 on PA22 mux A */
+#define MUX_PA22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PA22A_EIC_EXTINT6   ((PIN_PA22A_EIC_EXTINT6 << 16) | MUX_PA22A_EIC_EXTINT6)
+#define PORT_PA22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PA22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PA22 External Interrupt Line */
+#define PIN_PB06A_EIC_EXTINT6          _L_(38) /**< \brief EIC signal: EXTINT6 on PB06 mux A */
+#define MUX_PB06A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB06A_EIC_EXTINT6   ((PIN_PB06A_EIC_EXTINT6 << 16) | MUX_PB06A_EIC_EXTINT6)
+#define PORT_PB06A_EIC_EXTINT6  (_UL_(1) <<  6)
+#define PIN_PB06A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB06 External Interrupt Line */
+#define PIN_PB22A_EIC_EXTINT6          _L_(54) /**< \brief EIC signal: EXTINT6 on PB22 mux A */
+#define MUX_PB22A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PB22A_EIC_EXTINT6   ((PIN_PB22A_EIC_EXTINT6 << 16) | MUX_PB22A_EIC_EXTINT6)
+#define PORT_PB22A_EIC_EXTINT6  (_UL_(1) << 22)
+#define PIN_PB22A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PB22 External Interrupt Line */
+#define PIN_PC14A_EIC_EXTINT6          _L_(78) /**< \brief EIC signal: EXTINT6 on PC14 mux A */
+#define MUX_PC14A_EIC_EXTINT6           _L_(0)
+#define PINMUX_PC14A_EIC_EXTINT6   ((PIN_PC14A_EIC_EXTINT6 << 16) | MUX_PC14A_EIC_EXTINT6)
+#define PORT_PC14A_EIC_EXTINT6  (_UL_(1) << 14)
+#define PIN_PC14A_EIC_EXTINT_NUM        _L_(6) /**< \brief EIC signal: PIN_PC14 External Interrupt Line */
+#define PIN_PA07A_EIC_EXTINT7           _L_(7) /**< \brief EIC signal: EXTINT7 on PA07 mux A */
+#define MUX_PA07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA07A_EIC_EXTINT7   ((PIN_PA07A_EIC_EXTINT7 << 16) | MUX_PA07A_EIC_EXTINT7)
+#define PORT_PA07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PA07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA07 External Interrupt Line */
+#define PIN_PA23A_EIC_EXTINT7          _L_(23) /**< \brief EIC signal: EXTINT7 on PA23 mux A */
+#define MUX_PA23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PA23A_EIC_EXTINT7   ((PIN_PA23A_EIC_EXTINT7 << 16) | MUX_PA23A_EIC_EXTINT7)
+#define PORT_PA23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PA23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PA23 External Interrupt Line */
+#define PIN_PB07A_EIC_EXTINT7          _L_(39) /**< \brief EIC signal: EXTINT7 on PB07 mux A */
+#define MUX_PB07A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB07A_EIC_EXTINT7   ((PIN_PB07A_EIC_EXTINT7 << 16) | MUX_PB07A_EIC_EXTINT7)
+#define PORT_PB07A_EIC_EXTINT7  (_UL_(1) <<  7)
+#define PIN_PB07A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB07 External Interrupt Line */
+#define PIN_PB23A_EIC_EXTINT7          _L_(55) /**< \brief EIC signal: EXTINT7 on PB23 mux A */
+#define MUX_PB23A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PB23A_EIC_EXTINT7   ((PIN_PB23A_EIC_EXTINT7 << 16) | MUX_PB23A_EIC_EXTINT7)
+#define PORT_PB23A_EIC_EXTINT7  (_UL_(1) << 23)
+#define PIN_PB23A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PB23 External Interrupt Line */
+#define PIN_PC15A_EIC_EXTINT7          _L_(79) /**< \brief EIC signal: EXTINT7 on PC15 mux A */
+#define MUX_PC15A_EIC_EXTINT7           _L_(0)
+#define PINMUX_PC15A_EIC_EXTINT7   ((PIN_PC15A_EIC_EXTINT7 << 16) | MUX_PC15A_EIC_EXTINT7)
+#define PORT_PC15A_EIC_EXTINT7  (_UL_(1) << 15)
+#define PIN_PC15A_EIC_EXTINT_NUM        _L_(7) /**< \brief EIC signal: PIN_PC15 External Interrupt Line */
+#define PIN_PB08A_EIC_EXTINT8          _L_(40) /**< \brief EIC signal: EXTINT8 on PB08 mux A */
+#define MUX_PB08A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB08A_EIC_EXTINT8   ((PIN_PB08A_EIC_EXTINT8 << 16) | MUX_PB08A_EIC_EXTINT8)
+#define PORT_PB08A_EIC_EXTINT8  (_UL_(1) <<  8)
+#define PIN_PB08A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB08 External Interrupt Line */
+#define PIN_PB24A_EIC_EXTINT8          _L_(56) /**< \brief EIC signal: EXTINT8 on PB24 mux A */
+#define MUX_PB24A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PB24A_EIC_EXTINT8   ((PIN_PB24A_EIC_EXTINT8 << 16) | MUX_PB24A_EIC_EXTINT8)
+#define PORT_PB24A_EIC_EXTINT8  (_UL_(1) << 24)
+#define PIN_PB24A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PB24 External Interrupt Line */
+#define PIN_PC00A_EIC_EXTINT8          _L_(64) /**< \brief EIC signal: EXTINT8 on PC00 mux A */
+#define MUX_PC00A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC00A_EIC_EXTINT8   ((PIN_PC00A_EIC_EXTINT8 << 16) | MUX_PC00A_EIC_EXTINT8)
+#define PORT_PC00A_EIC_EXTINT8  (_UL_(1) <<  0)
+#define PIN_PC00A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC00 External Interrupt Line */
+#define PIN_PC16A_EIC_EXTINT8          _L_(80) /**< \brief EIC signal: EXTINT8 on PC16 mux A */
+#define MUX_PC16A_EIC_EXTINT8           _L_(0)
+#define PINMUX_PC16A_EIC_EXTINT8   ((PIN_PC16A_EIC_EXTINT8 << 16) | MUX_PC16A_EIC_EXTINT8)
+#define PORT_PC16A_EIC_EXTINT8  (_UL_(1) << 16)
+#define PIN_PC16A_EIC_EXTINT_NUM        _L_(8) /**< \brief EIC signal: PIN_PC16 External Interrupt Line */
+#define PIN_PA09A_EIC_EXTINT9           _L_(9) /**< \brief EIC signal: EXTINT9 on PA09 mux A */
+#define MUX_PA09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PA09A_EIC_EXTINT9   ((PIN_PA09A_EIC_EXTINT9 << 16) | MUX_PA09A_EIC_EXTINT9)
+#define PORT_PA09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PA09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PA09 External Interrupt Line */
+#define PIN_PB09A_EIC_EXTINT9          _L_(41) /**< \brief EIC signal: EXTINT9 on PB09 mux A */
+#define MUX_PB09A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB09A_EIC_EXTINT9   ((PIN_PB09A_EIC_EXTINT9 << 16) | MUX_PB09A_EIC_EXTINT9)
+#define PORT_PB09A_EIC_EXTINT9  (_UL_(1) <<  9)
+#define PIN_PB09A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB09 External Interrupt Line */
+#define PIN_PB25A_EIC_EXTINT9          _L_(57) /**< \brief EIC signal: EXTINT9 on PB25 mux A */
+#define MUX_PB25A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PB25A_EIC_EXTINT9   ((PIN_PB25A_EIC_EXTINT9 << 16) | MUX_PB25A_EIC_EXTINT9)
+#define PORT_PB25A_EIC_EXTINT9  (_UL_(1) << 25)
+#define PIN_PB25A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PB25 External Interrupt Line */
+#define PIN_PC01A_EIC_EXTINT9          _L_(65) /**< \brief EIC signal: EXTINT9 on PC01 mux A */
+#define MUX_PC01A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC01A_EIC_EXTINT9   ((PIN_PC01A_EIC_EXTINT9 << 16) | MUX_PC01A_EIC_EXTINT9)
+#define PORT_PC01A_EIC_EXTINT9  (_UL_(1) <<  1)
+#define PIN_PC01A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC01 External Interrupt Line */
+#define PIN_PC17A_EIC_EXTINT9          _L_(81) /**< \brief EIC signal: EXTINT9 on PC17 mux A */
+#define MUX_PC17A_EIC_EXTINT9           _L_(0)
+#define PINMUX_PC17A_EIC_EXTINT9   ((PIN_PC17A_EIC_EXTINT9 << 16) | MUX_PC17A_EIC_EXTINT9)
+#define PORT_PC17A_EIC_EXTINT9  (_UL_(1) << 17)
+#define PIN_PC17A_EIC_EXTINT_NUM        _L_(9) /**< \brief EIC signal: PIN_PC17 External Interrupt Line */
+#define PIN_PA10A_EIC_EXTINT10         _L_(10) /**< \brief EIC signal: EXTINT10 on PA10 mux A */
+#define MUX_PA10A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA10A_EIC_EXTINT10  ((PIN_PA10A_EIC_EXTINT10 << 16) | MUX_PA10A_EIC_EXTINT10)
+#define PORT_PA10A_EIC_EXTINT10  (_UL_(1) << 10)
+#define PIN_PA10A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA10 External Interrupt Line */
+#define PIN_PA30A_EIC_EXTINT10         _L_(30) /**< \brief EIC signal: EXTINT10 on PA30 mux A */
+#define MUX_PA30A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PA30A_EIC_EXTINT10  ((PIN_PA30A_EIC_EXTINT10 << 16) | MUX_PA30A_EIC_EXTINT10)
+#define PORT_PA30A_EIC_EXTINT10  (_UL_(1) << 30)
+#define PIN_PA30A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PA30 External Interrupt Line */
+#define PIN_PC02A_EIC_EXTINT10         _L_(66) /**< \brief EIC signal: EXTINT10 on PC02 mux A */
+#define MUX_PC02A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC02A_EIC_EXTINT10  ((PIN_PC02A_EIC_EXTINT10 << 16) | MUX_PC02A_EIC_EXTINT10)
+#define PORT_PC02A_EIC_EXTINT10  (_UL_(1) <<  2)
+#define PIN_PC02A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC02 External Interrupt Line */
+#define PIN_PC18A_EIC_EXTINT10         _L_(82) /**< \brief EIC signal: EXTINT10 on PC18 mux A */
+#define MUX_PC18A_EIC_EXTINT10          _L_(0)
+#define PINMUX_PC18A_EIC_EXTINT10  ((PIN_PC18A_EIC_EXTINT10 << 16) | MUX_PC18A_EIC_EXTINT10)
+#define PORT_PC18A_EIC_EXTINT10  (_UL_(1) << 18)
+#define PIN_PC18A_EIC_EXTINT_NUM       _L_(10) /**< \brief EIC signal: PIN_PC18 External Interrupt Line */
+#define PIN_PA11A_EIC_EXTINT11         _L_(11) /**< \brief EIC signal: EXTINT11 on PA11 mux A */
+#define MUX_PA11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA11A_EIC_EXTINT11  ((PIN_PA11A_EIC_EXTINT11 << 16) | MUX_PA11A_EIC_EXTINT11)
+#define PORT_PA11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PA11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA11 External Interrupt Line */
+#define PIN_PA31A_EIC_EXTINT11         _L_(31) /**< \brief EIC signal: EXTINT11 on PA31 mux A */
+#define MUX_PA31A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PA31A_EIC_EXTINT11  ((PIN_PA31A_EIC_EXTINT11 << 16) | MUX_PA31A_EIC_EXTINT11)
+#define PORT_PA31A_EIC_EXTINT11  (_UL_(1) << 31)
+#define PIN_PA31A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PA31 External Interrupt Line */
+#define PIN_PB11A_EIC_EXTINT11         _L_(43) /**< \brief EIC signal: EXTINT11 on PB11 mux A */
+#define MUX_PB11A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PB11A_EIC_EXTINT11  ((PIN_PB11A_EIC_EXTINT11 << 16) | MUX_PB11A_EIC_EXTINT11)
+#define PORT_PB11A_EIC_EXTINT11  (_UL_(1) << 11)
+#define PIN_PB11A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PB11 External Interrupt Line */
+#define PIN_PC03A_EIC_EXTINT11         _L_(67) /**< \brief EIC signal: EXTINT11 on PC03 mux A */
+#define MUX_PC03A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC03A_EIC_EXTINT11  ((PIN_PC03A_EIC_EXTINT11 << 16) | MUX_PC03A_EIC_EXTINT11)
+#define PORT_PC03A_EIC_EXTINT11  (_UL_(1) <<  3)
+#define PIN_PC03A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC03 External Interrupt Line */
+#define PIN_PC19A_EIC_EXTINT11         _L_(83) /**< \brief EIC signal: EXTINT11 on PC19 mux A */
+#define MUX_PC19A_EIC_EXTINT11          _L_(0)
+#define PINMUX_PC19A_EIC_EXTINT11  ((PIN_PC19A_EIC_EXTINT11 << 16) | MUX_PC19A_EIC_EXTINT11)
+#define PORT_PC19A_EIC_EXTINT11  (_UL_(1) << 19)
+#define PIN_PC19A_EIC_EXTINT_NUM       _L_(11) /**< \brief EIC signal: PIN_PC19 External Interrupt Line */
+#define PIN_PA12A_EIC_EXTINT12         _L_(12) /**< \brief EIC signal: EXTINT12 on PA12 mux A */
+#define MUX_PA12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA12A_EIC_EXTINT12  ((PIN_PA12A_EIC_EXTINT12 << 16) | MUX_PA12A_EIC_EXTINT12)
+#define PORT_PA12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PA12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA12 External Interrupt Line */
+#define PIN_PA24A_EIC_EXTINT12         _L_(24) /**< \brief EIC signal: EXTINT12 on PA24 mux A */
+#define MUX_PA24A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PA24A_EIC_EXTINT12  ((PIN_PA24A_EIC_EXTINT12 << 16) | MUX_PA24A_EIC_EXTINT12)
+#define PORT_PA24A_EIC_EXTINT12  (_UL_(1) << 24)
+#define PIN_PA24A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PA24 External Interrupt Line */
+#define PIN_PB12A_EIC_EXTINT12         _L_(44) /**< \brief EIC signal: EXTINT12 on PB12 mux A */
+#define MUX_PB12A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PB12A_EIC_EXTINT12  ((PIN_PB12A_EIC_EXTINT12 << 16) | MUX_PB12A_EIC_EXTINT12)
+#define PORT_PB12A_EIC_EXTINT12  (_UL_(1) << 12)
+#define PIN_PB12A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PB12 External Interrupt Line */
+#define PIN_PC20A_EIC_EXTINT12         _L_(84) /**< \brief EIC signal: EXTINT12 on PC20 mux A */
+#define MUX_PC20A_EIC_EXTINT12          _L_(0)
+#define PINMUX_PC20A_EIC_EXTINT12  ((PIN_PC20A_EIC_EXTINT12 << 16) | MUX_PC20A_EIC_EXTINT12)
+#define PORT_PC20A_EIC_EXTINT12  (_UL_(1) << 20)
+#define PIN_PC20A_EIC_EXTINT_NUM       _L_(12) /**< \brief EIC signal: PIN_PC20 External Interrupt Line */
+#define PIN_PA13A_EIC_EXTINT13         _L_(13) /**< \brief EIC signal: EXTINT13 on PA13 mux A */
+#define MUX_PA13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA13A_EIC_EXTINT13  ((PIN_PA13A_EIC_EXTINT13 << 16) | MUX_PA13A_EIC_EXTINT13)
+#define PORT_PA13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PA13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA13 External Interrupt Line */
+#define PIN_PA25A_EIC_EXTINT13         _L_(25) /**< \brief EIC signal: EXTINT13 on PA25 mux A */
+#define MUX_PA25A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PA25A_EIC_EXTINT13  ((PIN_PA25A_EIC_EXTINT13 << 16) | MUX_PA25A_EIC_EXTINT13)
+#define PORT_PA25A_EIC_EXTINT13  (_UL_(1) << 25)
+#define PIN_PA25A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PA25 External Interrupt Line */
+#define PIN_PB13A_EIC_EXTINT13         _L_(45) /**< \brief EIC signal: EXTINT13 on PB13 mux A */
+#define MUX_PB13A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PB13A_EIC_EXTINT13  ((PIN_PB13A_EIC_EXTINT13 << 16) | MUX_PB13A_EIC_EXTINT13)
+#define PORT_PB13A_EIC_EXTINT13  (_UL_(1) << 13)
+#define PIN_PB13A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PB13 External Interrupt Line */
+#define PIN_PC05A_EIC_EXTINT13         _L_(69) /**< \brief EIC signal: EXTINT13 on PC05 mux A */
+#define MUX_PC05A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC05A_EIC_EXTINT13  ((PIN_PC05A_EIC_EXTINT13 << 16) | MUX_PC05A_EIC_EXTINT13)
+#define PORT_PC05A_EIC_EXTINT13  (_UL_(1) <<  5)
+#define PIN_PC05A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC05 External Interrupt Line */
+#define PIN_PC21A_EIC_EXTINT13         _L_(85) /**< \brief EIC signal: EXTINT13 on PC21 mux A */
+#define MUX_PC21A_EIC_EXTINT13          _L_(0)
+#define PINMUX_PC21A_EIC_EXTINT13  ((PIN_PC21A_EIC_EXTINT13 << 16) | MUX_PC21A_EIC_EXTINT13)
+#define PORT_PC21A_EIC_EXTINT13  (_UL_(1) << 21)
+#define PIN_PC21A_EIC_EXTINT_NUM       _L_(13) /**< \brief EIC signal: PIN_PC21 External Interrupt Line */
+#define PIN_PB14A_EIC_EXTINT14         _L_(46) /**< \brief EIC signal: EXTINT14 on PB14 mux A */
+#define MUX_PB14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB14A_EIC_EXTINT14  ((PIN_PB14A_EIC_EXTINT14 << 16) | MUX_PB14A_EIC_EXTINT14)
+#define PORT_PB14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PB14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB14 External Interrupt Line */
+#define PIN_PB30A_EIC_EXTINT14         _L_(62) /**< \brief EIC signal: EXTINT14 on PB30 mux A */
+#define MUX_PB30A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PB30A_EIC_EXTINT14  ((PIN_PB30A_EIC_EXTINT14 << 16) | MUX_PB30A_EIC_EXTINT14)
+#define PORT_PB30A_EIC_EXTINT14  (_UL_(1) << 30)
+#define PIN_PB30A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PB30 External Interrupt Line */
+#define PIN_PC06A_EIC_EXTINT14         _L_(70) /**< \brief EIC signal: EXTINT14 on PC06 mux A */
+#define MUX_PC06A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PC06A_EIC_EXTINT14  ((PIN_PC06A_EIC_EXTINT14 << 16) | MUX_PC06A_EIC_EXTINT14)
+#define PORT_PC06A_EIC_EXTINT14  (_UL_(1) <<  6)
+#define PIN_PC06A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PC06 External Interrupt Line */
+#define PIN_PA14A_EIC_EXTINT14         _L_(14) /**< \brief EIC signal: EXTINT14 on PA14 mux A */
+#define MUX_PA14A_EIC_EXTINT14          _L_(0)
+#define PINMUX_PA14A_EIC_EXTINT14  ((PIN_PA14A_EIC_EXTINT14 << 16) | MUX_PA14A_EIC_EXTINT14)
+#define PORT_PA14A_EIC_EXTINT14  (_UL_(1) << 14)
+#define PIN_PA14A_EIC_EXTINT_NUM       _L_(14) /**< \brief EIC signal: PIN_PA14 External Interrupt Line */
+#define PIN_PA27A_EIC_EXTINT15         _L_(27) /**< \brief EIC signal: EXTINT15 on PA27 mux A */
+#define MUX_PA27A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA27A_EIC_EXTINT15  ((PIN_PA27A_EIC_EXTINT15 << 16) | MUX_PA27A_EIC_EXTINT15)
+#define PORT_PA27A_EIC_EXTINT15  (_UL_(1) << 27)
+#define PIN_PA27A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA27 External Interrupt Line */
+#define PIN_PB15A_EIC_EXTINT15         _L_(47) /**< \brief EIC signal: EXTINT15 on PB15 mux A */
+#define MUX_PB15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB15A_EIC_EXTINT15  ((PIN_PB15A_EIC_EXTINT15 << 16) | MUX_PB15A_EIC_EXTINT15)
+#define PORT_PB15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PB15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB15 External Interrupt Line */
+#define PIN_PB31A_EIC_EXTINT15         _L_(63) /**< \brief EIC signal: EXTINT15 on PB31 mux A */
+#define MUX_PB31A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PB31A_EIC_EXTINT15  ((PIN_PB31A_EIC_EXTINT15 << 16) | MUX_PB31A_EIC_EXTINT15)
+#define PORT_PB31A_EIC_EXTINT15  (_UL_(1) << 31)
+#define PIN_PB31A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PB31 External Interrupt Line */
+#define PIN_PC07A_EIC_EXTINT15         _L_(71) /**< \brief EIC signal: EXTINT15 on PC07 mux A */
+#define MUX_PC07A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PC07A_EIC_EXTINT15  ((PIN_PC07A_EIC_EXTINT15 << 16) | MUX_PC07A_EIC_EXTINT15)
+#define PORT_PC07A_EIC_EXTINT15  (_UL_(1) <<  7)
+#define PIN_PC07A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PC07 External Interrupt Line */
+#define PIN_PA15A_EIC_EXTINT15         _L_(15) /**< \brief EIC signal: EXTINT15 on PA15 mux A */
+#define MUX_PA15A_EIC_EXTINT15          _L_(0)
+#define PINMUX_PA15A_EIC_EXTINT15  ((PIN_PA15A_EIC_EXTINT15 << 16) | MUX_PA15A_EIC_EXTINT15)
+#define PORT_PA15A_EIC_EXTINT15  (_UL_(1) << 15)
+#define PIN_PA15A_EIC_EXTINT_NUM       _L_(15) /**< \brief EIC signal: PIN_PA15 External Interrupt Line */
+#define PIN_PA08A_EIC_NMI               _L_(8) /**< \brief EIC signal: NMI on PA08 mux A */
+#define MUX_PA08A_EIC_NMI               _L_(0)
+#define PINMUX_PA08A_EIC_NMI       ((PIN_PA08A_EIC_NMI << 16) | MUX_PA08A_EIC_NMI)
+#define PORT_PA08A_EIC_NMI     (_UL_(1) <<  8)
+/* ========== PORT definition for USB peripheral ========== */
+#define PIN_PA24G_USB_DM               _L_(24) /**< \brief USB signal: DM on PA24 mux G */
+#define MUX_PA24G_USB_DM                _L_(6)
+#define PINMUX_PA24G_USB_DM        ((PIN_PA24G_USB_DM << 16) | MUX_PA24G_USB_DM)
+#define PORT_PA24G_USB_DM      (_UL_(1) << 24)
+#define PIN_PA25G_USB_DP               _L_(25) /**< \brief USB signal: DP on PA25 mux G */
+#define MUX_PA25G_USB_DP                _L_(6)
+#define PINMUX_PA25G_USB_DP        ((PIN_PA25G_USB_DP << 16) | MUX_PA25G_USB_DP)
+#define PORT_PA25G_USB_DP      (_UL_(1) << 25)
+#define PIN_PA23G_USB_SOF_1KHZ         _L_(23) /**< \brief USB signal: SOF_1KHZ on PA23 mux G */
+#define MUX_PA23G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PA23G_USB_SOF_1KHZ  ((PIN_PA23G_USB_SOF_1KHZ << 16) | MUX_PA23G_USB_SOF_1KHZ)
+#define PORT_PA23G_USB_SOF_1KHZ  (_UL_(1) << 23)
+#define PIN_PB22G_USB_SOF_1KHZ         _L_(54) /**< \brief USB signal: SOF_1KHZ on PB22 mux G */
+#define MUX_PB22G_USB_SOF_1KHZ          _L_(6)
+#define PINMUX_PB22G_USB_SOF_1KHZ  ((PIN_PB22G_USB_SOF_1KHZ << 16) | MUX_PB22G_USB_SOF_1KHZ)
+#define PORT_PB22G_USB_SOF_1KHZ  (_UL_(1) << 22)
+/* ========== PORT definition for SERCOM0 peripheral ========== */
+#define PIN_PA04D_SERCOM0_PAD0          _L_(4) /**< \brief SERCOM0 signal: PAD0 on PA04 mux D */
+#define MUX_PA04D_SERCOM0_PAD0          _L_(3)
+#define PINMUX_PA04D_SERCOM0_PAD0  ((PIN_PA04D_SERCOM0_PAD0 << 16) | MUX_PA04D_SERCOM0_PAD0)
+#define PORT_PA04D_SERCOM0_PAD0  (_UL_(1) <<  4)
+#define PIN_PA08C_SERCOM0_PAD0          _L_(8) /**< \brief SERCOM0 signal: PAD0 on PA08 mux C */
+#define MUX_PA08C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA08C_SERCOM0_PAD0  ((PIN_PA08C_SERCOM0_PAD0 << 16) | MUX_PA08C_SERCOM0_PAD0)
+#define PORT_PA08C_SERCOM0_PAD0  (_UL_(1) <<  8)
+#define PIN_PA20C_SERCOM0_PAD0         _L_(20) /**< \brief SERCOM0 signal: PAD0 on PA20 mux C */
+#define MUX_PA20C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PA20C_SERCOM0_PAD0  ((PIN_PA20C_SERCOM0_PAD0 << 16) | MUX_PA20C_SERCOM0_PAD0)
+#define PORT_PA20C_SERCOM0_PAD0  (_UL_(1) << 20)
+#define PIN_PB24C_SERCOM0_PAD0         _L_(56) /**< \brief SERCOM0 signal: PAD0 on PB24 mux C */
+#define MUX_PB24C_SERCOM0_PAD0          _L_(2)
+#define PINMUX_PB24C_SERCOM0_PAD0  ((PIN_PB24C_SERCOM0_PAD0 << 16) | MUX_PB24C_SERCOM0_PAD0)
+#define PORT_PB24C_SERCOM0_PAD0  (_UL_(1) << 24)
+#define PIN_PA05D_SERCOM0_PAD1          _L_(5) /**< \brief SERCOM0 signal: PAD1 on PA05 mux D */
+#define MUX_PA05D_SERCOM0_PAD1          _L_(3)
+#define PINMUX_PA05D_SERCOM0_PAD1  ((PIN_PA05D_SERCOM0_PAD1 << 16) | MUX_PA05D_SERCOM0_PAD1)
+#define PORT_PA05D_SERCOM0_PAD1  (_UL_(1) <<  5)
+#define PIN_PA09C_SERCOM0_PAD1          _L_(9) /**< \brief SERCOM0 signal: PAD1 on PA09 mux C */
+#define MUX_PA09C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA09C_SERCOM0_PAD1  ((PIN_PA09C_SERCOM0_PAD1 << 16) | MUX_PA09C_SERCOM0_PAD1)
+#define PORT_PA09C_SERCOM0_PAD1  (_UL_(1) <<  9)
+#define PIN_PA21C_SERCOM0_PAD1         _L_(21) /**< \brief SERCOM0 signal: PAD1 on PA21 mux C */
+#define MUX_PA21C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PA21C_SERCOM0_PAD1  ((PIN_PA21C_SERCOM0_PAD1 << 16) | MUX_PA21C_SERCOM0_PAD1)
+#define PORT_PA21C_SERCOM0_PAD1  (_UL_(1) << 21)
+#define PIN_PB25C_SERCOM0_PAD1         _L_(57) /**< \brief SERCOM0 signal: PAD1 on PB25 mux C */
+#define MUX_PB25C_SERCOM0_PAD1          _L_(2)
+#define PINMUX_PB25C_SERCOM0_PAD1  ((PIN_PB25C_SERCOM0_PAD1 << 16) | MUX_PB25C_SERCOM0_PAD1)
+#define PORT_PB25C_SERCOM0_PAD1  (_UL_(1) << 25)
+#define PIN_PA06D_SERCOM0_PAD2          _L_(6) /**< \brief SERCOM0 signal: PAD2 on PA06 mux D */
+#define MUX_PA06D_SERCOM0_PAD2          _L_(3)
+#define PINMUX_PA06D_SERCOM0_PAD2  ((PIN_PA06D_SERCOM0_PAD2 << 16) | MUX_PA06D_SERCOM0_PAD2)
+#define PORT_PA06D_SERCOM0_PAD2  (_UL_(1) <<  6)
+#define PIN_PA10C_SERCOM0_PAD2         _L_(10) /**< \brief SERCOM0 signal: PAD2 on PA10 mux C */
+#define MUX_PA10C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA10C_SERCOM0_PAD2  ((PIN_PA10C_SERCOM0_PAD2 << 16) | MUX_PA10C_SERCOM0_PAD2)
+#define PORT_PA10C_SERCOM0_PAD2  (_UL_(1) << 10)
+#define PIN_PA22C_SERCOM0_PAD2         _L_(22) /**< \brief SERCOM0 signal: PAD2 on PA22 mux C */
+#define MUX_PA22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PA22C_SERCOM0_PAD2  ((PIN_PA22C_SERCOM0_PAD2 << 16) | MUX_PA22C_SERCOM0_PAD2)
+#define PORT_PA22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PC24C_SERCOM0_PAD2         _L_(88) /**< \brief SERCOM0 signal: PAD2 on PC24 mux C */
+#define MUX_PC24C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PC24C_SERCOM0_PAD2  ((PIN_PC24C_SERCOM0_PAD2 << 16) | MUX_PC24C_SERCOM0_PAD2)
+#define PORT_PC24C_SERCOM0_PAD2  (_UL_(1) << 24)
+#define PIN_PB22C_SERCOM0_PAD2         _L_(54) /**< \brief SERCOM0 signal: PAD2 on PB22 mux C */
+#define MUX_PB22C_SERCOM0_PAD2          _L_(2)
+#define PINMUX_PB22C_SERCOM0_PAD2  ((PIN_PB22C_SERCOM0_PAD2 << 16) | MUX_PB22C_SERCOM0_PAD2)
+#define PORT_PB22C_SERCOM0_PAD2  (_UL_(1) << 22)
+#define PIN_PA07D_SERCOM0_PAD3          _L_(7) /**< \brief SERCOM0 signal: PAD3 on PA07 mux D */
+#define MUX_PA07D_SERCOM0_PAD3          _L_(3)
+#define PINMUX_PA07D_SERCOM0_PAD3  ((PIN_PA07D_SERCOM0_PAD3 << 16) | MUX_PA07D_SERCOM0_PAD3)
+#define PORT_PA07D_SERCOM0_PAD3  (_UL_(1) <<  7)
+#define PIN_PA11C_SERCOM0_PAD3         _L_(11) /**< \brief SERCOM0 signal: PAD3 on PA11 mux C */
+#define MUX_PA11C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA11C_SERCOM0_PAD3  ((PIN_PA11C_SERCOM0_PAD3 << 16) | MUX_PA11C_SERCOM0_PAD3)
+#define PORT_PA11C_SERCOM0_PAD3  (_UL_(1) << 11)
+#define PIN_PA23C_SERCOM0_PAD3         _L_(23) /**< \brief SERCOM0 signal: PAD3 on PA23 mux C */
+#define MUX_PA23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PA23C_SERCOM0_PAD3  ((PIN_PA23C_SERCOM0_PAD3 << 16) | MUX_PA23C_SERCOM0_PAD3)
+#define PORT_PA23C_SERCOM0_PAD3  (_UL_(1) << 23)
+#define PIN_PC25C_SERCOM0_PAD3         _L_(89) /**< \brief SERCOM0 signal: PAD3 on PC25 mux C */
+#define MUX_PC25C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PC25C_SERCOM0_PAD3  ((PIN_PC25C_SERCOM0_PAD3 << 16) | MUX_PC25C_SERCOM0_PAD3)
+#define PORT_PC25C_SERCOM0_PAD3  (_UL_(1) << 25)
+#define PIN_PB23C_SERCOM0_PAD3         _L_(55) /**< \brief SERCOM0 signal: PAD3 on PB23 mux C */
+#define MUX_PB23C_SERCOM0_PAD3          _L_(2)
+#define PINMUX_PB23C_SERCOM0_PAD3  ((PIN_PB23C_SERCOM0_PAD3 << 16) | MUX_PB23C_SERCOM0_PAD3)
+#define PORT_PB23C_SERCOM0_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for SERCOM1 peripheral ========== */
+#define PIN_PB30C_SERCOM1_PAD0         _L_(62) /**< \brief SERCOM1 signal: PAD0 on PB30 mux C */
+#define MUX_PB30C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PB30C_SERCOM1_PAD0  ((PIN_PB30C_SERCOM1_PAD0 << 16) | MUX_PB30C_SERCOM1_PAD0)
+#define PORT_PB30C_SERCOM1_PAD0  (_UL_(1) << 30)
+#define PIN_PA00D_SERCOM1_PAD0          _L_(0) /**< \brief SERCOM1 signal: PAD0 on PA00 mux D */
+#define MUX_PA00D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PA00D_SERCOM1_PAD0  ((PIN_PA00D_SERCOM1_PAD0 << 16) | MUX_PA00D_SERCOM1_PAD0)
+#define PORT_PA00D_SERCOM1_PAD0  (_UL_(1) <<  0)
+#define PIN_PC27D_SERCOM1_PAD0         _L_(91) /**< \brief SERCOM1 signal: PAD0 on PC27 mux D */
+#define MUX_PC27D_SERCOM1_PAD0          _L_(3)
+#define PINMUX_PC27D_SERCOM1_PAD0  ((PIN_PC27D_SERCOM1_PAD0 << 16) | MUX_PC27D_SERCOM1_PAD0)
+#define PORT_PC27D_SERCOM1_PAD0  (_UL_(1) << 27)
+#define PIN_PA16C_SERCOM1_PAD0         _L_(16) /**< \brief SERCOM1 signal: PAD0 on PA16 mux C */
+#define MUX_PA16C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PA16C_SERCOM1_PAD0  ((PIN_PA16C_SERCOM1_PAD0 << 16) | MUX_PA16C_SERCOM1_PAD0)
+#define PORT_PA16C_SERCOM1_PAD0  (_UL_(1) << 16)
+#define PIN_PC12C_SERCOM1_PAD0         _L_(76) /**< \brief SERCOM1 signal: PAD0 on PC12 mux C */
+#define MUX_PC12C_SERCOM1_PAD0          _L_(2)
+#define PINMUX_PC12C_SERCOM1_PAD0  ((PIN_PC12C_SERCOM1_PAD0 << 16) | MUX_PC12C_SERCOM1_PAD0)
+#define PORT_PC12C_SERCOM1_PAD0  (_UL_(1) << 12)
+#define PIN_PB31C_SERCOM1_PAD1         _L_(63) /**< \brief SERCOM1 signal: PAD1 on PB31 mux C */
+#define MUX_PB31C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PB31C_SERCOM1_PAD1  ((PIN_PB31C_SERCOM1_PAD1 << 16) | MUX_PB31C_SERCOM1_PAD1)
+#define PORT_PB31C_SERCOM1_PAD1  (_UL_(1) << 31)
+#define PIN_PA01D_SERCOM1_PAD1          _L_(1) /**< \brief SERCOM1 signal: PAD1 on PA01 mux D */
+#define MUX_PA01D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PA01D_SERCOM1_PAD1  ((PIN_PA01D_SERCOM1_PAD1 << 16) | MUX_PA01D_SERCOM1_PAD1)
+#define PORT_PA01D_SERCOM1_PAD1  (_UL_(1) <<  1)
+#define PIN_PC28D_SERCOM1_PAD1         _L_(92) /**< \brief SERCOM1 signal: PAD1 on PC28 mux D */
+#define MUX_PC28D_SERCOM1_PAD1          _L_(3)
+#define PINMUX_PC28D_SERCOM1_PAD1  ((PIN_PC28D_SERCOM1_PAD1 << 16) | MUX_PC28D_SERCOM1_PAD1)
+#define PORT_PC28D_SERCOM1_PAD1  (_UL_(1) << 28)
+#define PIN_PA17C_SERCOM1_PAD1         _L_(17) /**< \brief SERCOM1 signal: PAD1 on PA17 mux C */
+#define MUX_PA17C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PA17C_SERCOM1_PAD1  ((PIN_PA17C_SERCOM1_PAD1 << 16) | MUX_PA17C_SERCOM1_PAD1)
+#define PORT_PA17C_SERCOM1_PAD1  (_UL_(1) << 17)
+#define PIN_PC13C_SERCOM1_PAD1         _L_(77) /**< \brief SERCOM1 signal: PAD1 on PC13 mux C */
+#define MUX_PC13C_SERCOM1_PAD1          _L_(2)
+#define PINMUX_PC13C_SERCOM1_PAD1  ((PIN_PC13C_SERCOM1_PAD1 << 16) | MUX_PC13C_SERCOM1_PAD1)
+#define PORT_PC13C_SERCOM1_PAD1  (_UL_(1) << 13)
+#define PIN_PA30D_SERCOM1_PAD2         _L_(30) /**< \brief SERCOM1 signal: PAD2 on PA30 mux D */
+#define MUX_PA30D_SERCOM1_PAD2          _L_(3)
+#define PINMUX_PA30D_SERCOM1_PAD2  ((PIN_PA30D_SERCOM1_PAD2 << 16) | MUX_PA30D_SERCOM1_PAD2)
+#define PORT_PA30D_SERCOM1_PAD2  (_UL_(1) << 30)
+#define PIN_PA18C_SERCOM1_PAD2         _L_(18) /**< \brief SERCOM1 signal: PAD2 on PA18 mux C */
+#define MUX_PA18C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PA18C_SERCOM1_PAD2  ((PIN_PA18C_SERCOM1_PAD2 << 16) | MUX_PA18C_SERCOM1_PAD2)
+#define PORT_PA18C_SERCOM1_PAD2  (_UL_(1) << 18)
+#define PIN_PC10C_SERCOM1_PAD2         _L_(74) /**< \brief SERCOM1 signal: PAD2 on PC10 mux C */
+#define MUX_PC10C_SERCOM1_PAD2          _L_(2)
+#define PINMUX_PC10C_SERCOM1_PAD2  ((PIN_PC10C_SERCOM1_PAD2 << 16) | MUX_PC10C_SERCOM1_PAD2)
+#define PORT_PC10C_SERCOM1_PAD2  (_UL_(1) << 10)
+#define PIN_PA31D_SERCOM1_PAD3         _L_(31) /**< \brief SERCOM1 signal: PAD3 on PA31 mux D */
+#define MUX_PA31D_SERCOM1_PAD3          _L_(3)
+#define PINMUX_PA31D_SERCOM1_PAD3  ((PIN_PA31D_SERCOM1_PAD3 << 16) | MUX_PA31D_SERCOM1_PAD3)
+#define PORT_PA31D_SERCOM1_PAD3  (_UL_(1) << 31)
+#define PIN_PA19C_SERCOM1_PAD3         _L_(19) /**< \brief SERCOM1 signal: PAD3 on PA19 mux C */
+#define MUX_PA19C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PA19C_SERCOM1_PAD3  ((PIN_PA19C_SERCOM1_PAD3 << 16) | MUX_PA19C_SERCOM1_PAD3)
+#define PORT_PA19C_SERCOM1_PAD3  (_UL_(1) << 19)
+#define PIN_PC11C_SERCOM1_PAD3         _L_(75) /**< \brief SERCOM1 signal: PAD3 on PC11 mux C */
+#define MUX_PC11C_SERCOM1_PAD3          _L_(2)
+#define PINMUX_PC11C_SERCOM1_PAD3  ((PIN_PC11C_SERCOM1_PAD3 << 16) | MUX_PC11C_SERCOM1_PAD3)
+#define PORT_PC11C_SERCOM1_PAD3  (_UL_(1) << 11)
+/* ========== PORT definition for SERCOM2 peripheral ========== */
+#define PIN_PA22D_SERCOM2_PAD0         _L_(22) /**< \brief SERCOM2 signal: PAD0 on PA22 mux D */
+#define MUX_PA22D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA22D_SERCOM2_PAD0  ((PIN_PA22D_SERCOM2_PAD0 << 16) | MUX_PA22D_SERCOM2_PAD0)
+#define PORT_PA22D_SERCOM2_PAD0  (_UL_(1) << 22)
+#define PIN_PA16D_SERCOM2_PAD0         _L_(16) /**< \brief SERCOM2 signal: PAD0 on PA16 mux D */
+#define MUX_PA16D_SERCOM2_PAD0          _L_(3)
+#define PINMUX_PA16D_SERCOM2_PAD0  ((PIN_PA16D_SERCOM2_PAD0 << 16) | MUX_PA16D_SERCOM2_PAD0)
+#define PORT_PA16D_SERCOM2_PAD0  (_UL_(1) << 16)
+#define PIN_PA23D_SERCOM2_PAD1         _L_(23) /**< \brief SERCOM2 signal: PAD1 on PA23 mux D */
+#define MUX_PA23D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA23D_SERCOM2_PAD1  ((PIN_PA23D_SERCOM2_PAD1 << 16) | MUX_PA23D_SERCOM2_PAD1)
+#define PORT_PA23D_SERCOM2_PAD1  (_UL_(1) << 23)
+#define PIN_PA17D_SERCOM2_PAD1         _L_(17) /**< \brief SERCOM2 signal: PAD1 on PA17 mux D */
+#define MUX_PA17D_SERCOM2_PAD1          _L_(3)
+#define PINMUX_PA17D_SERCOM2_PAD1  ((PIN_PA17D_SERCOM2_PAD1 << 16) | MUX_PA17D_SERCOM2_PAD1)
+#define PORT_PA17D_SERCOM2_PAD1  (_UL_(1) << 17)
+#define PIN_PA18D_SERCOM2_PAD2         _L_(18) /**< \brief SERCOM2 signal: PAD2 on PA18 mux D */
+#define MUX_PA18D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA18D_SERCOM2_PAD2  ((PIN_PA18D_SERCOM2_PAD2 << 16) | MUX_PA18D_SERCOM2_PAD2)
+#define PORT_PA18D_SERCOM2_PAD2  (_UL_(1) << 18)
+#define PIN_PA20D_SERCOM2_PAD2         _L_(20) /**< \brief SERCOM2 signal: PAD2 on PA20 mux D */
+#define MUX_PA20D_SERCOM2_PAD2          _L_(3)
+#define PINMUX_PA20D_SERCOM2_PAD2  ((PIN_PA20D_SERCOM2_PAD2 << 16) | MUX_PA20D_SERCOM2_PAD2)
+#define PORT_PA20D_SERCOM2_PAD2  (_UL_(1) << 20)
+#define PIN_PA24C_SERCOM2_PAD2         _L_(24) /**< \brief SERCOM2 signal: PAD2 on PA24 mux C */
+#define MUX_PA24C_SERCOM2_PAD2          _L_(2)
+#define PINMUX_PA24C_SERCOM2_PAD2  ((PIN_PA24C_SERCOM2_PAD2 << 16) | MUX_PA24C_SERCOM2_PAD2)
+#define PORT_PA24C_SERCOM2_PAD2  (_UL_(1) << 24)
+#define PIN_PA19D_SERCOM2_PAD3         _L_(19) /**< \brief SERCOM2 signal: PAD3 on PA19 mux D */
+#define MUX_PA19D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA19D_SERCOM2_PAD3  ((PIN_PA19D_SERCOM2_PAD3 << 16) | MUX_PA19D_SERCOM2_PAD3)
+#define PORT_PA19D_SERCOM2_PAD3  (_UL_(1) << 19)
+#define PIN_PA21D_SERCOM2_PAD3         _L_(21) /**< \brief SERCOM2 signal: PAD3 on PA21 mux D */
+#define MUX_PA21D_SERCOM2_PAD3          _L_(3)
+#define PINMUX_PA21D_SERCOM2_PAD3  ((PIN_PA21D_SERCOM2_PAD3 << 16) | MUX_PA21D_SERCOM2_PAD3)
+#define PORT_PA21D_SERCOM2_PAD3  (_UL_(1) << 21)
+#define PIN_PA25C_SERCOM2_PAD3         _L_(25) /**< \brief SERCOM2 signal: PAD3 on PA25 mux C */
+#define MUX_PA25C_SERCOM2_PAD3          _L_(2)
+#define PINMUX_PA25C_SERCOM2_PAD3  ((PIN_PA25C_SERCOM2_PAD3 << 16) | MUX_PA25C_SERCOM2_PAD3)
+#define PORT_PA25C_SERCOM2_PAD3  (_UL_(1) << 25)
+/* ========== PORT definition for SERCOM3 peripheral ========== */
+#define PIN_PB12C_SERCOM3_PAD0         _L_(44) /**< \brief SERCOM3 signal: PAD0 on PB12 mux C */
+#define MUX_PB12C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB12C_SERCOM3_PAD0  ((PIN_PB12C_SERCOM3_PAD0 << 16) | MUX_PB12C_SERCOM3_PAD0)
+#define PORT_PB12C_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PA12D_SERCOM3_PAD0         _L_(12) /**< \brief SERCOM3 signal: PAD0 on PA12 mux D */
+#define MUX_PA12D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PA12D_SERCOM3_PAD0  ((PIN_PA12D_SERCOM3_PAD0 << 16) | MUX_PA12D_SERCOM3_PAD0)
+#define PORT_PA12D_SERCOM3_PAD0  (_UL_(1) << 12)
+#define PIN_PB08D_SERCOM3_PAD0         _L_(40) /**< \brief SERCOM3 signal: PAD0 on PB08 mux D */
+#define MUX_PB08D_SERCOM3_PAD0          _L_(3)
+#define PINMUX_PB08D_SERCOM3_PAD0  ((PIN_PB08D_SERCOM3_PAD0 << 16) | MUX_PB08D_SERCOM3_PAD0)
+#define PORT_PB08D_SERCOM3_PAD0  (_UL_(1) <<  8)
+#define PIN_PB02C_SERCOM3_PAD0         _L_(34) /**< \brief SERCOM3 signal: PAD0 on PB02 mux C */
+#define MUX_PB02C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB02C_SERCOM3_PAD0  ((PIN_PB02C_SERCOM3_PAD0 << 16) | MUX_PB02C_SERCOM3_PAD0)
+#define PORT_PB02C_SERCOM3_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20C_SERCOM3_PAD0         _L_(52) /**< \brief SERCOM3 signal: PAD0 on PB20 mux C */
+#define MUX_PB20C_SERCOM3_PAD0          _L_(2)
+#define PINMUX_PB20C_SERCOM3_PAD0  ((PIN_PB20C_SERCOM3_PAD0 << 16) | MUX_PB20C_SERCOM3_PAD0)
+#define PORT_PB20C_SERCOM3_PAD0  (_UL_(1) << 20)
+#define PIN_PB13C_SERCOM3_PAD1         _L_(45) /**< \brief SERCOM3 signal: PAD1 on PB13 mux C */
+#define MUX_PB13C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB13C_SERCOM3_PAD1  ((PIN_PB13C_SERCOM3_PAD1 << 16) | MUX_PB13C_SERCOM3_PAD1)
+#define PORT_PB13C_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PA13D_SERCOM3_PAD1         _L_(13) /**< \brief SERCOM3 signal: PAD1 on PA13 mux D */
+#define MUX_PA13D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PA13D_SERCOM3_PAD1  ((PIN_PA13D_SERCOM3_PAD1 << 16) | MUX_PA13D_SERCOM3_PAD1)
+#define PORT_PA13D_SERCOM3_PAD1  (_UL_(1) << 13)
+#define PIN_PB09D_SERCOM3_PAD1         _L_(41) /**< \brief SERCOM3 signal: PAD1 on PB09 mux D */
+#define MUX_PB09D_SERCOM3_PAD1          _L_(3)
+#define PINMUX_PB09D_SERCOM3_PAD1  ((PIN_PB09D_SERCOM3_PAD1 << 16) | MUX_PB09D_SERCOM3_PAD1)
+#define PORT_PB09D_SERCOM3_PAD1  (_UL_(1) <<  9)
+#define PIN_PB03C_SERCOM3_PAD1         _L_(35) /**< \brief SERCOM3 signal: PAD1 on PB03 mux C */
+#define MUX_PB03C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB03C_SERCOM3_PAD1  ((PIN_PB03C_SERCOM3_PAD1 << 16) | MUX_PB03C_SERCOM3_PAD1)
+#define PORT_PB03C_SERCOM3_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21C_SERCOM3_PAD1         _L_(53) /**< \brief SERCOM3 signal: PAD1 on PB21 mux C */
+#define MUX_PB21C_SERCOM3_PAD1          _L_(2)
+#define PINMUX_PB21C_SERCOM3_PAD1  ((PIN_PB21C_SERCOM3_PAD1 << 16) | MUX_PB21C_SERCOM3_PAD1)
+#define PORT_PB21C_SERCOM3_PAD1  (_UL_(1) << 21)
+#define PIN_PB14C_SERCOM3_PAD2         _L_(46) /**< \brief SERCOM3 signal: PAD2 on PB14 mux C */
+#define MUX_PB14C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB14C_SERCOM3_PAD2  ((PIN_PB14C_SERCOM3_PAD2 << 16) | MUX_PB14C_SERCOM3_PAD2)
+#define PORT_PB14C_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PA14D_SERCOM3_PAD2         _L_(14) /**< \brief SERCOM3 signal: PAD2 on PA14 mux D */
+#define MUX_PA14D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PA14D_SERCOM3_PAD2  ((PIN_PA14D_SERCOM3_PAD2 << 16) | MUX_PA14D_SERCOM3_PAD2)
+#define PORT_PA14D_SERCOM3_PAD2  (_UL_(1) << 14)
+#define PIN_PB18D_SERCOM3_PAD2         _L_(50) /**< \brief SERCOM3 signal: PAD2 on PB18 mux D */
+#define MUX_PB18D_SERCOM3_PAD2          _L_(3)
+#define PINMUX_PB18D_SERCOM3_PAD2  ((PIN_PB18D_SERCOM3_PAD2 << 16) | MUX_PB18D_SERCOM3_PAD2)
+#define PORT_PB18D_SERCOM3_PAD2  (_UL_(1) << 18)
+#define PIN_PB00C_SERCOM3_PAD2         _L_(32) /**< \brief SERCOM3 signal: PAD2 on PB00 mux C */
+#define MUX_PB00C_SERCOM3_PAD2          _L_(2)
+#define PINMUX_PB00C_SERCOM3_PAD2  ((PIN_PB00C_SERCOM3_PAD2 << 16) | MUX_PB00C_SERCOM3_PAD2)
+#define PORT_PB00C_SERCOM3_PAD2  (_UL_(1) <<  0)
+#define PIN_PB15C_SERCOM3_PAD3         _L_(47) /**< \brief SERCOM3 signal: PAD3 on PB15 mux C */
+#define MUX_PB15C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB15C_SERCOM3_PAD3  ((PIN_PB15C_SERCOM3_PAD3 << 16) | MUX_PB15C_SERCOM3_PAD3)
+#define PORT_PB15C_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PA15D_SERCOM3_PAD3         _L_(15) /**< \brief SERCOM3 signal: PAD3 on PA15 mux D */
+#define MUX_PA15D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PA15D_SERCOM3_PAD3  ((PIN_PA15D_SERCOM3_PAD3 << 16) | MUX_PA15D_SERCOM3_PAD3)
+#define PORT_PA15D_SERCOM3_PAD3  (_UL_(1) << 15)
+#define PIN_PB11D_SERCOM3_PAD3         _L_(43) /**< \brief SERCOM3 signal: PAD3 on PB11 mux D */
+#define MUX_PB11D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB11D_SERCOM3_PAD3  ((PIN_PB11D_SERCOM3_PAD3 << 16) | MUX_PB11D_SERCOM3_PAD3)
+#define PORT_PB11D_SERCOM3_PAD3  (_UL_(1) << 11)
+#define PIN_PB19D_SERCOM3_PAD3         _L_(51) /**< \brief SERCOM3 signal: PAD3 on PB19 mux D */
+#define MUX_PB19D_SERCOM3_PAD3          _L_(3)
+#define PINMUX_PB19D_SERCOM3_PAD3  ((PIN_PB19D_SERCOM3_PAD3 << 16) | MUX_PB19D_SERCOM3_PAD3)
+#define PORT_PB19D_SERCOM3_PAD3  (_UL_(1) << 19)
+#define PIN_PB01C_SERCOM3_PAD3         _L_(33) /**< \brief SERCOM3 signal: PAD3 on PB01 mux C */
+#define MUX_PB01C_SERCOM3_PAD3          _L_(2)
+#define PINMUX_PB01C_SERCOM3_PAD3  ((PIN_PB01C_SERCOM3_PAD3 << 16) | MUX_PB01C_SERCOM3_PAD3)
+#define PORT_PB01C_SERCOM3_PAD3  (_UL_(1) <<  1)
+/* ========== PORT definition for SERCOM4 peripheral ========== */
+#define PIN_PA08D_SERCOM4_PAD0          _L_(8) /**< \brief SERCOM4 signal: PAD0 on PA08 mux D */
+#define MUX_PA08D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PA08D_SERCOM4_PAD0  ((PIN_PA08D_SERCOM4_PAD0 << 16) | MUX_PA08D_SERCOM4_PAD0)
+#define PORT_PA08D_SERCOM4_PAD0  (_UL_(1) <<  8)
+#define PIN_PB24D_SERCOM4_PAD0         _L_(56) /**< \brief SERCOM4 signal: PAD0 on PB24 mux D */
+#define MUX_PB24D_SERCOM4_PAD0          _L_(3)
+#define PINMUX_PB24D_SERCOM4_PAD0  ((PIN_PB24D_SERCOM4_PAD0 << 16) | MUX_PB24D_SERCOM4_PAD0)
+#define PORT_PB24D_SERCOM4_PAD0  (_UL_(1) << 24)
+#define PIN_PA12C_SERCOM4_PAD0         _L_(12) /**< \brief SERCOM4 signal: PAD0 on PA12 mux C */
+#define MUX_PA12C_SERCOM4_PAD0          _L_(2)
+#define PINMUX_PA12C_SERCOM4_PAD0  ((PIN_PA12C_SERCOM4_PAD0 << 16) | MUX_PA12C_SERCOM4_PAD0)
+#define PORT_PA12C_SERCOM4_PAD0  (_UL_(1) << 12)
+#define PIN_PA09D_SERCOM4_PAD1          _L_(9) /**< \brief SERCOM4 signal: PAD1 on PA09 mux D */
+#define MUX_PA09D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PA09D_SERCOM4_PAD1  ((PIN_PA09D_SERCOM4_PAD1 << 16) | MUX_PA09D_SERCOM4_PAD1)
+#define PORT_PA09D_SERCOM4_PAD1  (_UL_(1) <<  9)
+#define PIN_PB25D_SERCOM4_PAD1         _L_(57) /**< \brief SERCOM4 signal: PAD1 on PB25 mux D */
+#define MUX_PB25D_SERCOM4_PAD1          _L_(3)
+#define PINMUX_PB25D_SERCOM4_PAD1  ((PIN_PB25D_SERCOM4_PAD1 << 16) | MUX_PB25D_SERCOM4_PAD1)
+#define PORT_PB25D_SERCOM4_PAD1  (_UL_(1) << 25)
+#define PIN_PA13C_SERCOM4_PAD1         _L_(13) /**< \brief SERCOM4 signal: PAD1 on PA13 mux C */
+#define MUX_PA13C_SERCOM4_PAD1          _L_(2)
+#define PINMUX_PA13C_SERCOM4_PAD1  ((PIN_PA13C_SERCOM4_PAD1 << 16) | MUX_PA13C_SERCOM4_PAD1)
+#define PORT_PA13C_SERCOM4_PAD1  (_UL_(1) << 13)
+#define PIN_PA10D_SERCOM4_PAD2         _L_(10) /**< \brief SERCOM4 signal: PAD2 on PA10 mux D */
+#define MUX_PA10D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PA10D_SERCOM4_PAD2  ((PIN_PA10D_SERCOM4_PAD2 << 16) | MUX_PA10D_SERCOM4_PAD2)
+#define PORT_PA10D_SERCOM4_PAD2  (_UL_(1) << 10)
+#define PIN_PC24D_SERCOM4_PAD2         _L_(88) /**< \brief SERCOM4 signal: PAD2 on PC24 mux D */
+#define MUX_PC24D_SERCOM4_PAD2          _L_(3)
+#define PINMUX_PC24D_SERCOM4_PAD2  ((PIN_PC24D_SERCOM4_PAD2 << 16) | MUX_PC24D_SERCOM4_PAD2)
+#define PORT_PC24D_SERCOM4_PAD2  (_UL_(1) << 24)
+#define PIN_PA14C_SERCOM4_PAD2         _L_(14) /**< \brief SERCOM4 signal: PAD2 on PA14 mux C */
+#define MUX_PA14C_SERCOM4_PAD2          _L_(2)
+#define PINMUX_PA14C_SERCOM4_PAD2  ((PIN_PA14C_SERCOM4_PAD2 << 16) | MUX_PA14C_SERCOM4_PAD2)
+#define PORT_PA14C_SERCOM4_PAD2  (_UL_(1) << 14)
+#define PIN_PA11D_SERCOM4_PAD3         _L_(11) /**< \brief SERCOM4 signal: PAD3 on PA11 mux D */
+#define MUX_PA11D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PA11D_SERCOM4_PAD3  ((PIN_PA11D_SERCOM4_PAD3 << 16) | MUX_PA11D_SERCOM4_PAD3)
+#define PORT_PA11D_SERCOM4_PAD3  (_UL_(1) << 11)
+#define PIN_PC25D_SERCOM4_PAD3         _L_(89) /**< \brief SERCOM4 signal: PAD3 on PC25 mux D */
+#define MUX_PC25D_SERCOM4_PAD3          _L_(3)
+#define PINMUX_PC25D_SERCOM4_PAD3  ((PIN_PC25D_SERCOM4_PAD3 << 16) | MUX_PC25D_SERCOM4_PAD3)
+#define PORT_PC25D_SERCOM4_PAD3  (_UL_(1) << 25)
+#define PIN_PA15C_SERCOM4_PAD3         _L_(15) /**< \brief SERCOM4 signal: PAD3 on PA15 mux C */
+#define MUX_PA15C_SERCOM4_PAD3          _L_(2)
+#define PINMUX_PA15C_SERCOM4_PAD3  ((PIN_PA15C_SERCOM4_PAD3 << 16) | MUX_PA15C_SERCOM4_PAD3)
+#define PORT_PA15C_SERCOM4_PAD3  (_UL_(1) << 15)
+/* ========== PORT definition for SERCOM5 peripheral ========== */
+#define PIN_PB30D_SERCOM5_PAD0         _L_(62) /**< \brief SERCOM5 signal: PAD0 on PB30 mux D */
+#define MUX_PB30D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB30D_SERCOM5_PAD0  ((PIN_PB30D_SERCOM5_PAD0 << 16) | MUX_PB30D_SERCOM5_PAD0)
+#define PORT_PB30D_SERCOM5_PAD0  (_UL_(1) << 30)
+#define PIN_PA24D_SERCOM5_PAD0         _L_(24) /**< \brief SERCOM5 signal: PAD0 on PA24 mux D */
+#define MUX_PA24D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PA24D_SERCOM5_PAD0  ((PIN_PA24D_SERCOM5_PAD0 << 16) | MUX_PA24D_SERCOM5_PAD0)
+#define PORT_PA24D_SERCOM5_PAD0  (_UL_(1) << 24)
+#define PIN_PB02D_SERCOM5_PAD0         _L_(34) /**< \brief SERCOM5 signal: PAD0 on PB02 mux D */
+#define MUX_PB02D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB02D_SERCOM5_PAD0  ((PIN_PB02D_SERCOM5_PAD0 << 16) | MUX_PB02D_SERCOM5_PAD0)
+#define PORT_PB02D_SERCOM5_PAD0  (_UL_(1) <<  2)
+#define PIN_PB20D_SERCOM5_PAD0         _L_(52) /**< \brief SERCOM5 signal: PAD0 on PB20 mux D */
+#define MUX_PB20D_SERCOM5_PAD0          _L_(3)
+#define PINMUX_PB20D_SERCOM5_PAD0  ((PIN_PB20D_SERCOM5_PAD0 << 16) | MUX_PB20D_SERCOM5_PAD0)
+#define PORT_PB20D_SERCOM5_PAD0  (_UL_(1) << 20)
+#define PIN_PB16C_SERCOM5_PAD0         _L_(48) /**< \brief SERCOM5 signal: PAD0 on PB16 mux C */
+#define MUX_PB16C_SERCOM5_PAD0          _L_(2)
+#define PINMUX_PB16C_SERCOM5_PAD0  ((PIN_PB16C_SERCOM5_PAD0 << 16) | MUX_PB16C_SERCOM5_PAD0)
+#define PORT_PB16C_SERCOM5_PAD0  (_UL_(1) << 16)
+#define PIN_PB31D_SERCOM5_PAD1         _L_(63) /**< \brief SERCOM5 signal: PAD1 on PB31 mux D */
+#define MUX_PB31D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB31D_SERCOM5_PAD1  ((PIN_PB31D_SERCOM5_PAD1 << 16) | MUX_PB31D_SERCOM5_PAD1)
+#define PORT_PB31D_SERCOM5_PAD1  (_UL_(1) << 31)
+#define PIN_PA25D_SERCOM5_PAD1         _L_(25) /**< \brief SERCOM5 signal: PAD1 on PA25 mux D */
+#define MUX_PA25D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PA25D_SERCOM5_PAD1  ((PIN_PA25D_SERCOM5_PAD1 << 16) | MUX_PA25D_SERCOM5_PAD1)
+#define PORT_PA25D_SERCOM5_PAD1  (_UL_(1) << 25)
+#define PIN_PB03D_SERCOM5_PAD1         _L_(35) /**< \brief SERCOM5 signal: PAD1 on PB03 mux D */
+#define MUX_PB03D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB03D_SERCOM5_PAD1  ((PIN_PB03D_SERCOM5_PAD1 << 16) | MUX_PB03D_SERCOM5_PAD1)
+#define PORT_PB03D_SERCOM5_PAD1  (_UL_(1) <<  3)
+#define PIN_PB21D_SERCOM5_PAD1         _L_(53) /**< \brief SERCOM5 signal: PAD1 on PB21 mux D */
+#define MUX_PB21D_SERCOM5_PAD1          _L_(3)
+#define PINMUX_PB21D_SERCOM5_PAD1  ((PIN_PB21D_SERCOM5_PAD1 << 16) | MUX_PB21D_SERCOM5_PAD1)
+#define PORT_PB21D_SERCOM5_PAD1  (_UL_(1) << 21)
+#define PIN_PB17C_SERCOM5_PAD1         _L_(49) /**< \brief SERCOM5 signal: PAD1 on PB17 mux C */
+#define MUX_PB17C_SERCOM5_PAD1          _L_(2)
+#define PINMUX_PB17C_SERCOM5_PAD1  ((PIN_PB17C_SERCOM5_PAD1 << 16) | MUX_PB17C_SERCOM5_PAD1)
+#define PORT_PB17C_SERCOM5_PAD1  (_UL_(1) << 17)
+#define PIN_PB18C_SERCOM5_PAD2         _L_(50) /**< \brief SERCOM5 signal: PAD2 on PB18 mux C */
+#define MUX_PB18C_SERCOM5_PAD2          _L_(2)
+#define PINMUX_PB18C_SERCOM5_PAD2  ((PIN_PB18C_SERCOM5_PAD2 << 16) | MUX_PB18C_SERCOM5_PAD2)
+#define PORT_PB18C_SERCOM5_PAD2  (_UL_(1) << 18)
+#define PIN_PB00D_SERCOM5_PAD2         _L_(32) /**< \brief SERCOM5 signal: PAD2 on PB00 mux D */
+#define MUX_PB00D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB00D_SERCOM5_PAD2  ((PIN_PB00D_SERCOM5_PAD2 << 16) | MUX_PB00D_SERCOM5_PAD2)
+#define PORT_PB00D_SERCOM5_PAD2  (_UL_(1) <<  0)
+#define PIN_PB22D_SERCOM5_PAD2         _L_(54) /**< \brief SERCOM5 signal: PAD2 on PB22 mux D */
+#define MUX_PB22D_SERCOM5_PAD2          _L_(3)
+#define PINMUX_PB22D_SERCOM5_PAD2  ((PIN_PB22D_SERCOM5_PAD2 << 16) | MUX_PB22D_SERCOM5_PAD2)
+#define PORT_PB22D_SERCOM5_PAD2  (_UL_(1) << 22)
+#define PIN_PB19C_SERCOM5_PAD3         _L_(51) /**< \brief SERCOM5 signal: PAD3 on PB19 mux C */
+#define MUX_PB19C_SERCOM5_PAD3          _L_(2)
+#define PINMUX_PB19C_SERCOM5_PAD3  ((PIN_PB19C_SERCOM5_PAD3 << 16) | MUX_PB19C_SERCOM5_PAD3)
+#define PORT_PB19C_SERCOM5_PAD3  (_UL_(1) << 19)
+#define PIN_PB01D_SERCOM5_PAD3         _L_(33) /**< \brief SERCOM5 signal: PAD3 on PB01 mux D */
+#define MUX_PB01D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB01D_SERCOM5_PAD3  ((PIN_PB01D_SERCOM5_PAD3 << 16) | MUX_PB01D_SERCOM5_PAD3)
+#define PORT_PB01D_SERCOM5_PAD3  (_UL_(1) <<  1)
+#define PIN_PB23D_SERCOM5_PAD3         _L_(55) /**< \brief SERCOM5 signal: PAD3 on PB23 mux D */
+#define MUX_PB23D_SERCOM5_PAD3          _L_(3)
+#define PINMUX_PB23D_SERCOM5_PAD3  ((PIN_PB23D_SERCOM5_PAD3 << 16) | MUX_PB23D_SERCOM5_PAD3)
+#define PORT_PB23D_SERCOM5_PAD3  (_UL_(1) << 23)
+/* ========== PORT definition for TCC0 peripheral ========== */
+#define PIN_PA24F_TCC0_WO0             _L_(24) /**< \brief TCC0 signal: WO0 on PA24 mux F */
+#define MUX_PA24F_TCC0_WO0              _L_(5)
+#define PINMUX_PA24F_TCC0_WO0      ((PIN_PA24F_TCC0_WO0 << 16) | MUX_PA24F_TCC0_WO0)
+#define PORT_PA24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PB18F_TCC0_WO0             _L_(50) /**< \brief TCC0 signal: WO0 on PB18 mux F */
+#define MUX_PB18F_TCC0_WO0              _L_(5)
+#define PINMUX_PB18F_TCC0_WO0      ((PIN_PB18F_TCC0_WO0 << 16) | MUX_PB18F_TCC0_WO0)
+#define PORT_PB18F_TCC0_WO0    (_UL_(1) << 18)
+#define PIN_PC24F_TCC0_WO0             _L_(88) /**< \brief TCC0 signal: WO0 on PC24 mux F */
+#define MUX_PC24F_TCC0_WO0              _L_(5)
+#define PINMUX_PC24F_TCC0_WO0      ((PIN_PC24F_TCC0_WO0 << 16) | MUX_PC24F_TCC0_WO0)
+#define PORT_PC24F_TCC0_WO0    (_UL_(1) << 24)
+#define PIN_PA04E_TCC0_WO0              _L_(4) /**< \brief TCC0 signal: WO0 on PA04 mux E */
+#define MUX_PA04E_TCC0_WO0              _L_(4)
+#define PINMUX_PA04E_TCC0_WO0      ((PIN_PA04E_TCC0_WO0 << 16) | MUX_PA04E_TCC0_WO0)
+#define PORT_PA04E_TCC0_WO0    (_UL_(1) <<  4)
+#define PIN_PA08E_TCC0_WO0              _L_(8) /**< \brief TCC0 signal: WO0 on PA08 mux E */
+#define MUX_PA08E_TCC0_WO0              _L_(4)
+#define PINMUX_PA08E_TCC0_WO0      ((PIN_PA08E_TCC0_WO0 << 16) | MUX_PA08E_TCC0_WO0)
+#define PORT_PA08E_TCC0_WO0    (_UL_(1) <<  8)
+#define PIN_PB30E_TCC0_WO0             _L_(62) /**< \brief TCC0 signal: WO0 on PB30 mux E */
+#define MUX_PB30E_TCC0_WO0              _L_(4)
+#define PINMUX_PB30E_TCC0_WO0      ((PIN_PB30E_TCC0_WO0 << 16) | MUX_PB30E_TCC0_WO0)
+#define PORT_PB30E_TCC0_WO0    (_UL_(1) << 30)
+#define PIN_PA25F_TCC0_WO1             _L_(25) /**< \brief TCC0 signal: WO1 on PA25 mux F */
+#define MUX_PA25F_TCC0_WO1              _L_(5)
+#define PINMUX_PA25F_TCC0_WO1      ((PIN_PA25F_TCC0_WO1 << 16) | MUX_PA25F_TCC0_WO1)
+#define PORT_PA25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PB19F_TCC0_WO1             _L_(51) /**< \brief TCC0 signal: WO1 on PB19 mux F */
+#define MUX_PB19F_TCC0_WO1              _L_(5)
+#define PINMUX_PB19F_TCC0_WO1      ((PIN_PB19F_TCC0_WO1 << 16) | MUX_PB19F_TCC0_WO1)
+#define PORT_PB19F_TCC0_WO1    (_UL_(1) << 19)
+#define PIN_PC25F_TCC0_WO1             _L_(89) /**< \brief TCC0 signal: WO1 on PC25 mux F */
+#define MUX_PC25F_TCC0_WO1              _L_(5)
+#define PINMUX_PC25F_TCC0_WO1      ((PIN_PC25F_TCC0_WO1 << 16) | MUX_PC25F_TCC0_WO1)
+#define PORT_PC25F_TCC0_WO1    (_UL_(1) << 25)
+#define PIN_PA05E_TCC0_WO1              _L_(5) /**< \brief TCC0 signal: WO1 on PA05 mux E */
+#define MUX_PA05E_TCC0_WO1              _L_(4)
+#define PINMUX_PA05E_TCC0_WO1      ((PIN_PA05E_TCC0_WO1 << 16) | MUX_PA05E_TCC0_WO1)
+#define PORT_PA05E_TCC0_WO1    (_UL_(1) <<  5)
+#define PIN_PA09E_TCC0_WO1              _L_(9) /**< \brief TCC0 signal: WO1 on PA09 mux E */
+#define MUX_PA09E_TCC0_WO1              _L_(4)
+#define PINMUX_PA09E_TCC0_WO1      ((PIN_PA09E_TCC0_WO1 << 16) | MUX_PA09E_TCC0_WO1)
+#define PORT_PA09E_TCC0_WO1    (_UL_(1) <<  9)
+#define PIN_PB31E_TCC0_WO1             _L_(63) /**< \brief TCC0 signal: WO1 on PB31 mux E */
+#define MUX_PB31E_TCC0_WO1              _L_(4)
+#define PINMUX_PB31E_TCC0_WO1      ((PIN_PB31E_TCC0_WO1 << 16) | MUX_PB31E_TCC0_WO1)
+#define PORT_PB31E_TCC0_WO1    (_UL_(1) << 31)
+#define PIN_PA10F_TCC0_WO2             _L_(10) /**< \brief TCC0 signal: WO2 on PA10 mux F */
+#define MUX_PA10F_TCC0_WO2              _L_(5)
+#define PINMUX_PA10F_TCC0_WO2      ((PIN_PA10F_TCC0_WO2 << 16) | MUX_PA10F_TCC0_WO2)
+#define PORT_PA10F_TCC0_WO2    (_UL_(1) << 10)
+#define PIN_PA18F_TCC0_WO2             _L_(18) /**< \brief TCC0 signal: WO2 on PA18 mux F */
+#define MUX_PA18F_TCC0_WO2              _L_(5)
+#define PINMUX_PA18F_TCC0_WO2      ((PIN_PA18F_TCC0_WO2 << 16) | MUX_PA18F_TCC0_WO2)
+#define PORT_PA18F_TCC0_WO2    (_UL_(1) << 18)
+#define PIN_PB20F_TCC0_WO2             _L_(52) /**< \brief TCC0 signal: WO2 on PB20 mux F */
+#define MUX_PB20F_TCC0_WO2              _L_(5)
+#define PINMUX_PB20F_TCC0_WO2      ((PIN_PB20F_TCC0_WO2 << 16) | MUX_PB20F_TCC0_WO2)
+#define PORT_PB20F_TCC0_WO2    (_UL_(1) << 20)
+#define PIN_PB22F_TCC0_WO2             _L_(54) /**< \brief TCC0 signal: WO2 on PB22 mux F */
+#define MUX_PB22F_TCC0_WO2              _L_(5)
+#define PINMUX_PB22F_TCC0_WO2      ((PIN_PB22F_TCC0_WO2 << 16) | MUX_PB22F_TCC0_WO2)
+#define PORT_PB22F_TCC0_WO2    (_UL_(1) << 22)
+#define PIN_PC26F_TCC0_WO2             _L_(90) /**< \brief TCC0 signal: WO2 on PC26 mux F */
+#define MUX_PC26F_TCC0_WO2              _L_(5)
+#define PINMUX_PC26F_TCC0_WO2      ((PIN_PC26F_TCC0_WO2 << 16) | MUX_PC26F_TCC0_WO2)
+#define PORT_PC26F_TCC0_WO2    (_UL_(1) << 26)
+#define PIN_PA11F_TCC0_WO3             _L_(11) /**< \brief TCC0 signal: WO3 on PA11 mux F */
+#define MUX_PA11F_TCC0_WO3              _L_(5)
+#define PINMUX_PA11F_TCC0_WO3      ((PIN_PA11F_TCC0_WO3 << 16) | MUX_PA11F_TCC0_WO3)
+#define PORT_PA11F_TCC0_WO3    (_UL_(1) << 11)
+#define PIN_PA19F_TCC0_WO3             _L_(19) /**< \brief TCC0 signal: WO3 on PA19 mux F */
+#define MUX_PA19F_TCC0_WO3              _L_(5)
+#define PINMUX_PA19F_TCC0_WO3      ((PIN_PA19F_TCC0_WO3 << 16) | MUX_PA19F_TCC0_WO3)
+#define PORT_PA19F_TCC0_WO3    (_UL_(1) << 19)
+#define PIN_PB21F_TCC0_WO3             _L_(53) /**< \brief TCC0 signal: WO3 on PB21 mux F */
+#define MUX_PB21F_TCC0_WO3              _L_(5)
+#define PINMUX_PB21F_TCC0_WO3      ((PIN_PB21F_TCC0_WO3 << 16) | MUX_PB21F_TCC0_WO3)
+#define PORT_PB21F_TCC0_WO3    (_UL_(1) << 21)
+#define PIN_PB23F_TCC0_WO3             _L_(55) /**< \brief TCC0 signal: WO3 on PB23 mux F */
+#define MUX_PB23F_TCC0_WO3              _L_(5)
+#define PINMUX_PB23F_TCC0_WO3      ((PIN_PB23F_TCC0_WO3 << 16) | MUX_PB23F_TCC0_WO3)
+#define PORT_PB23F_TCC0_WO3    (_UL_(1) << 23)
+#define PIN_PC27F_TCC0_WO3             _L_(91) /**< \brief TCC0 signal: WO3 on PC27 mux F */
+#define MUX_PC27F_TCC0_WO3              _L_(5)
+#define PINMUX_PC27F_TCC0_WO3      ((PIN_PC27F_TCC0_WO3 << 16) | MUX_PC27F_TCC0_WO3)
+#define PORT_PC27F_TCC0_WO3    (_UL_(1) << 27)
+#define PIN_PA22F_TCC0_WO4             _L_(22) /**< \brief TCC0 signal: WO4 on PA22 mux F */
+#define MUX_PA22F_TCC0_WO4              _L_(5)
+#define PINMUX_PA22F_TCC0_WO4      ((PIN_PA22F_TCC0_WO4 << 16) | MUX_PA22F_TCC0_WO4)
+#define PORT_PA22F_TCC0_WO4    (_UL_(1) << 22)
+#define PIN_PB16F_TCC0_WO4             _L_(48) /**< \brief TCC0 signal: WO4 on PB16 mux F */
+#define MUX_PB16F_TCC0_WO4              _L_(5)
+#define PINMUX_PB16F_TCC0_WO4      ((PIN_PB16F_TCC0_WO4 << 16) | MUX_PB16F_TCC0_WO4)
+#define PORT_PB16F_TCC0_WO4    (_UL_(1) << 16)
+#define PIN_PC28F_TCC0_WO4             _L_(92) /**< \brief TCC0 signal: WO4 on PC28 mux F */
+#define MUX_PC28F_TCC0_WO4              _L_(5)
+#define PINMUX_PC28F_TCC0_WO4      ((PIN_PC28F_TCC0_WO4 << 16) | MUX_PC28F_TCC0_WO4)
+#define PORT_PC28F_TCC0_WO4    (_UL_(1) << 28)
+#define PIN_PA14F_TCC0_WO4             _L_(14) /**< \brief TCC0 signal: WO4 on PA14 mux F */
+#define MUX_PA14F_TCC0_WO4              _L_(5)
+#define PINMUX_PA14F_TCC0_WO4      ((PIN_PA14F_TCC0_WO4 << 16) | MUX_PA14F_TCC0_WO4)
+#define PORT_PA14F_TCC0_WO4    (_UL_(1) << 14)
+#define PIN_PA15F_TCC0_WO5             _L_(15) /**< \brief TCC0 signal: WO5 on PA15 mux F */
+#define MUX_PA15F_TCC0_WO5              _L_(5)
+#define PINMUX_PA15F_TCC0_WO5      ((PIN_PA15F_TCC0_WO5 << 16) | MUX_PA15F_TCC0_WO5)
+#define PORT_PA15F_TCC0_WO5    (_UL_(1) << 15)
+#define PIN_PA23F_TCC0_WO5             _L_(23) /**< \brief TCC0 signal: WO5 on PA23 mux F */
+#define MUX_PA23F_TCC0_WO5              _L_(5)
+#define PINMUX_PA23F_TCC0_WO5      ((PIN_PA23F_TCC0_WO5 << 16) | MUX_PA23F_TCC0_WO5)
+#define PORT_PA23F_TCC0_WO5    (_UL_(1) << 23)
+#define PIN_PA27F_TCC0_WO5             _L_(27) /**< \brief TCC0 signal: WO5 on PA27 mux F */
+#define MUX_PA27F_TCC0_WO5              _L_(5)
+#define PINMUX_PA27F_TCC0_WO5      ((PIN_PA27F_TCC0_WO5 << 16) | MUX_PA27F_TCC0_WO5)
+#define PORT_PA27F_TCC0_WO5    (_UL_(1) << 27)
+#define PIN_PB11F_TCC0_WO5             _L_(43) /**< \brief TCC0 signal: WO5 on PB11 mux F */
+#define MUX_PB11F_TCC0_WO5              _L_(5)
+#define PINMUX_PB11F_TCC0_WO5      ((PIN_PB11F_TCC0_WO5 << 16) | MUX_PB11F_TCC0_WO5)
+#define PORT_PB11F_TCC0_WO5    (_UL_(1) << 11)
+#define PIN_PB17F_TCC0_WO5             _L_(49) /**< \brief TCC0 signal: WO5 on PB17 mux F */
+#define MUX_PB17F_TCC0_WO5              _L_(5)
+#define PINMUX_PB17F_TCC0_WO5      ((PIN_PB17F_TCC0_WO5 << 16) | MUX_PB17F_TCC0_WO5)
+#define PORT_PB17F_TCC0_WO5    (_UL_(1) << 17)
+#define PIN_PA12F_TCC0_WO6             _L_(12) /**< \brief TCC0 signal: WO6 on PA12 mux F */
+#define MUX_PA12F_TCC0_WO6              _L_(5)
+#define PINMUX_PA12F_TCC0_WO6      ((PIN_PA12F_TCC0_WO6 << 16) | MUX_PA12F_TCC0_WO6)
+#define PORT_PA12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PA16F_TCC0_WO6             _L_(16) /**< \brief TCC0 signal: WO6 on PA16 mux F */
+#define MUX_PA16F_TCC0_WO6              _L_(5)
+#define PINMUX_PA16F_TCC0_WO6      ((PIN_PA16F_TCC0_WO6 << 16) | MUX_PA16F_TCC0_WO6)
+#define PORT_PA16F_TCC0_WO6    (_UL_(1) << 16)
+#define PIN_PA20F_TCC0_WO6             _L_(20) /**< \brief TCC0 signal: WO6 on PA20 mux F */
+#define MUX_PA20F_TCC0_WO6              _L_(5)
+#define PINMUX_PA20F_TCC0_WO6      ((PIN_PA20F_TCC0_WO6 << 16) | MUX_PA20F_TCC0_WO6)
+#define PORT_PA20F_TCC0_WO6    (_UL_(1) << 20)
+#define PIN_PB12F_TCC0_WO6             _L_(44) /**< \brief TCC0 signal: WO6 on PB12 mux F */
+#define MUX_PB12F_TCC0_WO6              _L_(5)
+#define PINMUX_PB12F_TCC0_WO6      ((PIN_PB12F_TCC0_WO6 << 16) | MUX_PB12F_TCC0_WO6)
+#define PORT_PB12F_TCC0_WO6    (_UL_(1) << 12)
+#define PIN_PB24F_TCC0_WO6             _L_(56) /**< \brief TCC0 signal: WO6 on PB24 mux F */
+#define MUX_PB24F_TCC0_WO6              _L_(5)
+#define PINMUX_PB24F_TCC0_WO6      ((PIN_PB24F_TCC0_WO6 << 16) | MUX_PB24F_TCC0_WO6)
+#define PORT_PB24F_TCC0_WO6    (_UL_(1) << 24)
+#define PIN_PA13F_TCC0_WO7             _L_(13) /**< \brief TCC0 signal: WO7 on PA13 mux F */
+#define MUX_PA13F_TCC0_WO7              _L_(5)
+#define PINMUX_PA13F_TCC0_WO7      ((PIN_PA13F_TCC0_WO7 << 16) | MUX_PA13F_TCC0_WO7)
+#define PORT_PA13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PA17F_TCC0_WO7             _L_(17) /**< \brief TCC0 signal: WO7 on PA17 mux F */
+#define MUX_PA17F_TCC0_WO7              _L_(5)
+#define PINMUX_PA17F_TCC0_WO7      ((PIN_PA17F_TCC0_WO7 << 16) | MUX_PA17F_TCC0_WO7)
+#define PORT_PA17F_TCC0_WO7    (_UL_(1) << 17)
+#define PIN_PA21F_TCC0_WO7             _L_(21) /**< \brief TCC0 signal: WO7 on PA21 mux F */
+#define MUX_PA21F_TCC0_WO7              _L_(5)
+#define PINMUX_PA21F_TCC0_WO7      ((PIN_PA21F_TCC0_WO7 << 16) | MUX_PA21F_TCC0_WO7)
+#define PORT_PA21F_TCC0_WO7    (_UL_(1) << 21)
+#define PIN_PB13F_TCC0_WO7             _L_(45) /**< \brief TCC0 signal: WO7 on PB13 mux F */
+#define MUX_PB13F_TCC0_WO7              _L_(5)
+#define PINMUX_PB13F_TCC0_WO7      ((PIN_PB13F_TCC0_WO7 << 16) | MUX_PB13F_TCC0_WO7)
+#define PORT_PB13F_TCC0_WO7    (_UL_(1) << 13)
+#define PIN_PB25F_TCC0_WO7             _L_(57) /**< \brief TCC0 signal: WO7 on PB25 mux F */
+#define MUX_PB25F_TCC0_WO7              _L_(5)
+#define PINMUX_PB25F_TCC0_WO7      ((PIN_PB25F_TCC0_WO7 << 16) | MUX_PB25F_TCC0_WO7)
+#define PORT_PB25F_TCC0_WO7    (_UL_(1) << 25)
+/* ========== PORT definition for TC0 peripheral ========== */
+#define PIN_PA22E_TC0_WO0              _L_(22) /**< \brief TC0 signal: WO0 on PA22 mux E */
+#define MUX_PA22E_TC0_WO0               _L_(4)
+#define PINMUX_PA22E_TC0_WO0       ((PIN_PA22E_TC0_WO0 << 16) | MUX_PA22E_TC0_WO0)
+#define PORT_PA22E_TC0_WO0     (_UL_(1) << 22)
+#define PIN_PB08E_TC0_WO0              _L_(40) /**< \brief TC0 signal: WO0 on PB08 mux E */
+#define MUX_PB08E_TC0_WO0               _L_(4)
+#define PINMUX_PB08E_TC0_WO0       ((PIN_PB08E_TC0_WO0 << 16) | MUX_PB08E_TC0_WO0)
+#define PORT_PB08E_TC0_WO0     (_UL_(1) <<  8)
+#define PIN_PB12E_TC0_WO0              _L_(44) /**< \brief TC0 signal: WO0 on PB12 mux E */
+#define MUX_PB12E_TC0_WO0               _L_(4)
+#define PINMUX_PB12E_TC0_WO0       ((PIN_PB12E_TC0_WO0 << 16) | MUX_PB12E_TC0_WO0)
+#define PORT_PB12E_TC0_WO0     (_UL_(1) << 12)
+#define PIN_PA23E_TC0_WO1              _L_(23) /**< \brief TC0 signal: WO1 on PA23 mux E */
+#define MUX_PA23E_TC0_WO1               _L_(4)
+#define PINMUX_PA23E_TC0_WO1       ((PIN_PA23E_TC0_WO1 << 16) | MUX_PA23E_TC0_WO1)
+#define PORT_PA23E_TC0_WO1     (_UL_(1) << 23)
+#define PIN_PB09E_TC0_WO1              _L_(41) /**< \brief TC0 signal: WO1 on PB09 mux E */
+#define MUX_PB09E_TC0_WO1               _L_(4)
+#define PINMUX_PB09E_TC0_WO1       ((PIN_PB09E_TC0_WO1 << 16) | MUX_PB09E_TC0_WO1)
+#define PORT_PB09E_TC0_WO1     (_UL_(1) <<  9)
+#define PIN_PB13E_TC0_WO1              _L_(45) /**< \brief TC0 signal: WO1 on PB13 mux E */
+#define MUX_PB13E_TC0_WO1               _L_(4)
+#define PINMUX_PB13E_TC0_WO1       ((PIN_PB13E_TC0_WO1 << 16) | MUX_PB13E_TC0_WO1)
+#define PORT_PB13E_TC0_WO1     (_UL_(1) << 13)
+/* ========== PORT definition for TC1 peripheral ========== */
+#define PIN_PA24E_TC1_WO0              _L_(24) /**< \brief TC1 signal: WO0 on PA24 mux E */
+#define MUX_PA24E_TC1_WO0               _L_(4)
+#define PINMUX_PA24E_TC1_WO0       ((PIN_PA24E_TC1_WO0 << 16) | MUX_PA24E_TC1_WO0)
+#define PORT_PA24E_TC1_WO0     (_UL_(1) << 24)
+#define PIN_PB14E_TC1_WO0              _L_(46) /**< \brief TC1 signal: WO0 on PB14 mux E */
+#define MUX_PB14E_TC1_WO0               _L_(4)
+#define PINMUX_PB14E_TC1_WO0       ((PIN_PB14E_TC1_WO0 << 16) | MUX_PB14E_TC1_WO0)
+#define PORT_PB14E_TC1_WO0     (_UL_(1) << 14)
+#define PIN_PA25E_TC1_WO1              _L_(25) /**< \brief TC1 signal: WO1 on PA25 mux E */
+#define MUX_PA25E_TC1_WO1               _L_(4)
+#define PINMUX_PA25E_TC1_WO1       ((PIN_PA25E_TC1_WO1 << 16) | MUX_PA25E_TC1_WO1)
+#define PORT_PA25E_TC1_WO1     (_UL_(1) << 25)
+#define PIN_PB11E_TC1_WO1              _L_(43) /**< \brief TC1 signal: WO1 on PB11 mux E */
+#define MUX_PB11E_TC1_WO1               _L_(4)
+#define PINMUX_PB11E_TC1_WO1       ((PIN_PB11E_TC1_WO1 << 16) | MUX_PB11E_TC1_WO1)
+#define PORT_PB11E_TC1_WO1     (_UL_(1) << 11)
+#define PIN_PB15E_TC1_WO1              _L_(47) /**< \brief TC1 signal: WO1 on PB15 mux E */
+#define MUX_PB15E_TC1_WO1               _L_(4)
+#define PINMUX_PB15E_TC1_WO1       ((PIN_PB15E_TC1_WO1 << 16) | MUX_PB15E_TC1_WO1)
+#define PORT_PB15E_TC1_WO1     (_UL_(1) << 15)
+/* ========== PORT definition for TC2 peripheral ========== */
+#define PIN_PB02E_TC2_WO0              _L_(34) /**< \brief TC2 signal: WO0 on PB02 mux E */
+#define MUX_PB02E_TC2_WO0               _L_(4)
+#define PINMUX_PB02E_TC2_WO0       ((PIN_PB02E_TC2_WO0 << 16) | MUX_PB02E_TC2_WO0)
+#define PORT_PB02E_TC2_WO0     (_UL_(1) <<  2)
+#define PIN_PB16E_TC2_WO0              _L_(48) /**< \brief TC2 signal: WO0 on PB16 mux E */
+#define MUX_PB16E_TC2_WO0               _L_(4)
+#define PINMUX_PB16E_TC2_WO0       ((PIN_PB16E_TC2_WO0 << 16) | MUX_PB16E_TC2_WO0)
+#define PORT_PB16E_TC2_WO0     (_UL_(1) << 16)
+#define PIN_PC24E_TC2_WO0              _L_(88) /**< \brief TC2 signal: WO0 on PC24 mux E */
+#define MUX_PC24E_TC2_WO0               _L_(4)
+#define PINMUX_PC24E_TC2_WO0       ((PIN_PC24E_TC2_WO0 << 16) | MUX_PC24E_TC2_WO0)
+#define PORT_PC24E_TC2_WO0     (_UL_(1) << 24)
+#define PIN_PB03E_TC2_WO1              _L_(35) /**< \brief TC2 signal: WO1 on PB03 mux E */
+#define MUX_PB03E_TC2_WO1               _L_(4)
+#define PINMUX_PB03E_TC2_WO1       ((PIN_PB03E_TC2_WO1 << 16) | MUX_PB03E_TC2_WO1)
+#define PORT_PB03E_TC2_WO1     (_UL_(1) <<  3)
+#define PIN_PB17E_TC2_WO1              _L_(49) /**< \brief TC2 signal: WO1 on PB17 mux E */
+#define MUX_PB17E_TC2_WO1               _L_(4)
+#define PINMUX_PB17E_TC2_WO1       ((PIN_PB17E_TC2_WO1 << 16) | MUX_PB17E_TC2_WO1)
+#define PORT_PB17E_TC2_WO1     (_UL_(1) << 17)
+#define PIN_PC25E_TC2_WO1              _L_(89) /**< \brief TC2 signal: WO1 on PC25 mux E */
+#define MUX_PC25E_TC2_WO1               _L_(4)
+#define PINMUX_PC25E_TC2_WO1       ((PIN_PC25E_TC2_WO1 << 16) | MUX_PC25E_TC2_WO1)
+#define PORT_PC25E_TC2_WO1     (_UL_(1) << 25)
+/* ========== PORT definition for TC3 peripheral ========== */
+#define PIN_PA20E_TC3_WO0              _L_(20) /**< \brief TC3 signal: WO0 on PA20 mux E */
+#define MUX_PA20E_TC3_WO0               _L_(4)
+#define PINMUX_PA20E_TC3_WO0       ((PIN_PA20E_TC3_WO0 << 16) | MUX_PA20E_TC3_WO0)
+#define PORT_PA20E_TC3_WO0     (_UL_(1) << 20)
+#define PIN_PB00E_TC3_WO0              _L_(32) /**< \brief TC3 signal: WO0 on PB00 mux E */
+#define MUX_PB00E_TC3_WO0               _L_(4)
+#define PINMUX_PB00E_TC3_WO0       ((PIN_PB00E_TC3_WO0 << 16) | MUX_PB00E_TC3_WO0)
+#define PORT_PB00E_TC3_WO0     (_UL_(1) <<  0)
+#define PIN_PB22E_TC3_WO0              _L_(54) /**< \brief TC3 signal: WO0 on PB22 mux E */
+#define MUX_PB22E_TC3_WO0               _L_(4)
+#define PINMUX_PB22E_TC3_WO0       ((PIN_PB22E_TC3_WO0 << 16) | MUX_PB22E_TC3_WO0)
+#define PORT_PB22E_TC3_WO0     (_UL_(1) << 22)
+#define PIN_PC26E_TC3_WO0              _L_(90) /**< \brief TC3 signal: WO0 on PC26 mux E */
+#define MUX_PC26E_TC3_WO0               _L_(4)
+#define PINMUX_PC26E_TC3_WO0       ((PIN_PC26E_TC3_WO0 << 16) | MUX_PC26E_TC3_WO0)
+#define PORT_PC26E_TC3_WO0     (_UL_(1) << 26)
+#define PIN_PA21E_TC3_WO1              _L_(21) /**< \brief TC3 signal: WO1 on PA21 mux E */
+#define MUX_PA21E_TC3_WO1               _L_(4)
+#define PINMUX_PA21E_TC3_WO1       ((PIN_PA21E_TC3_WO1 << 16) | MUX_PA21E_TC3_WO1)
+#define PORT_PA21E_TC3_WO1     (_UL_(1) << 21)
+#define PIN_PB01E_TC3_WO1              _L_(33) /**< \brief TC3 signal: WO1 on PB01 mux E */
+#define MUX_PB01E_TC3_WO1               _L_(4)
+#define PINMUX_PB01E_TC3_WO1       ((PIN_PB01E_TC3_WO1 << 16) | MUX_PB01E_TC3_WO1)
+#define PORT_PB01E_TC3_WO1     (_UL_(1) <<  1)
+#define PIN_PB23E_TC3_WO1              _L_(55) /**< \brief TC3 signal: WO1 on PB23 mux E */
+#define MUX_PB23E_TC3_WO1               _L_(4)
+#define PINMUX_PB23E_TC3_WO1       ((PIN_PB23E_TC3_WO1 << 16) | MUX_PB23E_TC3_WO1)
+#define PORT_PB23E_TC3_WO1     (_UL_(1) << 23)
+#define PIN_PC27E_TC3_WO1              _L_(91) /**< \brief TC3 signal: WO1 on PC27 mux E */
+#define MUX_PC27E_TC3_WO1               _L_(4)
+#define PINMUX_PC27E_TC3_WO1       ((PIN_PC27E_TC3_WO1 << 16) | MUX_PC27E_TC3_WO1)
+#define PORT_PC27E_TC3_WO1     (_UL_(1) << 27)
+/* ========== PORT definition for ADC peripheral ========== */
+#define PIN_PA02B_ADC_AIN0              _L_(2) /**< \brief ADC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_ADC_AIN0              _L_(1)
+#define PINMUX_PA02B_ADC_AIN0      ((PIN_PA02B_ADC_AIN0 << 16) | MUX_PA02B_ADC_AIN0)
+#define PORT_PA02B_ADC_AIN0    (_UL_(1) <<  2)
+#define PIN_PA03B_ADC_AIN1              _L_(3) /**< \brief ADC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_ADC_AIN1              _L_(1)
+#define PINMUX_PA03B_ADC_AIN1      ((PIN_PA03B_ADC_AIN1 << 16) | MUX_PA03B_ADC_AIN1)
+#define PORT_PA03B_ADC_AIN1    (_UL_(1) <<  3)
+#define PIN_PB08B_ADC_AIN2             _L_(40) /**< \brief ADC signal: AIN2 on PB08 mux B */
+#define MUX_PB08B_ADC_AIN2              _L_(1)
+#define PINMUX_PB08B_ADC_AIN2      ((PIN_PB08B_ADC_AIN2 << 16) | MUX_PB08B_ADC_AIN2)
+#define PORT_PB08B_ADC_AIN2    (_UL_(1) <<  8)
+#define PIN_PB09B_ADC_AIN3             _L_(41) /**< \brief ADC signal: AIN3 on PB09 mux B */
+#define MUX_PB09B_ADC_AIN3              _L_(1)
+#define PINMUX_PB09B_ADC_AIN3      ((PIN_PB09B_ADC_AIN3 << 16) | MUX_PB09B_ADC_AIN3)
+#define PORT_PB09B_ADC_AIN3    (_UL_(1) <<  9)
+#define PIN_PA04B_ADC_AIN4              _L_(4) /**< \brief ADC signal: AIN4 on PA04 mux B */
+#define MUX_PA04B_ADC_AIN4              _L_(1)
+#define PINMUX_PA04B_ADC_AIN4      ((PIN_PA04B_ADC_AIN4 << 16) | MUX_PA04B_ADC_AIN4)
+#define PORT_PA04B_ADC_AIN4    (_UL_(1) <<  4)
+#define PIN_PA05B_ADC_AIN5              _L_(5) /**< \brief ADC signal: AIN5 on PA05 mux B */
+#define MUX_PA05B_ADC_AIN5              _L_(1)
+#define PINMUX_PA05B_ADC_AIN5      ((PIN_PA05B_ADC_AIN5 << 16) | MUX_PA05B_ADC_AIN5)
+#define PORT_PA05B_ADC_AIN5    (_UL_(1) <<  5)
+#define PIN_PA06B_ADC_AIN6              _L_(6) /**< \brief ADC signal: AIN6 on PA06 mux B */
+#define MUX_PA06B_ADC_AIN6              _L_(1)
+#define PINMUX_PA06B_ADC_AIN6      ((PIN_PA06B_ADC_AIN6 << 16) | MUX_PA06B_ADC_AIN6)
+#define PORT_PA06B_ADC_AIN6    (_UL_(1) <<  6)
+#define PIN_PA07B_ADC_AIN7              _L_(7) /**< \brief ADC signal: AIN7 on PA07 mux B */
+#define MUX_PA07B_ADC_AIN7              _L_(1)
+#define PINMUX_PA07B_ADC_AIN7      ((PIN_PA07B_ADC_AIN7 << 16) | MUX_PA07B_ADC_AIN7)
+#define PORT_PA07B_ADC_AIN7    (_UL_(1) <<  7)
+#define PIN_PB00B_ADC_AIN8             _L_(32) /**< \brief ADC signal: AIN8 on PB00 mux B */
+#define MUX_PB00B_ADC_AIN8              _L_(1)
+#define PINMUX_PB00B_ADC_AIN8      ((PIN_PB00B_ADC_AIN8 << 16) | MUX_PB00B_ADC_AIN8)
+#define PORT_PB00B_ADC_AIN8    (_UL_(1) <<  0)
+#define PIN_PB01B_ADC_AIN9             _L_(33) /**< \brief ADC signal: AIN9 on PB01 mux B */
+#define MUX_PB01B_ADC_AIN9              _L_(1)
+#define PINMUX_PB01B_ADC_AIN9      ((PIN_PB01B_ADC_AIN9 << 16) | MUX_PB01B_ADC_AIN9)
+#define PORT_PB01B_ADC_AIN9    (_UL_(1) <<  1)
+#define PIN_PB02B_ADC_AIN10            _L_(34) /**< \brief ADC signal: AIN10 on PB02 mux B */
+#define MUX_PB02B_ADC_AIN10             _L_(1)
+#define PINMUX_PB02B_ADC_AIN10     ((PIN_PB02B_ADC_AIN10 << 16) | MUX_PB02B_ADC_AIN10)
+#define PORT_PB02B_ADC_AIN10   (_UL_(1) <<  2)
+#define PIN_PB03B_ADC_AIN11            _L_(35) /**< \brief ADC signal: AIN11 on PB03 mux B */
+#define MUX_PB03B_ADC_AIN11             _L_(1)
+#define PINMUX_PB03B_ADC_AIN11     ((PIN_PB03B_ADC_AIN11 << 16) | MUX_PB03B_ADC_AIN11)
+#define PORT_PB03B_ADC_AIN11   (_UL_(1) <<  3)
+#define PIN_PB04B_ADC_AIN12            _L_(36) /**< \brief ADC signal: AIN12 on PB04 mux B */
+#define MUX_PB04B_ADC_AIN12             _L_(1)
+#define PINMUX_PB04B_ADC_AIN12     ((PIN_PB04B_ADC_AIN12 << 16) | MUX_PB04B_ADC_AIN12)
+#define PORT_PB04B_ADC_AIN12   (_UL_(1) <<  4)
+#define PIN_PB05B_ADC_AIN13            _L_(37) /**< \brief ADC signal: AIN13 on PB05 mux B */
+#define MUX_PB05B_ADC_AIN13             _L_(1)
+#define PINMUX_PB05B_ADC_AIN13     ((PIN_PB05B_ADC_AIN13 << 16) | MUX_PB05B_ADC_AIN13)
+#define PORT_PB05B_ADC_AIN13   (_UL_(1) <<  5)
+#define PIN_PB06B_ADC_AIN14            _L_(38) /**< \brief ADC signal: AIN14 on PB06 mux B */
+#define MUX_PB06B_ADC_AIN14             _L_(1)
+#define PINMUX_PB06B_ADC_AIN14     ((PIN_PB06B_ADC_AIN14 << 16) | MUX_PB06B_ADC_AIN14)
+#define PORT_PB06B_ADC_AIN14   (_UL_(1) <<  6)
+#define PIN_PB07B_ADC_AIN15            _L_(39) /**< \brief ADC signal: AIN15 on PB07 mux B */
+#define MUX_PB07B_ADC_AIN15             _L_(1)
+#define PINMUX_PB07B_ADC_AIN15     ((PIN_PB07B_ADC_AIN15 << 16) | MUX_PB07B_ADC_AIN15)
+#define PORT_PB07B_ADC_AIN15   (_UL_(1) <<  7)
+#define PIN_PC00B_ADC_AIN16            _L_(64) /**< \brief ADC signal: AIN16 on PC00 mux B */
+#define MUX_PC00B_ADC_AIN16             _L_(1)
+#define PINMUX_PC00B_ADC_AIN16     ((PIN_PC00B_ADC_AIN16 << 16) | MUX_PC00B_ADC_AIN16)
+#define PORT_PC00B_ADC_AIN16   (_UL_(1) <<  0)
+#define PIN_PC01B_ADC_AIN17            _L_(65) /**< \brief ADC signal: AIN17 on PC01 mux B */
+#define MUX_PC01B_ADC_AIN17             _L_(1)
+#define PINMUX_PC01B_ADC_AIN17     ((PIN_PC01B_ADC_AIN17 << 16) | MUX_PC01B_ADC_AIN17)
+#define PORT_PC01B_ADC_AIN17   (_UL_(1) <<  1)
+#define PIN_PC02B_ADC_AIN18            _L_(66) /**< \brief ADC signal: AIN18 on PC02 mux B */
+#define MUX_PC02B_ADC_AIN18             _L_(1)
+#define PINMUX_PC02B_ADC_AIN18     ((PIN_PC02B_ADC_AIN18 << 16) | MUX_PC02B_ADC_AIN18)
+#define PORT_PC02B_ADC_AIN18   (_UL_(1) <<  2)
+#define PIN_PC03B_ADC_AIN19            _L_(67) /**< \brief ADC signal: AIN19 on PC03 mux B */
+#define MUX_PC03B_ADC_AIN19             _L_(1)
+#define PINMUX_PC03B_ADC_AIN19     ((PIN_PC03B_ADC_AIN19 << 16) | MUX_PC03B_ADC_AIN19)
+#define PORT_PC03B_ADC_AIN19   (_UL_(1) <<  3)
+#define PIN_PA03B_ADC_VREFA             _L_(3) /**< \brief ADC signal: VREFA on PA03 mux B */
+#define MUX_PA03B_ADC_VREFA             _L_(1)
+#define PINMUX_PA03B_ADC_VREFA     ((PIN_PA03B_ADC_VREFA << 16) | MUX_PA03B_ADC_VREFA)
+#define PORT_PA03B_ADC_VREFA   (_UL_(1) <<  3)
+#define PIN_PA02B_ADC_VREFB             _L_(2) /**< \brief ADC signal: VREFB on PA02 mux B */
+#define MUX_PA02B_ADC_VREFB             _L_(1)
+#define PINMUX_PA02B_ADC_VREFB     ((PIN_PA02B_ADC_VREFB << 16) | MUX_PA02B_ADC_VREFB)
+#define PORT_PA02B_ADC_VREFB   (_UL_(1) <<  2)
+/* ========== PORT definition for AC peripheral ========== */
+#define PIN_PA02B_AC_AIN0               _L_(2) /**< \brief AC signal: AIN0 on PA02 mux B */
+#define MUX_PA02B_AC_AIN0               _L_(1)
+#define PINMUX_PA02B_AC_AIN0       ((PIN_PA02B_AC_AIN0 << 16) | MUX_PA02B_AC_AIN0)
+#define PORT_PA02B_AC_AIN0     (_UL_(1) <<  2)
+#define PIN_PA03B_AC_AIN1               _L_(3) /**< \brief AC signal: AIN1 on PA03 mux B */
+#define MUX_PA03B_AC_AIN1               _L_(1)
+#define PINMUX_PA03B_AC_AIN1       ((PIN_PA03B_AC_AIN1 << 16) | MUX_PA03B_AC_AIN1)
+#define PORT_PA03B_AC_AIN1     (_UL_(1) <<  3)
+#define PIN_PB04B_AC_AIN2              _L_(36) /**< \brief AC signal: AIN2 on PB04 mux B */
+#define MUX_PB04B_AC_AIN2               _L_(1)
+#define PINMUX_PB04B_AC_AIN2       ((PIN_PB04B_AC_AIN2 << 16) | MUX_PB04B_AC_AIN2)
+#define PORT_PB04B_AC_AIN2     (_UL_(1) <<  4)
+#define PIN_PB05B_AC_AIN3              _L_(37) /**< \brief AC signal: AIN3 on PB05 mux B */
+#define MUX_PB05B_AC_AIN3               _L_(1)
+#define PINMUX_PB05B_AC_AIN3       ((PIN_PB05B_AC_AIN3 << 16) | MUX_PB05B_AC_AIN3)
+#define PORT_PB05B_AC_AIN3     (_UL_(1) <<  5)
+#define PIN_PA12H_AC_CMP0              _L_(12) /**< \brief AC signal: CMP0 on PA12 mux H */
+#define MUX_PA12H_AC_CMP0               _L_(7)
+#define PINMUX_PA12H_AC_CMP0       ((PIN_PA12H_AC_CMP0 << 16) | MUX_PA12H_AC_CMP0)
+#define PORT_PA12H_AC_CMP0     (_UL_(1) << 12)
+#define PIN_PA18H_AC_CMP0              _L_(18) /**< \brief AC signal: CMP0 on PA18 mux H */
+#define MUX_PA18H_AC_CMP0               _L_(7)
+#define PINMUX_PA18H_AC_CMP0       ((PIN_PA18H_AC_CMP0 << 16) | MUX_PA18H_AC_CMP0)
+#define PORT_PA18H_AC_CMP0     (_UL_(1) << 18)
+#define PIN_PB24H_AC_CMP0              _L_(56) /**< \brief AC signal: CMP0 on PB24 mux H */
+#define MUX_PB24H_AC_CMP0               _L_(7)
+#define PINMUX_PB24H_AC_CMP0       ((PIN_PB24H_AC_CMP0 << 16) | MUX_PB24H_AC_CMP0)
+#define PORT_PB24H_AC_CMP0     (_UL_(1) << 24)
+#define PIN_PA13H_AC_CMP1              _L_(13) /**< \brief AC signal: CMP1 on PA13 mux H */
+#define MUX_PA13H_AC_CMP1               _L_(7)
+#define PINMUX_PA13H_AC_CMP1       ((PIN_PA13H_AC_CMP1 << 16) | MUX_PA13H_AC_CMP1)
+#define PORT_PA13H_AC_CMP1     (_UL_(1) << 13)
+#define PIN_PA19H_AC_CMP1              _L_(19) /**< \brief AC signal: CMP1 on PA19 mux H */
+#define MUX_PA19H_AC_CMP1               _L_(7)
+#define PINMUX_PA19H_AC_CMP1       ((PIN_PA19H_AC_CMP1 << 16) | MUX_PA19H_AC_CMP1)
+#define PORT_PA19H_AC_CMP1     (_UL_(1) << 19)
+#define PIN_PB25H_AC_CMP1              _L_(57) /**< \brief AC signal: CMP1 on PB25 mux H */
+#define MUX_PB25H_AC_CMP1               _L_(7)
+#define PINMUX_PB25H_AC_CMP1       ((PIN_PB25H_AC_CMP1 << 16) | MUX_PB25H_AC_CMP1)
+#define PORT_PB25H_AC_CMP1     (_UL_(1) << 25)
+/* ========== PORT definition for SLCD peripheral ========== */
+#define PIN_PB06B_SLCD_LP0             _L_(38) /**< \brief SLCD signal: LP0 on PB06 mux B */
+#define MUX_PB06B_SLCD_LP0              _L_(1)
+#define PINMUX_PB06B_SLCD_LP0      ((PIN_PB06B_SLCD_LP0 << 16) | MUX_PB06B_SLCD_LP0)
+#define PORT_PB06B_SLCD_LP0    (_UL_(1) <<  6)
+#define PIN_PB07B_SLCD_LP1             _L_(39) /**< \brief SLCD signal: LP1 on PB07 mux B */
+#define MUX_PB07B_SLCD_LP1              _L_(1)
+#define PINMUX_PB07B_SLCD_LP1      ((PIN_PB07B_SLCD_LP1 << 16) | MUX_PB07B_SLCD_LP1)
+#define PORT_PB07B_SLCD_LP1    (_UL_(1) <<  7)
+#define PIN_PB08B_SLCD_LP2             _L_(40) /**< \brief SLCD signal: LP2 on PB08 mux B */
+#define MUX_PB08B_SLCD_LP2              _L_(1)
+#define PINMUX_PB08B_SLCD_LP2      ((PIN_PB08B_SLCD_LP2 << 16) | MUX_PB08B_SLCD_LP2)
+#define PORT_PB08B_SLCD_LP2    (_UL_(1) <<  8)
+#define PIN_PB09B_SLCD_LP3             _L_(41) /**< \brief SLCD signal: LP3 on PB09 mux B */
+#define MUX_PB09B_SLCD_LP3              _L_(1)
+#define PINMUX_PB09B_SLCD_LP3      ((PIN_PB09B_SLCD_LP3 << 16) | MUX_PB09B_SLCD_LP3)
+#define PORT_PB09B_SLCD_LP3    (_UL_(1) <<  9)
+#define PIN_PA04B_SLCD_LP4              _L_(4) /**< \brief SLCD signal: LP4 on PA04 mux B */
+#define MUX_PA04B_SLCD_LP4              _L_(1)
+#define PINMUX_PA04B_SLCD_LP4      ((PIN_PA04B_SLCD_LP4 << 16) | MUX_PA04B_SLCD_LP4)
+#define PORT_PA04B_SLCD_LP4    (_UL_(1) <<  4)
+#define PIN_PA05B_SLCD_LP5              _L_(5) /**< \brief SLCD signal: LP5 on PA05 mux B */
+#define MUX_PA05B_SLCD_LP5              _L_(1)
+#define PINMUX_PA05B_SLCD_LP5      ((PIN_PA05B_SLCD_LP5 << 16) | MUX_PA05B_SLCD_LP5)
+#define PORT_PA05B_SLCD_LP5    (_UL_(1) <<  5)
+#define PIN_PA06B_SLCD_LP6              _L_(6) /**< \brief SLCD signal: LP6 on PA06 mux B */
+#define MUX_PA06B_SLCD_LP6              _L_(1)
+#define PINMUX_PA06B_SLCD_LP6      ((PIN_PA06B_SLCD_LP6 << 16) | MUX_PA06B_SLCD_LP6)
+#define PORT_PA06B_SLCD_LP6    (_UL_(1) <<  6)
+#define PIN_PA07B_SLCD_LP7              _L_(7) /**< \brief SLCD signal: LP7 on PA07 mux B */
+#define MUX_PA07B_SLCD_LP7              _L_(1)
+#define PINMUX_PA07B_SLCD_LP7      ((PIN_PA07B_SLCD_LP7 << 16) | MUX_PA07B_SLCD_LP7)
+#define PORT_PA07B_SLCD_LP7    (_UL_(1) <<  7)
+#define PIN_PC05B_SLCD_LP8             _L_(69) /**< \brief SLCD signal: LP8 on PC05 mux B */
+#define MUX_PC05B_SLCD_LP8              _L_(1)
+#define PINMUX_PC05B_SLCD_LP8      ((PIN_PC05B_SLCD_LP8 << 16) | MUX_PC05B_SLCD_LP8)
+#define PORT_PC05B_SLCD_LP8    (_UL_(1) <<  5)
+#define PIN_PC06B_SLCD_LP9             _L_(70) /**< \brief SLCD signal: LP9 on PC06 mux B */
+#define MUX_PC06B_SLCD_LP9              _L_(1)
+#define PINMUX_PC06B_SLCD_LP9      ((PIN_PC06B_SLCD_LP9 << 16) | MUX_PC06B_SLCD_LP9)
+#define PORT_PC06B_SLCD_LP9    (_UL_(1) <<  6)
+#define PIN_PC07B_SLCD_LP10            _L_(71) /**< \brief SLCD signal: LP10 on PC07 mux B */
+#define MUX_PC07B_SLCD_LP10             _L_(1)
+#define PINMUX_PC07B_SLCD_LP10     ((PIN_PC07B_SLCD_LP10 << 16) | MUX_PC07B_SLCD_LP10)
+#define PORT_PC07B_SLCD_LP10   (_UL_(1) <<  7)
+#define PIN_PA08B_SLCD_LP11             _L_(8) /**< \brief SLCD signal: LP11 on PA08 mux B */
+#define MUX_PA08B_SLCD_LP11             _L_(1)
+#define PINMUX_PA08B_SLCD_LP11     ((PIN_PA08B_SLCD_LP11 << 16) | MUX_PA08B_SLCD_LP11)
+#define PORT_PA08B_SLCD_LP11   (_UL_(1) <<  8)
+#define PIN_PA09B_SLCD_LP12             _L_(9) /**< \brief SLCD signal: LP12 on PA09 mux B */
+#define MUX_PA09B_SLCD_LP12             _L_(1)
+#define PINMUX_PA09B_SLCD_LP12     ((PIN_PA09B_SLCD_LP12 << 16) | MUX_PA09B_SLCD_LP12)
+#define PORT_PA09B_SLCD_LP12   (_UL_(1) <<  9)
+#define PIN_PA10B_SLCD_LP13            _L_(10) /**< \brief SLCD signal: LP13 on PA10 mux B */
+#define MUX_PA10B_SLCD_LP13             _L_(1)
+#define PINMUX_PA10B_SLCD_LP13     ((PIN_PA10B_SLCD_LP13 << 16) | MUX_PA10B_SLCD_LP13)
+#define PORT_PA10B_SLCD_LP13   (_UL_(1) << 10)
+#define PIN_PA11B_SLCD_LP14            _L_(11) /**< \brief SLCD signal: LP14 on PA11 mux B */
+#define MUX_PA11B_SLCD_LP14             _L_(1)
+#define PINMUX_PA11B_SLCD_LP14     ((PIN_PA11B_SLCD_LP14 << 16) | MUX_PA11B_SLCD_LP14)
+#define PORT_PA11B_SLCD_LP14   (_UL_(1) << 11)
+#define PIN_PC08B_SLCD_LP15            _L_(72) /**< \brief SLCD signal: LP15 on PC08 mux B */
+#define MUX_PC08B_SLCD_LP15             _L_(1)
+#define PINMUX_PC08B_SLCD_LP15     ((PIN_PC08B_SLCD_LP15 << 16) | MUX_PC08B_SLCD_LP15)
+#define PORT_PC08B_SLCD_LP15   (_UL_(1) <<  8)
+#define PIN_PC09B_SLCD_LP16            _L_(73) /**< \brief SLCD signal: LP16 on PC09 mux B */
+#define MUX_PC09B_SLCD_LP16             _L_(1)
+#define PINMUX_PC09B_SLCD_LP16     ((PIN_PC09B_SLCD_LP16 << 16) | MUX_PC09B_SLCD_LP16)
+#define PORT_PC09B_SLCD_LP16   (_UL_(1) <<  9)
+#define PIN_PC10B_SLCD_LP17            _L_(74) /**< \brief SLCD signal: LP17 on PC10 mux B */
+#define MUX_PC10B_SLCD_LP17             _L_(1)
+#define PINMUX_PC10B_SLCD_LP17     ((PIN_PC10B_SLCD_LP17 << 16) | MUX_PC10B_SLCD_LP17)
+#define PORT_PC10B_SLCD_LP17   (_UL_(1) << 10)
+#define PIN_PC11B_SLCD_LP18            _L_(75) /**< \brief SLCD signal: LP18 on PC11 mux B */
+#define MUX_PC11B_SLCD_LP18             _L_(1)
+#define PINMUX_PC11B_SLCD_LP18     ((PIN_PC11B_SLCD_LP18 << 16) | MUX_PC11B_SLCD_LP18)
+#define PORT_PC11B_SLCD_LP18   (_UL_(1) << 11)
+#define PIN_PC12B_SLCD_LP19            _L_(76) /**< \brief SLCD signal: LP19 on PC12 mux B */
+#define MUX_PC12B_SLCD_LP19             _L_(1)
+#define PINMUX_PC12B_SLCD_LP19     ((PIN_PC12B_SLCD_LP19 << 16) | MUX_PC12B_SLCD_LP19)
+#define PORT_PC12B_SLCD_LP19   (_UL_(1) << 12)
+#define PIN_PC13B_SLCD_LP20            _L_(77) /**< \brief SLCD signal: LP20 on PC13 mux B */
+#define MUX_PC13B_SLCD_LP20             _L_(1)
+#define PINMUX_PC13B_SLCD_LP20     ((PIN_PC13B_SLCD_LP20 << 16) | MUX_PC13B_SLCD_LP20)
+#define PORT_PC13B_SLCD_LP20   (_UL_(1) << 13)
+#define PIN_PB11B_SLCD_LP21            _L_(43) /**< \brief SLCD signal: LP21 on PB11 mux B */
+#define MUX_PB11B_SLCD_LP21             _L_(1)
+#define PINMUX_PB11B_SLCD_LP21     ((PIN_PB11B_SLCD_LP21 << 16) | MUX_PB11B_SLCD_LP21)
+#define PORT_PB11B_SLCD_LP21   (_UL_(1) << 11)
+#define PIN_PB12B_SLCD_LP22            _L_(44) /**< \brief SLCD signal: LP22 on PB12 mux B */
+#define MUX_PB12B_SLCD_LP22             _L_(1)
+#define PINMUX_PB12B_SLCD_LP22     ((PIN_PB12B_SLCD_LP22 << 16) | MUX_PB12B_SLCD_LP22)
+#define PORT_PB12B_SLCD_LP22   (_UL_(1) << 12)
+#define PIN_PB13B_SLCD_LP23            _L_(45) /**< \brief SLCD signal: LP23 on PB13 mux B */
+#define MUX_PB13B_SLCD_LP23             _L_(1)
+#define PINMUX_PB13B_SLCD_LP23     ((PIN_PB13B_SLCD_LP23 << 16) | MUX_PB13B_SLCD_LP23)
+#define PORT_PB13B_SLCD_LP23   (_UL_(1) << 13)
+#define PIN_PB14B_SLCD_LP24            _L_(46) /**< \brief SLCD signal: LP24 on PB14 mux B */
+#define MUX_PB14B_SLCD_LP24             _L_(1)
+#define PINMUX_PB14B_SLCD_LP24     ((PIN_PB14B_SLCD_LP24 << 16) | MUX_PB14B_SLCD_LP24)
+#define PORT_PB14B_SLCD_LP24   (_UL_(1) << 14)
+#define PIN_PB15B_SLCD_LP25            _L_(47) /**< \brief SLCD signal: LP25 on PB15 mux B */
+#define MUX_PB15B_SLCD_LP25             _L_(1)
+#define PINMUX_PB15B_SLCD_LP25     ((PIN_PB15B_SLCD_LP25 << 16) | MUX_PB15B_SLCD_LP25)
+#define PORT_PB15B_SLCD_LP25   (_UL_(1) << 15)
+#define PIN_PC14B_SLCD_LP26            _L_(78) /**< \brief SLCD signal: LP26 on PC14 mux B */
+#define MUX_PC14B_SLCD_LP26             _L_(1)
+#define PINMUX_PC14B_SLCD_LP26     ((PIN_PC14B_SLCD_LP26 << 16) | MUX_PC14B_SLCD_LP26)
+#define PORT_PC14B_SLCD_LP26   (_UL_(1) << 14)
+#define PIN_PC15B_SLCD_LP27            _L_(79) /**< \brief SLCD signal: LP27 on PC15 mux B */
+#define MUX_PC15B_SLCD_LP27             _L_(1)
+#define PINMUX_PC15B_SLCD_LP27     ((PIN_PC15B_SLCD_LP27 << 16) | MUX_PC15B_SLCD_LP27)
+#define PORT_PC15B_SLCD_LP27   (_UL_(1) << 15)
+#define PIN_PA12B_SLCD_LP28            _L_(12) /**< \brief SLCD signal: LP28 on PA12 mux B */
+#define MUX_PA12B_SLCD_LP28             _L_(1)
+#define PINMUX_PA12B_SLCD_LP28     ((PIN_PA12B_SLCD_LP28 << 16) | MUX_PA12B_SLCD_LP28)
+#define PORT_PA12B_SLCD_LP28   (_UL_(1) << 12)
+#define PIN_PA13B_SLCD_LP29            _L_(13) /**< \brief SLCD signal: LP29 on PA13 mux B */
+#define MUX_PA13B_SLCD_LP29             _L_(1)
+#define PINMUX_PA13B_SLCD_LP29     ((PIN_PA13B_SLCD_LP29 << 16) | MUX_PA13B_SLCD_LP29)
+#define PORT_PA13B_SLCD_LP29   (_UL_(1) << 13)
+#define PIN_PA14B_SLCD_LP30            _L_(14) /**< \brief SLCD signal: LP30 on PA14 mux B */
+#define MUX_PA14B_SLCD_LP30             _L_(1)
+#define PINMUX_PA14B_SLCD_LP30     ((PIN_PA14B_SLCD_LP30 << 16) | MUX_PA14B_SLCD_LP30)
+#define PORT_PA14B_SLCD_LP30   (_UL_(1) << 14)
+#define PIN_PA15B_SLCD_LP31            _L_(15) /**< \brief SLCD signal: LP31 on PA15 mux B */
+#define MUX_PA15B_SLCD_LP31             _L_(1)
+#define PINMUX_PA15B_SLCD_LP31     ((PIN_PA15B_SLCD_LP31 << 16) | MUX_PA15B_SLCD_LP31)
+#define PORT_PA15B_SLCD_LP31   (_UL_(1) << 15)
+#define PIN_PA16B_SLCD_LP32            _L_(16) /**< \brief SLCD signal: LP32 on PA16 mux B */
+#define MUX_PA16B_SLCD_LP32             _L_(1)
+#define PINMUX_PA16B_SLCD_LP32     ((PIN_PA16B_SLCD_LP32 << 16) | MUX_PA16B_SLCD_LP32)
+#define PORT_PA16B_SLCD_LP32   (_UL_(1) << 16)
+#define PIN_PA17B_SLCD_LP33            _L_(17) /**< \brief SLCD signal: LP33 on PA17 mux B */
+#define MUX_PA17B_SLCD_LP33             _L_(1)
+#define PINMUX_PA17B_SLCD_LP33     ((PIN_PA17B_SLCD_LP33 << 16) | MUX_PA17B_SLCD_LP33)
+#define PORT_PA17B_SLCD_LP33   (_UL_(1) << 17)
+#define PIN_PA18B_SLCD_LP34            _L_(18) /**< \brief SLCD signal: LP34 on PA18 mux B */
+#define MUX_PA18B_SLCD_LP34             _L_(1)
+#define PINMUX_PA18B_SLCD_LP34     ((PIN_PA18B_SLCD_LP34 << 16) | MUX_PA18B_SLCD_LP34)
+#define PORT_PA18B_SLCD_LP34   (_UL_(1) << 18)
+#define PIN_PA19B_SLCD_LP35            _L_(19) /**< \brief SLCD signal: LP35 on PA19 mux B */
+#define MUX_PA19B_SLCD_LP35             _L_(1)
+#define PINMUX_PA19B_SLCD_LP35     ((PIN_PA19B_SLCD_LP35 << 16) | MUX_PA19B_SLCD_LP35)
+#define PORT_PA19B_SLCD_LP35   (_UL_(1) << 19)
+#define PIN_PC16B_SLCD_LP36            _L_(80) /**< \brief SLCD signal: LP36 on PC16 mux B */
+#define MUX_PC16B_SLCD_LP36             _L_(1)
+#define PINMUX_PC16B_SLCD_LP36     ((PIN_PC16B_SLCD_LP36 << 16) | MUX_PC16B_SLCD_LP36)
+#define PORT_PC16B_SLCD_LP36   (_UL_(1) << 16)
+#define PIN_PC17B_SLCD_LP37            _L_(81) /**< \brief SLCD signal: LP37 on PC17 mux B */
+#define MUX_PC17B_SLCD_LP37             _L_(1)
+#define PINMUX_PC17B_SLCD_LP37     ((PIN_PC17B_SLCD_LP37 << 16) | MUX_PC17B_SLCD_LP37)
+#define PORT_PC17B_SLCD_LP37   (_UL_(1) << 17)
+#define PIN_PC18B_SLCD_LP38            _L_(82) /**< \brief SLCD signal: LP38 on PC18 mux B */
+#define MUX_PC18B_SLCD_LP38             _L_(1)
+#define PINMUX_PC18B_SLCD_LP38     ((PIN_PC18B_SLCD_LP38 << 16) | MUX_PC18B_SLCD_LP38)
+#define PORT_PC18B_SLCD_LP38   (_UL_(1) << 18)
+#define PIN_PC19B_SLCD_LP39            _L_(83) /**< \brief SLCD signal: LP39 on PC19 mux B */
+#define MUX_PC19B_SLCD_LP39             _L_(1)
+#define PINMUX_PC19B_SLCD_LP39     ((PIN_PC19B_SLCD_LP39 << 16) | MUX_PC19B_SLCD_LP39)
+#define PORT_PC19B_SLCD_LP39   (_UL_(1) << 19)
+#define PIN_PC20B_SLCD_LP40            _L_(84) /**< \brief SLCD signal: LP40 on PC20 mux B */
+#define MUX_PC20B_SLCD_LP40             _L_(1)
+#define PINMUX_PC20B_SLCD_LP40     ((PIN_PC20B_SLCD_LP40 << 16) | MUX_PC20B_SLCD_LP40)
+#define PORT_PC20B_SLCD_LP40   (_UL_(1) << 20)
+#define PIN_PC21B_SLCD_LP41            _L_(85) /**< \brief SLCD signal: LP41 on PC21 mux B */
+#define MUX_PC21B_SLCD_LP41             _L_(1)
+#define PINMUX_PC21B_SLCD_LP41     ((PIN_PC21B_SLCD_LP41 << 16) | MUX_PC21B_SLCD_LP41)
+#define PORT_PC21B_SLCD_LP41   (_UL_(1) << 21)
+#define PIN_PB16B_SLCD_LP42            _L_(48) /**< \brief SLCD signal: LP42 on PB16 mux B */
+#define MUX_PB16B_SLCD_LP42             _L_(1)
+#define PINMUX_PB16B_SLCD_LP42     ((PIN_PB16B_SLCD_LP42 << 16) | MUX_PB16B_SLCD_LP42)
+#define PORT_PB16B_SLCD_LP42   (_UL_(1) << 16)
+#define PIN_PB17B_SLCD_LP43            _L_(49) /**< \brief SLCD signal: LP43 on PB17 mux B */
+#define MUX_PB17B_SLCD_LP43             _L_(1)
+#define PINMUX_PB17B_SLCD_LP43     ((PIN_PB17B_SLCD_LP43 << 16) | MUX_PB17B_SLCD_LP43)
+#define PORT_PB17B_SLCD_LP43   (_UL_(1) << 17)
+#define PIN_PB18B_SLCD_LP44            _L_(50) /**< \brief SLCD signal: LP44 on PB18 mux B */
+#define MUX_PB18B_SLCD_LP44             _L_(1)
+#define PINMUX_PB18B_SLCD_LP44     ((PIN_PB18B_SLCD_LP44 << 16) | MUX_PB18B_SLCD_LP44)
+#define PORT_PB18B_SLCD_LP44   (_UL_(1) << 18)
+#define PIN_PB19B_SLCD_LP45            _L_(51) /**< \brief SLCD signal: LP45 on PB19 mux B */
+#define MUX_PB19B_SLCD_LP45             _L_(1)
+#define PINMUX_PB19B_SLCD_LP45     ((PIN_PB19B_SLCD_LP45 << 16) | MUX_PB19B_SLCD_LP45)
+#define PORT_PB19B_SLCD_LP45   (_UL_(1) << 19)
+#define PIN_PB20B_SLCD_LP46            _L_(52) /**< \brief SLCD signal: LP46 on PB20 mux B */
+#define MUX_PB20B_SLCD_LP46             _L_(1)
+#define PINMUX_PB20B_SLCD_LP46     ((PIN_PB20B_SLCD_LP46 << 16) | MUX_PB20B_SLCD_LP46)
+#define PORT_PB20B_SLCD_LP46   (_UL_(1) << 20)
+#define PIN_PB21B_SLCD_LP47            _L_(53) /**< \brief SLCD signal: LP47 on PB21 mux B */
+#define MUX_PB21B_SLCD_LP47             _L_(1)
+#define PINMUX_PB21B_SLCD_LP47     ((PIN_PB21B_SLCD_LP47 << 16) | MUX_PB21B_SLCD_LP47)
+#define PORT_PB21B_SLCD_LP47   (_UL_(1) << 21)
+#define PIN_PA20B_SLCD_LP48            _L_(20) /**< \brief SLCD signal: LP48 on PA20 mux B */
+#define MUX_PA20B_SLCD_LP48             _L_(1)
+#define PINMUX_PA20B_SLCD_LP48     ((PIN_PA20B_SLCD_LP48 << 16) | MUX_PA20B_SLCD_LP48)
+#define PORT_PA20B_SLCD_LP48   (_UL_(1) << 20)
+#define PIN_PA21B_SLCD_LP49            _L_(21) /**< \brief SLCD signal: LP49 on PA21 mux B */
+#define MUX_PA21B_SLCD_LP49             _L_(1)
+#define PINMUX_PA21B_SLCD_LP49     ((PIN_PA21B_SLCD_LP49 << 16) | MUX_PA21B_SLCD_LP49)
+#define PORT_PA21B_SLCD_LP49   (_UL_(1) << 21)
+#define PIN_PA22B_SLCD_LP50            _L_(22) /**< \brief SLCD signal: LP50 on PA22 mux B */
+#define MUX_PA22B_SLCD_LP50             _L_(1)
+#define PINMUX_PA22B_SLCD_LP50     ((PIN_PA22B_SLCD_LP50 << 16) | MUX_PA22B_SLCD_LP50)
+#define PORT_PA22B_SLCD_LP50   (_UL_(1) << 22)
+#define PIN_PA23B_SLCD_LP51            _L_(23) /**< \brief SLCD signal: LP51 on PA23 mux B */
+#define MUX_PA23B_SLCD_LP51             _L_(1)
+#define PINMUX_PA23B_SLCD_LP51     ((PIN_PA23B_SLCD_LP51 << 16) | MUX_PA23B_SLCD_LP51)
+#define PORT_PA23B_SLCD_LP51   (_UL_(1) << 23)
+/* ========== PORT definition for CCL peripheral ========== */
+#define PIN_PA04I_CCL_IN0               _L_(4) /**< \brief CCL signal: IN0 on PA04 mux I */
+#define MUX_PA04I_CCL_IN0               _L_(8)
+#define PINMUX_PA04I_CCL_IN0       ((PIN_PA04I_CCL_IN0 << 16) | MUX_PA04I_CCL_IN0)
+#define PORT_PA04I_CCL_IN0     (_UL_(1) <<  4)
+#define PIN_PA16I_CCL_IN0              _L_(16) /**< \brief CCL signal: IN0 on PA16 mux I */
+#define MUX_PA16I_CCL_IN0               _L_(8)
+#define PINMUX_PA16I_CCL_IN0       ((PIN_PA16I_CCL_IN0 << 16) | MUX_PA16I_CCL_IN0)
+#define PORT_PA16I_CCL_IN0     (_UL_(1) << 16)
+#define PIN_PB22I_CCL_IN0              _L_(54) /**< \brief CCL signal: IN0 on PB22 mux I */
+#define MUX_PB22I_CCL_IN0               _L_(8)
+#define PINMUX_PB22I_CCL_IN0       ((PIN_PB22I_CCL_IN0 << 16) | MUX_PB22I_CCL_IN0)
+#define PORT_PB22I_CCL_IN0     (_UL_(1) << 22)
+#define PIN_PA05I_CCL_IN1               _L_(5) /**< \brief CCL signal: IN1 on PA05 mux I */
+#define MUX_PA05I_CCL_IN1               _L_(8)
+#define PINMUX_PA05I_CCL_IN1       ((PIN_PA05I_CCL_IN1 << 16) | MUX_PA05I_CCL_IN1)
+#define PORT_PA05I_CCL_IN1     (_UL_(1) <<  5)
+#define PIN_PA17I_CCL_IN1              _L_(17) /**< \brief CCL signal: IN1 on PA17 mux I */
+#define MUX_PA17I_CCL_IN1               _L_(8)
+#define PINMUX_PA17I_CCL_IN1       ((PIN_PA17I_CCL_IN1 << 16) | MUX_PA17I_CCL_IN1)
+#define PORT_PA17I_CCL_IN1     (_UL_(1) << 17)
+#define PIN_PB00I_CCL_IN1              _L_(32) /**< \brief CCL signal: IN1 on PB00 mux I */
+#define MUX_PB00I_CCL_IN1               _L_(8)
+#define PINMUX_PB00I_CCL_IN1       ((PIN_PB00I_CCL_IN1 << 16) | MUX_PB00I_CCL_IN1)
+#define PORT_PB00I_CCL_IN1     (_UL_(1) <<  0)
+#define PIN_PA06I_CCL_IN2               _L_(6) /**< \brief CCL signal: IN2 on PA06 mux I */
+#define MUX_PA06I_CCL_IN2               _L_(8)
+#define PINMUX_PA06I_CCL_IN2       ((PIN_PA06I_CCL_IN2 << 16) | MUX_PA06I_CCL_IN2)
+#define PORT_PA06I_CCL_IN2     (_UL_(1) <<  6)
+#define PIN_PA18I_CCL_IN2              _L_(18) /**< \brief CCL signal: IN2 on PA18 mux I */
+#define MUX_PA18I_CCL_IN2               _L_(8)
+#define PINMUX_PA18I_CCL_IN2       ((PIN_PA18I_CCL_IN2 << 16) | MUX_PA18I_CCL_IN2)
+#define PORT_PA18I_CCL_IN2     (_UL_(1) << 18)
+#define PIN_PB01I_CCL_IN2              _L_(33) /**< \brief CCL signal: IN2 on PB01 mux I */
+#define MUX_PB01I_CCL_IN2               _L_(8)
+#define PINMUX_PB01I_CCL_IN2       ((PIN_PB01I_CCL_IN2 << 16) | MUX_PB01I_CCL_IN2)
+#define PORT_PB01I_CCL_IN2     (_UL_(1) <<  1)
+#define PIN_PA08I_CCL_IN3               _L_(8) /**< \brief CCL signal: IN3 on PA08 mux I */
+#define MUX_PA08I_CCL_IN3               _L_(8)
+#define PINMUX_PA08I_CCL_IN3       ((PIN_PA08I_CCL_IN3 << 16) | MUX_PA08I_CCL_IN3)
+#define PORT_PA08I_CCL_IN3     (_UL_(1) <<  8)
+#define PIN_PA30I_CCL_IN3              _L_(30) /**< \brief CCL signal: IN3 on PA30 mux I */
+#define MUX_PA30I_CCL_IN3               _L_(8)
+#define PINMUX_PA30I_CCL_IN3       ((PIN_PA30I_CCL_IN3 << 16) | MUX_PA30I_CCL_IN3)
+#define PORT_PA30I_CCL_IN3     (_UL_(1) << 30)
+#define PIN_PA09I_CCL_IN4               _L_(9) /**< \brief CCL signal: IN4 on PA09 mux I */
+#define MUX_PA09I_CCL_IN4               _L_(8)
+#define PINMUX_PA09I_CCL_IN4       ((PIN_PA09I_CCL_IN4 << 16) | MUX_PA09I_CCL_IN4)
+#define PORT_PA09I_CCL_IN4     (_UL_(1) <<  9)
+#define PIN_PC27I_CCL_IN4              _L_(91) /**< \brief CCL signal: IN4 on PC27 mux I */
+#define MUX_PC27I_CCL_IN4               _L_(8)
+#define PINMUX_PC27I_CCL_IN4       ((PIN_PC27I_CCL_IN4 << 16) | MUX_PC27I_CCL_IN4)
+#define PORT_PC27I_CCL_IN4     (_UL_(1) << 27)
+#define PIN_PA10I_CCL_IN5              _L_(10) /**< \brief CCL signal: IN5 on PA10 mux I */
+#define MUX_PA10I_CCL_IN5               _L_(8)
+#define PINMUX_PA10I_CCL_IN5       ((PIN_PA10I_CCL_IN5 << 16) | MUX_PA10I_CCL_IN5)
+#define PORT_PA10I_CCL_IN5     (_UL_(1) << 10)
+#define PIN_PC28I_CCL_IN5              _L_(92) /**< \brief CCL signal: IN5 on PC28 mux I */
+#define MUX_PC28I_CCL_IN5               _L_(8)
+#define PINMUX_PC28I_CCL_IN5       ((PIN_PC28I_CCL_IN5 << 16) | MUX_PC28I_CCL_IN5)
+#define PORT_PC28I_CCL_IN5     (_UL_(1) << 28)
+#define PIN_PA22I_CCL_IN6              _L_(22) /**< \brief CCL signal: IN6 on PA22 mux I */
+#define MUX_PA22I_CCL_IN6               _L_(8)
+#define PINMUX_PA22I_CCL_IN6       ((PIN_PA22I_CCL_IN6 << 16) | MUX_PA22I_CCL_IN6)
+#define PORT_PA22I_CCL_IN6     (_UL_(1) << 22)
+#define PIN_PB06I_CCL_IN6              _L_(38) /**< \brief CCL signal: IN6 on PB06 mux I */
+#define MUX_PB06I_CCL_IN6               _L_(8)
+#define PINMUX_PB06I_CCL_IN6       ((PIN_PB06I_CCL_IN6 << 16) | MUX_PB06I_CCL_IN6)
+#define PORT_PB06I_CCL_IN6     (_UL_(1) <<  6)
+#define PIN_PA23I_CCL_IN7              _L_(23) /**< \brief CCL signal: IN7 on PA23 mux I */
+#define MUX_PA23I_CCL_IN7               _L_(8)
+#define PINMUX_PA23I_CCL_IN7       ((PIN_PA23I_CCL_IN7 << 16) | MUX_PA23I_CCL_IN7)
+#define PORT_PA23I_CCL_IN7     (_UL_(1) << 23)
+#define PIN_PB07I_CCL_IN7              _L_(39) /**< \brief CCL signal: IN7 on PB07 mux I */
+#define MUX_PB07I_CCL_IN7               _L_(8)
+#define PINMUX_PB07I_CCL_IN7       ((PIN_PB07I_CCL_IN7 << 16) | MUX_PB07I_CCL_IN7)
+#define PORT_PB07I_CCL_IN7     (_UL_(1) <<  7)
+#define PIN_PA24I_CCL_IN8              _L_(24) /**< \brief CCL signal: IN8 on PA24 mux I */
+#define MUX_PA24I_CCL_IN8               _L_(8)
+#define PINMUX_PA24I_CCL_IN8       ((PIN_PA24I_CCL_IN8 << 16) | MUX_PA24I_CCL_IN8)
+#define PORT_PA24I_CCL_IN8     (_UL_(1) << 24)
+#define PIN_PB08I_CCL_IN8              _L_(40) /**< \brief CCL signal: IN8 on PB08 mux I */
+#define MUX_PB08I_CCL_IN8               _L_(8)
+#define PINMUX_PB08I_CCL_IN8       ((PIN_PB08I_CCL_IN8 << 16) | MUX_PB08I_CCL_IN8)
+#define PORT_PB08I_CCL_IN8     (_UL_(1) <<  8)
+#define PIN_PB14I_CCL_IN9              _L_(46) /**< \brief CCL signal: IN9 on PB14 mux I */
+#define MUX_PB14I_CCL_IN9               _L_(8)
+#define PINMUX_PB14I_CCL_IN9       ((PIN_PB14I_CCL_IN9 << 16) | MUX_PB14I_CCL_IN9)
+#define PORT_PB14I_CCL_IN9     (_UL_(1) << 14)
+#define PIN_PC20I_CCL_IN9              _L_(84) /**< \brief CCL signal: IN9 on PC20 mux I */
+#define MUX_PC20I_CCL_IN9               _L_(8)
+#define PINMUX_PC20I_CCL_IN9       ((PIN_PC20I_CCL_IN9 << 16) | MUX_PC20I_CCL_IN9)
+#define PORT_PC20I_CCL_IN9     (_UL_(1) << 20)
+#define PIN_PB15I_CCL_IN10             _L_(47) /**< \brief CCL signal: IN10 on PB15 mux I */
+#define MUX_PB15I_CCL_IN10              _L_(8)
+#define PINMUX_PB15I_CCL_IN10      ((PIN_PB15I_CCL_IN10 << 16) | MUX_PB15I_CCL_IN10)
+#define PORT_PB15I_CCL_IN10    (_UL_(1) << 15)
+#define PIN_PC21I_CCL_IN10             _L_(85) /**< \brief CCL signal: IN10 on PC21 mux I */
+#define MUX_PC21I_CCL_IN10              _L_(8)
+#define PINMUX_PC21I_CCL_IN10      ((PIN_PC21I_CCL_IN10 << 16) | MUX_PC21I_CCL_IN10)
+#define PORT_PC21I_CCL_IN10    (_UL_(1) << 21)
+#define PIN_PB16I_CCL_IN11             _L_(48) /**< \brief CCL signal: IN11 on PB16 mux I */
+#define MUX_PB16I_CCL_IN11              _L_(8)
+#define PINMUX_PB16I_CCL_IN11      ((PIN_PB16I_CCL_IN11 << 16) | MUX_PB16I_CCL_IN11)
+#define PORT_PB16I_CCL_IN11    (_UL_(1) << 16)
+#define PIN_PA07I_CCL_OUT0              _L_(7) /**< \brief CCL signal: OUT0 on PA07 mux I */
+#define MUX_PA07I_CCL_OUT0              _L_(8)
+#define PINMUX_PA07I_CCL_OUT0      ((PIN_PA07I_CCL_OUT0 << 16) | MUX_PA07I_CCL_OUT0)
+#define PORT_PA07I_CCL_OUT0    (_UL_(1) <<  7)
+#define PIN_PA19I_CCL_OUT0             _L_(19) /**< \brief CCL signal: OUT0 on PA19 mux I */
+#define MUX_PA19I_CCL_OUT0              _L_(8)
+#define PINMUX_PA19I_CCL_OUT0      ((PIN_PA19I_CCL_OUT0 << 16) | MUX_PA19I_CCL_OUT0)
+#define PORT_PA19I_CCL_OUT0    (_UL_(1) << 19)
+#define PIN_PB02I_CCL_OUT0             _L_(34) /**< \brief CCL signal: OUT0 on PB02 mux I */
+#define MUX_PB02I_CCL_OUT0              _L_(8)
+#define PINMUX_PB02I_CCL_OUT0      ((PIN_PB02I_CCL_OUT0 << 16) | MUX_PB02I_CCL_OUT0)
+#define PORT_PB02I_CCL_OUT0    (_UL_(1) <<  2)
+#define PIN_PB23I_CCL_OUT0             _L_(55) /**< \brief CCL signal: OUT0 on PB23 mux I */
+#define MUX_PB23I_CCL_OUT0              _L_(8)
+#define PINMUX_PB23I_CCL_OUT0      ((PIN_PB23I_CCL_OUT0 << 16) | MUX_PB23I_CCL_OUT0)
+#define PORT_PB23I_CCL_OUT0    (_UL_(1) << 23)
+#define PIN_PA11I_CCL_OUT1             _L_(11) /**< \brief CCL signal: OUT1 on PA11 mux I */
+#define MUX_PA11I_CCL_OUT1              _L_(8)
+#define PINMUX_PA11I_CCL_OUT1      ((PIN_PA11I_CCL_OUT1 << 16) | MUX_PA11I_CCL_OUT1)
+#define PORT_PA11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA31I_CCL_OUT1             _L_(31) /**< \brief CCL signal: OUT1 on PA31 mux I */
+#define MUX_PA31I_CCL_OUT1              _L_(8)
+#define PINMUX_PA31I_CCL_OUT1      ((PIN_PA31I_CCL_OUT1 << 16) | MUX_PA31I_CCL_OUT1)
+#define PORT_PA31I_CCL_OUT1    (_UL_(1) << 31)
+#define PIN_PB11I_CCL_OUT1             _L_(43) /**< \brief CCL signal: OUT1 on PB11 mux I */
+#define MUX_PB11I_CCL_OUT1              _L_(8)
+#define PINMUX_PB11I_CCL_OUT1      ((PIN_PB11I_CCL_OUT1 << 16) | MUX_PB11I_CCL_OUT1)
+#define PORT_PB11I_CCL_OUT1    (_UL_(1) << 11)
+#define PIN_PA25I_CCL_OUT2             _L_(25) /**< \brief CCL signal: OUT2 on PA25 mux I */
+#define MUX_PA25I_CCL_OUT2              _L_(8)
+#define PINMUX_PA25I_CCL_OUT2      ((PIN_PA25I_CCL_OUT2 << 16) | MUX_PA25I_CCL_OUT2)
+#define PORT_PA25I_CCL_OUT2    (_UL_(1) << 25)
+#define PIN_PB09I_CCL_OUT2             _L_(41) /**< \brief CCL signal: OUT2 on PB09 mux I */
+#define MUX_PB09I_CCL_OUT2              _L_(8)
+#define PINMUX_PB09I_CCL_OUT2      ((PIN_PB09I_CCL_OUT2 << 16) | MUX_PB09I_CCL_OUT2)
+#define PORT_PB09I_CCL_OUT2    (_UL_(1) <<  9)
+#define PIN_PB17I_CCL_OUT3             _L_(49) /**< \brief CCL signal: OUT3 on PB17 mux I */
+#define MUX_PB17I_CCL_OUT3              _L_(8)
+#define PINMUX_PB17I_CCL_OUT3      ((PIN_PB17I_CCL_OUT3 << 16) | MUX_PB17I_CCL_OUT3)
+#define PORT_PB17I_CCL_OUT3    (_UL_(1) << 17)
+
+#endif /* _SAML22N18A_PIO_ */
diff --git a/watch-library/hardware/include/sam.h b/watch-library/hardware/include/sam.h
new file mode 100644
index 00000000..c5702205
--- /dev/null
+++ b/watch-library/hardware/include/sam.h
@@ -0,0 +1,55 @@
+/**
+ * \file
+ *
+ * \brief Top level header file
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *   http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \license_stop
+ *
+ */
+
+#ifndef _SAM_
+#define _SAM_
+
+#if defined(__SAML22G16A__) || defined(__ATSAML22G16A__)
+#include "saml22g16a.h"
+#elif defined(__SAML22G17A__) || defined(__ATSAML22G17A__)
+#include "saml22g17a.h"
+#elif defined(__SAML22G18A__) || defined(__ATSAML22G18A__)
+#include "saml22g18a.h"
+#elif defined(__SAML22J16A__) || defined(__ATSAML22J16A__)
+#include "saml22j16a.h"
+#elif defined(__SAML22J17A__) || defined(__ATSAML22J17A__)
+#include "saml22j17a.h"
+#elif defined(__SAML22J18A__) || defined(__ATSAML22J18A__)
+#include "saml22j18a.h"
+#elif defined(__SAML22N16A__) || defined(__ATSAML22N16A__)
+#include "saml22n16a.h"
+#elif defined(__SAML22N17A__) || defined(__ATSAML22N17A__)
+#include "saml22n17a.h"
+#elif defined(__SAML22N18A__) || defined(__ATSAML22N18A__)
+#include "saml22n18a.h"
+#else
+#error Library does not support the specified device
+#endif
+
+#endif /* _SAM_ */
diff --git a/watch-library/hardware/include/saml22.h b/watch-library/hardware/include/saml22.h
new file mode 100644
index 00000000..d1a84287
--- /dev/null
+++ b/watch-library/hardware/include/saml22.h
@@ -0,0 +1,60 @@
+/**

+ * \file

+ *

+ * \brief Top header file for SAML22

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22_

+#define _SAML22_

+

+/**

+ * \defgroup SAML22_definitions SAML22 Device Definitions

+ * \brief SAML22 CMSIS Definitions.

+ */

+

+#if   defined(__SAML22G16A__) || defined(__ATSAML22G16A__)

+  #include "saml22g16a.h"

+#elif defined(__SAML22G17A__) || defined(__ATSAML22G17A__)

+  #include "saml22g17a.h"

+#elif defined(__SAML22G18A__) || defined(__ATSAML22G18A__)

+  #include "saml22g18a.h"

+#elif defined(__SAML22J16A__) || defined(__ATSAML22J16A__)

+  #include "saml22j16a.h"

+#elif defined(__SAML22J17A__) || defined(__ATSAML22J17A__)

+  #include "saml22j17a.h"

+#elif defined(__SAML22J18A__) || defined(__ATSAML22J18A__)

+  #include "saml22j18a.h"

+#elif defined(__SAML22N16A__) || defined(__ATSAML22N16A__)

+  #include "saml22n16a.h"

+#elif defined(__SAML22N17A__) || defined(__ATSAML22N17A__)

+  #include "saml22n17a.h"

+#elif defined(__SAML22N18A__) || defined(__ATSAML22N18A__)

+  #include "saml22n18a.h"

+#else

+  #error Library does not support the specified device.

+#endif

+

+#endif /* _SAML22_ */

diff --git a/watch-library/hardware/include/saml22g16a.h b/watch-library/hardware/include/saml22g16a.h
new file mode 100644
index 00000000..d2690bd4
--- /dev/null
+++ b/watch-library/hardware/include/saml22g16a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22G16A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22G16A_

+#define _SAML22G16A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22G16A_definitions SAML22G16A definitions

+ * This file defines all structures and symbols for SAML22G16A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22G16A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22G16A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22G16A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22G16A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22G16A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22G16A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22G16A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22G16A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22G16A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22G16A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22G16A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22G16A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22G16A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22G16A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22G16A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22G16A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22G16A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22G16A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22G16A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22G16A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22G16A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22G16A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22G16A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22G16A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22G16A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+/** \defgroup SAML22G16A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22g16a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00010000) /* 64 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     1024

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00002000) /* 8 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x1082010C)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00000800) /* 2 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22G16A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22G16A_H */

diff --git a/watch-library/hardware/include/saml22g17a.h b/watch-library/hardware/include/saml22g17a.h
new file mode 100644
index 00000000..d3932fc0
--- /dev/null
+++ b/watch-library/hardware/include/saml22g17a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22G17A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22G17A_

+#define _SAML22G17A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22G17A_definitions SAML22G17A definitions

+ * This file defines all structures and symbols for SAML22G17A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22G17A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22G17A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22G17A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22G17A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22G17A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22G17A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22G17A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22G17A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22G17A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22G17A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22G17A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22G17A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22G17A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22G17A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22G17A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22G17A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22G17A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22G17A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22G17A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22G17A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22G17A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22G17A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22G17A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22G17A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22G17A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+/** \defgroup SAML22G17A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22g17a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00020000) /* 128 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     2048

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00004000) /* 16 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x1082010B)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00001000) /* 4 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22G17A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22G17A_H */

diff --git a/watch-library/hardware/include/saml22g18a.h b/watch-library/hardware/include/saml22g18a.h
new file mode 100644
index 00000000..588a3f1e
--- /dev/null
+++ b/watch-library/hardware/include/saml22g18a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22G18A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22G18A_

+#define _SAML22G18A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22G18A_definitions SAML22G18A definitions

+ * This file defines all structures and symbols for SAML22G18A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22G18A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22G18A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22G18A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22G18A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22G18A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22G18A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22G18A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22G18A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22G18A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22G18A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22G18A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22G18A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22G18A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22G18A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22G18A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22G18A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22G18A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22G18A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22G18A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22G18A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22G18A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22G18A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22G18A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22G18A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22G18A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+/** \defgroup SAML22G18A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22g18a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00040000) /* 256 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     4096

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00008000) /* 32 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x1082010A)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00002000) /* 8 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22G18A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22G18A_H */

diff --git a/watch-library/hardware/include/saml22j16a.h b/watch-library/hardware/include/saml22j16a.h
new file mode 100644
index 00000000..35d65a1c
--- /dev/null
+++ b/watch-library/hardware/include/saml22j16a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22J16A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22J16A_

+#define _SAML22J16A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22J16A_definitions SAML22J16A definitions

+ * This file defines all structures and symbols for SAML22J16A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22J16A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22J16A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22J16A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22J16A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22J16A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22J16A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22J16A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22J16A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22J16A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22J16A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22J16A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22J16A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22J16A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22J16A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22J16A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22J16A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22J16A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22J16A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22J16A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22J16A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22J16A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22J16A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22J16A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22J16A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22J16A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+/** \defgroup SAML22J16A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22j16a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00010000) /* 64 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     1024

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00002000) /* 8 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820107)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00000800) /* 2 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22J16A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22J16A_H */

diff --git a/watch-library/hardware/include/saml22j17a.h b/watch-library/hardware/include/saml22j17a.h
new file mode 100644
index 00000000..a1c95952
--- /dev/null
+++ b/watch-library/hardware/include/saml22j17a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22J17A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22J17A_

+#define _SAML22J17A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22J17A_definitions SAML22J17A definitions

+ * This file defines all structures and symbols for SAML22J17A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22J17A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22J17A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22J17A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22J17A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22J17A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22J17A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22J17A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22J17A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22J17A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22J17A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22J17A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22J17A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22J17A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22J17A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22J17A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22J17A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22J17A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22J17A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22J17A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22J17A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22J17A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22J17A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22J17A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22J17A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22J17A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+/** \defgroup SAML22J17A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22j17a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00020000) /* 128 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     2048

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00004000) /* 16 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820106)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00001000) /* 4 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22J17A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22J17A_H */

diff --git a/watch-library/hardware/include/saml22j18a.h b/watch-library/hardware/include/saml22j18a.h
new file mode 100644
index 00000000..8286db88
--- /dev/null
+++ b/watch-library/hardware/include/saml22j18a.h
@@ -0,0 +1,596 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22J18A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22J18A_

+#define _SAML22J18A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22J18A_definitions SAML22J18A definitions

+ * This file defines all structures and symbols for SAML22J18A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22J18A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22J18A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22J18A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22J18A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22J18A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22J18A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22J18A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22J18A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22J18A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22J18A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22J18A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22J18A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22J18A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22J18A Serial Communication Interface 3 (SERCOM3) */

+  TCC0_IRQn                = 15, /**< 15 SAML22J18A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22J18A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22J18A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22J18A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22J18A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22J18A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22J18A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22J18A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22J18A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22J18A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22J18A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pvReserved13;

+  void* pvReserved14;

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM_INST_NUM   4                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+/** \defgroup SAML22J18A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22j18a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00040000) /* 256 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     4096

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00008000) /* 32 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820105)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00002000) /* 8 kB */

+#define PORT_GROUPS           2

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22J18A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22J18A_H */

diff --git a/watch-library/hardware/include/saml22n16a.h b/watch-library/hardware/include/saml22n16a.h
new file mode 100644
index 00000000..34ea155d
--- /dev/null
+++ b/watch-library/hardware/include/saml22n16a.h
@@ -0,0 +1,608 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22N16A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22N16A_

+#define _SAML22N16A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22N16A_definitions SAML22N16A definitions

+ * This file defines all structures and symbols for SAML22N16A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22N16A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22N16A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22N16A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22N16A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22N16A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22N16A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22N16A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22N16A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22N16A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22N16A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22N16A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22N16A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22N16A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22N16A Serial Communication Interface 3 (SERCOM3) */

+  SERCOM4_IRQn             = 13, /**< 13 SAML22N16A Serial Communication Interface 4 (SERCOM4) */

+  SERCOM5_IRQn             = 14, /**< 14 SAML22N16A Serial Communication Interface 5 (SERCOM5) */

+  TCC0_IRQn                = 15, /**< 15 SAML22N16A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22N16A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22N16A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22N16A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22N16A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22N16A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22N16A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22N16A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22N16A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22N16A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22N16A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pfnSERCOM4_Handler;               /* 13 Serial Communication Interface 4 */

+  void* pfnSERCOM5_Handler;               /* 14 Serial Communication Interface 5 */

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void SERCOM4_Handler             ( void );

+void SERCOM5_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/sercom4.h"

+#include "instance/sercom5.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_SERCOM4       69 /**< \brief Serial Communication Interface 4 (SERCOM4) */

+#define ID_SERCOM5       70 /**< \brief Serial Communication Interface 5 (SERCOM5) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4                       (0x42001400) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5                       (0x42001800) /**< \brief (SERCOM5) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4           ((Sercom   *)0x42001400UL) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5           ((Sercom   *)0x42001800UL) /**< \brief (SERCOM5) APB Base Address */

+#define SERCOM_INST_NUM   6                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3, SERCOM4, SERCOM5 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+/** \defgroup SAML22N16A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22n16a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00010000) /* 64 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     1024

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00002000) /* 8 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820102)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00000800) /* 2 kB */

+#define PORT_GROUPS           3

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22N16A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22N16A_H */

diff --git a/watch-library/hardware/include/saml22n17a.h b/watch-library/hardware/include/saml22n17a.h
new file mode 100644
index 00000000..7b3cd85a
--- /dev/null
+++ b/watch-library/hardware/include/saml22n17a.h
@@ -0,0 +1,608 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22N17A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22N17A_

+#define _SAML22N17A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22N17A_definitions SAML22N17A definitions

+ * This file defines all structures and symbols for SAML22N17A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22N17A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22N17A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22N17A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22N17A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22N17A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22N17A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22N17A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22N17A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22N17A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22N17A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22N17A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22N17A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22N17A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22N17A Serial Communication Interface 3 (SERCOM3) */

+  SERCOM4_IRQn             = 13, /**< 13 SAML22N17A Serial Communication Interface 4 (SERCOM4) */

+  SERCOM5_IRQn             = 14, /**< 14 SAML22N17A Serial Communication Interface 5 (SERCOM5) */

+  TCC0_IRQn                = 15, /**< 15 SAML22N17A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22N17A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22N17A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22N17A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22N17A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22N17A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22N17A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22N17A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22N17A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22N17A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22N17A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pfnSERCOM4_Handler;               /* 13 Serial Communication Interface 4 */

+  void* pfnSERCOM5_Handler;               /* 14 Serial Communication Interface 5 */

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void SERCOM4_Handler             ( void );

+void SERCOM5_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/sercom4.h"

+#include "instance/sercom5.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_SERCOM4       69 /**< \brief Serial Communication Interface 4 (SERCOM4) */

+#define ID_SERCOM5       70 /**< \brief Serial Communication Interface 5 (SERCOM5) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4                       (0x42001400) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5                       (0x42001800) /**< \brief (SERCOM5) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4           ((Sercom   *)0x42001400UL) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5           ((Sercom   *)0x42001800UL) /**< \brief (SERCOM5) APB Base Address */

+#define SERCOM_INST_NUM   6                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3, SERCOM4, SERCOM5 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+/** \defgroup SAML22N17A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22n17a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00020000) /* 128 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     2048

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00004000) /* 16 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820101)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00001000) /* 4 kB */

+#define PORT_GROUPS           3

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22N17A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22N17A_H */

diff --git a/watch-library/hardware/include/saml22n18a.h b/watch-library/hardware/include/saml22n18a.h
new file mode 100644
index 00000000..de160b83
--- /dev/null
+++ b/watch-library/hardware/include/saml22n18a.h
@@ -0,0 +1,608 @@
+/**

+ * \file

+ *

+ * \brief Header file for SAML22N18A

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SAML22N18A_

+#define _SAML22N18A_

+

+/**

+ * \ingroup SAML22_definitions

+ * \addtogroup SAML22N18A_definitions SAML22N18A definitions

+ * This file defines all structures and symbols for SAML22N18A:

+ *   - registers and bitfields

+ *   - peripheral base address

+ *   - peripheral ID

+ *   - PIO definitions

+*/

+/*@{*/

+

+#ifdef __cplusplus

+ extern "C" {

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+#include <stdint.h>

+#ifndef __cplusplus

+typedef volatile const uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile const uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile const uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#else

+typedef volatile       uint32_t RoReg;   /**< Read only 32-bit register (volatile const unsigned int) */

+typedef volatile       uint16_t RoReg16; /**< Read only 16-bit register (volatile const unsigned int) */

+typedef volatile       uint8_t  RoReg8;  /**< Read only  8-bit register (volatile const unsigned int) */

+#endif

+typedef volatile       uint32_t WoReg;   /**< Write only 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t WoReg16; /**< Write only 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  WoReg8;  /**< Write only  8-bit register (volatile unsigned int) */

+typedef volatile       uint32_t RwReg;   /**< Read-Write 32-bit register (volatile unsigned int) */

+typedef volatile       uint16_t RwReg16; /**< Read-Write 16-bit register (volatile unsigned int) */

+typedef volatile       uint8_t  RwReg8;  /**< Read-Write  8-bit register (volatile unsigned int) */

+#endif

+

+#if !defined(SKIP_INTEGER_LITERALS)

+#if defined(_U_) || defined(_L_) || defined(_UL_)

+  #error "Integer Literals macros already defined elsewhere"

+#endif

+

+#if !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__))

+/* Macros that deal with adding suffixes to integer literal constants for C/C++ */

+#define _U_(x)         x ## U            /**< C code: Unsigned integer literal constant value */

+#define _L_(x)         x ## L            /**< C code: Long integer literal constant value */

+#define _UL_(x)        x ## UL           /**< C code: Unsigned Long integer literal constant value */

+#else /* Assembler */

+#define _U_(x)         x                 /**< Assembler: Unsigned integer literal constant value */

+#define _L_(x)         x                 /**< Assembler: Long integer literal constant value */

+#define _UL_(x)        x                 /**< Assembler: Unsigned Long integer literal constant value */

+#endif /* !(defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+#endif /* SKIP_INTEGER_LITERALS */

+

+/* ************************************************************************** */

+/**  CMSIS DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_cmsis CMSIS Definitions */

+/*@{*/

+

+/** Interrupt Number Definition */

+typedef enum IRQn

+{

+  /******  Cortex-M0+ Processor Exceptions Numbers *******************/

+  NonMaskableInt_IRQn      = -14,/**<  2 Non Maskable Interrupt      */

+  HardFault_IRQn           = -13,/**<  3 Hard Fault Interrupt        */

+  SVCall_IRQn              = -5, /**< 11 SV Call Interrupt           */

+  PendSV_IRQn              = -2, /**< 14 Pend SV Interrupt           */

+  SysTick_IRQn             = -1, /**< 15 System Tick Interrupt       */

+  /******  SAML22N18A-specific Interrupt Numbers *********************/

+  SYSTEM_IRQn              =  0, /**<  0 SAML22N18A System Interrupts */

+  WDT_IRQn                 =  1, /**<  1 SAML22N18A Watchdog Timer (WDT) */

+  RTC_IRQn                 =  2, /**<  2 SAML22N18A Real-Time Counter (RTC) */

+  EIC_IRQn                 =  3, /**<  3 SAML22N18A External Interrupt Controller (EIC) */

+  FREQM_IRQn               =  4, /**<  4 SAML22N18A Frequency Meter (FREQM) */

+  USB_IRQn                 =  5, /**<  5 SAML22N18A Universal Serial Bus (USB) */

+  NVMCTRL_IRQn             =  6, /**<  6 SAML22N18A Non-Volatile Memory Controller (NVMCTRL) */

+  DMAC_IRQn                =  7, /**<  7 SAML22N18A Direct Memory Access Controller (DMAC) */

+  EVSYS_IRQn               =  8, /**<  8 SAML22N18A Event System Interface (EVSYS) */

+  SERCOM0_IRQn             =  9, /**<  9 SAML22N18A Serial Communication Interface 0 (SERCOM0) */

+  SERCOM1_IRQn             = 10, /**< 10 SAML22N18A Serial Communication Interface 1 (SERCOM1) */

+  SERCOM2_IRQn             = 11, /**< 11 SAML22N18A Serial Communication Interface 2 (SERCOM2) */

+  SERCOM3_IRQn             = 12, /**< 12 SAML22N18A Serial Communication Interface 3 (SERCOM3) */

+  SERCOM4_IRQn             = 13, /**< 13 SAML22N18A Serial Communication Interface 4 (SERCOM4) */

+  SERCOM5_IRQn             = 14, /**< 14 SAML22N18A Serial Communication Interface 5 (SERCOM5) */

+  TCC0_IRQn                = 15, /**< 15 SAML22N18A Timer Counter Control (TCC0) */

+  TC0_IRQn                 = 16, /**< 16 SAML22N18A Basic Timer Counter 0 (TC0) */

+  TC1_IRQn                 = 17, /**< 17 SAML22N18A Basic Timer Counter 1 (TC1) */

+  TC2_IRQn                 = 18, /**< 18 SAML22N18A Basic Timer Counter 2 (TC2) */

+  TC3_IRQn                 = 19, /**< 19 SAML22N18A Basic Timer Counter 3 (TC3) */

+  ADC_IRQn                 = 20, /**< 20 SAML22N18A Analog Digital Converter (ADC) */

+  AC_IRQn                  = 21, /**< 21 SAML22N18A Analog Comparators (AC) */

+  PTC_IRQn                 = 22, /**< 22 SAML22N18A Peripheral Touch Controller (PTC) */

+  SLCD_IRQn                = 23, /**< 23 SAML22N18A Segment Liquid Crystal Display Controller (SLCD) */

+  AES_IRQn                 = 24, /**< 24 SAML22N18A Advanced Encryption Standard (AES) */

+  TRNG_IRQn                = 25, /**< 25 SAML22N18A True Random Generator (TRNG) */

+

+  PERIPH_COUNT_IRQn        = 26  /**< Number of peripheral IDs */

+} IRQn_Type;

+

+typedef struct _DeviceVectors

+{

+  /* Stack pointer */

+  void* pvStack;

+

+  /* Cortex-M handlers */

+  void* pfnReset_Handler;

+  void* pfnNonMaskableInt_Handler;

+  void* pfnHardFault_Handler;

+  void* pvReservedM12;

+  void* pvReservedM11;

+  void* pvReservedM10;

+  void* pvReservedM9;

+  void* pvReservedM8;

+  void* pvReservedM7;

+  void* pvReservedM6;

+  void* pfnSVCall_Handler;

+  void* pvReservedM4;

+  void* pvReservedM3;

+  void* pfnPendSV_Handler;

+  void* pfnSysTick_Handler;

+

+  /* Peripheral handlers */

+  void* pfnSYSTEM_Handler;                /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */

+  void* pfnWDT_Handler;                   /*  1 Watchdog Timer */

+  void* pfnRTC_Handler;                   /*  2 Real-Time Counter */

+  void* pfnEIC_Handler;                   /*  3 External Interrupt Controller */

+  void* pfnFREQM_Handler;                 /*  4 Frequency Meter */

+  void* pfnUSB_Handler;                   /*  5 Universal Serial Bus */

+  void* pfnNVMCTRL_Handler;               /*  6 Non-Volatile Memory Controller */

+  void* pfnDMAC_Handler;                  /*  7 Direct Memory Access Controller */

+  void* pfnEVSYS_Handler;                 /*  8 Event System Interface */

+  void* pfnSERCOM0_Handler;               /*  9 Serial Communication Interface 0 */

+  void* pfnSERCOM1_Handler;               /* 10 Serial Communication Interface 1 */

+  void* pfnSERCOM2_Handler;               /* 11 Serial Communication Interface 2 */

+  void* pfnSERCOM3_Handler;               /* 12 Serial Communication Interface 3 */

+  void* pfnSERCOM4_Handler;               /* 13 Serial Communication Interface 4 */

+  void* pfnSERCOM5_Handler;               /* 14 Serial Communication Interface 5 */

+  void* pfnTCC0_Handler;                  /* 15 Timer Counter Control */

+  void* pfnTC0_Handler;                   /* 16 Basic Timer Counter 0 */

+  void* pfnTC1_Handler;                   /* 17 Basic Timer Counter 1 */

+  void* pfnTC2_Handler;                   /* 18 Basic Timer Counter 2 */

+  void* pfnTC3_Handler;                   /* 19 Basic Timer Counter 3 */

+  void* pfnADC_Handler;                   /* 20 Analog Digital Converter */

+  void* pfnAC_Handler;                    /* 21 Analog Comparators */

+  void* pfnPTC_Handler;                   /* 22 Peripheral Touch Controller */

+  void* pfnSLCD_Handler;                  /* 23 Segment Liquid Crystal Display Controller */

+  void* pfnAES_Handler;                   /* 24 Advanced Encryption Standard */

+  void* pfnTRNG_Handler;                  /* 25 True Random Generator */

+} DeviceVectors;

+

+/* Cortex-M0+ processor handlers */

+void Reset_Handler               ( void );

+void NonMaskableInt_Handler      ( void );

+void HardFault_Handler           ( void );

+void SVCall_Handler              ( void );

+void PendSV_Handler              ( void );

+void SysTick_Handler             ( void );

+

+/* Peripherals handlers */

+void SYSTEM_Handler              ( void );

+void WDT_Handler                 ( void );

+void RTC_Handler                 ( void );

+void EIC_Handler                 ( void );

+void FREQM_Handler               ( void );

+void USB_Handler                 ( void );

+void NVMCTRL_Handler             ( void );

+void DMAC_Handler                ( void );

+void EVSYS_Handler               ( void );

+void SERCOM0_Handler             ( void );

+void SERCOM1_Handler             ( void );

+void SERCOM2_Handler             ( void );

+void SERCOM3_Handler             ( void );

+void SERCOM4_Handler             ( void );

+void SERCOM5_Handler             ( void );

+void TCC0_Handler                ( void );

+void TC0_Handler                 ( void );

+void TC1_Handler                 ( void );

+void TC2_Handler                 ( void );

+void TC3_Handler                 ( void );

+void ADC_Handler                 ( void );

+void AC_Handler                  ( void );

+void PTC_Handler                 ( void );

+void SLCD_Handler                ( void );

+void AES_Handler                 ( void );

+void TRNG_Handler                ( void );

+

+/*

+ * \brief Configuration of the Cortex-M0+ Processor and Core Peripherals

+ */

+

+#define __CM0PLUS_REV          1         /*!< Core revision r0p1 */

+#define __MPU_PRESENT          1         /*!< MPU present or not */

+#define __NVIC_PRIO_BITS       2         /*!< Number of bits used for Priority Levels */

+#define __VTOR_PRESENT         1         /*!< VTOR present or not */

+#define __Vendor_SysTickConfig 0         /*!< Set to 1 if different SysTick Config is used */

+

+/**

+ * \brief CMSIS includes

+ */

+

+#include <core_cm0plus.h>

+#if !defined DONT_USE_CMSIS_INIT

+#include "system_saml22.h"

+#endif /* DONT_USE_CMSIS_INIT */

+

+/*@}*/

+

+/* ************************************************************************** */

+/**  SOFTWARE PERIPHERAL API DEFINITION FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_api Peripheral Software API */

+/*@{*/

+

+#include "component/ac.h"

+#include "component/adc.h"

+#include "component/aes.h"

+#include "component/ccl.h"

+#include "component/dmac.h"

+#include "component/dsu.h"

+#include "component/eic.h"

+#include "component/evsys.h"

+#include "component/freqm.h"

+#include "component/gclk.h"

+#include "component/mclk.h"

+#include "component/mtb.h"

+#include "component/nvmctrl.h"

+#include "component/oscctrl.h"

+#include "component/osc32kctrl.h"

+#include "component/pac.h"

+#include "component/pm.h"

+#include "component/port.h"

+#include "component/rstc.h"

+#include "component/rtc.h"

+#include "component/sercom.h"

+#include "component/slcd.h"

+#include "component/supc.h"

+#include "component/tc.h"

+#include "component/tcc.h"

+#include "component/trng.h"

+#include "component/usb.h"

+#include "component/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  REGISTERS ACCESS DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_reg Registers Access Definitions */

+/*@{*/

+

+#include "instance/ac.h"

+#include "instance/adc.h"

+#include "instance/aes.h"

+#include "instance/ccl.h"

+#include "instance/dmac.h"

+#include "instance/dsu.h"

+#include "instance/eic.h"

+#include "instance/evsys.h"

+#include "instance/freqm.h"

+#include "instance/gclk.h"

+#include "instance/mclk.h"

+#include "instance/mtb.h"

+#include "instance/nvmctrl.h"

+#include "instance/oscctrl.h"

+#include "instance/osc32kctrl.h"

+#include "instance/pac.h"

+#include "instance/pm.h"

+#include "instance/port.h"

+#include "instance/ptc.h"

+#include "instance/rstc.h"

+#include "instance/rtc.h"

+#include "instance/sercom0.h"

+#include "instance/sercom1.h"

+#include "instance/sercom2.h"

+#include "instance/sercom3.h"

+#include "instance/sercom4.h"

+#include "instance/sercom5.h"

+#include "instance/slcd.h"

+#include "instance/supc.h"

+#include "instance/tc0.h"

+#include "instance/tc1.h"

+#include "instance/tc2.h"

+#include "instance/tc3.h"

+#include "instance/tcc0.h"

+#include "instance/trng.h"

+#include "instance/usb.h"

+#include "instance/wdt.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  PERIPHERAL ID DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_id Peripheral Ids Definitions */

+/*@{*/

+

+// Peripheral instances on HPB0 bridge

+#define ID_PAC            0 /**< \brief Peripheral Access Controller (PAC) */

+#define ID_PM             1 /**< \brief Power Manager (PM) */

+#define ID_MCLK           2 /**< \brief Main Clock (MCLK) */

+#define ID_RSTC           3 /**< \brief Reset Controller (RSTC) */

+#define ID_OSCCTRL        4 /**< \brief Oscillators Control (OSCCTRL) */

+#define ID_OSC32KCTRL     5 /**< \brief 32k Oscillators Control (OSC32KCTRL) */

+#define ID_SUPC           6 /**< \brief Supply Controller (SUPC) */

+#define ID_GCLK           7 /**< \brief Generic Clock Generator (GCLK) */

+#define ID_WDT            8 /**< \brief Watchdog Timer (WDT) */

+#define ID_RTC            9 /**< \brief Real-Time Counter (RTC) */

+#define ID_EIC           10 /**< \brief External Interrupt Controller (EIC) */

+#define ID_FREQM         11 /**< \brief Frequency Meter (FREQM) */

+

+// Peripheral instances on HPB1 bridge

+#define ID_USB           32 /**< \brief Universal Serial Bus (USB) */

+#define ID_DSU           33 /**< \brief Device Service Unit (DSU) */

+#define ID_NVMCTRL       34 /**< \brief Non-Volatile Memory Controller (NVMCTRL) */

+#define ID_PORT          35 /**< \brief Port Module (PORT) */

+#define ID_DMAC          36 /**< \brief Direct Memory Access Controller (DMAC) */

+#define ID_MTB           37 /**< \brief Cortex-M0+ Micro-Trace Buffer (MTB) */

+

+// Peripheral instances on HPB2 bridge

+#define ID_EVSYS         64 /**< \brief Event System Interface (EVSYS) */

+#define ID_SERCOM0       65 /**< \brief Serial Communication Interface 0 (SERCOM0) */

+#define ID_SERCOM1       66 /**< \brief Serial Communication Interface 1 (SERCOM1) */

+#define ID_SERCOM2       67 /**< \brief Serial Communication Interface 2 (SERCOM2) */

+#define ID_SERCOM3       68 /**< \brief Serial Communication Interface 3 (SERCOM3) */

+#define ID_SERCOM4       69 /**< \brief Serial Communication Interface 4 (SERCOM4) */

+#define ID_SERCOM5       70 /**< \brief Serial Communication Interface 5 (SERCOM5) */

+#define ID_TCC0          71 /**< \brief Timer Counter Control (TCC0) */

+#define ID_TC0           72 /**< \brief Basic Timer Counter 0 (TC0) */

+#define ID_TC1           73 /**< \brief Basic Timer Counter 1 (TC1) */

+#define ID_TC2           74 /**< \brief Basic Timer Counter 2 (TC2) */

+#define ID_TC3           75 /**< \brief Basic Timer Counter 3 (TC3) */

+#define ID_ADC           76 /**< \brief Analog Digital Converter (ADC) */

+#define ID_AC            77 /**< \brief Analog Comparators (AC) */

+#define ID_PTC           78 /**< \brief Peripheral Touch Controller (PTC) */

+#define ID_SLCD          79 /**< \brief Segment Liquid Crystal Display Controller (SLCD) */

+#define ID_AES           80 /**< \brief Advanced Encryption Standard (AES) */

+#define ID_TRNG          81 /**< \brief True Random Generator (TRNG) */

+#define ID_CCL           82 /**< \brief Configurable Custom Logic (CCL) */

+

+#define ID_PERIPH_COUNT  83 /**< \brief Max number of peripheral IDs */

+/*@}*/

+

+/* ************************************************************************** */

+/**  BASE ADDRESS DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_base Peripheral Base Address Definitions */

+/*@{*/

+

+#if defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)

+#define AC                            (0x42003400) /**< \brief (AC) APB Base Address */

+#define ADC                           (0x42003000) /**< \brief (ADC) APB Base Address */

+#define AES                           (0x42004000) /**< \brief (AES) APB Base Address */

+#define CCL                           (0x42004800) /**< \brief (CCL) APB Base Address */

+#define DMAC                          (0x41008000) /**< \brief (DMAC) APB Base Address */

+#define DSU                           (0x41002000) /**< \brief (DSU) APB Base Address */

+#define EIC                           (0x40002800) /**< \brief (EIC) APB Base Address */

+#define EVSYS                         (0x42000000) /**< \brief (EVSYS) APB Base Address */

+#define FREQM                         (0x40002C00) /**< \brief (FREQM) APB Base Address */

+#define GCLK                          (0x40001C00) /**< \brief (GCLK) APB Base Address */

+#define MCLK                          (0x40000800) /**< \brief (MCLK) APB Base Address */

+#define MTB                           (0x4100A000) /**< \brief (MTB) APB Base Address */

+#define NVMCTRL                       (0x41004000) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000) /**< \brief (NVMCTRL) USER Base Address */

+#define OSCCTRL                       (0x40001000) /**< \brief (OSCCTRL) APB Base Address */

+#define OSC32KCTRL                    (0x40001400) /**< \brief (OSC32KCTRL) APB Base Address */

+#define PAC                           (0x40000000) /**< \brief (PAC) APB Base Address */

+#define PM                            (0x40000400) /**< \brief (PM) APB Base Address */

+#define PORT                          (0x41006000) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS                    (0x60000000) /**< \brief (PORT) IOBUS Base Address */

+#define PTC                           (0x42003800) /**< \brief (PTC) APB Base Address */

+#define RSTC                          (0x40000C00) /**< \brief (RSTC) APB Base Address */

+#define RTC                           (0x40002400) /**< \brief (RTC) APB Base Address */

+#define SERCOM0                       (0x42000400) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1                       (0x42000800) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2                       (0x42000C00) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3                       (0x42001000) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4                       (0x42001400) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5                       (0x42001800) /**< \brief (SERCOM5) APB Base Address */

+#define SLCD                          (0x42003C00) /**< \brief (SLCD) APB Base Address */

+#define SUPC                          (0x40001800) /**< \brief (SUPC) APB Base Address */

+#define TC0                           (0x42002000) /**< \brief (TC0) APB Base Address */

+#define TC1                           (0x42002400) /**< \brief (TC1) APB Base Address */

+#define TC2                           (0x42002800) /**< \brief (TC2) APB Base Address */

+#define TC3                           (0x42002C00) /**< \brief (TC3) APB Base Address */

+#define TCC0                          (0x42001C00) /**< \brief (TCC0) APB Base Address */

+#define TRNG                          (0x42004400) /**< \brief (TRNG) APB Base Address */

+#define USB                           (0x41000000) /**< \brief (USB) APB Base Address */

+#define WDT                           (0x40002000) /**< \brief (WDT) APB Base Address */

+#else

+#define AC                ((Ac       *)0x42003400UL) /**< \brief (AC) APB Base Address */

+#define AC_INST_NUM       1                          /**< \brief (AC) Number of instances */

+#define AC_INSTS          { AC }                     /**< \brief (AC) Instances List */

+

+#define ADC               ((Adc      *)0x42003000UL) /**< \brief (ADC) APB Base Address */

+#define ADC_INST_NUM      1                          /**< \brief (ADC) Number of instances */

+#define ADC_INSTS         { ADC }                    /**< \brief (ADC) Instances List */

+

+#define AES               ((Aes      *)0x42004000UL) /**< \brief (AES) APB Base Address */

+#define AES_INST_NUM      1                          /**< \brief (AES) Number of instances */

+#define AES_INSTS         { AES }                    /**< \brief (AES) Instances List */

+

+#define CCL               ((Ccl      *)0x42004800UL) /**< \brief (CCL) APB Base Address */

+#define CCL_INST_NUM      1                          /**< \brief (CCL) Number of instances */

+#define CCL_INSTS         { CCL }                    /**< \brief (CCL) Instances List */

+

+#define DMAC              ((Dmac     *)0x41008000UL) /**< \brief (DMAC) APB Base Address */

+#define DMAC_INST_NUM     1                          /**< \brief (DMAC) Number of instances */

+#define DMAC_INSTS        { DMAC }                   /**< \brief (DMAC) Instances List */

+

+#define DSU               ((Dsu      *)0x41002000UL) /**< \brief (DSU) APB Base Address */

+#define DSU_INST_NUM      1                          /**< \brief (DSU) Number of instances */

+#define DSU_INSTS         { DSU }                    /**< \brief (DSU) Instances List */

+

+#define EIC               ((Eic      *)0x40002800UL) /**< \brief (EIC) APB Base Address */

+#define EIC_INST_NUM      1                          /**< \brief (EIC) Number of instances */

+#define EIC_INSTS         { EIC }                    /**< \brief (EIC) Instances List */

+

+#define EVSYS             ((Evsys    *)0x42000000UL) /**< \brief (EVSYS) APB Base Address */

+#define EVSYS_INST_NUM    1                          /**< \brief (EVSYS) Number of instances */

+#define EVSYS_INSTS       { EVSYS }                  /**< \brief (EVSYS) Instances List */

+

+#define FREQM             ((Freqm    *)0x40002C00UL) /**< \brief (FREQM) APB Base Address */

+#define FREQM_INST_NUM    1                          /**< \brief (FREQM) Number of instances */

+#define FREQM_INSTS       { FREQM }                  /**< \brief (FREQM) Instances List */

+

+#define GCLK              ((Gclk     *)0x40001C00UL) /**< \brief (GCLK) APB Base Address */

+#define GCLK_INST_NUM     1                          /**< \brief (GCLK) Number of instances */

+#define GCLK_INSTS        { GCLK }                   /**< \brief (GCLK) Instances List */

+

+#define MCLK              ((Mclk     *)0x40000800UL) /**< \brief (MCLK) APB Base Address */

+#define MCLK_INST_NUM     1                          /**< \brief (MCLK) Number of instances */

+#define MCLK_INSTS        { MCLK }                   /**< \brief (MCLK) Instances List */

+

+#define MTB               ((Mtb      *)0x4100A000UL) /**< \brief (MTB) APB Base Address */

+#define MTB_INST_NUM      1                          /**< \brief (MTB) Number of instances */

+#define MTB_INSTS         { MTB }                    /**< \brief (MTB) Instances List */

+

+#define NVMCTRL           ((Nvmctrl  *)0x41004000UL) /**< \brief (NVMCTRL) APB Base Address */

+#define NVMCTRL_CAL                   (0x00800000UL) /**< \brief (NVMCTRL) CAL Base Address */

+#define NVMCTRL_LOCKBIT               (0x00802000UL) /**< \brief (NVMCTRL) LOCKBIT Base Address */

+#define NVMCTRL_OTP1                  (0x00806000UL) /**< \brief (NVMCTRL) OTP1 Base Address */

+#define NVMCTRL_OTP2                  (0x00806008UL) /**< \brief (NVMCTRL) OTP2 Base Address */

+#define NVMCTRL_OTP3                  (0x00806010UL) /**< \brief (NVMCTRL) OTP3 Base Address */

+#define NVMCTRL_OTP4                  (0x00806018UL) /**< \brief (NVMCTRL) OTP4 Base Address */

+#define NVMCTRL_OTP5                  (0x00806020UL) /**< \brief (NVMCTRL) OTP5 Base Address */

+#define NVMCTRL_TEMP_LOG              (0x00806030UL) /**< \brief (NVMCTRL) TEMP_LOG Base Address */

+#define NVMCTRL_USER                  (0x00804000UL) /**< \brief (NVMCTRL) USER Base Address */

+#define NVMCTRL_INST_NUM  1                          /**< \brief (NVMCTRL) Number of instances */

+#define NVMCTRL_INSTS     { NVMCTRL }                /**< \brief (NVMCTRL) Instances List */

+

+#define OSCCTRL           ((Oscctrl  *)0x40001000UL) /**< \brief (OSCCTRL) APB Base Address */

+#define OSCCTRL_INST_NUM  1                          /**< \brief (OSCCTRL) Number of instances */

+#define OSCCTRL_INSTS     { OSCCTRL }                /**< \brief (OSCCTRL) Instances List */

+

+#define OSC32KCTRL        ((Osc32kctrl *)0x40001400UL) /**< \brief (OSC32KCTRL) APB Base Address */

+#define OSC32KCTRL_INST_NUM 1                          /**< \brief (OSC32KCTRL) Number of instances */

+#define OSC32KCTRL_INSTS  { OSC32KCTRL }             /**< \brief (OSC32KCTRL) Instances List */

+

+#define PAC               ((Pac      *)0x40000000UL) /**< \brief (PAC) APB Base Address */

+#define PAC_INST_NUM      1                          /**< \brief (PAC) Number of instances */

+#define PAC_INSTS         { PAC }                    /**< \brief (PAC) Instances List */

+

+#define PM                ((Pm       *)0x40000400UL) /**< \brief (PM) APB Base Address */

+#define PM_INST_NUM       1                          /**< \brief (PM) Number of instances */

+#define PM_INSTS          { PM }                     /**< \brief (PM) Instances List */

+

+#define PORT              ((Port     *)0x41006000UL) /**< \brief (PORT) APB Base Address */

+#define PORT_IOBUS        ((Port     *)0x60000000UL) /**< \brief (PORT) IOBUS Base Address */

+#define PORT_INST_NUM     1                          /**< \brief (PORT) Number of instances */

+#define PORT_INSTS        { PORT }                   /**< \brief (PORT) Instances List */

+#define PORT_IOBUS_INST_NUM 1                          /**< \brief (PORT) Number of instances */

+#define PORT_IOBUS_INSTS  { PORT_IOBUS }             /**< \brief (PORT) Instances List */

+

+#define PTC               ((void     *)0x42003800UL) /**< \brief (PTC) APB Base Address */

+#define PTC_GCLK_ID       27

+#define PTC_INST_NUM      1                          /**< \brief (PTC) Number of instances */

+#define PTC_INSTS         { PTC }                    /**< \brief (PTC) Instances List */

+

+#define RSTC              ((Rstc     *)0x40000C00UL) /**< \brief (RSTC) APB Base Address */

+#define RSTC_INST_NUM     1                          /**< \brief (RSTC) Number of instances */

+#define RSTC_INSTS        { RSTC }                   /**< \brief (RSTC) Instances List */

+

+#define RTC               ((Rtc      *)0x40002400UL) /**< \brief (RTC) APB Base Address */

+#define RTC_INST_NUM      1                          /**< \brief (RTC) Number of instances */

+#define RTC_INSTS         { RTC }                    /**< \brief (RTC) Instances List */

+

+#define SERCOM0           ((Sercom   *)0x42000400UL) /**< \brief (SERCOM0) APB Base Address */

+#define SERCOM1           ((Sercom   *)0x42000800UL) /**< \brief (SERCOM1) APB Base Address */

+#define SERCOM2           ((Sercom   *)0x42000C00UL) /**< \brief (SERCOM2) APB Base Address */

+#define SERCOM3           ((Sercom   *)0x42001000UL) /**< \brief (SERCOM3) APB Base Address */

+#define SERCOM4           ((Sercom   *)0x42001400UL) /**< \brief (SERCOM4) APB Base Address */

+#define SERCOM5           ((Sercom   *)0x42001800UL) /**< \brief (SERCOM5) APB Base Address */

+#define SERCOM_INST_NUM   6                          /**< \brief (SERCOM) Number of instances */

+#define SERCOM_INSTS      { SERCOM0, SERCOM1, SERCOM2, SERCOM3, SERCOM4, SERCOM5 } /**< \brief (SERCOM) Instances List */

+

+#define SLCD              ((Slcd     *)0x42003C00UL) /**< \brief (SLCD) APB Base Address */

+#define SLCD_INST_NUM     1                          /**< \brief (SLCD) Number of instances */

+#define SLCD_INSTS        { SLCD }                   /**< \brief (SLCD) Instances List */

+

+#define SUPC              ((Supc     *)0x40001800UL) /**< \brief (SUPC) APB Base Address */

+#define SUPC_INST_NUM     1                          /**< \brief (SUPC) Number of instances */

+#define SUPC_INSTS        { SUPC }                   /**< \brief (SUPC) Instances List */

+

+#define TC0               ((Tc       *)0x42002000UL) /**< \brief (TC0) APB Base Address */

+#define TC1               ((Tc       *)0x42002400UL) /**< \brief (TC1) APB Base Address */

+#define TC2               ((Tc       *)0x42002800UL) /**< \brief (TC2) APB Base Address */

+#define TC3               ((Tc       *)0x42002C00UL) /**< \brief (TC3) APB Base Address */

+#define TC_INST_NUM       4                          /**< \brief (TC) Number of instances */

+#define TC_INSTS          { TC0, TC1, TC2, TC3 }     /**< \brief (TC) Instances List */

+

+#define TCC0              ((Tcc      *)0x42001C00UL) /**< \brief (TCC0) APB Base Address */

+#define TCC_INST_NUM      1                          /**< \brief (TCC) Number of instances */

+#define TCC_INSTS         { TCC0 }                   /**< \brief (TCC) Instances List */

+

+#define TRNG              ((Trng     *)0x42004400UL) /**< \brief (TRNG) APB Base Address */

+#define TRNG_INST_NUM     1                          /**< \brief (TRNG) Number of instances */

+#define TRNG_INSTS        { TRNG }                   /**< \brief (TRNG) Instances List */

+

+#define USB               ((Usb      *)0x41000000UL) /**< \brief (USB) APB Base Address */

+#define USB_INST_NUM      1                          /**< \brief (USB) Number of instances */

+#define USB_INSTS         { USB }                    /**< \brief (USB) Instances List */

+

+#define WDT               ((Wdt      *)0x40002000UL) /**< \brief (WDT) APB Base Address */

+#define WDT_INST_NUM      1                          /**< \brief (WDT) Number of instances */

+#define WDT_INSTS         { WDT }                    /**< \brief (WDT) Instances List */

+

+#endif /* (defined(__ASSEMBLY__) || defined(__IAR_SYSTEMS_ASM__)) */

+/*@}*/

+

+/* ************************************************************************** */

+/**  PORT DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+/** \defgroup SAML22N18A_port PORT Definitions */

+/*@{*/

+

+#include "pio/saml22n18a.h"

+/*@}*/

+

+/* ************************************************************************** */

+/**  MEMORY MAPPING DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+

+#define FLASH_SIZE            _UL_(0x00040000) /* 256 kB */

+#define FLASH_PAGE_SIZE       64

+#define FLASH_NB_OF_PAGES     4096

+#define FLASH_USER_PAGE_SIZE  64

+#define HSRAM_SIZE            _UL_(0x00008000) /* 32 kB */

+

+#define FLASH_ADDR            _UL_(0x00000000) /**< FLASH base address */

+#define FLASH_USER_PAGE_ADDR  _UL_(0x00800000) /**< FLASH_USER_PAGE base address */

+#define HSRAM_ADDR            _UL_(0x20000000) /**< HSRAM base address */

+#define HPB0_ADDR             _UL_(0x40000000) /**< HPB0 base address */

+#define HPB1_ADDR             _UL_(0x41000000) /**< HPB1 base address */

+#define HPB2_ADDR             _UL_(0x42000000) /**< HPB2 base address */

+#define PPB_ADDR              _UL_(0xE0000000) /**< PPB base address */

+

+#define DSU_DID_RESETVALUE    _UL_(0x10820100)

+#define NVMCTRL_RWW_EEPROM_SIZE _UL_(0x00002000) /* 8 kB */

+#define PORT_GROUPS           3

+

+/* ************************************************************************** */

+/**  ELECTRICAL DEFINITIONS FOR SAML22N18A */

+/* ************************************************************************** */

+

+

+#ifdef __cplusplus

+}

+#endif

+

+/*@}*/

+

+#endif /* SAML22N18A_H */

diff --git a/watch-library/hardware/include/system_saml22.h b/watch-library/hardware/include/system_saml22.h
new file mode 100644
index 00000000..e41bb831
--- /dev/null
+++ b/watch-library/hardware/include/system_saml22.h
@@ -0,0 +1,48 @@
+/**

+ * \file

+ *

+ * \brief Low-level initialization functions called upon chip startup

+ *

+ * Copyright (c) 2018 Microchip Technology Inc.

+ *

+ * \asf_license_start

+ *

+ * \page License

+ *

+ * SPDX-License-Identifier: Apache-2.0

+ *

+ * Licensed under the Apache License, Version 2.0 (the "License"); you may

+ * not use this file except in compliance with the License.

+ * You may obtain a copy of the Licence at

+ * 

+ * http://www.apache.org/licenses/LICENSE-2.0

+ * 

+ * Unless required by applicable law or agreed to in writing, software

+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT

+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

+ * See the License for the specific language governing permissions and

+ * limitations under the License.

+ *

+ * \asf_license_stop

+ *

+ */

+

+#ifndef _SYSTEM_SAML22_H_INCLUDED_

+#define _SYSTEM_SAML22_H_INCLUDED_

+

+#ifdef __cplusplus

+extern "C" {

+#endif

+

+#include <stdint.h>

+

+extern uint32_t SystemCoreClock;   /*!< System Clock Frequency (Core Clock)  */

+

+void SystemInit(void);

+void SystemCoreClockUpdate(void);

+

+#ifdef __cplusplus

+}

+#endif

+

+#endif /* SYSTEM_SAML22_H_INCLUDED */

diff --git a/watch-library/hardware/linker/saml22j18.ld b/watch-library/hardware/linker/saml22j18.ld
new file mode 100755
index 00000000..a9801509
--- /dev/null
+++ b/watch-library/hardware/linker/saml22j18.ld
@@ -0,0 +1,145 @@
+/**
+ * \file
+ *
+ * \brief Linker script for running in internal FLASH on the SAML22J18A
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+
+OUTPUT_FORMAT("elf32-littlearm", "elf32-littlearm", "elf32-littlearm")
+OUTPUT_ARCH(arm)
+SEARCH_DIR(.)
+
+/* Memory Spaces Definitions */
+MEMORY
+{
+  rom      (rx)  : ORIGIN = 0x2000, LENGTH = 0x00040000-0x2000
+  ram      (rwx) : ORIGIN = 0x20000000, LENGTH = 0x00008000
+}
+
+/* The stack size used by the application. NOTE: you need to adjust according to your application. */
+STACK_SIZE = DEFINED(STACK_SIZE) ? STACK_SIZE : DEFINED(__stack_size__) ? __stack_size__ : 0x2000;
+
+ENTRY(Reset_Handler)
+
+/* Section Definitions */
+SECTIONS
+{
+    .text :
+    {
+        . = ALIGN(4);
+        _sfixed = .;
+        KEEP(*(.vectors .vectors.*))
+        *(.text .text.* .gnu.linkonce.t.*)
+        *(.glue_7t) *(.glue_7)
+        *(.rodata .rodata* .gnu.linkonce.r.*)
+        *(.ARM.extab* .gnu.linkonce.armextab.*)
+
+        /* Support C constructors, and C destructors in both user code
+           and the C library. This also provides support for C++ code. */
+        . = ALIGN(4);
+        KEEP(*(.init))
+        . = ALIGN(4);
+        __preinit_array_start = .;
+        KEEP (*(.preinit_array))
+        __preinit_array_end = .;
+
+        . = ALIGN(4);
+        __init_array_start = .;
+        KEEP (*(SORT(.init_array.*)))
+        KEEP (*(.init_array))
+        __init_array_end = .;
+
+        . = ALIGN(4);
+        KEEP (*crtbegin.o(.ctors))
+        KEEP (*(EXCLUDE_FILE (*crtend.o) .ctors))
+        KEEP (*(SORT(.ctors.*)))
+        KEEP (*crtend.o(.ctors))
+
+        . = ALIGN(4);
+        KEEP(*(.fini))
+
+        . = ALIGN(4);
+        __fini_array_start = .;
+        KEEP (*(.fini_array))
+        KEEP (*(SORT(.fini_array.*)))
+        __fini_array_end = .;
+
+        KEEP (*crtbegin.o(.dtors))
+        KEEP (*(EXCLUDE_FILE (*crtend.o) .dtors))
+        KEEP (*(SORT(.dtors.*)))
+        KEEP (*crtend.o(.dtors))
+
+        . = ALIGN(4);
+        _efixed = .;            /* End of text section */
+    } > rom
+
+    /* .ARM.exidx is sorted, so has to go in its own output section.  */
+    PROVIDE_HIDDEN (__exidx_start = .);
+    .ARM.exidx :
+    {
+      *(.ARM.exidx* .gnu.linkonce.armexidx.*)
+    } > rom
+    PROVIDE_HIDDEN (__exidx_end = .);
+
+    . = ALIGN(4);
+    _etext = .;
+
+    .relocate : AT (_etext)
+    {
+        . = ALIGN(4);
+        _srelocate = .;
+        *(.ramfunc .ramfunc.*);
+        *(.data .data.*);
+        . = ALIGN(4);
+        _erelocate = .;
+    } > ram
+
+    /* .bss section which is used for uninitialized data */
+    .bss (NOLOAD) :
+    {
+        . = ALIGN(4);
+        _sbss = . ;
+        _szero = .;
+        *(.bss .bss.*)
+        *(COMMON)
+        . = ALIGN(4);
+        _ebss = . ;
+        _ezero = .;
+    } > ram
+
+    /* stack section */
+    .stack (NOLOAD):
+    {
+        . = ALIGN(8);
+        _sstack = .;
+        . = . + STACK_SIZE;
+        . = ALIGN(8);
+        _estack = .;
+    } > ram
+
+    . = ALIGN(4);
+    _end = . ;
+}
diff --git a/watch-library/hardware/main.c b/watch-library/hardware/main.c
new file mode 100755
index 00000000..1fe751ef
--- /dev/null
+++ b/watch-library/hardware/main.c
@@ -0,0 +1,85 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+//-----------------------------------------------------------------------------
+#include <stdlib.h>
+#include <stdint.h>
+#include <stdbool.h>
+#include <string.h>
+#include <stdio.h>
+#include "saml22.h"
+#include "hal_init.h"
+#include "pins.h"
+#include "watch.h"
+#include "tusb.h"
+
+int main(void) {
+    // ASF code. Initialize the MCU with configuration options from Atmel Studio.
+    init_mcu();
+
+    // check if we are plugged into USB power.
+    watch_enable_digital_input(VBUS_DET);
+    watch_enable_pull_down(VBUS_DET);
+    if (watch_get_pin_level(VBUS_DET)) {
+        // if so, enable USB functionality.
+        _watch_enable_usb();
+    }
+    watch_disable_digital_input(VBUS_DET);
+
+    // initialize the delay driver before any user code is called.
+    delay_driver_init();
+
+    // User code. Give the app a chance to initialize its data structures and state.
+    app_init();
+
+    // If the RTC is already enabled, we're either waking from BACKUP mode or a reset.
+    // Ideally we should check if the TAMPER or CMP0 (alarm) flags are set.
+    if (_watch_rtc_is_enabled()) {
+        // User code. Give the application a chance to restore state from backup registers.
+        app_wake_from_backup();
+
+        // disable the tamper interrupt and clear the tamper bit
+        hri_rtcmode0_clear_INTEN_TAMPER_bit(RTC);
+        hri_rtcmode0_clear_interrupt_TAMPER_bit(RTC);
+    }
+
+    // Watch library code. Set initial parameters for the device and enable the RTC.
+    _watch_init();
+
+    // User code. Give the app a chance to enable and set up peripherals.
+    app_setup();
+
+    while (1) {
+        bool usb_enabled = hri_usbdevice_get_CTRLA_ENABLE_bit(USB);
+        bool can_sleep = app_loop();
+
+        if (can_sleep && !usb_enabled) {
+            app_prepare_for_standby();
+            sleep(4);
+            app_wake_from_standby();
+        }
+    }
+
+    return 0;
+}
diff --git a/watch-library/hardware/startup_saml22.c b/watch-library/hardware/startup_saml22.c
new file mode 100755
index 00000000..f4982564
--- /dev/null
+++ b/watch-library/hardware/startup_saml22.c
@@ -0,0 +1,225 @@
+/**
+ * \file
+ *
+ * \brief gcc starttup file for SAML22
+ *
+ * Copyright (c) 2018 Microchip Technology Inc.
+ *
+ * \asf_license_start
+ *
+ * \page License
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License"); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the Licence at
+ * 
+ * http://www.apache.org/licenses/LICENSE-2.0
+ * 
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * \asf_license_stop
+ *
+ */
+
+#include "saml22.h"
+
+/* Initialize segments */
+extern uint32_t _sfixed;
+extern uint32_t _efixed;
+extern uint32_t _etext;
+extern uint32_t _srelocate;
+extern uint32_t _erelocate;
+extern uint32_t _szero;
+extern uint32_t _ezero;
+extern uint32_t _sstack;
+extern uint32_t _estack;
+
+/** \cond DOXYGEN_SHOULD_SKIP_THIS */
+int main(void);
+/** \endcond */
+
+void __libc_init_array(void);
+
+/* Default empty handler */
+void Dummy_Handler(void);
+
+/* Cortex-M0+ core handlers */
+void NonMaskableInt_Handler  ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void HardFault_Handler       ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void SVCall_Handler          ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void PendSV_Handler          ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void SysTick_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+
+/* Peripherals handlers */
+void SYSTEM_Handler          ( void ) __attribute__ ((weak, alias("Dummy_Handler"))); /* MCLK, OSC32KCTRL, OSCCTRL, PAC, PM, SUPC, TAL */
+void WDT_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void RTC_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void EIC_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void FREQM_Handler           ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#ifdef ID_USB
+void USB_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+void NVMCTRL_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void DMAC_Handler            ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void EVSYS_Handler           ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void SERCOM0_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void SERCOM1_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void SERCOM2_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#ifdef ID_SERCOM3
+void SERCOM3_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+#ifdef ID_SERCOM4
+void SERCOM4_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+#ifdef ID_SERCOM5
+void SERCOM5_Handler         ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+void TCC0_Handler            ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void TC0_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void TC1_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void TC2_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void TC3_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void ADC_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+void AC_Handler              ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#ifdef ID_PTC
+void PTC_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+void SLCD_Handler            ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#ifdef ID_AES
+void AES_Handler             ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+#ifdef ID_TRNG
+void TRNG_Handler            ( void ) __attribute__ ((weak, alias("Dummy_Handler")));
+#endif
+
+/* Exception Table */
+__attribute__ ((section(".vectors")))
+const DeviceVectors exception_table = {
+
+        /* Configure Initial Stack Pointer, using linker-generated symbols */
+        .pvStack                = (void*) (&_estack),
+
+        .pfnReset_Handler       = (void*) Reset_Handler,
+        .pfnNonMaskableInt_Handler = (void*) NonMaskableInt_Handler,
+        .pfnHardFault_Handler   = (void*) HardFault_Handler,
+        .pvReservedM12          = (void*) (0UL), /* Reserved */
+        .pvReservedM11          = (void*) (0UL), /* Reserved */
+        .pvReservedM10          = (void*) (0UL), /* Reserved */
+        .pvReservedM9           = (void*) (0UL), /* Reserved */
+        .pvReservedM8           = (void*) (0UL), /* Reserved */
+        .pvReservedM7           = (void*) (0UL), /* Reserved */
+        .pvReservedM6           = (void*) (0UL), /* Reserved */
+        .pfnSVCall_Handler      = (void*) SVCall_Handler,
+        .pvReservedM4           = (void*) (0UL), /* Reserved */
+        .pvReservedM3           = (void*) (0UL), /* Reserved */
+        .pfnPendSV_Handler      = (void*) PendSV_Handler,
+        .pfnSysTick_Handler     = (void*) SysTick_Handler,
+
+        /* Configurable interrupts */
+        .pfnSYSTEM_Handler      = (void*) SYSTEM_Handler,         /*  0 Main Clock, 32k Oscillators Control, Oscillators Control, Peripheral Access Controller, Power Manager, Supply Controller, Trigger Allocator */
+        .pfnWDT_Handler         = (void*) WDT_Handler,            /*  1 Watchdog Timer */
+        .pfnRTC_Handler         = (void*) RTC_Handler,            /*  2 Real-Time Counter */
+        .pfnEIC_Handler         = (void*) EIC_Handler,            /*  3 External Interrupt Controller */
+        .pfnFREQM_Handler       = (void*) FREQM_Handler,          /*  4 Frequency Meter */
+#ifdef ID_USB
+        .pfnUSB_Handler         = (void*) USB_Handler,            /*  5 Universal Serial Bus */
+#else
+        .pvReserved5            = (void*) (0UL),                  /*  5 Reserved */
+#endif
+        .pfnNVMCTRL_Handler     = (void*) NVMCTRL_Handler,        /*  6 Non-Volatile Memory Controller */
+        .pfnDMAC_Handler        = (void*) DMAC_Handler,           /*  7 Direct Memory Access Controller */
+        .pfnEVSYS_Handler       = (void*) EVSYS_Handler,          /*  8 Event System Interface */
+        .pfnSERCOM0_Handler     = (void*) SERCOM0_Handler,        /*  9 Serial Communication Interface 0 */
+        .pfnSERCOM1_Handler     = (void*) SERCOM1_Handler,        /* 10 Serial Communication Interface 1 */
+        .pfnSERCOM2_Handler     = (void*) SERCOM2_Handler,        /* 11 Serial Communication Interface 2 */
+#ifdef ID_SERCOM3
+        .pfnSERCOM3_Handler     = (void*) SERCOM3_Handler,        /* 12 Serial Communication Interface 3 */
+#else
+        .pvReserved12           = (void*) (0UL),                  /* 12 Reserved */
+#endif
+#ifdef ID_SERCOM4
+        .pfnSERCOM4_Handler     = (void*) SERCOM4_Handler,        /* 13 Serial Communication Interface 4 */
+#else
+        .pvReserved13           = (void*) (0UL),                  /* 13 Reserved */
+#endif
+#ifdef ID_SERCOM5
+        .pfnSERCOM5_Handler     = (void*) SERCOM5_Handler,        /* 14 Serial Communication Interface 5 */
+#else
+        .pvReserved14           = (void*) (0UL),                  /* 14 Reserved */
+#endif
+        .pfnTCC0_Handler        = (void*) TCC0_Handler,           /* 15 Timer Counter Control */
+        .pfnTC0_Handler         = (void*) TC0_Handler,            /* 16 Basic Timer Counter 0 */
+        .pfnTC1_Handler         = (void*) TC1_Handler,            /* 17 Basic Timer Counter 1 */
+        .pfnTC2_Handler         = (void*) TC2_Handler,            /* 18 Basic Timer Counter 2 */
+        .pfnTC3_Handler         = (void*) TC3_Handler,            /* 19 Basic Timer Counter 3 */
+        .pfnADC_Handler         = (void*) ADC_Handler,            /* 20 Analog Digital Converter */
+        .pfnAC_Handler          = (void*) AC_Handler,             /* 21 Analog Comparators */
+#ifdef ID_PTC
+        .pfnPTC_Handler         = (void*) PTC_Handler,            /* 22 Peripheral Touch Controller */
+#else
+        .pvReserved22           = (void*) (0UL),                  /* 22 Reserved */
+#endif
+        .pfnSLCD_Handler        = (void*) SLCD_Handler,           /* 23 Segment Liquid Crystal Display Controller */
+#ifdef ID_AES
+        .pfnAES_Handler         = (void*) AES_Handler,            /* 24 Advanced Encryption Standard */
+#else
+        .pvReserved24           = (void*) (0UL),                  /* 24 Reserved */
+#endif
+#ifdef ID_TRNG
+        .pfnTRNG_Handler        = (void*) TRNG_Handler            /* 25 True Random Generator */
+#else
+        .pvReserved25           = (void*) (0UL)                   /* 25 Reserved */
+#endif
+};
+
+/**
+ * \brief This is the code that gets called on processor reset.
+ * To initialize the device, and call the main() routine.
+ */
+void Reset_Handler(void)
+{
+    uint32_t *pSrc, *pDest;
+
+    /* Initialize the relocate segment */
+    pSrc = &_etext;
+    pDest = &_srelocate;
+
+    if (pSrc != pDest) {
+        for (; pDest < &_erelocate;) {
+            *pDest++ = *pSrc++;
+        }
+    }
+
+    /* Clear the zero segment */
+    for (pDest = &_szero; pDest < &_ezero;) {
+            *pDest++ = 0;
+    }
+
+    /* Set the vector table base address */
+    pSrc = (uint32_t *) & _sfixed;
+    SCB->VTOR = ((uint32_t) pSrc & SCB_VTOR_TBLOFF_Msk);
+
+    /* Initialize the C library */
+    __libc_init_array();
+
+    /* Branch to main function */
+    main();
+
+    /* Infinite loop */
+    while (1);
+}
+
+/**
+ * \brief Default interrupt handler for unused IRQs.
+ */
+void Dummy_Handler(void)
+{
+    while (1) {
+    }
+}
diff --git a/watch-library/hardware/watch/tusb_config.h b/watch-library/hardware/watch/tusb_config.h
new file mode 100644
index 00000000..a22b2b99
--- /dev/null
+++ b/watch-library/hardware/watch/tusb_config.h
@@ -0,0 +1,91 @@
+/*
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2019 Ha Thach (tinyusb.org)
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ *
+ */
+
+#ifndef _TUSB_CONFIG_H_
+#define _TUSB_CONFIG_H_
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+
+//--------------------------------------------------------------------
+// COMMON CONFIGURATION
+//--------------------------------------------------------------------
+
+// defined by board.mk
+#define CFG_TUSB_MCU OPT_MCU_SAML22
+
+#define BOARD_DEVICE_RHPORT_NUM     0
+#define BOARD_DEVICE_RHPORT_SPEED   OPT_MODE_FULL_SPEED
+#define CFG_TUSB_RHPORT0_MODE     (OPT_MODE_DEVICE | OPT_MODE_FULL_SPEED)
+
+#define CFG_TUSB_OS                 OPT_OS_NONE
+
+// disable TinyUSB debug. our printf method prints stuff to the USB console, so you just get infinite noise.
+// if you need to debug tinyUSB issues, use the alternate _write function in watch_private.c to echo to the UART.
+#define CFG_TUSB_DEBUG           0
+
+/* USB DMA on some MCUs can only access a specific SRAM region with restriction on alignment.
+ * Tinyusb use follows macros to declare transferring memory so that they can be put
+ * into those specific section.
+ * e.g
+ * - CFG_TUSB_MEM SECTION : __attribute__ (( section(".usb_ram") ))
+ * - CFG_TUSB_MEM_ALIGN   : __attribute__ ((aligned(4)))
+ */
+#ifndef CFG_TUSB_MEM_SECTION
+#define CFG_TUSB_MEM_SECTION
+#endif
+
+#ifndef CFG_TUSB_MEM_ALIGN
+#define CFG_TUSB_MEM_ALIGN          __attribute__ ((aligned(4)))
+#endif
+
+//--------------------------------------------------------------------
+// DEVICE CONFIGURATION
+//--------------------------------------------------------------------
+
+#ifndef CFG_TUD_ENDPOINT0_SIZE
+#define CFG_TUD_ENDPOINT0_SIZE    64
+#endif
+
+//------------- CLASS -------------//
+#define CFG_TUD_CDC               1
+#define CFG_TUD_MSC               0
+#define CFG_TUD_HID               0
+#define CFG_TUD_MIDI              0
+#define CFG_TUD_VENDOR            0
+
+// CDC FIFO size of TX and RX
+#define CFG_TUD_CDC_RX_BUFSIZE   (64)
+#define CFG_TUD_CDC_TX_BUFSIZE   (64)
+
+// CDC Endpoint transfer buffer size, more is faster
+#define CFG_TUD_CDC_EP_BUFSIZE   (64)
+
+#ifdef __cplusplus
+ }
+#endif
+
+#endif /* _TUSB_CONFIG_H_ */
diff --git a/watch-library/hardware/watch/watch.c b/watch-library/hardware/watch/watch.c
new file mode 100644
index 00000000..791fd974
--- /dev/null
+++ b/watch-library/hardware/watch/watch.c
@@ -0,0 +1,44 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch.h"
+
+bool battery_is_low = false;
+
+// receives interrupts from MCLK, OSC32KCTRL, OSCCTRL, PAC, PM, SUPC and TAL, whatever that is.
+void SYSTEM_Handler(void) {
+    if (SUPC->INTFLAG.bit.BOD33DET) {
+        battery_is_low = true;
+        SUPC->INTENCLR.bit.BOD33DET = 1;
+        SUPC->INTFLAG.reg &= ~SUPC_INTFLAG_BOD33DET;
+    }
+}
+
+bool watch_is_battery_low(void) {
+    return battery_is_low;
+}
+
+bool watch_is_buzzer_or_led_enabled(void){
+    return hri_mclk_get_APBCMASK_TCC0_bit(MCLK);
+}
diff --git a/watch-library/hardware/watch/watch_adc.c b/watch-library/hardware/watch/watch_adc.c
new file mode 100644
index 00000000..5ba7abdf
--- /dev/null
+++ b/watch-library/hardware/watch/watch_adc.c
@@ -0,0 +1,179 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_adc.h"
+
+static void _watch_sync_adc(void) {
+    while (ADC->SYNCBUSY.reg);
+}
+
+static uint16_t _watch_get_analog_value(uint16_t channel) {
+    if (ADC->INPUTCTRL.bit.MUXPOS != channel) {
+        ADC->INPUTCTRL.bit.MUXPOS = channel;
+        _watch_sync_adc();
+    }
+
+    ADC->SWTRIG.bit.START = 1;
+    while (!ADC->INTFLAG.bit.RESRDY);
+
+    return ADC->RESULT.reg;
+}
+
+void watch_enable_adc(void) {
+    MCLK->APBCMASK.reg |= MCLK_APBCMASK_ADC;
+    GCLK->PCHCTRL[ADC_GCLK_ID].reg = GCLK_PCHCTRL_GEN_GCLK0 | GCLK_PCHCTRL_CHEN;
+
+    uint16_t calib_reg = 0;
+    calib_reg = ADC_CALIB_BIASREFBUF((*(uint32_t *)ADC_FUSES_BIASREFBUF_ADDR >> ADC_FUSES_BIASREFBUF_Pos)) |
+                ADC_CALIB_BIASCOMP((*(uint32_t *)ADC_FUSES_BIASCOMP_ADDR >> ADC_FUSES_BIASCOMP_Pos));
+
+    if (!ADC->SYNCBUSY.bit.SWRST) {
+        if (ADC->CTRLA.bit.ENABLE) {
+            ADC->CTRLA.bit.ENABLE = 0;
+            _watch_sync_adc();
+        }
+        ADC->CTRLA.bit.SWRST = 1;
+    }
+    _watch_sync_adc();
+
+    if (USB->DEVICE.CTRLA.bit.ENABLE) {
+        // if USB is enabled, we are running an 8 MHz clock.
+        // divide by 16 for a 500kHz ADC clock.
+        ADC->CTRLB.bit.PRESCALER = ADC_CTRLB_PRESCALER_DIV16_Val;
+    } else {
+        // otherwise it's 4 Mhz. divide by 8 for a 500kHz ADC clock.
+        ADC->CTRLB.bit.PRESCALER = ADC_CTRLB_PRESCALER_DIV8_Val;
+    }
+    ADC->CALIB.reg = calib_reg;
+    ADC->REFCTRL.bit.REFSEL = ADC_REFCTRL_REFSEL_INTVCC2_Val;
+    ADC->INPUTCTRL.bit.MUXNEG = ADC_INPUTCTRL_MUXNEG_GND_Val;
+    ADC->CTRLC.bit.RESSEL = ADC_CTRLC_RESSEL_16BIT_Val;
+    ADC->AVGCTRL.bit.SAMPLENUM = ADC_AVGCTRL_SAMPLENUM_16_Val;
+    ADC->SAMPCTRL.bit.SAMPLEN = 0;
+    ADC->INTENSET.reg = ADC_INTENSET_RESRDY;
+    ADC->CTRLA.bit.ENABLE = 1;
+    _watch_sync_adc();
+    // throw away one measurement after reference change (the channel doesn't matter).
+    _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_SCALEDCOREVCC);
+}
+
+void watch_enable_analog_input(const uint8_t pin) {
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_OFF);
+    switch (pin) {
+        case A0:
+            gpio_set_pin_function(pin, PINMUX_PB04B_ADC_AIN12);
+            break;
+        case A1:
+            gpio_set_pin_function(pin, PINMUX_PB01B_ADC_AIN9);
+            break;
+        case A2:
+            gpio_set_pin_function(pin, PINMUX_PB02B_ADC_AIN10);
+            break;
+        case A3:
+            gpio_set_pin_function(pin, PINMUX_PB03B_ADC_AIN11);
+            break;
+        case A4:
+            gpio_set_pin_function(pin, PINMUX_PB00B_ADC_AIN8);
+            break;
+        default:
+            return;
+    }
+}
+
+uint16_t watch_get_analog_pin_level(const uint8_t pin) {
+    switch (pin) {
+        case A0:
+            return _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_AIN12_Val);
+        case A1:
+            return _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_AIN9_Val);
+        case A2:
+            return _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_AIN10_Val);
+        case A3:
+            return _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_AIN11_Val);
+        case A4:
+            return _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_AIN8_Val);
+        default:
+            return 0;
+    }
+}
+
+void watch_set_analog_num_samples(uint16_t samples) {
+    // ignore any input that's not a power of 2 (i.e. only one bit set)
+    if (__builtin_popcount(samples) != 1) return;
+    // if only one bit is set, counting the trailing zeroes is equivalent to log2(samples)
+    uint8_t sample_val = __builtin_ctz(samples);
+    // make sure the desired value is within range and set it, if so.
+    if (sample_val <= ADC_AVGCTRL_SAMPLENUM_1024_Val) {
+        ADC->AVGCTRL.bit.SAMPLENUM = sample_val;
+        _watch_sync_adc();
+    }
+}
+
+void watch_set_analog_sampling_length(uint8_t cycles) {
+    // for clarity the API asks the user how many cycles they want the measurement to take.
+    // but the ADC always needs at least one cycle; it just wants to know how many *extra* cycles we want.
+    // so we subtract one from the user-provided value, and clamp to the maximum.
+    ADC->SAMPCTRL.bit.SAMPLEN = (cycles - 1) & 0x3F;
+    _watch_sync_adc();
+}
+
+void watch_set_analog_reference_voltage(watch_adc_reference_voltage reference) {
+    ADC->CTRLA.bit.ENABLE = 0;
+
+    if (reference == ADC_REFERENCE_INTREF) SUPC->VREF.bit.VREFOE = 1;
+    else SUPC->VREF.bit.VREFOE = 0;
+
+    ADC->REFCTRL.bit.REFSEL = reference;
+    ADC->CTRLA.bit.ENABLE = 1;
+    _watch_sync_adc();
+    // throw away one measurement after reference change (the channel doesn't matter).
+    _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_SCALEDCOREVCC);
+}
+
+uint16_t watch_get_vcc_voltage(void) {
+    // stash the previous reference so we can restore it when we're done.
+    uint8_t oldref = ADC->REFCTRL.bit.REFSEL;
+
+    // if we weren't already using the internal reference voltage, select it now.
+    if (oldref != ADC_REFERENCE_INTREF) watch_set_analog_reference_voltage(ADC_REFERENCE_INTREF);
+
+    // get the data
+    uint32_t raw_val = _watch_get_analog_value(ADC_INPUTCTRL_MUXPOS_SCALEDIOVCC_Val);
+
+    // restore the old reference, if needed.
+    if (oldref != ADC_REFERENCE_INTREF) watch_set_analog_reference_voltage(oldref);
+
+    return (uint16_t)((raw_val * 1000) / (1024 * 1 << ADC->AVGCTRL.bit.SAMPLENUM));
+}
+
+inline void watch_disable_analog_input(const uint8_t pin) {
+    gpio_set_pin_function(pin, GPIO_PIN_FUNCTION_OFF);
+}
+
+inline void watch_disable_adc(void) {
+    ADC->CTRLA.bit.ENABLE = 0;
+    _watch_sync_adc();
+
+    MCLK->APBCMASK.reg &= ~MCLK_APBCMASK_ADC;
+}
diff --git a/watch-library/hardware/watch/watch_buzzer.c b/watch-library/hardware/watch/watch_buzzer.c
new file mode 100644
index 00000000..a275b00d
--- /dev/null
+++ b/watch-library/hardware/watch/watch_buzzer.c
@@ -0,0 +1,64 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_buzzer.h"
+
+ inline void watch_enable_buzzer(void) {
+    if (!hri_tcc_get_CTRLA_reg(TCC0, TCC_CTRLA_ENABLE)) {
+        _watch_enable_tcc();
+    }
+}
+inline void watch_set_buzzer_period(uint32_t period) {
+    hri_tcc_write_PERBUF_reg(TCC0, period);
+}
+
+void watch_disable_buzzer(void) {
+    _watch_disable_tcc();
+}
+
+inline void watch_set_buzzer_on(void) {
+    gpio_set_pin_direction(BUZZER, GPIO_DIRECTION_OUT);
+    gpio_set_pin_function(BUZZER, WATCH_BUZZER_TCC_PINMUX);
+}
+
+inline void watch_set_buzzer_off(void) {
+    gpio_set_pin_direction(BUZZER, GPIO_DIRECTION_OFF);
+    gpio_set_pin_function(BUZZER, GPIO_PIN_FUNCTION_OFF);
+}
+
+// note: the buzzer uses a 1 MHz clock. these values were determined by dividing 1,000,000 by the target frequency.
+// i.e. for a 440 Hz tone (A4 on the piano), 1MHz/440Hz = 2273
+const uint16_t NotePeriods[108] = {18182,17161,16197,15288,14430,13620,12857,12134,11453,10811,10204,9631,9091,8581,8099,7645,7216,6811,6428,6068,5727,5405,5102,4816,4545,4290,4050,3822,3608,3405,3214,3034,2863,2703,2551,2408,2273,2145,2025,1911,1804,1703,1607,1517,1432,1351,1276,1204,1136,1073,1012,956,902,851,804,758,716,676,638,602,568,536,506,478,451,426,402,379,358,338,319,301,284,268,253,239,225,213,201,190,179,169,159,150,142,134,127};
+
+void watch_buzzer_play_note(BuzzerNote note, uint16_t duration_ms) {
+    if (note == BUZZER_NOTE_REST) {
+        watch_set_buzzer_off();
+    } else {
+        hri_tcc_write_PERBUF_reg(TCC0, NotePeriods[note]);
+        hri_tcc_write_CCBUF_reg(TCC0, WATCH_BUZZER_TCC_CHANNEL, NotePeriods[note] / 2);
+        watch_set_buzzer_on();
+    }
+    delay_ms(duration_ms);
+    watch_set_buzzer_off();
+}
diff --git a/watch-library/hardware/watch/watch_deepsleep.c b/watch-library/hardware/watch/watch_deepsleep.c
new file mode 100644
index 00000000..1813ff24
--- /dev/null
+++ b/watch-library/hardware/watch/watch_deepsleep.c
@@ -0,0 +1,209 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_extint.h"
+
+// this warning only appears when you `make BOARD=OSO-SWAT-A1-02`. it's annoying,
+// but i'd rather have it warn us at build-time than fail silently at run-time.
+// besides, no one but me really has any of these boards anyway.
+#if BTN_ALARM != GPIO(GPIO_PORTA, 2)
+#warning This board revision does not support external wake on BTN_ALARM, so watch_register_extwake_callback will not work with it. Use watch_register_interrupt_callback instead.
+#endif
+
+void watch_register_extwake_callback(uint8_t pin, ext_irq_cb_t callback, bool level) {
+    uint32_t pinmux;
+    hri_rtc_tampctrl_reg_t config = RTC->MODE2.TAMPCTRL.reg;
+
+    switch (pin) {
+        case A4:
+            a4_callback = callback;
+            pinmux = PINMUX_PB00G_RTC_IN0;
+            config &= ~(3 << RTC_TAMPCTRL_IN0ACT_Pos);
+            config &= ~(1 << RTC_TAMPCTRL_TAMLVL0_Pos);
+            config |= 1 << RTC_TAMPCTRL_IN0ACT_Pos;
+            config |= 1 << RTC_TAMPCTRL_DEBNC0_Pos;
+            if (level) config |= 1 << RTC_TAMPCTRL_TAMLVL0_Pos;
+            break;
+        case A2:
+            a2_callback = callback;
+            pinmux = PINMUX_PB02G_RTC_IN1;
+            config &= ~(3 << RTC_TAMPCTRL_IN1ACT_Pos);
+            config &= ~(1 << RTC_TAMPCTRL_TAMLVL1_Pos);
+            config |= 1 << RTC_TAMPCTRL_IN1ACT_Pos;
+            config |= 1 << RTC_TAMPCTRL_DEBNC1_Pos;
+            if (level) config |= 1 << RTC_TAMPCTRL_TAMLVL1_Pos;
+            break;
+        case BTN_ALARM:
+            gpio_set_pin_pull_mode(pin, GPIO_PULL_DOWN);
+            btn_alarm_callback = callback;
+            pinmux = PINMUX_PA02G_RTC_IN2;
+            config &= ~(3 << RTC_TAMPCTRL_IN2ACT_Pos);
+            config &= ~(1 << RTC_TAMPCTRL_TAMLVL2_Pos);
+            config |= 1 << RTC_TAMPCTRL_IN2ACT_Pos;
+            config |= 1 << RTC_TAMPCTRL_DEBNC2_Pos;
+            if (level) config |= 1 << RTC_TAMPCTRL_TAMLVL2_Pos;
+            break;
+        default:
+            return;
+    }
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_IN);
+    gpio_set_pin_function(pin, pinmux);
+
+    // disable the RTC
+    RTC->MODE2.CTRLA.bit.ENABLE = 0;
+    while (RTC->MODE2.SYNCBUSY.bit.ENABLE);
+
+    // update the configuration
+    RTC->MODE2.TAMPCTRL.reg = config;
+    // re-enable the RTC
+    RTC->MODE2.CTRLA.bit.ENABLE = 1;
+
+    NVIC_ClearPendingIRQ(RTC_IRQn);
+    NVIC_EnableIRQ(RTC_IRQn);
+    RTC->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_TAMPER;
+}
+
+void watch_disable_extwake_interrupt(uint8_t pin) {
+    hri_rtc_tampctrl_reg_t config = hri_rtc_get_TAMPCTRL_reg(RTC, 0xFFFFFFFF);
+
+    switch (pin) {
+        case A4:
+            a4_callback = NULL;
+            config &= ~(3 << RTC_TAMPCTRL_IN0ACT_Pos);
+            break;
+        case A2:
+            a2_callback = NULL;
+            config &= ~(3 << RTC_TAMPCTRL_IN1ACT_Pos);
+            break;
+        case BTN_ALARM:
+            btn_alarm_callback = NULL;
+            config &= ~(3 << RTC_TAMPCTRL_IN2ACT_Pos);
+            break;
+        default:
+            return;
+    }
+
+	if (hri_rtcmode0_get_CTRLA_ENABLE_bit(RTC)) {
+		hri_rtcmode0_clear_CTRLA_ENABLE_bit(RTC);
+		hri_rtcmode0_wait_for_sync(RTC, RTC_MODE0_SYNCBUSY_ENABLE);
+	}
+    hri_rtc_write_TAMPCTRL_reg(RTC, config);
+    hri_rtcmode0_set_CTRLA_ENABLE_bit(RTC);
+}
+
+void watch_store_backup_data(uint32_t data, uint8_t reg) {
+    if (reg < 8) {
+        RTC->MODE0.BKUP[reg].reg = data;
+    }
+}
+
+uint32_t watch_get_backup_data(uint8_t reg) {
+    if (reg < 8) {
+        return RTC->MODE0.BKUP[reg].reg;
+    }
+
+    return 0;
+}
+
+static void _watch_disable_all_pins_except_rtc(void) {
+    uint32_t config = RTC->MODE0.TAMPCTRL.reg;
+    uint32_t portb_pins_to_disable = 0xFFFFFFFF;
+
+    // if there's an action set on RTC/IN[0], leave PB00 configured
+    if (config & RTC_TAMPCTRL_IN0ACT_Msk) portb_pins_to_disable &= 0xFFFFFFFE;
+    // same with RTC/IN[1] and PB02
+    if (config & RTC_TAMPCTRL_IN1ACT_Msk) portb_pins_to_disable &= 0xFFFFFFFB;
+
+    // port A: always keep PA02 configured as-is; that's our ALARM button.
+    gpio_set_port_direction(0, 0xFFFFFFFB, GPIO_DIRECTION_OFF);
+    // port B: disable all pins we didn't save above.
+    gpio_set_port_direction(1, portb_pins_to_disable, GPIO_DIRECTION_OFF);
+}
+
+static void _watch_disable_all_peripherals_except_slcd(void) {
+    _watch_disable_tcc();
+    watch_disable_adc();
+    watch_disable_external_interrupts();
+    watch_disable_i2c();
+    // TODO: replace this with a proper function when we remove the debug UART
+    SERCOM3->USART.CTRLA.reg &= ~SERCOM_USART_CTRLA_ENABLE;
+    MCLK->APBCMASK.reg &= ~MCLK_APBCMASK_SERCOM3;
+}
+
+void watch_enter_sleep_mode(void) {
+    // disable all other peripherals
+    _watch_disable_all_peripherals_except_slcd();
+
+    // disable tick interrupt
+    watch_rtc_disable_all_periodic_callbacks();
+
+    // disable brownout detector interrupt, which could inadvertently wake us up.
+    SUPC->INTENCLR.bit.BOD33DET = 1;
+
+    // disable all pins
+    _watch_disable_all_pins_except_rtc();
+
+    // enter standby (4); we basically hang out here until an interrupt wakes us.
+    sleep(4);
+
+    // and we awake! re-enable the brownout detector
+    SUPC->INTENSET.bit.BOD33DET = 1;
+
+    // call app_setup so the app can re-enable everything we disabled.
+    app_setup();
+
+    // and call app_wake_from_standby (since main won't have a chance to do it)
+    app_wake_from_standby();
+}
+
+void watch_enter_deep_sleep_mode(void) {
+    // identical to sleep mode except we disable the LCD first.
+    slcd_sync_deinit(&SEGMENT_LCD_0);
+    hri_mclk_clear_APBCMASK_SLCD_bit(SLCD);
+
+    watch_enter_sleep_mode();
+}
+
+void watch_enter_backup_mode(void) {
+    watch_rtc_disable_all_periodic_callbacks();
+    _watch_disable_all_peripherals_except_slcd();
+    slcd_sync_deinit(&SEGMENT_LCD_0);
+    hri_mclk_clear_APBCMASK_SLCD_bit(SLCD);
+    _watch_disable_all_pins_except_rtc();
+
+    // go into backup sleep mode (5). when we exit, the reset controller will take over.
+    sleep(5);
+}
+
+// deprecated
+void watch_enter_shallow_sleep(bool display_on) {
+    if (display_on) watch_enter_sleep_mode();
+    else watch_enter_deep_sleep_mode();
+}
+
+// deprecated
+void watch_enter_deep_sleep(void) {
+    watch_register_extwake_callback(BTN_ALARM, NULL, true);
+    watch_enter_backup_mode();
+}
diff --git a/watch-library/hardware/watch/watch_extint.c b/watch-library/hardware/watch/watch_extint.c
new file mode 100644
index 00000000..5924b646
--- /dev/null
+++ b/watch-library/hardware/watch/watch_extint.c
@@ -0,0 +1,111 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_extint.h"
+
+void watch_enable_external_interrupts(void) {
+    // Configure EIC to use GCLK3 (the 32.768 kHz crystal)
+    hri_gclk_write_PCHCTRL_reg(GCLK, EIC_GCLK_ID, GCLK_PCHCTRL_GEN_GCLK3_Val | (1 << GCLK_PCHCTRL_CHEN_Pos));
+    // Enable AHB clock for the EIC
+    hri_mclk_set_APBAMASK_EIC_bit(MCLK);
+    // call HAL's external interrupt init function
+    ext_irq_init();
+}
+
+void watch_disable_external_interrupts(void) {
+    ext_irq_deinit();
+    hri_mclk_clear_APBAMASK_EIC_bit(MCLK);
+}
+
+void watch_register_interrupt_callback(const uint8_t pin, ext_irq_cb_t callback, watch_interrupt_trigger trigger) {
+    uint8_t config_index;
+    uint8_t sense_pos;
+    switch (pin) {
+        case A0:
+            // for EIC channels 8-15, we need to set the SENSE value in CONFIG[1]
+            config_index = (WATCH_A0_EIC_CHANNEL > 7) ? 1 : 0;
+            // either way the index in CONFIG[n] must be 0-7
+            sense_pos = 4 * (WATCH_A0_EIC_CHANNEL % 8);
+            break;
+        case A1:
+            config_index = (WATCH_A1_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_A1_EIC_CHANNEL % 8);
+            break;
+        case A2:
+            config_index = (WATCH_A2_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_A2_EIC_CHANNEL % 8);
+            break;
+        case A3:
+            config_index = (WATCH_A3_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_A3_EIC_CHANNEL % 8);
+            break;
+        case A4:
+            config_index = (WATCH_A4_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_A4_EIC_CHANNEL % 8);
+            break;
+        case BTN_ALARM:
+            config_index = (WATCH_BTN_ALARM_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_BTN_ALARM_EIC_CHANNEL % 8);
+            break;
+        case BTN_LIGHT:
+            config_index = (WATCH_BTN_LIGHT_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_BTN_LIGHT_EIC_CHANNEL % 8);
+            break;
+        case BTN_MODE:
+            config_index = (WATCH_BTN_MODE_EIC_CHANNEL > 7) ? 1 : 0;
+            sense_pos = 4 * (WATCH_BTN_MODE_EIC_CHANNEL % 8);
+            break;
+        default:
+            return;
+    }
+
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_IN);
+
+    // EIC configuration register is enable-protected, so we have to disable it first...
+    if (hri_eic_get_CTRLA_reg(EIC, EIC_CTRLA_ENABLE)) {
+        hri_eic_clear_CTRLA_ENABLE_bit(EIC);
+        // ...and wait for it to synchronize.
+        hri_eic_wait_for_sync(EIC, EIC_SYNCBUSY_ENABLE);
+    }
+    // now update the configuration...
+    hri_eic_config_reg_t config = EIC->CONFIG[config_index].reg;
+    config &= ~(7 << sense_pos);
+    config |= trigger << (sense_pos);
+    hri_eic_write_CONFIG_reg(EIC, config_index, config);
+    // ...set the pin mode...
+    gpio_set_pin_function(pin, GPIO_PIN_FUNCTION_A);
+    if (pin == BTN_ALARM || pin == BTN_LIGHT || pin == BTN_MODE) gpio_set_pin_pull_mode(pin, GPIO_PULL_DOWN);
+    // ...and re-enable the EIC
+    hri_eic_set_CTRLA_ENABLE_bit(EIC);
+
+    ext_irq_register(pin, callback);
+}
+
+inline void watch_register_button_callback(const uint8_t pin, ext_irq_cb_t callback) {
+    watch_register_interrupt_callback(pin, callback, INTERRUPT_TRIGGER_RISING);
+}
+
+inline void watch_enable_buttons(void) {
+    watch_enable_external_interrupts();
+}
diff --git a/watch-library/hardware/watch/watch_gpio.c b/watch-library/hardware/watch/watch_gpio.c
new file mode 100644
index 00000000..b37d009f
--- /dev/null
+++ b/watch-library/hardware/watch/watch_gpio.c
@@ -0,0 +1,61 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_gpio.h"
+
+ void watch_enable_digital_input(const uint8_t pin) {
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_IN);
+    gpio_set_pin_function(pin, GPIO_PIN_FUNCTION_OFF);
+}
+
+void watch_disable_digital_input(const uint8_t pin) {
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_OFF);
+    gpio_set_pin_pull_mode(pin, GPIO_PULL_OFF);
+    gpio_set_pin_function(pin, GPIO_PIN_FUNCTION_OFF);
+}
+
+void watch_enable_pull_up(const uint8_t pin) {
+    gpio_set_pin_pull_mode(pin, GPIO_PULL_UP);
+}
+
+void watch_enable_pull_down(const uint8_t pin) {
+    gpio_set_pin_pull_mode(pin, GPIO_PULL_DOWN);
+}
+
+bool watch_get_pin_level(const uint8_t pin) {
+    return gpio_get_pin_level(pin);
+}
+
+void watch_enable_digital_output(const uint8_t pin) {
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_OUT);
+    gpio_set_pin_function(pin, GPIO_PIN_FUNCTION_OFF);
+}
+
+void watch_disable_digital_output(const uint8_t pin) {
+    gpio_set_pin_direction(pin, GPIO_DIRECTION_OFF);
+}
+
+void watch_set_pin_level(const uint8_t pin, const bool level) {
+    gpio_set_pin_level(pin, level);
+}
diff --git a/watch-library/hardware/watch/watch_i2c.c b/watch-library/hardware/watch/watch_i2c.c
new file mode 100644
index 00000000..ff20afc6
--- /dev/null
+++ b/watch-library/hardware/watch/watch_i2c.c
@@ -0,0 +1,93 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_i2c.h"
+
+struct io_descriptor *I2C_0_io;
+
+void watch_enable_i2c(void) {
+    I2C_0_init();
+    i2c_m_sync_get_io_descriptor(&I2C_0, &I2C_0_io);
+    i2c_m_sync_enable(&I2C_0);
+}
+
+void watch_disable_i2c(void) {
+    i2c_m_sync_disable(&I2C_0);
+	hri_mclk_clear_APBCMASK_SERCOM1_bit(MCLK);
+}
+
+void watch_i2c_send(int16_t addr, uint8_t *buf, uint16_t length) {
+    i2c_m_sync_set_periphaddr(&I2C_0, addr, I2C_M_SEVEN);
+    io_write(I2C_0_io, buf, length);
+}
+
+void watch_i2c_receive(int16_t addr, uint8_t *buf, uint16_t length) {
+    i2c_m_sync_set_periphaddr(&I2C_0, addr, I2C_M_SEVEN);
+    io_read(I2C_0_io, buf, length);
+}
+
+void watch_i2c_write8(int16_t addr, uint8_t reg, uint8_t data) {
+    uint8_t buf[2];
+    buf[0] = reg;
+    buf[1] = data;
+
+    watch_i2c_send(addr, (uint8_t *)&buf, 2);
+}
+
+uint8_t watch_i2c_read8(int16_t addr, uint8_t reg) {
+    uint8_t data;
+
+    watch_i2c_send(addr, (uint8_t *)&reg, 1);
+    watch_i2c_receive(addr, (uint8_t *)&data, 1);
+
+    return data;
+}
+
+uint16_t watch_i2c_read16(int16_t addr, uint8_t reg) {
+    uint16_t data;
+
+    watch_i2c_send(addr, (uint8_t *)&reg, 1);
+    watch_i2c_receive(addr, (uint8_t *)&data, 2);
+
+    return data;
+}
+
+uint32_t watch_i2c_read24(int16_t addr, uint8_t reg) {
+    uint32_t data;
+    data = 0;
+
+    watch_i2c_send(addr, (uint8_t *)&reg, 1);
+    watch_i2c_receive(addr, (uint8_t *)&data, 3);
+
+    return data << 8;
+}
+
+uint32_t watch_i2c_read32(int16_t addr, uint8_t reg) {
+    uint32_t data;
+
+    watch_i2c_send(addr, (uint8_t *)&reg, 1);
+    watch_i2c_receive(addr, (uint8_t *)&data, 4);
+
+    return data;
+}
diff --git a/watch-library/hardware/watch/watch_led.c b/watch-library/hardware/watch/watch_led.c
new file mode 100644
index 00000000..52174b54
--- /dev/null
+++ b/watch-library/hardware/watch/watch_led.c
@@ -0,0 +1,69 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_led.h"
+
+void watch_enable_leds(void) {
+    if (!hri_tcc_get_CTRLA_reg(TCC0, TCC_CTRLA_ENABLE)) {
+        _watch_enable_tcc();
+    }
+}
+
+void watch_disable_leds(void) {
+    _watch_disable_tcc();
+}
+
+void watch_enable_led(bool unused) {
+    (void)unused;
+    watch_enable_leds();
+}
+
+void watch_disable_led(bool unused) {
+    (void)unused;
+    watch_disable_leds();
+}
+
+void watch_set_led_color(uint8_t red, uint8_t green) {
+    if (hri_tcc_get_CTRLA_reg(TCC0, TCC_CTRLA_ENABLE)) {
+        uint32_t period = hri_tcc_get_PER_reg(TCC0, TCC_PER_MASK);
+        hri_tcc_write_CCBUF_reg(TCC0, WATCH_RED_TCC_CHANNEL, ((period * red * 1000ull) / 255000ull));
+        hri_tcc_write_CCBUF_reg(TCC0, WATCH_GREEN_TCC_CHANNEL, ((period * green * 1000ull) / 255000ull));
+    }
+}
+
+void watch_set_led_red(void) {
+    watch_set_led_color(255, 0);
+}
+
+void watch_set_led_green(void) {
+    watch_set_led_color(0, 255);
+}
+
+void watch_set_led_yellow(void) {
+    watch_set_led_color(255, 255);
+}
+
+void watch_set_led_off(void) {
+    watch_set_led_color(0, 0);
+}
diff --git a/watch-library/hardware/watch/watch_private.c b/watch-library/hardware/watch/watch_private.c
new file mode 100644
index 00000000..ae2589e7
--- /dev/null
+++ b/watch-library/hardware/watch/watch_private.c
@@ -0,0 +1,423 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_private.h"
+#include "watch_utility.h"
+#include "tusb.h"
+
+void _watch_init(void) {
+    // disable the LED pin (it may have been enabled by the bootloader)
+    watch_disable_digital_output(RED);
+
+    // RAM should be back-biased in STANDBY
+    PM->STDBYCFG.bit.BBIASHS = 1;
+
+    // Use switching regulator for lower power consumption.
+    SUPC->VREG.bit.SEL = 1;
+    while(!SUPC->STATUS.bit.VREGRDY);
+
+    // set up the brownout detector (low battery warning)
+    NVIC_DisableIRQ(SYSTEM_IRQn);
+    NVIC_ClearPendingIRQ(SYSTEM_IRQn);
+    NVIC_EnableIRQ(SYSTEM_IRQn);
+    SUPC->BOD33.bit.ENABLE = 0;     // BOD33 must be disabled to change its configuration
+    SUPC->BOD33.bit.VMON = 0;       // Monitor VDD in active and standby mode
+    SUPC->BOD33.bit.ACTCFG = 1;     // Enable sampling mode when active
+    SUPC->BOD33.bit.RUNSTDBY = 1;   // Enable sampling mode in standby
+    SUPC->BOD33.bit.STDBYCFG = 1;   // Run in standby
+    SUPC->BOD33.bit.RUNBKUP = 0;    // Don't run in backup mode
+    SUPC->BOD33.bit.PSEL = 0xB;     // Check battery level every 4 seconds
+    SUPC->BOD33.bit.LEVEL = 31;     // Detect brownout at 2.5V (1.445V + level * 34mV)
+    SUPC->BOD33.bit.ACTION = 0x2;   // Generate an interrupt when BOD33 is triggered
+    SUPC->BOD33.bit.HYST = 0;       // Disable hysteresis
+    while(!SUPC->STATUS.bit.B33SRDY);
+
+    // Enable interrupt on BOD33 detect
+    SUPC->INTENSET.bit.BOD33DET = 1;
+    SUPC->BOD33.bit.ENABLE = 1;
+
+    // External wake depends on RTC; calendar is a required module.
+    _watch_rtc_init();
+
+    // set up state
+    btn_alarm_callback = NULL;
+    a2_callback = NULL;
+    a4_callback = NULL;
+}
+
+static inline void _watch_wait_for_entropy() {
+    while (!hri_trng_get_INTFLAG_reg(TRNG, TRNG_INTFLAG_DATARDY));
+}
+
+// this function is called by arc4random to get entropy for random number generation.
+// let's use the SAM L22's true random number generator to seed the PRNG!
+int getentropy(void *buf, size_t buflen) {
+    hri_mclk_set_APBCMASK_TRNG_bit(MCLK);
+    hri_trng_set_CTRLA_ENABLE_bit(TRNG);
+
+    size_t i = 0;
+    while(i < buflen / 4) {
+        _watch_wait_for_entropy();
+        ((uint32_t *)buf)[i++] = hri_trng_read_DATA_reg(TRNG);
+    }
+
+    // but what if they asked for an awkward number of bytes?
+    if (buflen % 4) {
+        // all good: let's fill in one, two or three bytes at the end of the buffer.
+        _watch_wait_for_entropy();
+        uint32_t last_little_bit = hri_trng_read_DATA_reg(TRNG);
+        for(size_t j = 0; j <= (buflen % 4); j++) {
+            ((uint8_t *)buf)[i * 4 + j] = (last_little_bit >> (j * 8)) & 0xFF;
+        }
+    }
+
+    hri_trng_clear_CTRLA_ENABLE_bit(TRNG);
+    hri_mclk_clear_APBCMASK_TRNG_bit(MCLK);
+
+    return 0;
+}
+
+int _gettimeofday(struct timeval *tv, void *tzvp) {
+    (void)tzvp;
+    watch_date_time date_time = watch_rtc_get_date_time();
+
+    // FIXME: this assumes the system time is UTC! Will break for any other time zone.
+    tv->tv_sec = watch_utility_date_time_to_unix_time(date_time, 0);
+    tv->tv_usec = 0;
+
+    return 0;
+}
+
+void _watch_enable_tcc(void) {
+    // clock TCC0 with the main clock (8 MHz) and enable the peripheral clock.
+    hri_gclk_write_PCHCTRL_reg(GCLK, TCC0_GCLK_ID, GCLK_PCHCTRL_GEN_GCLK0_Val | GCLK_PCHCTRL_CHEN);
+    hri_mclk_set_APBCMASK_TCC0_bit(MCLK);
+    // disable and reset TCC0.
+    hri_tcc_clear_CTRLA_ENABLE_bit(TCC0);
+    hri_tcc_wait_for_sync(TCC0, TCC_SYNCBUSY_ENABLE);
+    hri_tcc_write_CTRLA_reg(TCC0, TCC_CTRLA_SWRST);
+    hri_tcc_wait_for_sync(TCC0, TCC_SYNCBUSY_SWRST);
+    // divide the clock down to 1 MHz
+    if (hri_usbdevice_get_CTRLA_ENABLE_bit(USB)) {
+        // if USB is enabled, we are running an 8 MHz clock.
+        hri_tcc_write_CTRLA_reg(TCC0, TCC_CTRLA_PRESCALER_DIV8);
+    } else {
+        // otherwise it's 4 Mhz.
+        hri_tcc_write_CTRLA_reg(TCC0, TCC_CTRLA_PRESCALER_DIV4);
+    }
+    // We're going to use normal PWM mode, which means period is controlled by PER, and duty cycle is controlled by
+    // each compare channel's value:
+    //  * Buzzer tones are set by setting PER to the desired period for a given frequency, and CC[1] to half of that
+    //    period (i.e. a square wave with a 50% duty cycle).
+    //  * LEDs on CC[2] and CC[3] can be set to any value from 0 (off) to PER (fully on).
+    hri_tcc_write_WAVE_reg(TCC0, TCC_WAVE_WAVEGEN_NPWM);
+    #ifdef WATCH_INVERT_LED_POLARITY
+    // This is here for the dev board, which uses a common anode LED (instead of common cathode like the actual watch).
+    hri_tcc_set_WAVE_reg(TCC0, (1 << (TCC_WAVE_POL0_Pos + WATCH_RED_TCC_CHANNEL)) |
+                               (1 << (TCC_WAVE_POL0_Pos + WATCH_GREEN_TCC_CHANNEL)));
+    #endif
+    // The buzzer will set the period depending on the tone it wants to play, but we have to set some period here to
+    // get the LED working. Almost any period will do, tho it should be below 20000 (i.e. 50 Hz) to avoid flickering.
+    hri_tcc_write_PER_reg(TCC0, 4096);
+    // Set the duty cycle of all pins to 0: LED's off, buzzer not buzzing.
+    hri_tcc_write_CC_reg(TCC0, WATCH_BUZZER_TCC_CHANNEL, 0);
+    hri_tcc_write_CC_reg(TCC0, WATCH_RED_TCC_CHANNEL, 0);
+    hri_tcc_write_CC_reg(TCC0, WATCH_GREEN_TCC_CHANNEL, 0);
+    // Enable the TCC
+    hri_tcc_set_CTRLA_ENABLE_bit(TCC0);
+    hri_tcc_wait_for_sync(TCC0, TCC_SYNCBUSY_ENABLE);
+
+    // enable LED PWM pins (the LED driver assumes if the TCC is on, the pins are enabled)
+    gpio_set_pin_direction(RED, GPIO_DIRECTION_OUT);
+    gpio_set_pin_function(RED, WATCH_RED_TCC_PINMUX);
+    gpio_set_pin_direction(GREEN, GPIO_DIRECTION_OUT);
+    gpio_set_pin_function(GREEN, WATCH_GREEN_TCC_PINMUX);
+}
+
+void _watch_disable_tcc(void) {
+    // disable all PWM pins
+    gpio_set_pin_direction(BUZZER, GPIO_DIRECTION_OFF);
+    gpio_set_pin_function(BUZZER, GPIO_PIN_FUNCTION_OFF);
+    gpio_set_pin_direction(RED, GPIO_DIRECTION_OFF);
+    gpio_set_pin_function(RED, GPIO_PIN_FUNCTION_OFF);
+    gpio_set_pin_direction(GREEN, GPIO_DIRECTION_OFF);
+    gpio_set_pin_function(GREEN, GPIO_PIN_FUNCTION_OFF);
+
+    // disable the TCC
+    hri_tcc_clear_CTRLA_ENABLE_bit(TCC0);
+    hri_mclk_clear_APBCMASK_TCC0_bit(MCLK);
+}
+
+void _watch_enable_usb(void) {
+    // disable USB, just in case.
+    hri_usb_clear_CTRLA_ENABLE_bit(USB);
+
+    // bump clock up to 8 MHz
+    hri_oscctrl_write_OSC16MCTRL_FSEL_bf(OSCCTRL, OSCCTRL_OSC16MCTRL_FSEL_8_Val);
+
+    // reset flags and disable DFLL
+    OSCCTRL->INTFLAG.reg = OSCCTRL_INTFLAG_DFLLRDY;
+    OSCCTRL->DFLLCTRL.reg = 0;
+    while (!(OSCCTRL->STATUS.reg & OSCCTRL_STATUS_DFLLRDY));
+
+    // set the coarse and fine values to speed up frequency lock.
+    uint32_t coarse =(*((uint32_t *)NVMCTRL_OTP5)) >> 26;
+    OSCCTRL->DFLLVAL.reg = OSCCTRL_DFLLVAL_COARSE(coarse) |
+                           OSCCTRL_DFLLVAL_FINE(0x200);
+    // set coarse and fine steps, and multiplier (48 MHz = 32768 Hz * 1465)
+    OSCCTRL->DFLLMUL.reg = OSCCTRL_DFLLMUL_CSTEP( 1 ) |
+                           OSCCTRL_DFLLMUL_FSTEP( 1 ) |
+                           OSCCTRL_DFLLMUL_MUL( 1465 );
+    // set closed loop mode, chill cycle disable and USB clock recovery mode, and enable the DFLL.
+    OSCCTRL->DFLLCTRL.reg = OSCCTRL_DFLLCTRL_MODE | OSCCTRL_DFLLCTRL_CCDIS | OSCCTRL_DFLLCTRL_ONDEMAND | OSCCTRL_DFLLCTRL_RUNSTDBY | OSCCTRL_DFLLCTRL_USBCRM | OSCCTRL_DFLLCTRL_ENABLE;
+    while (!(OSCCTRL->STATUS.reg & OSCCTRL_STATUS_DFLLRDY));
+
+    // assign DFLL to GCLK1
+    GCLK->GENCTRL[1].reg = GCLK_GENCTRL_SRC(GCLK_GENCTRL_SRC_DFLL48M) | GCLK_GENCTRL_DIV(1) | GCLK_GENCTRL_GENEN;// | GCLK_GENCTRL_OE;
+    while (GCLK->SYNCBUSY.bit.GENCTRL1);
+
+    // assign GCLK1 to USB
+    hri_gclk_write_PCHCTRL_reg(GCLK, USB_GCLK_ID, GCLK_PCHCTRL_GEN_GCLK1_Val | GCLK_PCHCTRL_CHEN);
+    hri_mclk_set_AHBMASK_USB_bit(MCLK);
+    hri_mclk_set_APBBMASK_USB_bit(MCLK);
+
+    // USB Pin Init
+    gpio_set_pin_direction(PIN_PA24, GPIO_DIRECTION_OUT);
+    gpio_set_pin_level(PIN_PA24, false);
+    gpio_set_pin_pull_mode(PIN_PA24, GPIO_PULL_OFF);
+    gpio_set_pin_direction(PIN_PA25, GPIO_DIRECTION_OUT);
+    gpio_set_pin_level(PIN_PA25, false);
+    gpio_set_pin_pull_mode(PIN_PA25, GPIO_PULL_OFF);
+
+    gpio_set_pin_function(PIN_PA24, PINMUX_PA24G_USB_DM);
+    gpio_set_pin_function(PIN_PA25, PINMUX_PA25G_USB_DP);
+
+    // before we init TinyUSB, we are going to need a periodic callback to handle TinyUSB tasks.
+    // TC2 and TC3 are reserved for devices on the 9-pin connector, so let's use TC0.
+    // clock TC0 with the 8 MHz clock on GCLK0.
+    hri_gclk_write_PCHCTRL_reg(GCLK, TC0_GCLK_ID, GCLK_PCHCTRL_GEN_GCLK0_Val | GCLK_PCHCTRL_CHEN);
+    // and enable the peripheral clock.
+    hri_mclk_set_APBCMASK_TC0_bit(MCLK);
+    // disable and reset TC0.
+    hri_tc_clear_CTRLA_ENABLE_bit(TC0);
+    hri_tc_wait_for_sync(TC0, TC_SYNCBUSY_ENABLE);
+    hri_tc_write_CTRLA_reg(TC0, TC_CTRLA_SWRST);
+    hri_tc_wait_for_sync(TC0, TC_SYNCBUSY_SWRST);
+    // configure the TC to overflow 1,000 times per second
+    hri_tc_write_CTRLA_reg(TC0, TC_CTRLA_PRESCALER_DIV64 |  // divide the 8 MHz clock by 64 to count at 125 KHz
+                                TC_CTRLA_MODE_COUNT8 |      // count in 8-bit mode
+                                TC_CTRLA_RUNSTDBY);         // run in standby, just in case we figure that out
+    hri_tccount8_write_PER_reg(TC0, 125);                   // 125000 Hz / 125 = 1,000 Hz
+    // set an interrupt on overflow; this will call TC0_Handler below.
+    hri_tc_set_INTEN_OVF_bit(TC0);
+    NVIC_ClearPendingIRQ(TC0_IRQn);
+    NVIC_EnableIRQ (TC0_IRQn);
+
+    // now we can init TinyUSB
+    tusb_init();
+    // and start the timer that handles USB device tasks.
+    hri_tc_set_CTRLA_ENABLE_bit(TC0);
+}
+
+// this function ends up getting called by printf to log stuff to the USB console.
+int _write(int file, char *ptr, int len) {
+    (void)file;
+    if (hri_usbdevice_get_CTRLA_ENABLE_bit(USB)) {
+        tud_cdc_n_write(0, (void const*)ptr, len);
+        tud_cdc_n_write_flush(0);
+        return len;
+    }
+
+    return 0;
+}
+
+// this method could be overridden to read stuff from the USB console? but no need rn.
+int _read(void) {
+    return 0;
+}
+
+// Alternate function that outputs to the debug UART. useful for debugging USB issues.
+// int _write(int file, char *ptr, int len) {
+//     (void)file;
+//     int pos = 0;
+//     while(pos < len) watch_debug_putc(ptr[pos++]);
+
+//     return 0;
+// }
+
+void USB_Handler(void) {
+    tud_int_handler(0);
+}
+
+void TC0_Handler(void) {
+    tud_task();
+    TC0->COUNT8.INTFLAG.reg |= TC_INTFLAG_OVF;
+}
+
+
+// USB Descriptors and tinyUSB callbacks follow.
+
+/*
+ * The MIT License (MIT)
+ *
+ * Copyright (c) 2019 Ha Thach (tinyusb.org)
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ *
+ */
+
+//--------------------------------------------------------------------+
+// Device Descriptors
+//--------------------------------------------------------------------+
+tusb_desc_device_t const desc_device =
+{
+    .bLength            = sizeof(tusb_desc_device_t),
+    .bDescriptorType    = TUSB_DESC_DEVICE,
+    .bcdUSB             = 0x0200,
+
+    // Use Interface Association Descriptor (IAD) for CDC
+    // As required by USB Specs IAD's subclass must be common class (2) and protocol must be IAD (1)
+    .bDeviceClass       = TUSB_CLASS_MISC,
+    .bDeviceSubClass    = MISC_SUBCLASS_COMMON,
+    .bDeviceProtocol    = MISC_PROTOCOL_IAD,
+
+    .bMaxPacketSize0    = CFG_TUD_ENDPOINT0_SIZE,
+
+    .idVendor           = 0x1209,
+    .idProduct          = 0x2151,
+    .bcdDevice          = 0x0100,
+
+    .iManufacturer      = 0x01,
+    .iProduct           = 0x02,
+    .iSerialNumber      = 0x03,
+
+    .bNumConfigurations = 0x01
+};
+
+// Invoked when received GET DEVICE DESCRIPTOR
+// Application return pointer to descriptor
+uint8_t const * tud_descriptor_device_cb(void) {
+  return (uint8_t const *) &desc_device;
+}
+
+//--------------------------------------------------------------------+
+// Configuration Descriptor
+//--------------------------------------------------------------------+
+
+enum {
+  ITF_NUM_CDC = 0,
+  ITF_NUM_CDC_DATA,
+  ITF_NUM_TOTAL
+};
+
+#define CONFIG_TOTAL_LEN    (TUD_CONFIG_DESC_LEN + TUD_CDC_DESC_LEN)
+
+#define EPNUM_CDC_NOTIF   0x81
+#define EPNUM_CDC_OUT     0x02
+#define EPNUM_CDC_IN      0x82
+
+
+uint8_t const desc_fs_configuration[] = {
+  // Config number, interface count, string index, total length, attribute, power in mA
+  TUD_CONFIG_DESCRIPTOR(1, ITF_NUM_TOTAL, 0, CONFIG_TOTAL_LEN, TUSB_DESC_CONFIG_ATT_REMOTE_WAKEUP, 100),
+
+  // Interface number, string index, EP notification address and size, EP data address (out, in) and size.
+  TUD_CDC_DESCRIPTOR(ITF_NUM_CDC, 4, EPNUM_CDC_NOTIF, 8, EPNUM_CDC_OUT, EPNUM_CDC_IN, 64),
+};
+
+// Invoked when received GET CONFIGURATION DESCRIPTOR
+// Application return pointer to descriptor
+// Descriptor contents must exist long enough for transfer to complete
+uint8_t const * tud_descriptor_configuration_cb(uint8_t index) {
+    (void) index; // for multiple configurations
+    return desc_fs_configuration;
+}
+
+//--------------------------------------------------------------------+
+// String Descriptors
+//--------------------------------------------------------------------+
+
+// array of pointer to string descriptors
+char const* string_desc_arr [] =
+{
+  (const char[]) { 0x09, 0x04 }, // 0: is supported language is English (0x0409)
+  "TinyUSB",                     // 1: Manufacturer
+  "TinyUSB Device",              // 2: Product
+  "123456",                      // 3: Serials, should use chip ID
+  "TinyUSB CDC",                 // 4: CDC Interface
+};
+
+static uint16_t _desc_str[32];
+
+// Invoked when received GET STRING DESCRIPTOR request
+// Application return pointer to descriptor, whose contents must exist long enough for transfer to complete
+uint16_t const* tud_descriptor_string_cb(uint8_t index, uint16_t langid)
+{
+    (void) langid;
+
+    uint8_t chr_count;
+
+    if ( index == 0) {
+        memcpy(&_desc_str[1], string_desc_arr[0], 2);
+        chr_count = 1;
+    } else {
+        // Note: the 0xEE index string is a Microsoft OS 1.0 Descriptors.
+        // https://docs.microsoft.com/en-us/windows-hardware/drivers/usbcon/microsoft-defined-usb-descriptors
+
+        if ( !(index < sizeof(string_desc_arr)/sizeof(string_desc_arr[0])) ) return NULL;
+
+        const char* str = string_desc_arr[index];
+
+        // Cap at max char
+        chr_count = strlen(str);
+        if ( chr_count > 31 ) chr_count = 31;
+
+        // Convert ASCII string into UTF-16
+        for(uint8_t i=0; i<chr_count; i++)
+        {
+            _desc_str[1+i] = str[i];
+        }
+    }
+
+    // first byte is length (including header), second byte is string type
+    _desc_str[0] = (TUSB_DESC_STRING << 8 ) | (2*chr_count + 2);
+
+    return _desc_str;
+}
diff --git a/watch-library/hardware/watch/watch_rtc.c b/watch-library/hardware/watch/watch_rtc.c
new file mode 100644
index 00000000..14a968c4
--- /dev/null
+++ b/watch-library/hardware/watch/watch_rtc.c
@@ -0,0 +1,195 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_rtc.h"
+
+ext_irq_cb_t tick_callbacks[8];
+ext_irq_cb_t alarm_callback;
+ext_irq_cb_t btn_alarm_callback;
+ext_irq_cb_t a2_callback;
+ext_irq_cb_t a4_callback;
+
+bool _watch_rtc_is_enabled(void) {
+    return RTC->MODE2.CTRLA.bit.ENABLE;
+}
+
+static void _sync_rtc(void) {
+    while (RTC->MODE2.SYNCBUSY.reg);
+}
+
+void _watch_rtc_init(void) {
+    MCLK->APBAMASK.reg |= MCLK_APBAMASK_RTC;
+
+    if (_watch_rtc_is_enabled()) return; // don't reset the RTC if it's already set up.
+
+    RTC->MODE2.CTRLA.bit.ENABLE = 0;
+    _sync_rtc();
+
+    RTC->MODE2.CTRLA.bit.SWRST = 1;
+    _sync_rtc();
+
+    RTC->MODE2.CTRLA.bit.MODE = RTC_MODE2_CTRLA_MODE_CLOCK_Val;
+    RTC->MODE2.CTRLA.bit.PRESCALER = RTC_MODE2_CTRLA_PRESCALER_DIV1024_Val;
+    RTC->MODE2.CTRLA.bit.CLOCKSYNC = 1;
+    RTC->MODE2.CTRLA.bit.ENABLE = 1;
+    _sync_rtc();
+}
+
+void watch_rtc_set_date_time(watch_date_time date_time) {
+    RTC->MODE2.CLOCK.reg = date_time.reg;
+    _sync_rtc();
+}
+
+watch_date_time watch_rtc_get_date_time(void) {
+    watch_date_time retval;
+
+    _sync_rtc();
+    retval.reg = RTC->MODE2.CLOCK.reg;
+
+    return retval;
+}
+
+void watch_rtc_register_tick_callback(ext_irq_cb_t callback) {
+    watch_rtc_register_periodic_callback(callback, 1);
+}
+
+void watch_rtc_disable_tick_callback(void) {
+    watch_rtc_disable_periodic_callback(1);
+}
+
+void watch_rtc_register_periodic_callback(ext_irq_cb_t callback, uint8_t frequency) {
+    // we told them, it has to be a power of 2.
+    if (__builtin_popcount(frequency) != 1) return;
+
+    // this left-justifies the period in a 32-bit integer.
+    uint32_t tmp = frequency << 24;
+    // now we can count the leading zeroes to get the value we need.
+    // 0x01 (1 Hz) will have 7 leading zeros for PER7. 0xF0 (128 Hz) will have no leading zeroes for PER0.
+    uint8_t per_n = __builtin_clz(tmp);
+
+    // this also maps nicely to an index for our list of tick callbacks.
+    tick_callbacks[per_n] = callback;
+
+    NVIC_ClearPendingIRQ(RTC_IRQn);
+    NVIC_EnableIRQ(RTC_IRQn);
+    RTC->MODE2.INTENSET.reg = 1 << per_n;
+}
+
+void watch_rtc_disable_periodic_callback(uint8_t frequency) {
+    if (__builtin_popcount(frequency) != 1) return;
+    uint8_t per_n = __builtin_clz(frequency << 24);
+    RTC->MODE2.INTENCLR.reg = 1 << per_n;
+}
+
+void watch_rtc_disable_all_periodic_callbacks(void) {
+    RTC->MODE2.INTENCLR.reg = 0xFF;
+}
+
+void watch_rtc_register_alarm_callback(ext_irq_cb_t callback, watch_date_time alarm_time, watch_rtc_alarm_match mask) {
+    RTC->MODE2.Mode2Alarm[0].ALARM.reg = alarm_time.reg;
+    RTC->MODE2.Mode2Alarm[0].MASK.reg = mask;
+    RTC->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_ALARM0;
+    alarm_callback = callback;
+    NVIC_ClearPendingIRQ(RTC_IRQn);
+    NVIC_EnableIRQ(RTC_IRQn);
+    RTC->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_ALARM0;
+}
+
+void watch_rtc_disable_alarm_callback(void) {
+    RTC->MODE2.INTENCLR.reg = RTC_MODE2_INTENCLR_ALARM0;
+}
+
+void RTC_Handler(void) {
+    uint16_t interrupt_status = RTC->MODE2.INTFLAG.reg;
+    uint16_t interrupt_enabled = RTC->MODE2.INTENSET.reg;
+
+    if ((interrupt_status & interrupt_enabled) & RTC_MODE2_INTFLAG_PER_Msk) {
+        // handle the tick callback first, it's what we do the most.
+        // start from PER7, the 1 Hz tick.
+        for(int8_t i = 7; i >= 0; i--) {
+            if ((interrupt_status & interrupt_enabled) & (1 << i)) {
+                if (tick_callbacks[i] != NULL) {
+                    tick_callbacks[i]();
+                }
+                RTC->MODE2.INTFLAG.reg = 1 << i;
+                break;
+            }
+        }
+    } else if ((interrupt_status & interrupt_enabled) & RTC_MODE2_INTFLAG_TAMPER) {
+        // handle the extwake interrupts next.
+        uint8_t reason = RTC->MODE2.TAMPID.reg;
+        if (reason & RTC_TAMPID_TAMPID2) {
+            if (btn_alarm_callback != NULL) btn_alarm_callback();
+        } else if (reason & RTC_TAMPID_TAMPID1) {
+            if (a2_callback != NULL) a2_callback();
+        } else if (reason & RTC_TAMPID_TAMPID0) {
+            if (a4_callback != NULL) a4_callback();
+        }
+        RTC->MODE2.TAMPID.reg = reason;
+        RTC->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_TAMPER;
+    } else if ((interrupt_status & interrupt_enabled) & RTC_MODE2_INTFLAG_ALARM0) {
+        // finally handle the alarm.
+        if (alarm_callback != NULL) {
+            alarm_callback();
+        }
+        RTC->MODE2.INTFLAG.reg = RTC_MODE2_INTFLAG_ALARM0;
+    }
+}
+
+///////////////////////
+// Deprecated functions
+
+void watch_set_date_time(struct calendar_date_time date_time) {
+    RTC_MODE2_CLOCK_Type val;
+
+    val.bit.SECOND = date_time.time.sec;
+    val.bit.MINUTE = date_time.time.min;
+    val.bit.HOUR = date_time.time.hour;
+    val.bit.DAY = date_time.date.day;
+    val.bit.MONTH = date_time.date.month;
+    val.bit.YEAR = (uint8_t)(date_time.date.year - WATCH_RTC_REFERENCE_YEAR);
+
+    RTC->MODE2.CLOCK.reg = val.reg;
+
+    _sync_rtc();
+}
+
+void watch_get_date_time(struct calendar_date_time *date_time) {
+    _sync_rtc();
+    RTC_MODE2_CLOCK_Type val = RTC->MODE2.CLOCK;
+
+    date_time->time.sec = val.bit.SECOND;
+    date_time->time.min = val.bit.MINUTE;
+    date_time->time.hour = val.bit.HOUR;
+    date_time->date.day = val.bit.DAY;
+    date_time->date.month = val.bit.MONTH;
+    date_time->date.year = val.bit.YEAR + WATCH_RTC_REFERENCE_YEAR;
+}
+
+void watch_register_tick_callback(ext_irq_cb_t callback) {
+    tick_callbacks[7] = callback;
+    NVIC_ClearPendingIRQ(RTC_IRQn);
+    NVIC_EnableIRQ(RTC_IRQn);
+    RTC->MODE2.INTENSET.reg = RTC_MODE2_INTENSET_PER7;
+}
diff --git a/watch-library/hardware/watch/watch_slcd.c b/watch-library/hardware/watch/watch_slcd.c
new file mode 100644
index 00000000..c3bacd0d
--- /dev/null
+++ b/watch-library/hardware/watch/watch_slcd.c
@@ -0,0 +1,101 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_slcd.h"
+#include "watch_private_display.h"
+#include "hpl_slcd_config.h"
+
+ //////////////////////////////////////////////////////////////////////////////////////////
+// Segmented Display
+
+static void _sync_slcd(void) {
+    while (SLCD->SYNCBUSY.reg);
+}
+
+void watch_enable_display(void) {
+    SEGMENT_LCD_0_init();
+    slcd_sync_enable(&SEGMENT_LCD_0);
+}
+
+inline void watch_set_pixel(uint8_t com, uint8_t seg) {
+    slcd_sync_seg_on(&SEGMENT_LCD_0, SLCD_SEGID(com, seg));
+}
+
+inline void watch_clear_pixel(uint8_t com, uint8_t seg) {
+    slcd_sync_seg_off(&SEGMENT_LCD_0, SLCD_SEGID(com, seg));
+}
+
+void watch_clear_display(void) {
+    SLCD->SDATAL0.reg = 0;
+    SLCD->SDATAL1.reg = 0;
+    SLCD->SDATAL2.reg = 0;
+}
+
+void watch_start_character_blink(char character, uint32_t duration) {
+    SLCD->CTRLD.bit.FC0EN = 0;
+    _sync_slcd();
+
+    if (duration <= SLCD_FC_BYPASS_MAX_MS) {
+        SLCD->FC0.reg = SLCD_FC0_PB | ((duration / (1000 / SLCD_FRAME_FREQUENCY)) - 1);
+    } else {
+        SLCD->FC0.reg = (((duration / (1000 / SLCD_FRAME_FREQUENCY)) / 8 - 1));
+    }
+    SLCD->CTRLD.bit.FC0EN = 1;
+
+    watch_display_character(character, 7);
+    watch_clear_pixel(2, 10); // clear segment B of position 7 since it can't blink
+
+    SLCD->CTRLD.bit.BLINK = 0;
+    SLCD->CTRLA.bit.ENABLE = 0;
+    _sync_slcd();
+
+    SLCD->BCFG.bit.BSS0 = 0x07;
+    SLCD->BCFG.bit.BSS1 = 0x07;
+
+    SLCD->CTRLD.bit.BLINK = 1;
+    _sync_slcd();
+    SLCD->CTRLA.bit.ENABLE = 1;
+    _sync_slcd();
+}
+
+void watch_stop_blink(void) {
+    SLCD->CTRLD.bit.FC0EN = 0;
+    SLCD->CTRLD.bit.BLINK = 0;
+}
+
+void watch_start_tick_animation(uint32_t duration) {
+    watch_display_character(' ', 8);
+    const uint32_t segs[] = { SLCD_SEGID(0, 2)};
+    slcd_sync_start_animation(&SEGMENT_LCD_0, segs, 1, duration);
+}
+
+bool watch_tick_animation_is_running(void) {
+    return hri_slcd_get_CTRLD_CSREN_bit(SLCD);
+}
+
+void watch_stop_tick_animation(void) {
+    const uint32_t segs[] = { SLCD_SEGID(0, 2)};
+    slcd_sync_stop_animation(&SEGMENT_LCD_0, segs, 1);
+    watch_display_character(' ', 8);
+}
diff --git a/watch-library/hardware/watch/watch_uart.c b/watch-library/hardware/watch/watch_uart.c
new file mode 100644
index 00000000..64b63bee
--- /dev/null
+++ b/watch-library/hardware/watch/watch_uart.c
@@ -0,0 +1,89 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+ /*
+ * UART methods are Copyright (c) 2014-2017, Alex Taradov <alex@taradov.com>
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * 1. Redistributions of source code must retain the above copyright notice,
+ *    this list of conditions and the following disclaimer.
+ * 2. Redistributions in binary form must reproduce the above copyright
+ *    notice, this list of conditions and the following disclaimer in the
+ *    documentation and/or other materials provided with the distribution.
+ * 3. The name of the author may not be used to endorse or promote products
+ *    derived from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
+ * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
+ * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
+ * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
+ * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
+ * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
+ * POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#include "watch_uart.h"
+#include "peripheral_clk_config.h"
+
+void watch_enable_debug_uart(uint32_t baud) {
+    uint64_t br = (uint64_t)65536 * ((CONF_CPU_FREQUENCY * 4) - 16 * baud) / (CONF_CPU_FREQUENCY * 4);
+
+    gpio_set_pin_direction(A2, GPIO_DIRECTION_OUT);
+    gpio_set_pin_function(A2, PINMUX_PB02C_SERCOM3_PAD0);
+
+    MCLK->APBCMASK.reg |= MCLK_APBCMASK_SERCOM3;
+
+    GCLK->PCHCTRL[SERCOM3_GCLK_ID_CORE].reg = GCLK_PCHCTRL_GEN(0) | GCLK_PCHCTRL_CHEN;
+    while (0 == (GCLK->PCHCTRL[SERCOM3_GCLK_ID_CORE].reg & GCLK_PCHCTRL_CHEN));
+
+    SERCOM3->USART.CTRLA.reg =
+        SERCOM_USART_CTRLA_DORD | SERCOM_USART_CTRLA_MODE(1/*USART_INT_CLK*/) |
+        SERCOM_USART_CTRLA_RXPO(1/*PAD1*/) | SERCOM_USART_CTRLA_TXPO(0/*PAD0*/);
+
+    SERCOM3->USART.CTRLB.reg = SERCOM_USART_CTRLB_RXEN | SERCOM_USART_CTRLB_TXEN |
+        SERCOM_USART_CTRLB_CHSIZE(0/*8 bits*/);
+
+    SERCOM3->USART.BAUD.reg = (uint16_t)br;
+
+    SERCOM3->USART.CTRLA.reg |= SERCOM_USART_CTRLA_ENABLE;
+}
+
+void watch_debug_putc(char c) {
+    while (!(SERCOM3->USART.INTFLAG.reg & SERCOM_USART_INTFLAG_DRE));
+    SERCOM3->USART.DATA.reg = c;
+}
+
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
+void watch_debug_puts(char *s) {
+    while (*s) watch_debug_putc(*s++);
+}
+#pragma GCC diagnostic pop