openwrt/upstream - upstream openwrt

	Commit message (Collapse)	Author	Age	Files	Lines
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*	libcxx: Add package	Rosen Penev	2019-12-23	2	-0/+81
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	Currently in OpenWrt, there are two libc++: libstdcpp and uClibc++. The former is huge and the latter supports only C++98 with some basic support for C++11. Those C++ versions seem to be specific to the compiler version libcxx supports C++11 and above while being much smaller than libstdcpp. On mt7621, these are the sizes of the ipks that I get: libstdcpp: 460786 libcxx: 182881 uClibc++:67720 libcxx is faster than uClibc++ and is under active development as part of the LLVM project while uClibc++ is effectively dead. This PR modifies uclibc++.mk to expose the make menuconfig option. Further cleanup is beyond the scope of this PR. What that means is, this is not used by default. A g++-libcxx wrapper based on the uClibc++ one was added. Works the same way. Compile tested with all packages that use uclibc++.mk in their Makefiles under mipsel_24kc. kismet fails compilation but that package needs to be cleaned up and updated. Runtime tested with gddrescue, gdisk, dcwapd, bonnie++, and aircrack-ng on a TP-Link Archer C7v2. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	libubox: update to latest Git HEAD	Petr Štetiar	2019-11-24	1	-3/+3
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	07413cce72e1 tests: jshn: add more test cases 26586dae43a8 jshn: fix missing usage for -p and -o arguments 8e832a771d3a jshn: fix off by one in jshn_parse_file cb698e35409b jshn: jshn_parse: fix leaks of memory pointed to by 'obj' c42f11cc7c0f jshn: main: fix leak of memory pointed to by 'vars' 93848ec96dc5 jshn: refactor main into smaller pieces 9b6ede0e5312 avl: guard against theoretical null pointer dereference c008294a8323 blobmsg_json: fix possible uninitialized struct member 0003ea9c45cc base64: fix possible null pointer dereference 8baeeea1f52d add assert.h component b0a5cd8a28bf add cram based unit tests 1fefb7c4d7f9 add initial GitLab CI support c955464d7a9b enable extra compiler checks 6228df9de91d iron out all extra compiler warnings Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	nghttp2: bump to 1.40.0	Hans Dedecker	2019-11-23	1	-3/+3
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	41060943 Bump up version number to 1.40.0, LT revision to 33:0:19 5ae9bb89 Fail fast if huffman decoding context is in failure state bb519154 Merge pull request #1413 from nghttp2/check-authority 77f5487a Add nghttp2_check_authority as public API db9a8f6e Merge pull request #1409 from nghttp2/fix-wrong-stream-close-error-code 6f28a69b Merge pull request #1411 from richard78917/fix_warning 6ce4835e Fix the bug that stream is closed with wrong error code 29042f1c priority_spec::valid(): remove const qualifier from return value d08c4395 Merge pull request #1405 from nghttp2/huffman 5d6964cf Faster huffman decoding 0d855bfc Faster huffman encoding 6f967c6e Fix errors reported by coverity scan b8a43db8 Merge pull request #1394 from wrowe/fix-static-libname 70b62c1a Merge pull request #1393 from wrowe/fix-static-msvcrt 28b1f0b9 Avoid filename collision of static and dynamic lib 1dd966f1 Merge branch 'fix-nghttpx-mruby' fe8946dd nghttpx: Fix bug that mruby is incorrectly shared between backends 72b71a6b Add new flag ENABLE_STATIC_CRT for Windows f8933fe5 nghttpx: Reconnect h1 backend if it lost connection before sending headers 89c33d69 Update neverbleed 7079dc5e Update neverbleed to fix memory leak 5080db84 Revert "nghttpx: Reconnect h1 backend if it lost connection before sending headers" 053c7ac5 nghttpx: Returns 408 if backend timed out before sending headers 8a59ce6d nghttpx: Reconnect h1 backend if it lost connection before sending headers f2fde180 Remove redundant null check before delete 95efb3e1 Don't read too greedily 0a6ce87c Add nghttp2_option_set_max_outbound_ack 2aa79fa9 Bump up LT revision to 32:0:18 3980678d Merge branch 'nghttpx-fix-request-stall' 319d5ab1 nghttpx: Fix request stall 448bbbc3 integration-tests: gofmt e575a2aa Merge pull request #1377 from Aldrog/cmake_systemd 4f7aedc9 cmake: Support building nghttpx with systemd 7a590893 Fix clang-8 warning ee443134 Fix FPE with default backend abef9b90 Fix log-level is not set with cmd-line or configuration file 12a999f0 Bump up version number to 1.40.0-DEV acfb3607 Update manual pages Signed-off-by: Hans Dedecker <dedeckeh@gmail.com>
*	libnl-tiny: update to latest Git head	Petr Štetiar	2019-11-14	1	-3/+3
\| \| \| \| \| \| \| \|	0219008cc876 remove never used err variable assignment disliked by scan-build 7ce813fcd667 silence use after the free clang analyzer warning 1f73b6a8e678 use offsetof macro to make scan-build happy Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	nghttp2: Fix pkgconfig file	Rosen Penev	2019-11-09	1	-7/+5
\| \| \| \| \| \| \| \| \| \|	lib and includedir point to the host, not staging_dir. Note that prefix and exec_prefix is overriden to point to staging_dir. As CMAKE_INSTTALL is passed, switched InstallDev to use cmake.mk's rule. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	libevent2: Fix pkgconfig directories	Rosen Penev	2019-11-09	1	-8/+5
\| \| \| \| \| \| \| \| \| \| \|	includedir and libdir are set to /usr/include and /usr/lib . This breaks compilation with packages such as tmux that use pkgconfig to find libevent Also added PKG_LICENSE_FILES. Simplified the InstallDev section by using cmake.mk's default rule. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	wolfssl: update to v4.2.0-stable	Eneas U de Queiroz	2019-11-06	3	-142/+4
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	Many bugs were fixed--2 patches removed here. This release of wolfSSL includes fixes for 5 security vulnerabilities, including two CVEs with high/critical base scores: - potential invalid read with TLS 1.3 PSK, including session tickets - potential hang with ocspstaping2 (always enabled in openwrt) - CVE-2019-15651: 1-byte overread when decoding certificate extensions - CVE-2019-16748: 1-byte overread when checking certificate signatures - DSA attack to recover DSA private keys Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	libnl-tiny: update to latest Git head	Petr Štetiar	2019-11-06	1	-16/+9
\| \| \| \| \| \| \| \| \| \| \| \| \| \|	Includes following changes: 0230d0698e59 add initial GitLab CI support 5e13b797a988 iron out all extra compiler warnings 802fbd4d6f39 cmake: enable extra compiler checks 050bb5c4431b convert into CMake project 5b350e42d1fd refactor into separate Git project and converts the package build to utilize CMake. Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	ustream-ssl: update to latest Git HEAD	Jo-Philipp Wich	2019-11-05	1	-3/+3
\| \| \| \| \| \| \|	c9b6668 ustream-ssl: skip writing pending data if .eof is true after connect Fixes: CVE-2019-5101, CVE-2019-5102 Signed-off-by: Jo-Philipp Wich <jo@mein.io>
*	libubox: bump to version 2019-10-29	Yousong Zhou	2019-11-03	1	-3/+3
\| \| \| \| \| \| \|	It contains a single change to vlist.h header file: "vlist: add more macros for loop iteration". This is needed for newer version of fstools Signed-off-by: Yousong Zhou <yszhou4tech@gmail.com>
*	libnl: update to 3.5.0	DENG Qingfang	2019-11-01	3	-211/+4
\| \| \| \| \| \|	Update libnl to 3.5.0 Signed-off-by: DENG Qingfang <dengqf6@mail2.sysu.edu.cn>
*	ustream-ssl: Update to latest git HEAD	Hauke Mehrtens	2019-11-01	1	-5/+5
\| \| \| \| \| \| \| \| \| \|	465f8dc wolfssl: adjust to new API in v4.2.0 3b06c65 Update example certificate & key, fix typo 1c38fd8 wolfssl: enable CN validation 33308ee ustream-io-cyassl.c: fix client-mode connections 79d91aa Remove CyaSSL, WolfSSL < 3.10.4 support Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
*	toolchain: gcc: enable sanitizers for glibc toolchain	Yousong Zhou	2019-10-24	1	-0/+172
\| \| \| \|	Signed-off-by: Yousong Zhou <yszhou4tech@gmail.com>
*	libubox: update to latest git HEAD	Roman Yeryomin	2019-10-22	1	-3/+3
\| \| \| \| \| \|	eb30a03 libubox, jshn: add option to write output to a file Signed-off-by: Roman Yeryomin <roman@advem.lv>
*	libpcap: build with cmake	Yousong Zhou	2019-10-21	4	-298/+104
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	The main motivation is to drop and stop maintaining "100-debian_shared_lib.patch". It lacks the logic to include custom implementation of several functions like pcap_strlcpy() which can cause build failures when glibc is used [2] CAN and CAN-USB support related symbols are now handled by general linux support, see [1] "-ffunction-sections -fdata-sections" were removed as they should help much for shared libraries Size comparison before and after the change -rw-r--r-- 1 yunion yunion 238042 Oct 18 11:42 ipkg-x86_64/libpcap/usr/lib/libpcap.so.1 lrwxrwxrwx 1 yunion yunion 16 Oct 18 13:03 ipkg-x86_64/libpcap/usr/lib/libpcap.so.1 -> libpcap.so.1.9.1 -rwxr-xr-x 1 yunion yunion 229867 Oct 18 13:03 ipkg-x86_64/libpcap/usr/lib/libpcap.so.1.9.1 [1] On Linux, handle all CAN captures with pcap-linux.c, in cooked mode, https://github.com/the-tcpdump-group/libpcap/commit/93ca5ff7030aaf1219e1de05ec89a68384bfc50b [2] https://github.com/openwrt/packages/issues/10270 Signed-off-by: Yousong Zhou <yszhou4tech@gmail.com>
*	openssl: Add engine configuration to openssl.cnf	Eneas U de Queiroz	2019-10-20	2	-1/+57
\| \| \| \| \| \| \| \| \| \| \|	This adds engine configuration sections to openssl.cnf, with a commented list of engines. To enable an engine, all you have to do is uncomment the engine line. It also adds some useful comments to the devcrypto engine configuration section. Other engines currently don't have configuration commands. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	libevent2: Update to 2.1.11	Daniel Engberg	2019-10-15	5	-81/+94
\| \| \| \| \| \| \| \| \| \| \| \|	Update libevent to 2.1.11 Use CMake instead GNU Autotools Backport following commits: https://github.com/libevent/libevent/commit/f05ba671931e2b4e38459899f6f63f79f99869fe ..and partially https://github.com/libevent/libevent/commit/7201062f3ef505a77baa6ccaf1cf73812462308a to fix compilation Signed-off-by: Daniel Engberg <daniel.engberg.lists@pyret.net>
*	uClibc++: Fix three bugs	Rosen Penev	2019-10-12	6	-20/+221
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	The first allows usage of several functions in the std namespace, which broke compilation of gddrescue specifically with uClibc-ng and uClibc++. The second allows usage of long long with normal C++11, which is part of the standard. Before, std=gnu++11 needed to be passsed to work around it. As a result of the second patch, the pedantic patch can safely be removed. Both patches are upstream backports. Added -std=c++11 to CFLAGS to guarentee proper inclusion of long long. Added another patch that fixes a typo with the long long support. Sent to upstream. Fixed up license information according to SPDX. Small cleanups for consistency. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	libpcap: update to 1.9.1	DENG Qingfang	2019-10-12	6	-38/+19
\| \| \| \| \| \| \| \| \| \| \| \|	Fixed CVEs: CVE-2018-16301 CVE-2019-15161 CVE-2019-15162 CVE-2019-15163 CVE-2019-15164 CVE-2019-15165 Signed-off-by: DENG Qingfang <dengqf6@mail2.sysu.edu.cn>
*	libnl-tiny: fix package mirror hash	Petr Štetiar	2019-10-11	1	-1/+1
\| \| \| \| \| \| \| \|	Current hash doesn't match with the content of the source tarball. Fixes: a92f74ba8db8 ("libnl-tiny: move source code into separate Git repository") Reported-by: Rosen Penev <rosenp@gmail.com> Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	openssl: add gcc-8 -ffile-prefix-map filter	Paul Spooren	2019-10-09	1	-1/+1
\| \| \| \| \| \| \| \| \| \|	gcc-8 switch -ffile-prefix-map helps a lot with reproducible build paths in the resulting binaries. Ref: https://reproducible-builds.org/docs/build-path/ Signed-off-by: Paul Spooren <mail@aparcar.org> [refactored into separate commit] Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	libnl-tiny: move source code into separate Git repository	Petr Štetiar	2019-10-09	43	-8366/+12
\| \| \| \| \| \| \| \| \| \|	In order to make the source code usable and testable separately out of buildroot. Acked-by: Hauke Mehrtens <hauke@hauke-m.de> Acked-by: Jo-Philipp Wich <jo@mein.io> Acked-by: Hans Dedecker <dedeckeh@gmail.com> Signed-off-by: Petr Štetiar <ynezz@true.cz>
*	elfutils: Add host build	Rosen Penev	2019-09-21	2	-16/+9
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	Needed for glib2 host build: gresource-tool.c:32:20: fatal error: libelf.h: No such file or directory #include <libelf.h> Changed PKG_LICENSE to the SPDX version. Switched build dependency for argp-standalone to !USE_GLIBC. argp is a glibc extension. Treat it as such. Adjusted patch to use strerror_l, which works properly with both glibc and musl. The patch errors under glibc with: dwfl_error.c:158:7: error: ignoring return value of 'strerror_r', declared with attribute warn_unused_result [-Werror=unused-result] strerror_r (error & 0xffff, s, sizeof(s)); void casting does not fix the error. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	wolfssl: allow building with hw-crytpo and AES-CCM	Eneas U de Queiroz	2019-09-20	4	-21/+160
\| \| \| \| \| \| \| \|	Hardware acceleration was disabled when AES-CCM was selected as a workaround for a build failure. This applies a couple of upstream patches fixing this. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	mbedtls: update to 2.16.3	Magnus Kroken	2019-09-20	3	-52/+25
\| \| \| \| \| \| \|	Remove 300-bn_mul.h-Use-optimized-MULADDC-code-only-on-ARM-6.patch, the issue has been fixed upstream. Signed-off-by: Magnus Kroken <mkroken@gmail.com>
*	uClibc++: Remove faulty patch	Rosen Penev	2019-09-20	2	-14/+1
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	This patch was originally added to fix compilation with v4l2rtspserver. Turns out it was v4l2rtspserver that was broken, not uClibc++. This now causes issues with a different package where the arguments are being split. Note that with this patch, shellcheck throws an error: SC2068: Double quote array expansions to avoid re-splitting elements. More: https://github.com/openwrt/packages/pull/9972#discussion_r324878373 Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	openssl: bump to 1.1.1d	Eneas U de Queiroz	2019-09-19	12	-2524/+223
\| \| \| \| \| \| \| \| \| \| \| \| \|	This version fixes 3 low-severity vulnerabilities: - CVE-2019-1547: ECDSA remote timing attack - CVE-2019-1549: Fork Protection - CVE-2019-1563: Padding Oracle in PKCS7_dataDecode and CMS_decrypt_set1_pkey Patches were refreshed. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	libnftnl: bump to version 1.1.4	Konstantin Demin	2019-09-01	1	-2/+2
\| \| \| \| \| \| \| \| \| \| \| \|	ABI version is same. The ipkg size increase by about 2.2%: old: 47.909 libnftnl11_1.1.3-1_arm_cortex-a7_neon-vfpv4.ipk new: 48.985 libnftnl11_1.1.4-1_arm_cortex-a7_neon-vfpv4.ipk Signed-off-by: Konstantin Demin <rockdrilla@gmail.com>
*	openssl: always build with EC support	Eneas U de Queiroz	2019-09-01	2	-19/+2
\| \| \| \|	Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	libnfnetlink: Avoid passing both -fPIC and -fpic	Rosen Penev	2019-08-31	1	-3/+4
\| \| \| \| \| \| \| \|	Instead, instruct the configure script to use $(FPIC) only. Mixing -fPIC and -fpic can cause issues on some platforms like PPC. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	ncurses: Do not pass both -fPIC and -fpic	Rosen Penev	2019-08-31	1	-2/+4
\| \| \| \| \| \| \| \| \| \|	The configure scripts matches Linux with -fPIC, which is not exactly what is desired. Since we are already passing $(FPIC), added a CONFIGURE_VAR to avoid passing -fPIC. Removed PKG_BUILD_DIR as it is already the default value. Signed-off-by: Rosen Penev <rosenp@gmail.com>
*	openssl: refresh patches	Christian Lamparter	2019-08-24	3	-7/+7
\| \| \| \|	Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
*	elfutils: bump to 0.177	Luiz Angelo Daros de Luca	2019-08-19	2	-43/+4
\| \| \| \| \| \|	200-uclibc-ng-compat.patch is upstream now. Signed-off-by: Luiz Angelo Daros de Luca <luizluca@gmail.com>
*	nghttp2: bump to 1.39.2	Hans Dedecker	2019-08-18	1	-2/+2
\| \| \| \| \| \| \| \| \|	957abacf Bump up version number to 1.39.2, LT revision to 32:0:18 83d362c6 Don't read too greedily a76d0723 Add nghttp2_option_set_max_outbound_ack db2f612a nghttpx: Fix request stall Signed-off-by: Hans Dedecker <dedeckeh@gmail.com>
*	ustream-ssl: update to latest git HEAD	Hauke Mehrtens	2019-08-17	1	-3/+3
\| \| \| \| \| \| \|	e8f9c22 Revise supported ciphersuites 7e9e269 wolfssl, openssl: use TLS 1.3, set ciphersuites Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
*	musl: ldso/dlsym: fix mips returning undef dlsym	Luiz Angelo Daros de Luca	2019-08-17	1	-1/+1
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	This happens only the second time a library is loaded by dlopen(). After lib1 is loaded, dlsym(lib1,"undef1") correctly resolves the undef symbol from lib1 dependencies. After the second library is loaded, dlsym(lib2,"undef1") was returning the address of "undef1" in lib2 instead of searching lib2 dependencies. Using upstream fix which now uses the same logic for relocation time and dlsym. Fixes openwrt/packages#9297 Signed-off-by: Luiz Angelo Daros de Luca <luizluca@gmail.com>
*	wolfssl: bump to 4.1.0-stable	Eneas U de Queiroz	2019-08-17	5	-56/+16
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	Always build AES-GCM support. Unnecessary patches were removed. This includes two vulnerability fixes: CVE-2019-11873: a potential buffer overflow case with the TLSv1.3 PSK extension parsing. CVE-2019-13628 (currently assigned-only): potential leak of nonce sizes when performing ECDSA signing operations. The leak is considered to be difficult to exploit but it could potentially be used maliciously to perform a lattice based timing attack. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	nettle: Update to 3.5.1	Daniel Engberg	2019-08-09	1	-4/+4
\| \| \| \| \| \| \|	Update (lib)nettle to 3.5.1 Bump ABI_VERSION Signed-off-by: Daniel Engberg <daniel.engberg.lists@pyret.net>
*	build: include BUILD_VARIANT in PKG_BUILD_DIR	Jeffery To	2019-08-05	1	-2/+0
\| \| \| \| \| \| \| \| \| \| \|	This changes the default PKG_BUILD_DIR to take BUILD_VARIANT into account (if set), so that packages do not need to manually override PKG_BUILD_DIR just to handle variants. This also updates most base packages with variants to use the updated default PKG_BUILD_DIR. Signed-off-by: Jeffery To <jeffery.to@gmail.com>
*	libroxml: bump to the 3.0.2 version	Rafał Miłecki	2019-07-15	1	-3/+3
\| \| \| \| \| \| \|	* Fix for memory leak regression * Support for (un)escaping Signed-off-by: Rafał Miłecki <rafal@milecki.pl>
*	libs/toolchain: remove eglibc remnant file	Eneas U de Queiroz	2019-07-15	1	-13/+0
\| \| \| \| \| \|	This removes package/libs/toolchain/eglibc-files/etc/nsswitch.conf. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	libnftnl: bump to version 1.1.3	Konstantin Demin	2019-07-07	1	-3/+3
\| \| \| \| \| \|	bump ABI version accordingly (thanks to Jo-Philipp Wich). Signed-off-by: Konstantin Demin <rockdrilla@gmail.com>
*	wolfssl: update to 4.0.0-stable	Eneas U de Queiroz	2019-07-07	5	-126/+62
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	Removed options that can't be turned off because we're building with --enable-stunnel, some of which affect hostapd's Config.in. Adjusted the title of OCSP option, as OCSP itself can't be turned off, only the stapling part is selectable. Mark options turned on when wpad support is selected. Add building options for TLS 1.0, and TLS 1.3. Add hardware crypto support, which due to a bug, only works when CCM support is turned off. Reorganized option conditionals in Makefile. Add Eneas U de Queiroz as maintainer. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	wolfssl: update to 3.15.7, fix Makefile	Eneas U de Queiroz	2019-07-07	4	-13/+13
\| \| \| \| \| \| \| \| \|	This includes a fix for a medium-level potential cache attack with a variant of Bleichenbacher’s attack. Patches were refreshed. Increased FP_MAX_BITS to allow 4096-bit RSA keys. Fixed poly1305 build option, and some Makefile updates. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	ustream-ssl: update to 2019-06-24	Eneas U de Queiroz	2019-06-24	1	-3/+3
\| \| \| \| \| \|	This adds chacha20-poly1305 support to the mbedtls variant. Signed-off-by: Eneas U de Queiroz <cotequeiroz@gmail.com>
*	mbedtls: Update to version 2.16.2	Josef Schlehofer	2019-06-24	1	-2/+2
\| \| \| \|	Signed-off-by: Josef Schlehofer <josef.schlehofer@nic.cz>
*	nghttp2: deduplicate files in staging_dir	Eneas U de Queiroz	2019-06-22	1	-1/+1
\| \| \| \| \| \| \|	'38b22b1e: deduplicate files in libnghttp2' missed duplicates in staging_dir by Build/InstallDev. Signed-off-by: Eneas U de Queiroz <cote2004-github@yahoo.com>
*	libjson-c: update to 0.13.1	Deng Qingfang	2019-06-19	2	-18/+21
\| \| \| \|	Signed-off-by: Deng Qingfang <dengqf6@mail2.sysu.edu.cn>
*	nghttp2: bump to 1.39.1	Hans Dedecker	2019-06-16	1	-3/+3
\| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \|	7ffc239b Bump up version number to 1.39.1 bc886a0e Fix FPE with default backend a3a14a9c Fix log-level is not set with cmd-line or configuration file acfb3607 Update manual pages bdfd14c2 Bump up version number to 1.39.0, LT revision to 31:4:17 cddc09fe Update AUTHORS 3c3b6ae8 Add missing colon 2f83aa9e Fix multi-line text travis issue fc591d0c Run nghttpx integration test with cmake build 9a17c3ef travis: use multi-line text b7220f07 cmake: Remove SPDY related files a1556fd1 Merge pull request #1356 from nghttp2/fix-log-level-on-reload 77f1c872 nghttpx: Fix unchanged log level on configuration reload 49ce44e1 Merge pull request #1352 from nghttp2/travis-osx f54b3ffc Fix libxml2 CFLAGS output b0f5e5cc Implement daemon() using fork() for OSX 8d6ecd66 Enable osx build on travis f82fb521 Update doc 2e1975dd clang-format-8 97ce392b Merge pull request #1347 from nghttp2/nghttpx-ignore-cl-te-on-upgrade afefbda5 Ignore content-length in 200 response to CONNECT request 4fca2502 nghttpx: Ignore Content-Length and Transfer-Encoding in 1xx or 200 to CONNECT 6975c336 Update llhttp to 1.1.3 0288093c Fix llhttp_get_error_pos usage a3a03481 Merge pull request #1340 from nghttp2/nghttpx-llhttp c64d2573 Replace http-parser with llhttp f028cc43 clang-format 302e3746 Merge pull request #1337 from nghttp2/upgrade-mruby 3cdbc5f5 Merge pull request #1335 from adamgolebiowski/boost-1.70 a6925186 Fix mruby build error 45d63d20 Upgrade mruby to 2.0.1 cbba1ebf asio: support boost-1.70 e86d1378 Bump up version number to 1.39.0-DEV 4a9d2005 Update manual pages Signed-off-by: Hans Dedecker <dedeckeh@gmail.com>
*	libubox: update to latest git HEAD	Hauke Mehrtens	2019-06-16	1	-3/+3
\| \| \| \| \| \| \|	9dd2dcf libubox: add format string checking to ulog() ecf5617 ustream: Add format string checks to ustream_(v)printf() Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>

// Created by cells_xtra.sh from Xilinx models module BSCANE2 (...); parameter DISABLE_JTAG = "FALSE"; parameter integer JTAG_CHAIN = 1; output CAPTURE; output DRCK; output RESET; output RUNTEST; output SEL; output SHIFT; output TCK; output TDI; output TMS; output UPDATE; input TDO; endmodule module BUFGCE (...); parameter CE_TYPE = "SYNC"; parameter [0:0] IS_CE_INVERTED = 1'b0; parameter [0:0] IS_I_INVERTED = 1'b0; output O; input CE; input I; endmodule module BUFGCE_1 (...); output O; input CE, I; endmodule module BUFGMUX (...); parameter CLK_SEL_TYPE = "SYNC"; output O; input I0, I1, S; endmodule module BUFGMUX_1 (...); parameter CLK_SEL_TYPE = "SYNC"; output O; input I0, I1, S; endmodule module BUFGMUX_CTRL (...); output O; input I0; input I1; input S; endmodule module BUFH (...); output O; input I; endmodule module BUFIO (...); output O; input I; endmodule module BUFMR (...); output O; input I; endmodule module BUFMRCE (...); parameter CE_TYPE = "SYNC"; parameter integer INIT_OUT = 0; parameter [0:0] IS_CE_INVERTED = 1'b0; output O; input CE; input I; endmodule module BUFR (...); output O; input CE; input CLR; input I; parameter BUFR_DIVIDE = "BYPASS"; parameter SIM_DEVICE = "7SERIES"; endmodule (* keep *) module CAPTUREE2 (...); parameter ONESHOT = "TRUE"; input CAP; input CLK; endmodule module CFGLUT5 (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_CLK_INVERTED = 1'b0; output CDO; output O5; output O6; input I4, I3, I2, I1, I0; input CDI, CE, CLK; endmodule (* keep *) module DCIRESET (...); output LOCKED; input RST; endmodule module DNA_PORT (...); parameter [56:0] SIM_DNA_VALUE = 57'h0; output DOUT; input CLK, DIN, READ, SHIFT; endmodule module EFUSE_USR (...); parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; output [31:0] EFUSEUSR; endmodule module FIFO18E1 (...); parameter ALMOST_EMPTY_OFFSET = 13'h0080; parameter ALMOST_FULL_OFFSET = 13'h0080; parameter integer DATA_WIDTH = 4; parameter integer DO_REG = 1; parameter EN_SYN = "FALSE"; parameter FIFO_MODE = "FIFO18"; parameter FIRST_WORD_FALL_THROUGH = "FALSE"; parameter INIT = 36'h0; parameter SIM_DEVICE = "VIRTEX6"; parameter SRVAL = 36'h0; parameter IS_RDCLK_INVERTED = 1'b0; parameter IS_RDEN_INVERTED = 1'b0; parameter IS_RSTREG_INVERTED = 1'b0; parameter IS_RST_INVERTED = 1'b0; parameter IS_WRCLK_INVERTED = 1'b0; parameter IS_WREN_INVERTED = 1'b0; output ALMOSTEMPTY; output ALMOSTFULL; output [31:0] DO; output [3:0] DOP; output EMPTY; output FULL; output [11:0] RDCOUNT; output RDERR; output [11:0] WRCOUNT; output WRERR; input [31:0] DI; input [3:0] DIP; input RDCLK; input RDEN; input REGCE; input RST; input RSTREG; input WRCLK; input WREN; endmodule module FIFO36E1 (...); parameter ALMOST_EMPTY_OFFSET = 13'h0080; parameter ALMOST_FULL_OFFSET = 13'h0080; parameter integer DATA_WIDTH = 4; parameter integer DO_REG = 1; parameter EN_ECC_READ = "FALSE"; parameter EN_ECC_WRITE = "FALSE"; parameter EN_SYN = "FALSE"; parameter FIFO_MODE = "FIFO36"; parameter FIRST_WORD_FALL_THROUGH = "FALSE"; parameter INIT = 72'h0; parameter SIM_DEVICE = "VIRTEX6"; parameter SRVAL = 72'h0; parameter IS_RDCLK_INVERTED = 1'b0; parameter IS_RDEN_INVERTED = 1'b0; parameter IS_RSTREG_INVERTED = 1'b0; parameter IS_RST_INVERTED = 1'b0; parameter IS_WRCLK_INVERTED = 1'b0; parameter IS_WREN_INVERTED = 1'b0; output ALMOSTEMPTY; output ALMOSTFULL; output DBITERR; output [63:0] DO; output [7:0] DOP; output [7:0] ECCPARITY; output EMPTY; output FULL; output [12:0] RDCOUNT; output RDERR; output SBITERR; output [12:0] WRCOUNT; output WRERR; input [63:0] DI; input [7:0] DIP; input INJECTDBITERR; input INJECTSBITERR; input RDCLK; input RDEN; input REGCE; input RST; input RSTREG; input WRCLK; input WREN; endmodule module FRAME_ECCE2 (...); parameter FARSRC = "EFAR"; parameter FRAME_RBT_IN_FILENAME = "NONE"; output CRCERROR; output ECCERROR; output ECCERRORSINGLE; output SYNDROMEVALID; output [12:0] SYNDROME; output [25:0] FAR; output [4:0] SYNBIT; output [6:0] SYNWORD; endmodule module GTHE2_CHANNEL (...); parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; parameter [0:0] ACJTAG_MODE = 1'b0; parameter [0:0] ACJTAG_RESET = 1'b0; parameter [19:0] ADAPT_CFG0 = 20'h00C10; parameter ALIGN_COMMA_DOUBLE = "FALSE"; parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; parameter integer ALIGN_COMMA_WORD = 1; parameter ALIGN_MCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; parameter ALIGN_PCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; parameter [0:0] A_RXOSCALRESET = 1'b0; parameter CBCC_DATA_SOURCE_SEL = "DECODED"; parameter [41:0] CFOK_CFG = 42'h24800040E80; parameter [5:0] CFOK_CFG2 = 6'b100000; parameter [5:0] CFOK_CFG3 = 6'b100000; parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; parameter integer CHAN_BOND_MAX_SKEW = 7; parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; parameter CHAN_BOND_SEQ_2_USE = "FALSE"; parameter integer CHAN_BOND_SEQ_LEN = 1; parameter CLK_CORRECT_USE = "TRUE"; parameter CLK_COR_KEEP_IDLE = "FALSE"; parameter integer CLK_COR_MAX_LAT = 20; parameter integer CLK_COR_MIN_LAT = 18; parameter CLK_COR_PRECEDENCE = "TRUE"; parameter integer CLK_COR_REPEAT_WAIT = 0; parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; parameter CLK_COR_SEQ_2_USE = "FALSE"; parameter integer CLK_COR_SEQ_LEN = 1; parameter [28:0] CPLL_CFG = 29'h00BC07DC; parameter integer CPLL_FBDIV = 4; parameter integer CPLL_FBDIV_45 = 5; parameter [23:0] CPLL_INIT_CFG = 24'h00001E; parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; parameter integer CPLL_REFCLK_DIV = 1; parameter DEC_MCOMMA_DETECT = "TRUE"; parameter DEC_PCOMMA_DETECT = "TRUE"; parameter DEC_VALID_COMMA_ONLY = "TRUE"; parameter [23:0] DMONITOR_CFG = 24'h000A00; parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; parameter [5:0] ES_CONTROL = 6'b000000; parameter ES_ERRDET_EN = "FALSE"; parameter ES_EYE_SCAN_EN = "TRUE"; parameter [11:0] ES_HORZ_OFFSET = 12'h000; parameter [9:0] ES_PMA_CFG = 10'b0000000000; parameter [4:0] ES_PRESCALE = 5'b00000; parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000; parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000; parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000; parameter [8:0] ES_VERT_OFFSET = 9'b000000000; parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; parameter FTS_LANE_DESKEW_EN = "FALSE"; parameter [2:0] GEARBOX_MODE = 3'b000; parameter [0:0] IS_CLKRSVD0_INVERTED = 1'b0; parameter [0:0] IS_CLKRSVD1_INVERTED = 1'b0; parameter [0:0] IS_CPLLLOCKDETCLK_INVERTED = 1'b0; parameter [0:0] IS_DMONITORCLK_INVERTED = 1'b0; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0; parameter [0:0] IS_SIGVALIDCLK_INVERTED = 1'b0; parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0; parameter [0:0] LOOPBACK_CFG = 1'b0; parameter [1:0] OUTREFCLK_SEL_INV = 2'b11; parameter PCS_PCIE_EN = "FALSE"; parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000; parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; parameter [31:0] PMA_RSV = 32'b00000000000000000000000010000000; parameter [31:0] PMA_RSV2 = 32'b00011100000000000000000000001010; parameter [1:0] PMA_RSV3 = 2'b00; parameter [14:0] PMA_RSV4 = 15'b000000000001000; parameter [3:0] PMA_RSV5 = 4'b0000; parameter [0:0] RESET_POWERSAVE_DISABLE = 1'b0; parameter [4:0] RXBUFRESET_TIME = 5'b00001; parameter RXBUF_ADDR_MODE = "FULL"; parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; parameter RXBUF_EN = "TRUE"; parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; parameter RXBUF_RESET_ON_EIDLE = "FALSE"; parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; parameter integer RXBUF_THRESH_OVFLW = 61; parameter RXBUF_THRESH_OVRD = "FALSE"; parameter integer RXBUF_THRESH_UNDFLW = 4; parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; parameter [82:0] RXCDR_CFG = 83'h0002007FE2000C208001A; parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; parameter [5:0] RXCDR_LOCK_CFG = 6'b001001; parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; parameter [15:0] RXDLY_CFG = 16'h001F; parameter [8:0] RXDLY_LCFG = 9'h030; parameter [15:0] RXDLY_TAP_CFG = 16'h0000; parameter RXGEARBOX_EN = "FALSE"; parameter [4:0] RXISCANRESET_TIME = 5'b00001; parameter [13:0] RXLPM_HF_CFG = 14'b00001000000000; parameter [17:0] RXLPM_LF_CFG = 18'b001001000000000000; parameter [6:0] RXOOB_CFG = 7'b0000110; parameter RXOOB_CLK_CFG = "PMA"; parameter [4:0] RXOSCALRESET_TIME = 5'b00011; parameter [4:0] RXOSCALRESET_TIMEOUT = 5'b00000; parameter integer RXOUT_DIV = 2; parameter [4:0] RXPCSRESET_TIME = 5'b00001; parameter [23:0] RXPHDLY_CFG = 24'h084020; parameter [23:0] RXPH_CFG = 24'hC00002; parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; parameter [1:0] RXPI_CFG0 = 2'b00; parameter [1:0] RXPI_CFG1 = 2'b00; parameter [1:0] RXPI_CFG2 = 2'b00; parameter [1:0] RXPI_CFG3 = 2'b00; parameter [0:0] RXPI_CFG4 = 1'b0; parameter [0:0] RXPI_CFG5 = 1'b0; parameter [2:0] RXPI_CFG6 = 3'b100; parameter [4:0] RXPMARESET_TIME = 5'b00011; parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; parameter integer RXSLIDE_AUTO_WAIT = 7; parameter RXSLIDE_MODE = "OFF"; parameter [0:0] RXSYNC_MULTILANE = 1'b0; parameter [0:0] RXSYNC_OVRD = 1'b0; parameter [0:0] RXSYNC_SKIP_DA = 1'b0; parameter [23:0] RX_BIAS_CFG = 24'b000011000000000000010000; parameter [5:0] RX_BUFFER_CFG = 6'b000000; parameter integer RX_CLK25_DIV = 7; parameter [0:0] RX_CLKMUX_PD = 1'b1; parameter [1:0] RX_CM_SEL = 2'b11; parameter [3:0] RX_CM_TRIM = 4'b0100; parameter integer RX_DATA_WIDTH = 20; parameter [5:0] RX_DDI_SEL = 6'b000000; parameter [13:0] RX_DEBUG_CFG = 14'b00000000000000; parameter RX_DEFER_RESET_BUF_EN = "TRUE"; parameter [3:0] RX_DFELPM_CFG0 = 4'b0110; parameter [0:0] RX_DFELPM_CFG1 = 1'b0; parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1; parameter [1:0] RX_DFE_AGC_CFG0 = 2'b00; parameter [2:0] RX_DFE_AGC_CFG1 = 3'b010; parameter [3:0] RX_DFE_AGC_CFG2 = 4'b0000; parameter [0:0] RX_DFE_AGC_OVRDEN = 1'b1; parameter [22:0] RX_DFE_GAIN_CFG = 23'h0020C0; parameter [11:0] RX_DFE_H2_CFG = 12'b000000000000; parameter [11:0] RX_DFE_H3_CFG = 12'b000001000000; parameter [10:0] RX_DFE_H4_CFG = 11'b00011100000; parameter [10:0] RX_DFE_H5_CFG = 11'b00011100000; parameter [10:0] RX_DFE_H6_CFG = 11'b00000100000; parameter [10:0] RX_DFE_H7_CFG = 11'b00000100000; parameter [32:0] RX_DFE_KL_CFG = 33'b000000000000000000000001100010000; parameter [1:0] RX_DFE_KL_LPM_KH_CFG0 = 2'b01; parameter [2:0] RX_DFE_KL_LPM_KH_CFG1 = 3'b010; parameter [3:0] RX_DFE_KL_LPM_KH_CFG2 = 4'b0010; parameter [0:0] RX_DFE_KL_LPM_KH_OVRDEN = 1'b1; parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b10; parameter [2:0] RX_DFE_KL_LPM_KL_CFG1 = 3'b010; parameter [3:0] RX_DFE_KL_LPM_KL_CFG2 = 4'b0010; parameter [0:0] RX_DFE_KL_LPM_KL_OVRDEN = 1'b1; parameter [15:0] RX_DFE_LPM_CFG = 16'h0080; parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; parameter [53:0] RX_DFE_ST_CFG = 54'h00E100000C003F; parameter [16:0] RX_DFE_UT_CFG = 17'b00011100000000000; parameter [16:0] RX_DFE_VP_CFG = 17'b00011101010100011; parameter RX_DISPERR_SEQ_MATCH = "TRUE"; parameter integer RX_INT_DATAWIDTH = 0; parameter [12:0] RX_OS_CFG = 13'b0000010000000; parameter integer RX_SIG_VALID_DLY = 10; parameter RX_XCLK_SEL = "RXREC"; parameter integer SAS_MAX_COM = 64; parameter integer SAS_MIN_COM = 36; parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; parameter [2:0] SATA_BURST_VAL = 3'b100; parameter SATA_CPLL_CFG = "VCO_3000MHZ"; parameter [2:0] SATA_EIDLE_VAL = 3'b100; parameter integer SATA_MAX_BURST = 8; parameter integer SATA_MAX_INIT = 21; parameter integer SATA_MAX_WAKE = 7; parameter integer SATA_MIN_BURST = 4; parameter integer SATA_MIN_INIT = 12; parameter integer SATA_MIN_WAKE = 4; parameter SHOW_REALIGN_COMMA = "TRUE"; parameter [2:0] SIM_CPLLREFCLK_SEL = 3'b001; parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X"; parameter SIM_VERSION = "1.1"; parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; parameter [2:0] TERM_RCAL_OVRD = 3'b000; parameter [7:0] TRANS_TIME_RATE = 8'h0E; parameter [31:0] TST_RSV = 32'h00000000; parameter TXBUF_EN = "TRUE"; parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; parameter [15:0] TXDLY_CFG = 16'h001F; parameter [8:0] TXDLY_LCFG = 9'h030; parameter [15:0] TXDLY_TAP_CFG = 16'h0000; parameter TXGEARBOX_EN = "FALSE"; parameter [0:0] TXOOB_CFG = 1'b0; parameter integer TXOUT_DIV = 2; parameter [4:0] TXPCSRESET_TIME = 5'b00001; parameter [23:0] TXPHDLY_CFG = 24'h084020; parameter [15:0] TXPH_CFG = 16'h0780; parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; parameter [1:0] TXPI_CFG0 = 2'b00; parameter [1:0] TXPI_CFG1 = 2'b00; parameter [1:0] TXPI_CFG2 = 2'b00; parameter [0:0] TXPI_CFG3 = 1'b0; parameter [0:0] TXPI_CFG4 = 1'b0; parameter [2:0] TXPI_CFG5 = 3'b100; parameter [0:0] TXPI_GREY_SEL = 1'b0; parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; parameter TXPI_PPMCLK_SEL = "TXUSRCLK2"; parameter [7:0] TXPI_PPM_CFG = 8'b00000000; parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; parameter [4:0] TXPMARESET_TIME = 5'b00001; parameter [0:0] TXSYNC_MULTILANE = 1'b0; parameter [0:0] TXSYNC_OVRD = 1'b0; parameter [0:0] TXSYNC_SKIP_DA = 1'b0; parameter integer TX_CLK25_DIV = 7; parameter [0:0] TX_CLKMUX_PD = 1'b1; parameter integer TX_DATA_WIDTH = 20; parameter [5:0] TX_DEEMPH0 = 6'b000000; parameter [5:0] TX_DEEMPH1 = 6'b000000; parameter TX_DRIVE_MODE = "DIRECT"; parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; parameter integer TX_INT_DATAWIDTH = 0; parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; parameter [0:0] TX_QPI_STATUS_EN = 1'b0; parameter [13:0] TX_RXDETECT_CFG = 14'h1832; parameter [16:0] TX_RXDETECT_PRECHARGE_TIME = 17'h00000; parameter [2:0] TX_RXDETECT_REF = 3'b100; parameter TX_XCLK_SEL = "TXUSR"; parameter [0:0] UCODEER_CLR = 1'b0; parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; output CPLLFBCLKLOST; output CPLLLOCK; output CPLLREFCLKLOST; output DRPRDY; output EYESCANDATAERROR; output GTHTXN; output GTHTXP; output GTREFCLKMONITOR; output PHYSTATUS; output RSOSINTDONE; output RXBYTEISALIGNED; output RXBYTEREALIGN; output RXCDRLOCK; output RXCHANBONDSEQ; output RXCHANISALIGNED; output RXCHANREALIGN; output RXCOMINITDET; output RXCOMMADET; output RXCOMSASDET; output RXCOMWAKEDET; output RXDFESLIDETAPSTARTED; output RXDFESLIDETAPSTROBEDONE; output RXDFESLIDETAPSTROBESTARTED; output RXDFESTADAPTDONE; output RXDLYSRESETDONE; output RXELECIDLE; output RXOSINTSTARTED; output RXOSINTSTROBEDONE; output RXOSINTSTROBESTARTED; output RXOUTCLK; output RXOUTCLKFABRIC; output RXOUTCLKPCS; output RXPHALIGNDONE; output RXPMARESETDONE; output RXPRBSERR; output RXQPISENN; output RXQPISENP; output RXRATEDONE; output RXRESETDONE; output RXSYNCDONE; output RXSYNCOUT; output RXVALID; output TXCOMFINISH; output TXDLYSRESETDONE; output TXGEARBOXREADY; output TXOUTCLK; output TXOUTCLKFABRIC; output TXOUTCLKPCS; output TXPHALIGNDONE; output TXPHINITDONE; output TXPMARESETDONE; output TXQPISENN; output TXQPISENP; output TXRATEDONE; output TXRESETDONE; output TXSYNCDONE; output TXSYNCOUT; output [14:0] DMONITOROUT; output [15:0] DRPDO; output [15:0] PCSRSVDOUT; output [1:0] RXCLKCORCNT; output [1:0] RXDATAVALID; output [1:0] RXHEADERVALID; output [1:0] RXSTARTOFSEQ; output [1:0] TXBUFSTATUS; output [2:0] RXBUFSTATUS; output [2:0] RXSTATUS; output [4:0] RXCHBONDO; output [4:0] RXPHMONITOR; output [4:0] RXPHSLIPMONITOR; output [5:0] RXHEADER; output [63:0] RXDATA; output [6:0] RXMONITOROUT; output [7:0] RXCHARISCOMMA; output [7:0] RXCHARISK; output [7:0] RXDISPERR; output [7:0] RXNOTINTABLE; input CFGRESET; input CLKRSVD0; input CLKRSVD1; input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; input DMONFIFORESET; input DMONITORCLK; input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; input GTGREFCLK; input GTHRXN; input GTHRXP; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTRESETSEL; input GTRXRESET; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; input GTTXRESET; input QPLLCLK; input QPLLREFCLK; input RESETOVRD; input RX8B10BEN; input RXBUFRESET; input RXCDRFREQRESET; input RXCDRHOLD; input RXCDROVRDEN; input RXCDRRESET; input RXCDRRESETRSV; input RXCHBONDEN; input RXCHBONDMASTER; input RXCHBONDSLAVE; input RXCOMMADETEN; input RXDDIEN; input RXDFEAGCHOLD; input RXDFEAGCOVRDEN; input RXDFECM1EN; input RXDFELFHOLD; input RXDFELFOVRDEN; input RXDFELPMRESET; input RXDFESLIDETAPADAPTEN; input RXDFESLIDETAPHOLD; input RXDFESLIDETAPINITOVRDEN; input RXDFESLIDETAPONLYADAPTEN; input RXDFESLIDETAPOVRDEN; input RXDFESLIDETAPSTROBE; input RXDFETAP2HOLD; input RXDFETAP2OVRDEN; input RXDFETAP3HOLD; input RXDFETAP3OVRDEN; input RXDFETAP4HOLD; input RXDFETAP4OVRDEN; input RXDFETAP5HOLD; input RXDFETAP5OVRDEN; input RXDFETAP6HOLD; input RXDFETAP6OVRDEN; input RXDFETAP7HOLD; input RXDFETAP7OVRDEN; input RXDFEUTHOLD; input RXDFEUTOVRDEN; input RXDFEVPHOLD; input RXDFEVPOVRDEN; input RXDFEVSEN; input RXDFEXYDEN; input RXDLYBYPASS; input RXDLYEN; input RXDLYOVRDEN; input RXDLYSRESET; input RXGEARBOXSLIP; input RXLPMEN; input RXLPMHFHOLD; input RXLPMHFOVRDEN; input RXLPMLFHOLD; input RXLPMLFKLOVRDEN; input RXMCOMMAALIGNEN; input RXOOBRESET; input RXOSCALRESET; input RXOSHOLD; input RXOSINTEN; input RXOSINTHOLD; input RXOSINTNTRLEN; input RXOSINTOVRDEN; input RXOSINTSTROBE; input RXOSINTTESTOVRDEN; input RXOSOVRDEN; input RXPCOMMAALIGNEN; input RXPCSRESET; input RXPHALIGN; input RXPHALIGNEN; input RXPHDLYPD; input RXPHDLYRESET; input RXPHOVRDEN; input RXPMARESET; input RXPOLARITY; input RXPRBSCNTRESET; input RXQPIEN; input RXRATEMODE; input RXSLIDE; input RXSYNCALLIN; input RXSYNCIN; input RXSYNCMODE; input RXUSERRDY; input RXUSRCLK2; input RXUSRCLK; input SETERRSTATUS; input SIGVALIDCLK; input TX8B10BEN; input TXCOMINIT; input TXCOMSAS; input TXCOMWAKE; input TXDEEMPH; input TXDETECTRX; input TXDIFFPD; input TXDLYBYPASS; input TXDLYEN; input TXDLYHOLD; input TXDLYOVRDEN; input TXDLYSRESET; input TXDLYUPDOWN; input TXELECIDLE; input TXINHIBIT; input TXPCSRESET; input TXPDELECIDLEMODE; input TXPHALIGN; input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; input TXPIPPMEN; input TXPIPPMOVRDEN; input TXPIPPMPD; input TXPIPPMSEL; input TXPISOPD; input TXPMARESET; input TXPOLARITY; input TXPOSTCURSORINV; input TXPRBSFORCEERR; input TXPRECURSORINV; input TXQPIBIASEN; input TXQPISTRONGPDOWN; input TXQPIWEAKPUP; input TXRATEMODE; input TXSTARTSEQ; input TXSWING; input TXSYNCALLIN; input TXSYNCIN; input TXSYNCMODE; input TXUSERRDY; input TXUSRCLK2; input TXUSRCLK; input [13:0] RXADAPTSELTEST; input [15:0] DRPDI; input [15:0] GTRSVD; input [15:0] PCSRSVDIN; input [19:0] TSTIN; input [1:0] RXELECIDLEMODE; input [1:0] RXMONITORSEL; input [1:0] RXPD; input [1:0] RXSYSCLKSEL; input [1:0] TXPD; input [1:0] TXSYSCLKSEL; input [2:0] CPLLREFCLKSEL; input [2:0] LOOPBACK; input [2:0] RXCHBONDLEVEL; input [2:0] RXOUTCLKSEL; input [2:0] RXPRBSSEL; input [2:0] RXRATE; input [2:0] TXBUFDIFFCTRL; input [2:0] TXHEADER; input [2:0] TXMARGIN; input [2:0] TXOUTCLKSEL; input [2:0] TXPRBSSEL; input [2:0] TXRATE; input [3:0] RXOSINTCFG; input [3:0] RXOSINTID0; input [3:0] TXDIFFCTRL; input [4:0] PCSRSVDIN2; input [4:0] PMARSVDIN; input [4:0] RXCHBONDI; input [4:0] RXDFEAGCTRL; input [4:0] RXDFESLIDETAP; input [4:0] TXPIPPMSTEPSIZE; input [4:0] TXPOSTCURSOR; input [4:0] TXPRECURSOR; input [5:0] RXDFESLIDETAPID; input [63:0] TXDATA; input [6:0] TXMAINCURSOR; input [6:0] TXSEQUENCE; input [7:0] TX8B10BBYPASS; input [7:0] TXCHARDISPMODE; input [7:0] TXCHARDISPVAL; input [7:0] TXCHARISK; input [8:0] DRPADDR; endmodule module GTHE2_COMMON (...); parameter [63:0] BIAS_CFG = 64'h0000040000001000; parameter [31:0] COMMON_CFG = 32'h0000001C; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0; parameter [0:0] IS_QPLLLOCKDETCLK_INVERTED = 1'b0; parameter [26:0] QPLL_CFG = 27'h0480181; parameter [3:0] QPLL_CLKOUT_CFG = 4'b0000; parameter [5:0] QPLL_COARSE_FREQ_OVRD = 6'b010000; parameter [0:0] QPLL_COARSE_FREQ_OVRD_EN = 1'b0; parameter [9:0] QPLL_CP = 10'b0000011111; parameter [0:0] QPLL_CP_MONITOR_EN = 1'b0; parameter [0:0] QPLL_DMONITOR_SEL = 1'b0; parameter [9:0] QPLL_FBDIV = 10'b0000000000; parameter [0:0] QPLL_FBDIV_MONITOR_EN = 1'b0; parameter [0:0] QPLL_FBDIV_RATIO = 1'b0; parameter [23:0] QPLL_INIT_CFG = 24'h000006; parameter [15:0] QPLL_LOCK_CFG = 16'h01E8; parameter [3:0] QPLL_LPF = 4'b1111; parameter integer QPLL_REFCLK_DIV = 2; parameter [0:0] QPLL_RP_COMP = 1'b0; parameter [1:0] QPLL_VTRL_RESET = 2'b00; parameter [1:0] RCAL_CFG = 2'b00; parameter [15:0] RSVD_ATTR0 = 16'h0000; parameter [15:0] RSVD_ATTR1 = 16'h0000; parameter [2:0] SIM_QPLLREFCLK_SEL = 3'b001; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_VERSION = "1.1"; output DRPRDY; output QPLLFBCLKLOST; output QPLLLOCK; output QPLLOUTCLK; output QPLLOUTREFCLK; output QPLLREFCLKLOST; output REFCLKOUTMONITOR; output [15:0] DRPDO; output [15:0] PMARSVDOUT; output [7:0] QPLLDMONITOR; input BGBYPASSB; input BGMONITORENB; input BGPDB; input BGRCALOVRDENB; input DRPCLK; input DRPEN; input DRPWE; input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; input QPLLLOCKDETCLK; input QPLLLOCKEN; input QPLLOUTRESET; input QPLLPD; input QPLLRESET; input RCALENB; input [15:0] DRPDI; input [15:0] QPLLRSVD1; input [2:0] QPLLREFCLKSEL; input [4:0] BGRCALOVRD; input [4:0] QPLLRSVD2; input [7:0] DRPADDR; input [7:0] PMARSVD; endmodule module GTPE2_CHANNEL (...); parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; parameter [0:0] ACJTAG_MODE = 1'b0; parameter [0:0] ACJTAG_RESET = 1'b0; parameter [19:0] ADAPT_CFG0 = 20'b00000000000000000000; parameter ALIGN_COMMA_DOUBLE = "FALSE"; parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; parameter integer ALIGN_COMMA_WORD = 1; parameter ALIGN_MCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; parameter ALIGN_PCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; parameter CBCC_DATA_SOURCE_SEL = "DECODED"; parameter [42:0] CFOK_CFG = 43'b1001001000000000000000001000000111010000000; parameter [6:0] CFOK_CFG2 = 7'b0100000; parameter [6:0] CFOK_CFG3 = 7'b0100000; parameter [0:0] CFOK_CFG4 = 1'b0; parameter [1:0] CFOK_CFG5 = 2'b00; parameter [3:0] CFOK_CFG6 = 4'b0000; parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; parameter integer CHAN_BOND_MAX_SKEW = 7; parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; parameter CHAN_BOND_SEQ_2_USE = "FALSE"; parameter integer CHAN_BOND_SEQ_LEN = 1; parameter [0:0] CLK_COMMON_SWING = 1'b0; parameter CLK_CORRECT_USE = "TRUE"; parameter CLK_COR_KEEP_IDLE = "FALSE"; parameter integer CLK_COR_MAX_LAT = 20; parameter integer CLK_COR_MIN_LAT = 18; parameter CLK_COR_PRECEDENCE = "TRUE"; parameter integer CLK_COR_REPEAT_WAIT = 0; parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; parameter CLK_COR_SEQ_2_USE = "FALSE"; parameter integer CLK_COR_SEQ_LEN = 1; parameter DEC_MCOMMA_DETECT = "TRUE"; parameter DEC_PCOMMA_DETECT = "TRUE"; parameter DEC_VALID_COMMA_ONLY = "TRUE"; parameter [23:0] DMONITOR_CFG = 24'h000A00; parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; parameter [5:0] ES_CONTROL = 6'b000000; parameter ES_ERRDET_EN = "FALSE"; parameter ES_EYE_SCAN_EN = "FALSE"; parameter [11:0] ES_HORZ_OFFSET = 12'h010; parameter [9:0] ES_PMA_CFG = 10'b0000000000; parameter [4:0] ES_PRESCALE = 5'b00000; parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000; parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000; parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000; parameter [8:0] ES_VERT_OFFSET = 9'b000000000; parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; parameter FTS_LANE_DESKEW_EN = "FALSE"; parameter [2:0] GEARBOX_MODE = 3'b000; parameter [0:0] IS_CLKRSVD0_INVERTED = 1'b0; parameter [0:0] IS_CLKRSVD1_INVERTED = 1'b0; parameter [0:0] IS_DMONITORCLK_INVERTED = 1'b0; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0; parameter [0:0] IS_SIGVALIDCLK_INVERTED = 1'b0; parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0; parameter [0:0] LOOPBACK_CFG = 1'b0; parameter [1:0] OUTREFCLK_SEL_INV = 2'b11; parameter PCS_PCIE_EN = "FALSE"; parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000; parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; parameter [0:0] PMA_LOOPBACK_CFG = 1'b0; parameter [31:0] PMA_RSV = 32'h00000333; parameter [31:0] PMA_RSV2 = 32'h00002050; parameter [1:0] PMA_RSV3 = 2'b00; parameter [3:0] PMA_RSV4 = 4'b0000; parameter [0:0] PMA_RSV5 = 1'b0; parameter [0:0] PMA_RSV6 = 1'b0; parameter [0:0] PMA_RSV7 = 1'b0; parameter [4:0] RXBUFRESET_TIME = 5'b00001; parameter RXBUF_ADDR_MODE = "FULL"; parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; parameter RXBUF_EN = "TRUE"; parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; parameter RXBUF_RESET_ON_EIDLE = "FALSE"; parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; parameter integer RXBUF_THRESH_OVFLW = 61; parameter RXBUF_THRESH_OVRD = "FALSE"; parameter integer RXBUF_THRESH_UNDFLW = 4; parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; parameter [82:0] RXCDR_CFG = 83'h0000107FE406001041010; parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; parameter [5:0] RXCDR_LOCK_CFG = 6'b001001; parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; parameter [15:0] RXDLY_CFG = 16'h0010; parameter [8:0] RXDLY_LCFG = 9'h020; parameter [15:0] RXDLY_TAP_CFG = 16'h0000; parameter RXGEARBOX_EN = "FALSE"; parameter [4:0] RXISCANRESET_TIME = 5'b00001; parameter [6:0] RXLPMRESET_TIME = 7'b0001111; parameter [0:0] RXLPM_BIAS_STARTUP_DISABLE = 1'b0; parameter [3:0] RXLPM_CFG = 4'b0110; parameter [0:0] RXLPM_CFG1 = 1'b0; parameter [0:0] RXLPM_CM_CFG = 1'b0; parameter [8:0] RXLPM_GC_CFG = 9'b111100010; parameter [2:0] RXLPM_GC_CFG2 = 3'b001; parameter [13:0] RXLPM_HF_CFG = 14'b00001111110000; parameter [4:0] RXLPM_HF_CFG2 = 5'b01010; parameter [3:0] RXLPM_HF_CFG3 = 4'b0000; parameter [0:0] RXLPM_HOLD_DURING_EIDLE = 1'b0; parameter [0:0] RXLPM_INCM_CFG = 1'b0; parameter [0:0] RXLPM_IPCM_CFG = 1'b0; parameter [17:0] RXLPM_LF_CFG = 18'b000000001111110000; parameter [4:0] RXLPM_LF_CFG2 = 5'b01010; parameter [2:0] RXLPM_OSINT_CFG = 3'b100; parameter [6:0] RXOOB_CFG = 7'b0000110; parameter RXOOB_CLK_CFG = "PMA"; parameter [4:0] RXOSCALRESET_TIME = 5'b00011; parameter [4:0] RXOSCALRESET_TIMEOUT = 5'b00000; parameter integer RXOUT_DIV = 2; parameter [4:0] RXPCSRESET_TIME = 5'b00001; parameter [23:0] RXPHDLY_CFG = 24'h084000; parameter [23:0] RXPH_CFG = 24'hC00002; parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; parameter [2:0] RXPI_CFG0 = 3'b000; parameter [0:0] RXPI_CFG1 = 1'b0; parameter [0:0] RXPI_CFG2 = 1'b0; parameter [4:0] RXPMARESET_TIME = 5'b00011; parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; parameter integer RXSLIDE_AUTO_WAIT = 7; parameter RXSLIDE_MODE = "OFF"; parameter [0:0] RXSYNC_MULTILANE = 1'b0; parameter [0:0] RXSYNC_OVRD = 1'b0; parameter [0:0] RXSYNC_SKIP_DA = 1'b0; parameter [15:0] RX_BIAS_CFG = 16'b0000111100110011; parameter [5:0] RX_BUFFER_CFG = 6'b000000; parameter integer RX_CLK25_DIV = 7; parameter [0:0] RX_CLKMUX_EN = 1'b1; parameter [1:0] RX_CM_SEL = 2'b11; parameter [3:0] RX_CM_TRIM = 4'b0100; parameter integer RX_DATA_WIDTH = 20; parameter [5:0] RX_DDI_SEL = 6'b000000; parameter [13:0] RX_DEBUG_CFG = 14'b00000000000000; parameter RX_DEFER_RESET_BUF_EN = "TRUE"; parameter RX_DISPERR_SEQ_MATCH = "TRUE"; parameter [12:0] RX_OS_CFG = 13'b0001111110000; parameter integer RX_SIG_VALID_DLY = 10; parameter RX_XCLK_SEL = "RXREC"; parameter integer SAS_MAX_COM = 64; parameter integer SAS_MIN_COM = 36; parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; parameter [2:0] SATA_BURST_VAL = 3'b100; parameter [2:0] SATA_EIDLE_VAL = 3'b100; parameter integer SATA_MAX_BURST = 8; parameter integer SATA_MAX_INIT = 21; parameter integer SATA_MAX_WAKE = 7; parameter integer SATA_MIN_BURST = 4; parameter integer SATA_MIN_INIT = 12; parameter integer SATA_MIN_WAKE = 4; parameter SATA_PLL_CFG = "VCO_3000MHZ"; parameter SHOW_REALIGN_COMMA = "TRUE"; parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X"; parameter SIM_VERSION = "1.0"; parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; parameter [2:0] TERM_RCAL_OVRD = 3'b000; parameter [7:0] TRANS_TIME_RATE = 8'h0E; parameter [31:0] TST_RSV = 32'h00000000; parameter TXBUF_EN = "TRUE"; parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; parameter [15:0] TXDLY_CFG = 16'h0010; parameter [8:0] TXDLY_LCFG = 9'h020; parameter [15:0] TXDLY_TAP_CFG = 16'h0000; parameter TXGEARBOX_EN = "FALSE"; parameter [0:0] TXOOB_CFG = 1'b0; parameter integer TXOUT_DIV = 2; parameter [4:0] TXPCSRESET_TIME = 5'b00001; parameter [23:0] TXPHDLY_CFG = 24'h084000; parameter [15:0] TXPH_CFG = 16'h0400; parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; parameter [1:0] TXPI_CFG0 = 2'b00; parameter [1:0] TXPI_CFG1 = 2'b00; parameter [1:0] TXPI_CFG2 = 2'b00; parameter [0:0] TXPI_CFG3 = 1'b0; parameter [0:0] TXPI_CFG4 = 1'b0; parameter [2:0] TXPI_CFG5 = 3'b000; parameter [0:0] TXPI_GREY_SEL = 1'b0; parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; parameter TXPI_PPMCLK_SEL = "TXUSRCLK2"; parameter [7:0] TXPI_PPM_CFG = 8'b00000000; parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; parameter [4:0] TXPMARESET_TIME = 5'b00001; parameter [0:0] TXSYNC_MULTILANE = 1'b0; parameter [0:0] TXSYNC_OVRD = 1'b0; parameter [0:0] TXSYNC_SKIP_DA = 1'b0; parameter integer TX_CLK25_DIV = 7; parameter [0:0] TX_CLKMUX_EN = 1'b1; parameter integer TX_DATA_WIDTH = 20; parameter [5:0] TX_DEEMPH0 = 6'b000000; parameter [5:0] TX_DEEMPH1 = 6'b000000; parameter TX_DRIVE_MODE = "DIRECT"; parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; parameter [0:0] TX_PREDRIVER_MODE = 1'b0; parameter [13:0] TX_RXDETECT_CFG = 14'h1832; parameter [2:0] TX_RXDETECT_REF = 3'b100; parameter TX_XCLK_SEL = "TXUSR"; parameter [0:0] UCODEER_CLR = 1'b0; parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; output DRPRDY; output EYESCANDATAERROR; output GTPTXN; output GTPTXP; output PHYSTATUS; output PMARSVDOUT0; output PMARSVDOUT1; output RXBYTEISALIGNED; output RXBYTEREALIGN; output RXCDRLOCK; output RXCHANBONDSEQ; output RXCHANISALIGNED; output RXCHANREALIGN; output RXCOMINITDET; output RXCOMMADET; output RXCOMSASDET; output RXCOMWAKEDET; output RXDLYSRESETDONE; output RXELECIDLE; output RXHEADERVALID; output RXOSINTDONE; output RXOSINTSTARTED; output RXOSINTSTROBEDONE; output RXOSINTSTROBESTARTED; output RXOUTCLK; output RXOUTCLKFABRIC; output RXOUTCLKPCS; output RXPHALIGNDONE; output RXPMARESETDONE; output RXPRBSERR; output RXRATEDONE; output RXRESETDONE; output RXSYNCDONE; output RXSYNCOUT; output RXVALID; output TXCOMFINISH; output TXDLYSRESETDONE; output TXGEARBOXREADY; output TXOUTCLK; output TXOUTCLKFABRIC; output TXOUTCLKPCS; output TXPHALIGNDONE; output TXPHINITDONE; output TXPMARESETDONE; output TXRATEDONE; output TXRESETDONE; output TXSYNCDONE; output TXSYNCOUT; output [14:0] DMONITOROUT; output [15:0] DRPDO; output [15:0] PCSRSVDOUT; output [1:0] RXCLKCORCNT; output [1:0] RXDATAVALID; output [1:0] RXSTARTOFSEQ; output [1:0] TXBUFSTATUS; output [2:0] RXBUFSTATUS; output [2:0] RXHEADER; output [2:0] RXSTATUS; output [31:0] RXDATA; output [3:0] RXCHARISCOMMA; output [3:0] RXCHARISK; output [3:0] RXCHBONDO; output [3:0] RXDISPERR; output [3:0] RXNOTINTABLE; output [4:0] RXPHMONITOR; output [4:0] RXPHSLIPMONITOR; input CFGRESET; input CLKRSVD0; input CLKRSVD1; input DMONFIFORESET; input DMONITORCLK; input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; input GTPRXN; input GTPRXP; input GTRESETSEL; input GTRXRESET; input GTTXRESET; input PLL0CLK; input PLL0REFCLK; input PLL1CLK; input PLL1REFCLK; input PMARSVDIN0; input PMARSVDIN1; input PMARSVDIN2; input PMARSVDIN3; input PMARSVDIN4; input RESETOVRD; input RX8B10BEN; input RXBUFRESET; input RXCDRFREQRESET; input RXCDRHOLD; input RXCDROVRDEN; input RXCDRRESET; input RXCDRRESETRSV; input RXCHBONDEN; input RXCHBONDMASTER; input RXCHBONDSLAVE; input RXCOMMADETEN; input RXDDIEN; input RXDFEXYDEN; input RXDLYBYPASS; input RXDLYEN; input RXDLYOVRDEN; input RXDLYSRESET; input RXGEARBOXSLIP; input RXLPMHFHOLD; input RXLPMHFOVRDEN; input RXLPMLFHOLD; input RXLPMLFOVRDEN; input RXLPMOSINTNTRLEN; input RXLPMRESET; input RXMCOMMAALIGNEN; input RXOOBRESET; input RXOSCALRESET; input RXOSHOLD; input RXOSINTEN; input RXOSINTHOLD; input RXOSINTNTRLEN; input RXOSINTOVRDEN; input RXOSINTPD; input RXOSINTSTROBE; input RXOSINTTESTOVRDEN; input RXOSOVRDEN; input RXPCOMMAALIGNEN; input RXPCSRESET; input RXPHALIGN; input RXPHALIGNEN; input RXPHDLYPD; input RXPHDLYRESET; input RXPHOVRDEN; input RXPMARESET; input RXPOLARITY; input RXPRBSCNTRESET; input RXRATEMODE; input RXSLIDE; input RXSYNCALLIN; input RXSYNCIN; input RXSYNCMODE; input RXUSERRDY; input RXUSRCLK2; input RXUSRCLK; input SETERRSTATUS; input SIGVALIDCLK; input TX8B10BEN; input TXCOMINIT; input TXCOMSAS; input TXCOMWAKE; input TXDEEMPH; input TXDETECTRX; input TXDIFFPD; input TXDLYBYPASS; input TXDLYEN; input TXDLYHOLD; input TXDLYOVRDEN; input TXDLYSRESET; input TXDLYUPDOWN; input TXELECIDLE; input TXINHIBIT; input TXPCSRESET; input TXPDELECIDLEMODE; input TXPHALIGN; input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; input TXPIPPMEN; input TXPIPPMOVRDEN; input TXPIPPMPD; input TXPIPPMSEL; input TXPISOPD; input TXPMARESET; input TXPOLARITY; input TXPOSTCURSORINV; input TXPRBSFORCEERR; input TXPRECURSORINV; input TXRATEMODE; input TXSTARTSEQ; input TXSWING; input TXSYNCALLIN; input TXSYNCIN; input TXSYNCMODE; input TXUSERRDY; input TXUSRCLK2; input TXUSRCLK; input [13:0] RXADAPTSELTEST; input [15:0] DRPDI; input [15:0] GTRSVD; input [15:0] PCSRSVDIN; input [19:0] TSTIN; input [1:0] RXELECIDLEMODE; input [1:0] RXPD; input [1:0] RXSYSCLKSEL; input [1:0] TXPD; input [1:0] TXSYSCLKSEL; input [2:0] LOOPBACK; input [2:0] RXCHBONDLEVEL; input [2:0] RXOUTCLKSEL; input [2:0] RXPRBSSEL; input [2:0] RXRATE; input [2:0] TXBUFDIFFCTRL; input [2:0] TXHEADER; input [2:0] TXMARGIN; input [2:0] TXOUTCLKSEL; input [2:0] TXPRBSSEL; input [2:0] TXRATE; input [31:0] TXDATA; input [3:0] RXCHBONDI; input [3:0] RXOSINTCFG; input [3:0] RXOSINTID0; input [3:0] TX8B10BBYPASS; input [3:0] TXCHARDISPMODE; input [3:0] TXCHARDISPVAL; input [3:0] TXCHARISK; input [3:0] TXDIFFCTRL; input [4:0] TXPIPPMSTEPSIZE; input [4:0] TXPOSTCURSOR; input [4:0] TXPRECURSOR; input [6:0] TXMAINCURSOR; input [6:0] TXSEQUENCE; input [8:0] DRPADDR; endmodule module GTPE2_COMMON (...); parameter [63:0] BIAS_CFG = 64'h0000000000000000; parameter [31:0] COMMON_CFG = 32'h00000000; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK0_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK1_INVERTED = 1'b0; parameter [0:0] IS_PLL0LOCKDETCLK_INVERTED = 1'b0; parameter [0:0] IS_PLL1LOCKDETCLK_INVERTED = 1'b0; parameter [26:0] PLL0_CFG = 27'h01F03DC; parameter [0:0] PLL0_DMON_CFG = 1'b0; parameter integer PLL0_FBDIV = 4; parameter integer PLL0_FBDIV_45 = 5; parameter [23:0] PLL0_INIT_CFG = 24'h00001E; parameter [8:0] PLL0_LOCK_CFG = 9'h1E8; parameter integer PLL0_REFCLK_DIV = 1; parameter [26:0] PLL1_CFG = 27'h01F03DC; parameter [0:0] PLL1_DMON_CFG = 1'b0; parameter integer PLL1_FBDIV = 4; parameter integer PLL1_FBDIV_45 = 5; parameter [23:0] PLL1_INIT_CFG = 24'h00001E; parameter [8:0] PLL1_LOCK_CFG = 9'h1E8; parameter integer PLL1_REFCLK_DIV = 1; parameter [7:0] PLL_CLKOUT_CFG = 8'b00000000; parameter [15:0] RSVD_ATTR0 = 16'h0000; parameter [15:0] RSVD_ATTR1 = 16'h0000; parameter [2:0] SIM_PLL0REFCLK_SEL = 3'b001; parameter [2:0] SIM_PLL1REFCLK_SEL = 3'b001; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_VERSION = "1.0"; output DRPRDY; output PLL0FBCLKLOST; output PLL0LOCK; output PLL0OUTCLK; output PLL0OUTREFCLK; output PLL0REFCLKLOST; output PLL1FBCLKLOST; output PLL1LOCK; output PLL1OUTCLK; output PLL1OUTREFCLK; output PLL1REFCLKLOST; output REFCLKOUTMONITOR0; output REFCLKOUTMONITOR1; output [15:0] DRPDO; output [15:0] PMARSVDOUT; output [7:0] DMONITOROUT; input BGBYPASSB; input BGMONITORENB; input BGPDB; input BGRCALOVRDENB; input DRPCLK; input DRPEN; input DRPWE; input GTEASTREFCLK0; input GTEASTREFCLK1; input GTGREFCLK0; input GTGREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTWESTREFCLK0; input GTWESTREFCLK1; input PLL0LOCKDETCLK; input PLL0LOCKEN; input PLL0PD; input PLL0RESET; input PLL1LOCKDETCLK; input PLL1LOCKEN; input PLL1PD; input PLL1RESET; input RCALENB; input [15:0] DRPDI; input [15:0] PLLRSVD1; input [2:0] PLL0REFCLKSEL; input [2:0] PLL1REFCLKSEL; input [4:0] BGRCALOVRD; input [4:0] PLLRSVD2; input [7:0] DRPADDR; input [7:0] PMARSVD; endmodule module GTXE2_CHANNEL (...); parameter ALIGN_COMMA_DOUBLE = "FALSE"; parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; parameter integer ALIGN_COMMA_WORD = 1; parameter ALIGN_MCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; parameter ALIGN_PCOMMA_DET = "TRUE"; parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; parameter CBCC_DATA_SOURCE_SEL = "DECODED"; parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; parameter integer CHAN_BOND_MAX_SKEW = 7; parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; parameter CHAN_BOND_SEQ_2_USE = "FALSE"; parameter integer CHAN_BOND_SEQ_LEN = 1; parameter CLK_CORRECT_USE = "TRUE"; parameter CLK_COR_KEEP_IDLE = "FALSE"; parameter integer CLK_COR_MAX_LAT = 20; parameter integer CLK_COR_MIN_LAT = 18; parameter CLK_COR_PRECEDENCE = "TRUE"; parameter integer CLK_COR_REPEAT_WAIT = 0; parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; parameter CLK_COR_SEQ_2_USE = "FALSE"; parameter integer CLK_COR_SEQ_LEN = 1; parameter [23:0] CPLL_CFG = 24'hB007D8; parameter integer CPLL_FBDIV = 4; parameter integer CPLL_FBDIV_45 = 5; parameter [23:0] CPLL_INIT_CFG = 24'h00001E; parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; parameter integer CPLL_REFCLK_DIV = 1; parameter DEC_MCOMMA_DETECT = "TRUE"; parameter DEC_PCOMMA_DETECT = "TRUE"; parameter DEC_VALID_COMMA_ONLY = "TRUE"; parameter [23:0] DMONITOR_CFG = 24'h000A00; parameter [5:0] ES_CONTROL = 6'b000000; parameter ES_ERRDET_EN = "FALSE"; parameter ES_EYE_SCAN_EN = "FALSE"; parameter [11:0] ES_HORZ_OFFSET = 12'h000; parameter [9:0] ES_PMA_CFG = 10'b0000000000; parameter [4:0] ES_PRESCALE = 5'b00000; parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000; parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000; parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000; parameter [8:0] ES_VERT_OFFSET = 9'b000000000; parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; parameter FTS_LANE_DESKEW_EN = "FALSE"; parameter [2:0] GEARBOX_MODE = 3'b000; parameter [0:0] IS_CPLLLOCKDETCLK_INVERTED = 1'b0; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0; parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0; parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0; parameter [1:0] OUTREFCLK_SEL_INV = 2'b11; parameter PCS_PCIE_EN = "FALSE"; parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000; parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; parameter [31:0] PMA_RSV = 32'h00000000; parameter [15:0] PMA_RSV2 = 16'h2050; parameter [1:0] PMA_RSV3 = 2'b00; parameter [31:0] PMA_RSV4 = 32'h00000000; parameter [4:0] RXBUFRESET_TIME = 5'b00001; parameter RXBUF_ADDR_MODE = "FULL"; parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; parameter RXBUF_EN = "TRUE"; parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; parameter RXBUF_RESET_ON_EIDLE = "FALSE"; parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; parameter integer RXBUF_THRESH_OVFLW = 61; parameter RXBUF_THRESH_OVRD = "FALSE"; parameter integer RXBUF_THRESH_UNDFLW = 4; parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; parameter [71:0] RXCDR_CFG = 72'h0B000023FF20400020; parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; parameter [5:0] RXCDR_LOCK_CFG = 6'b010101; parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; parameter [15:0] RXDLY_CFG = 16'h001F; parameter [8:0] RXDLY_LCFG = 9'h030; parameter [15:0] RXDLY_TAP_CFG = 16'h0000; parameter RXGEARBOX_EN = "FALSE"; parameter [4:0] RXISCANRESET_TIME = 5'b00001; parameter [13:0] RXLPM_HF_CFG = 14'b00000011110000; parameter [13:0] RXLPM_LF_CFG = 14'b00000011110000; parameter [6:0] RXOOB_CFG = 7'b0000110; parameter integer RXOUT_DIV = 2; parameter [4:0] RXPCSRESET_TIME = 5'b00001; parameter [23:0] RXPHDLY_CFG = 24'h084020; parameter [23:0] RXPH_CFG = 24'h000000; parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; parameter [4:0] RXPMARESET_TIME = 5'b00011; parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; parameter integer RXSLIDE_AUTO_WAIT = 7; parameter RXSLIDE_MODE = "OFF"; parameter [11:0] RX_BIAS_CFG = 12'b000000000000; parameter [5:0] RX_BUFFER_CFG = 6'b000000; parameter integer RX_CLK25_DIV = 7; parameter [0:0] RX_CLKMUX_PD = 1'b1; parameter [1:0] RX_CM_SEL = 2'b11; parameter [2:0] RX_CM_TRIM = 3'b100; parameter integer RX_DATA_WIDTH = 20; parameter [5:0] RX_DDI_SEL = 6'b000000; parameter [11:0] RX_DEBUG_CFG = 12'b000000000000; parameter RX_DEFER_RESET_BUF_EN = "TRUE"; parameter [22:0] RX_DFE_GAIN_CFG = 23'h180E0F; parameter [11:0] RX_DFE_H2_CFG = 12'b000111100000; parameter [11:0] RX_DFE_H3_CFG = 12'b000111100000; parameter [10:0] RX_DFE_H4_CFG = 11'b00011110000; parameter [10:0] RX_DFE_H5_CFG = 11'b00011110000; parameter [12:0] RX_DFE_KL_CFG = 13'b0001111110000; parameter [31:0] RX_DFE_KL_CFG2 = 32'h3008E56A; parameter [15:0] RX_DFE_LPM_CFG = 16'h0904; parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; parameter [16:0] RX_DFE_UT_CFG = 17'b00111111000000000; parameter [16:0] RX_DFE_VP_CFG = 17'b00011111100000000; parameter [12:0] RX_DFE_XYD_CFG = 13'b0000000010000; parameter RX_DISPERR_SEQ_MATCH = "TRUE"; parameter integer RX_INT_DATAWIDTH = 0; parameter [12:0] RX_OS_CFG = 13'b0001111110000; parameter integer RX_SIG_VALID_DLY = 10; parameter RX_XCLK_SEL = "RXREC"; parameter integer SAS_MAX_COM = 64; parameter integer SAS_MIN_COM = 36; parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; parameter [2:0] SATA_BURST_VAL = 3'b100; parameter SATA_CPLL_CFG = "VCO_3000MHZ"; parameter [2:0] SATA_EIDLE_VAL = 3'b100; parameter integer SATA_MAX_BURST = 8; parameter integer SATA_MAX_INIT = 21; parameter integer SATA_MAX_WAKE = 7; parameter integer SATA_MIN_BURST = 4; parameter integer SATA_MIN_INIT = 12; parameter integer SATA_MIN_WAKE = 4; parameter SHOW_REALIGN_COMMA = "TRUE"; parameter [2:0] SIM_CPLLREFCLK_SEL = 3'b001; parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X"; parameter SIM_VERSION = "4.0"; parameter [4:0] TERM_RCAL_CFG = 5'b10000; parameter [0:0] TERM_RCAL_OVRD = 1'b0; parameter [7:0] TRANS_TIME_RATE = 8'h0E; parameter [31:0] TST_RSV = 32'h00000000; parameter TXBUF_EN = "TRUE"; parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; parameter [15:0] TXDLY_CFG = 16'h001F; parameter [8:0] TXDLY_LCFG = 9'h030; parameter [15:0] TXDLY_TAP_CFG = 16'h0000; parameter TXGEARBOX_EN = "FALSE"; parameter integer TXOUT_DIV = 2; parameter [4:0] TXPCSRESET_TIME = 5'b00001; parameter [23:0] TXPHDLY_CFG = 24'h084020; parameter [15:0] TXPH_CFG = 16'h0780; parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; parameter [4:0] TXPMARESET_TIME = 5'b00001; parameter integer TX_CLK25_DIV = 7; parameter [0:0] TX_CLKMUX_PD = 1'b1; parameter integer TX_DATA_WIDTH = 20; parameter [4:0] TX_DEEMPH0 = 5'b00000; parameter [4:0] TX_DEEMPH1 = 5'b00000; parameter TX_DRIVE_MODE = "DIRECT"; parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; parameter integer TX_INT_DATAWIDTH = 0; parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; parameter [0:0] TX_PREDRIVER_MODE = 1'b0; parameter [0:0] TX_QPI_STATUS_EN = 1'b0; parameter [13:0] TX_RXDETECT_CFG = 14'h1832; parameter [2:0] TX_RXDETECT_REF = 3'b100; parameter TX_XCLK_SEL = "TXUSR"; parameter [0:0] UCODEER_CLR = 1'b0; output CPLLFBCLKLOST; output CPLLLOCK; output CPLLREFCLKLOST; output DRPRDY; output EYESCANDATAERROR; output GTREFCLKMONITOR; output GTXTXN; output GTXTXP; output PHYSTATUS; output RXBYTEISALIGNED; output RXBYTEREALIGN; output RXCDRLOCK; output RXCHANBONDSEQ; output RXCHANISALIGNED; output RXCHANREALIGN; output RXCOMINITDET; output RXCOMMADET; output RXCOMSASDET; output RXCOMWAKEDET; output RXDATAVALID; output RXDLYSRESETDONE; output RXELECIDLE; output RXHEADERVALID; output RXOUTCLK; output RXOUTCLKFABRIC; output RXOUTCLKPCS; output RXPHALIGNDONE; output RXPRBSERR; output RXQPISENN; output RXQPISENP; output RXRATEDONE; output RXRESETDONE; output RXSTARTOFSEQ; output RXVALID; output TXCOMFINISH; output TXDLYSRESETDONE; output TXGEARBOXREADY; output TXOUTCLK; output TXOUTCLKFABRIC; output TXOUTCLKPCS; output TXPHALIGNDONE; output TXPHINITDONE; output TXQPISENN; output TXQPISENP; output TXRATEDONE; output TXRESETDONE; output [15:0] DRPDO; output [15:0] PCSRSVDOUT; output [1:0] RXCLKCORCNT; output [1:0] TXBUFSTATUS; output [2:0] RXBUFSTATUS; output [2:0] RXHEADER; output [2:0] RXSTATUS; output [4:0] RXCHBONDO; output [4:0] RXPHMONITOR; output [4:0] RXPHSLIPMONITOR; output [63:0] RXDATA; output [6:0] RXMONITOROUT; output [7:0] DMONITOROUT; output [7:0] RXCHARISCOMMA; output [7:0] RXCHARISK; output [7:0] RXDISPERR; output [7:0] RXNOTINTABLE; output [9:0] TSTOUT; input CFGRESET; input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTRESETSEL; input GTRXRESET; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; input GTTXRESET; input GTXRXN; input GTXRXP; input QPLLCLK; input QPLLREFCLK; input RESETOVRD; input RX8B10BEN; input RXBUFRESET; input RXCDRFREQRESET; input RXCDRHOLD; input RXCDROVRDEN; input RXCDRRESET; input RXCDRRESETRSV; input RXCHBONDEN; input RXCHBONDMASTER; input RXCHBONDSLAVE; input RXCOMMADETEN; input RXDDIEN; input RXDFEAGCHOLD; input RXDFEAGCOVRDEN; input RXDFECM1EN; input RXDFELFHOLD; input RXDFELFOVRDEN; input RXDFELPMRESET; input RXDFETAP2HOLD; input RXDFETAP2OVRDEN; input RXDFETAP3HOLD; input RXDFETAP3OVRDEN; input RXDFETAP4HOLD; input RXDFETAP4OVRDEN; input RXDFETAP5HOLD; input RXDFETAP5OVRDEN; input RXDFEUTHOLD; input RXDFEUTOVRDEN; input RXDFEVPHOLD; input RXDFEVPOVRDEN; input RXDFEVSEN; input RXDFEXYDEN; input RXDFEXYDHOLD; input RXDFEXYDOVRDEN; input RXDLYBYPASS; input RXDLYEN; input RXDLYOVRDEN; input RXDLYSRESET; input RXGEARBOXSLIP; input RXLPMEN; input RXLPMHFHOLD; input RXLPMHFOVRDEN; input RXLPMLFHOLD; input RXLPMLFKLOVRDEN; input RXMCOMMAALIGNEN; input RXOOBRESET; input RXOSHOLD; input RXOSOVRDEN; input RXPCOMMAALIGNEN; input RXPCSRESET; input RXPHALIGN; input RXPHALIGNEN; input RXPHDLYPD; input RXPHDLYRESET; input RXPHOVRDEN; input RXPMARESET; input RXPOLARITY; input RXPRBSCNTRESET; input RXQPIEN; input RXSLIDE; input RXUSERRDY; input RXUSRCLK2; input RXUSRCLK; input SETERRSTATUS; input TX8B10BEN; input TXCOMINIT; input TXCOMSAS; input TXCOMWAKE; input TXDEEMPH; input TXDETECTRX; input TXDIFFPD; input TXDLYBYPASS; input TXDLYEN; input TXDLYHOLD; input TXDLYOVRDEN; input TXDLYSRESET; input TXDLYUPDOWN; input TXELECIDLE; input TXINHIBIT; input TXPCSRESET; input TXPDELECIDLEMODE; input TXPHALIGN; input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; input TXPISOPD; input TXPMARESET; input TXPOLARITY; input TXPOSTCURSORINV; input TXPRBSFORCEERR; input TXPRECURSORINV; input TXQPIBIASEN; input TXQPISTRONGPDOWN; input TXQPIWEAKPUP; input TXSTARTSEQ; input TXSWING; input TXUSERRDY; input TXUSRCLK2; input TXUSRCLK; input [15:0] DRPDI; input [15:0] GTRSVD; input [15:0] PCSRSVDIN; input [19:0] TSTIN; input [1:0] RXELECIDLEMODE; input [1:0] RXMONITORSEL; input [1:0] RXPD; input [1:0] RXSYSCLKSEL; input [1:0] TXPD; input [1:0] TXSYSCLKSEL; input [2:0] CPLLREFCLKSEL; input [2:0] LOOPBACK; input [2:0] RXCHBONDLEVEL; input [2:0] RXOUTCLKSEL; input [2:0] RXPRBSSEL; input [2:0] RXRATE; input [2:0] TXBUFDIFFCTRL; input [2:0] TXHEADER; input [2:0] TXMARGIN; input [2:0] TXOUTCLKSEL; input [2:0] TXPRBSSEL; input [2:0] TXRATE; input [3:0] CLKRSVD; input [3:0] TXDIFFCTRL; input [4:0] PCSRSVDIN2; input [4:0] PMARSVDIN2; input [4:0] PMARSVDIN; input [4:0] RXCHBONDI; input [4:0] TXPOSTCURSOR; input [4:0] TXPRECURSOR; input [63:0] TXDATA; input [6:0] TXMAINCURSOR; input [6:0] TXSEQUENCE; input [7:0] TX8B10BBYPASS; input [7:0] TXCHARDISPMODE; input [7:0] TXCHARDISPVAL; input [7:0] TXCHARISK; input [8:0] DRPADDR; endmodule module GTXE2_COMMON (...); parameter [63:0] BIAS_CFG = 64'h0000040000001000; parameter [31:0] COMMON_CFG = 32'h00000000; parameter [0:0] IS_DRPCLK_INVERTED = 1'b0; parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0; parameter [0:0] IS_QPLLLOCKDETCLK_INVERTED = 1'b0; parameter [26:0] QPLL_CFG = 27'h0680181; parameter [3:0] QPLL_CLKOUT_CFG = 4'b0000; parameter [5:0] QPLL_COARSE_FREQ_OVRD = 6'b010000; parameter [0:0] QPLL_COARSE_FREQ_OVRD_EN = 1'b0; parameter [9:0] QPLL_CP = 10'b0000011111; parameter [0:0] QPLL_CP_MONITOR_EN = 1'b0; parameter [0:0] QPLL_DMONITOR_SEL = 1'b0; parameter [9:0] QPLL_FBDIV = 10'b0000000000; parameter [0:0] QPLL_FBDIV_MONITOR_EN = 1'b0; parameter [0:0] QPLL_FBDIV_RATIO = 1'b0; parameter [23:0] QPLL_INIT_CFG = 24'h000006; parameter [15:0] QPLL_LOCK_CFG = 16'h21E8; parameter [3:0] QPLL_LPF = 4'b1111; parameter integer QPLL_REFCLK_DIV = 2; parameter [2:0] SIM_QPLLREFCLK_SEL = 3'b001; parameter SIM_RESET_SPEEDUP = "TRUE"; parameter SIM_VERSION = "4.0"; output DRPRDY; output QPLLFBCLKLOST; output QPLLLOCK; output QPLLOUTCLK; output QPLLOUTREFCLK; output QPLLREFCLKLOST; output REFCLKOUTMONITOR; output [15:0] DRPDO; output [7:0] QPLLDMONITOR; input BGBYPASSB; input BGMONITORENB; input BGPDB; input DRPCLK; input DRPEN; input DRPWE; input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; input QPLLLOCKDETCLK; input QPLLLOCKEN; input QPLLOUTRESET; input QPLLPD; input QPLLRESET; input RCALENB; input [15:0] DRPDI; input [15:0] QPLLRSVD1; input [2:0] QPLLREFCLKSEL; input [4:0] BGRCALOVRD; input [4:0] QPLLRSVD2; input [7:0] DRPADDR; input [7:0] PMARSVD; endmodule module IBUF_IBUFDISABLE (...); parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IBUFDISABLE; endmodule module IBUF_INTERMDISABLE (...); parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IBUFDISABLE; input INTERMDISABLE; endmodule module IBUFDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_DELAY_VALUE = "0"; parameter IBUF_LOW_PWR = "TRUE"; parameter IFD_DELAY_VALUE = "AUTO"; parameter IOSTANDARD = "DEFAULT"; output O; input I, IB; endmodule module IBUFDS_DIFF_OUT (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O, OB; input I, IB; endmodule module IBUFDS_DIFF_OUT_IBUFDISABLE (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; input I; input IB; input IBUFDISABLE; endmodule module IBUFDS_DIFF_OUT_INTERMDISABLE (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; input I; input IB; input IBUFDISABLE; input INTERMDISABLE; endmodule module IBUFDS_GTE2 (...); parameter CLKCM_CFG = "TRUE"; parameter CLKRCV_TRST = "TRUE"; parameter CLKSWING_CFG = "TRUE"; output O; output ODIV2; input CEB; input I; input IB; endmodule module IBUFDS_IBUFDISABLE (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IB; input IBUFDISABLE; endmodule module IBUFDS_INTERMDISABLE (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IB; input IBUFDISABLE; input INTERMDISABLE; endmodule (* keep *) module ICAPE2 (...); parameter [31:0] DEVICE_ID = 32'h04244093; parameter ICAP_WIDTH = "X32"; parameter SIM_CFG_FILE_NAME = "NONE"; output [31:0] O; input CLK; input CSIB; input RDWRB; input [31:0] I; endmodule module IDDR (...); parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; parameter INIT_Q1 = 1'b0; parameter INIT_Q2 = 1'b0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; parameter SRTYPE = "SYNC"; parameter MSGON = "TRUE"; parameter XON = "TRUE"; output Q1; output Q2; input C; input CE; input D; input R; input S; endmodule module IDDR_2CLK (...); parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; parameter INIT_Q1 = 1'b0; parameter INIT_Q2 = 1'b0; parameter [0:0] IS_CB_INVERTED = 1'b0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; parameter SRTYPE = "SYNC"; output Q1; output Q2; input C; input CB; input CE; input D; input R; input S; endmodule (* keep *) module IDELAYCTRL (...); parameter SIM_DEVICE = "7SERIES"; output RDY; input REFCLK; input RST; endmodule module IDELAYE2 (...); parameter CINVCTRL_SEL = "FALSE"; parameter DELAY_SRC = "IDATAIN"; parameter HIGH_PERFORMANCE_MODE = "FALSE"; parameter IDELAY_TYPE = "FIXED"; parameter integer IDELAY_VALUE = 0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_DATAIN_INVERTED = 1'b0; parameter [0:0] IS_IDATAIN_INVERTED = 1'b0; parameter PIPE_SEL = "FALSE"; parameter real REFCLK_FREQUENCY = 200.0; parameter SIGNAL_PATTERN = "DATA"; parameter integer SIM_DELAY_D = 0; output [4:0] CNTVALUEOUT; output DATAOUT; input C; input CE; input CINVCTRL; input [4:0] CNTVALUEIN; input DATAIN; input IDATAIN; input INC; input LD; input LDPIPEEN; input REGRST; endmodule module IN_FIFO (...); parameter integer ALMOST_EMPTY_VALUE = 1; parameter integer ALMOST_FULL_VALUE = 1; parameter ARRAY_MODE = "ARRAY_MODE_4_X_8"; parameter SYNCHRONOUS_MODE = "FALSE"; output ALMOSTEMPTY; output ALMOSTFULL; output EMPTY; output FULL; output [7:0] Q0; output [7:0] Q1; output [7:0] Q2; output [7:0] Q3; output [7:0] Q4; output [7:0] Q5; output [7:0] Q6; output [7:0] Q7; output [7:0] Q8; output [7:0] Q9; input RDCLK; input RDEN; input RESET; input WRCLK; input WREN; input [3:0] D0; input [3:0] D1; input [3:0] D2; input [3:0] D3; input [3:0] D4; input [3:0] D7; input [3:0] D8; input [3:0] D9; input [7:0] D5; input [7:0] D6; endmodule module IOBUF (...); parameter integer DRIVE = 12; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; inout IO; input I, T; endmodule module IOBUF_DCIEN (...); parameter integer DRIVE = 12; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; inout IO; input DCITERMDISABLE; input I; input IBUFDISABLE; input T; endmodule module IOBUF_INTERMDISABLE (...); parameter integer DRIVE = 12; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; inout IO; input I; input IBUFDISABLE; input INTERMDISABLE; input T; endmodule module IOBUFDS (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; inout IO, IOB; input I, T; endmodule module IOBUFDS_DCIEN (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; inout IO; inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; input T; endmodule module IOBUFDS_DIFF_OUT (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O; output OB; inout IO; inout IOB; input I; input TM; input TS; endmodule module IOBUFDS_DIFF_OUT_DCIEN (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; inout IO; inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; input TM; input TS; endmodule module IOBUFDS_DIFF_OUT_INTERMDISABLE (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; inout IO; inout IOB; input I; input IBUFDISABLE; input INTERMDISABLE; input TM; input TS; endmodule module ISERDESE2 (...); parameter DATA_RATE = "DDR"; parameter integer DATA_WIDTH = 4; parameter DYN_CLKDIV_INV_EN = "FALSE"; parameter DYN_CLK_INV_EN = "FALSE"; parameter [0:0] INIT_Q1 = 1'b0; parameter [0:0] INIT_Q2 = 1'b0; parameter [0:0] INIT_Q3 = 1'b0; parameter [0:0] INIT_Q4 = 1'b0; parameter INTERFACE_TYPE = "MEMORY"; parameter IOBDELAY = "NONE"; parameter [0:0] IS_CLKB_INVERTED = 1'b0; parameter [0:0] IS_CLKDIVP_INVERTED = 1'b0; parameter [0:0] IS_CLKDIV_INVERTED = 1'b0; parameter [0:0] IS_CLK_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; parameter [0:0] IS_OCLKB_INVERTED = 1'b0; parameter [0:0] IS_OCLK_INVERTED = 1'b0; parameter integer NUM_CE = 2; parameter OFB_USED = "FALSE"; parameter SERDES_MODE = "MASTER"; parameter [0:0] SRVAL_Q1 = 1'b0; parameter [0:0] SRVAL_Q2 = 1'b0; parameter [0:0] SRVAL_Q3 = 1'b0; parameter [0:0] SRVAL_Q4 = 1'b0; output O; output Q1; output Q2; output Q3; output Q4; output Q5; output Q6; output Q7; output Q8; output SHIFTOUT1; output SHIFTOUT2; input BITSLIP; input CE1; input CE2; input CLK; input CLKB; input CLKDIV; input CLKDIVP; input D; input DDLY; input DYNCLKDIVSEL; input DYNCLKSEL; input OCLK; input OCLKB; input OFB; input RST; input SHIFTIN1; input SHIFTIN2; endmodule module KEEPER (...); inout O; endmodule module LDCE (...); parameter [0:0] INIT = 1'b0; parameter [0:0] IS_CLR_INVERTED = 1'b0; parameter [0:0] IS_G_INVERTED = 1'b0; parameter MSGON = "TRUE"; parameter XON = "TRUE"; output Q; input CLR, D, G, GE; endmodule module LDPE (...); parameter [0:0] INIT = 1'b1; parameter [0:0] IS_G_INVERTED = 1'b0; parameter [0:0] IS_PRE_INVERTED = 1'b0; parameter MSGON = "TRUE"; parameter XON = "TRUE"; output Q; input D, G, GE, PRE; endmodule module MMCME2_ADV (...); parameter BANDWIDTH = "OPTIMIZED"; parameter real CLKFBOUT_MULT_F = 5.000; parameter real CLKFBOUT_PHASE = 0.000; parameter CLKFBOUT_USE_FINE_PS = "FALSE"; parameter real CLKIN1_PERIOD = 0.000; parameter real CLKIN2_PERIOD = 0.000; parameter real CLKIN_FREQ_MAX = 1066.000; parameter real CLKIN_FREQ_MIN = 10.000; parameter real CLKOUT0_DIVIDE_F = 1.000; parameter real CLKOUT0_DUTY_CYCLE = 0.500; parameter real CLKOUT0_PHASE = 0.000; parameter CLKOUT0_USE_FINE_PS = "FALSE"; parameter integer CLKOUT1_DIVIDE = 1; parameter real CLKOUT1_DUTY_CYCLE = 0.500; parameter real CLKOUT1_PHASE = 0.000; parameter CLKOUT1_USE_FINE_PS = "FALSE"; parameter integer CLKOUT2_DIVIDE = 1; parameter real CLKOUT2_DUTY_CYCLE = 0.500; parameter real CLKOUT2_PHASE = 0.000; parameter CLKOUT2_USE_FINE_PS = "FALSE"; parameter integer CLKOUT3_DIVIDE = 1; parameter real CLKOUT3_DUTY_CYCLE = 0.500; parameter real CLKOUT3_PHASE = 0.000; parameter CLKOUT3_USE_FINE_PS = "FALSE"; parameter CLKOUT4_CASCADE = "FALSE"; parameter integer CLKOUT4_DIVIDE = 1; parameter real CLKOUT4_DUTY_CYCLE = 0.500; parameter real CLKOUT4_PHASE = 0.000; parameter CLKOUT4_USE_FINE_PS = "FALSE"; parameter integer CLKOUT5_DIVIDE = 1; parameter real CLKOUT5_DUTY_CYCLE = 0.500; parameter real CLKOUT5_PHASE = 0.000; parameter CLKOUT5_USE_FINE_PS = "FALSE"; parameter integer CLKOUT6_DIVIDE = 1; parameter real CLKOUT6_DUTY_CYCLE = 0.500; parameter real CLKOUT6_PHASE = 0.000; parameter CLKOUT6_USE_FINE_PS = "FALSE"; parameter real CLKPFD_FREQ_MAX = 550.000; parameter real CLKPFD_FREQ_MIN = 10.000; parameter COMPENSATION = "ZHOLD"; parameter integer DIVCLK_DIVIDE = 1; parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; parameter [0:0] IS_PSEN_INVERTED = 1'b0; parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0; parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real REF_JITTER1 = 0.010; parameter real REF_JITTER2 = 0.010; parameter SS_EN = "FALSE"; parameter SS_MODE = "CENTER_HIGH"; parameter integer SS_MOD_PERIOD = 10000; parameter STARTUP_WAIT = "FALSE"; parameter real VCOCLK_FREQ_MAX = 1600.000; parameter real VCOCLK_FREQ_MIN = 600.000; parameter STARTUP_WAIT = "FALSE"; output CLKFBOUT; output CLKFBOUTB; output CLKFBSTOPPED; output CLKINSTOPPED; output CLKOUT0; output CLKOUT0B; output CLKOUT1; output CLKOUT1B; output CLKOUT2; output CLKOUT2B; output CLKOUT3; output CLKOUT3B; output CLKOUT4; output CLKOUT5; output CLKOUT6; output [15:0] DO; output DRDY; output LOCKED; output PSDONE; input CLKFBIN; input CLKIN1; input CLKIN2; input CLKINSEL; input [6:0] DADDR; input DCLK; input DEN; input [15:0] DI; input DWE; input PSCLK; input PSEN; input PSINCDEC; input PWRDWN; input RST; endmodule module MMCME2_BASE (...); parameter BANDWIDTH = "OPTIMIZED"; parameter real CLKFBOUT_MULT_F = 5.000; parameter real CLKFBOUT_PHASE = 0.000; parameter real CLKIN1_PERIOD = 0.000; parameter real CLKOUT0_DIVIDE_F = 1.000; parameter real CLKOUT0_DUTY_CYCLE = 0.500; parameter real CLKOUT0_PHASE = 0.000; parameter integer CLKOUT1_DIVIDE = 1; parameter real CLKOUT1_DUTY_CYCLE = 0.500; parameter real CLKOUT1_PHASE = 0.000; parameter integer CLKOUT2_DIVIDE = 1; parameter real CLKOUT2_DUTY_CYCLE = 0.500; parameter real CLKOUT2_PHASE = 0.000; parameter integer CLKOUT3_DIVIDE = 1; parameter real CLKOUT3_DUTY_CYCLE = 0.500; parameter real CLKOUT3_PHASE = 0.000; parameter CLKOUT4_CASCADE = "FALSE"; parameter integer CLKOUT4_DIVIDE = 1; parameter real CLKOUT4_DUTY_CYCLE = 0.500; parameter real CLKOUT4_PHASE = 0.000; parameter integer CLKOUT5_DIVIDE = 1; parameter real CLKOUT5_DUTY_CYCLE = 0.500; parameter real CLKOUT5_PHASE = 0.000; parameter integer CLKOUT6_DIVIDE = 1; parameter real CLKOUT6_DUTY_CYCLE = 0.500; parameter real CLKOUT6_PHASE = 0.000; parameter integer DIVCLK_DIVIDE = 1; parameter real REF_JITTER1 = 0.010; parameter STARTUP_WAIT = "FALSE"; output CLKFBOUT; output CLKFBOUTB; output CLKOUT0; output CLKOUT0B; output CLKOUT1; output CLKOUT1B; output CLKOUT2; output CLKOUT2B; output CLKOUT3; output CLKOUT3B; output CLKOUT4; output CLKOUT5; output CLKOUT6; output LOCKED; input CLKFBIN; input CLKIN1; input PWRDWN; input RST; endmodule module OBUFDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O, OB; input I; endmodule module OBUFT (...); parameter CAPACITANCE = "DONT_CARE"; parameter integer DRIVE = 12; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; input I, T; endmodule module OBUFTDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O, OB; input I, T; endmodule module ODDR (...); output Q; input C; input CE; input D1; input D2; input R; input S; parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; parameter INIT = 1'b0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D1_INVERTED = 1'b0; parameter [0:0] IS_D2_INVERTED = 1'b0; parameter SRTYPE = "SYNC"; parameter MSGON = "TRUE"; parameter XON = "TRUE"; endmodule module ODELAYE2 (...); parameter CINVCTRL_SEL = "FALSE"; parameter DELAY_SRC = "ODATAIN"; parameter HIGH_PERFORMANCE_MODE = "FALSE"; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_ODATAIN_INVERTED = 1'b0; parameter ODELAY_TYPE = "FIXED"; parameter integer ODELAY_VALUE = 0; parameter PIPE_SEL = "FALSE"; parameter real REFCLK_FREQUENCY = 200.0; parameter SIGNAL_PATTERN = "DATA"; parameter integer SIM_DELAY_D = 0; output [4:0] CNTVALUEOUT; output DATAOUT; input C; input CE; input CINVCTRL; input CLKIN; input [4:0] CNTVALUEIN; input INC; input LD; input LDPIPEEN; input ODATAIN; input REGRST; endmodule module OSERDESE2 (...); parameter DATA_RATE_OQ = "DDR"; parameter DATA_RATE_TQ = "DDR"; parameter integer DATA_WIDTH = 4; parameter [0:0] INIT_OQ = 1'b0; parameter [0:0] INIT_TQ = 1'b0; parameter [0:0] IS_CLKDIV_INVERTED = 1'b0; parameter [0:0] IS_CLK_INVERTED = 1'b0; parameter [0:0] IS_D1_INVERTED = 1'b0; parameter [0:0] IS_D2_INVERTED = 1'b0; parameter [0:0] IS_D3_INVERTED = 1'b0; parameter [0:0] IS_D4_INVERTED = 1'b0; parameter [0:0] IS_D5_INVERTED = 1'b0; parameter [0:0] IS_D6_INVERTED = 1'b0; parameter [0:0] IS_D7_INVERTED = 1'b0; parameter [0:0] IS_D8_INVERTED = 1'b0; parameter [0:0] IS_T1_INVERTED = 1'b0; parameter [0:0] IS_T2_INVERTED = 1'b0; parameter [0:0] IS_T3_INVERTED = 1'b0; parameter [0:0] IS_T4_INVERTED = 1'b0; parameter SERDES_MODE = "MASTER"; parameter [0:0] SRVAL_OQ = 1'b0; parameter [0:0] SRVAL_TQ = 1'b0; parameter TBYTE_CTL = "FALSE"; parameter TBYTE_SRC = "FALSE"; parameter integer TRISTATE_WIDTH = 4; output OFB; output OQ; output SHIFTOUT1; output SHIFTOUT2; output TBYTEOUT; output TFB; output TQ; input CLK; input CLKDIV; input D1; input D2; input D3; input D4; input D5; input D6; input D7; input D8; input OCE; input RST; input SHIFTIN1; input SHIFTIN2; input T1; input T2; input T3; input T4; input TBYTEIN; input TCE; endmodule module OUT_FIFO (...); parameter integer ALMOST_EMPTY_VALUE = 1; parameter integer ALMOST_FULL_VALUE = 1; parameter ARRAY_MODE = "ARRAY_MODE_8_X_4"; parameter OUTPUT_DISABLE = "FALSE"; parameter SYNCHRONOUS_MODE = "FALSE"; output ALMOSTEMPTY; output ALMOSTFULL; output EMPTY; output FULL; output [3:0] Q0; output [3:0] Q1; output [3:0] Q2; output [3:0] Q3; output [3:0] Q4; output [3:0] Q7; output [3:0] Q8; output [3:0] Q9; output [7:0] Q5; output [7:0] Q6; input RDCLK; input RDEN; input RESET; input WRCLK; input WREN; input [7:0] D0; input [7:0] D1; input [7:0] D2; input [7:0] D3; input [7:0] D4; input [7:0] D5; input [7:0] D6; input [7:0] D7; input [7:0] D8; input [7:0] D9; endmodule module PHASER_IN (...); parameter integer CLKOUT_DIV = 4; parameter DQS_BIAS_MODE = "FALSE"; parameter EN_ISERDES_RST = "FALSE"; parameter integer FINE_DELAY = 0; parameter FREQ_REF_DIV = "NONE"; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real MEMREFCLK_PERIOD = 0.000; parameter OUTPUT_CLK_SRC = "PHASE_REF"; parameter real PHASEREFCLK_PERIOD = 0.000; parameter real REFCLK_PERIOD = 0.000; parameter integer SEL_CLK_OFFSET = 5; parameter SYNC_IN_DIV_RST = "FALSE"; output FINEOVERFLOW; output ICLK; output ICLKDIV; output ISERDESRST; output RCLK; output [5:0] COUNTERREADVAL; input COUNTERLOADEN; input COUNTERREADEN; input DIVIDERST; input EDGEADV; input FINEENABLE; input FINEINC; input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; input RST; input SYNCIN; input SYSCLK; input [1:0] RANKSEL; input [5:0] COUNTERLOADVAL; endmodule module PHASER_IN_PHY (...); parameter BURST_MODE = "FALSE"; parameter integer CLKOUT_DIV = 4; parameter [0:0] DQS_AUTO_RECAL = 1'b1; parameter DQS_BIAS_MODE = "FALSE"; parameter [2:0] DQS_FIND_PATTERN = 3'b001; parameter integer FINE_DELAY = 0; parameter FREQ_REF_DIV = "NONE"; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real MEMREFCLK_PERIOD = 0.000; parameter OUTPUT_CLK_SRC = "PHASE_REF"; parameter real PHASEREFCLK_PERIOD = 0.000; parameter real REFCLK_PERIOD = 0.000; parameter integer SEL_CLK_OFFSET = 5; parameter SYNC_IN_DIV_RST = "FALSE"; parameter WR_CYCLES = "FALSE"; output DQSFOUND; output DQSOUTOFRANGE; output FINEOVERFLOW; output ICLK; output ICLKDIV; output ISERDESRST; output PHASELOCKED; output RCLK; output WRENABLE; output [5:0] COUNTERREADVAL; input BURSTPENDINGPHY; input COUNTERLOADEN; input COUNTERREADEN; input FINEENABLE; input FINEINC; input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; input RST; input RSTDQSFIND; input SYNCIN; input SYSCLK; input [1:0] ENCALIBPHY; input [1:0] RANKSELPHY; input [5:0] COUNTERLOADVAL; endmodule module PHASER_OUT (...); parameter integer CLKOUT_DIV = 4; parameter COARSE_BYPASS = "FALSE"; parameter integer COARSE_DELAY = 0; parameter EN_OSERDES_RST = "FALSE"; parameter integer FINE_DELAY = 0; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real MEMREFCLK_PERIOD = 0.000; parameter OCLKDELAY_INV = "FALSE"; parameter integer OCLK_DELAY = 0; parameter OUTPUT_CLK_SRC = "PHASE_REF"; parameter real PHASEREFCLK_PERIOD = 0.000; parameter [2:0] PO = 3'b000; parameter real REFCLK_PERIOD = 0.000; parameter SYNC_IN_DIV_RST = "FALSE"; output COARSEOVERFLOW; output FINEOVERFLOW; output OCLK; output OCLKDELAYED; output OCLKDIV; output OSERDESRST; output [8:0] COUNTERREADVAL; input COARSEENABLE; input COARSEINC; input COUNTERLOADEN; input COUNTERREADEN; input DIVIDERST; input EDGEADV; input FINEENABLE; input FINEINC; input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; input RST; input SELFINEOCLKDELAY; input SYNCIN; input SYSCLK; input [8:0] COUNTERLOADVAL; endmodule module PHASER_OUT_PHY (...); parameter integer CLKOUT_DIV = 4; parameter COARSE_BYPASS = "FALSE"; parameter integer COARSE_DELAY = 0; parameter DATA_CTL_N = "FALSE"; parameter DATA_RD_CYCLES = "FALSE"; parameter integer FINE_DELAY = 0; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real MEMREFCLK_PERIOD = 0.000; parameter OCLKDELAY_INV = "FALSE"; parameter integer OCLK_DELAY = 0; parameter OUTPUT_CLK_SRC = "PHASE_REF"; parameter real PHASEREFCLK_PERIOD = 0.000; parameter [2:0] PO = 3'b000; parameter real REFCLK_PERIOD = 0.000; parameter SYNC_IN_DIV_RST = "FALSE"; output COARSEOVERFLOW; output FINEOVERFLOW; output OCLK; output OCLKDELAYED; output OCLKDIV; output OSERDESRST; output RDENABLE; output [1:0] CTSBUS; output [1:0] DQSBUS; output [1:0] DTSBUS; output [8:0] COUNTERREADVAL; input BURSTPENDINGPHY; input COARSEENABLE; input COARSEINC; input COUNTERLOADEN; input COUNTERREADEN; input FINEENABLE; input FINEINC; input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; input RST; input SELFINEOCLKDELAY; input SYNCIN; input SYSCLK; input [1:0] ENCALIBPHY; input [8:0] COUNTERLOADVAL; endmodule module PHASER_REF (...); parameter [0:0] IS_RST_INVERTED = 1'b0; parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; output LOCKED; input CLKIN; input PWRDWN; input RST; endmodule module PHY_CONTROL (...); parameter integer AO_TOGGLE = 0; parameter [3:0] AO_WRLVL_EN = 4'b0000; parameter BURST_MODE = "FALSE"; parameter integer CLK_RATIO = 1; parameter integer CMD_OFFSET = 0; parameter integer CO_DURATION = 0; parameter DATA_CTL_A_N = "FALSE"; parameter DATA_CTL_B_N = "FALSE"; parameter DATA_CTL_C_N = "FALSE"; parameter DATA_CTL_D_N = "FALSE"; parameter DISABLE_SEQ_MATCH = "TRUE"; parameter integer DI_DURATION = 0; parameter integer DO_DURATION = 0; parameter integer EVENTS_DELAY = 63; parameter integer FOUR_WINDOW_CLOCKS = 63; parameter MULTI_REGION = "FALSE"; parameter PHY_COUNT_ENABLE = "FALSE"; parameter integer RD_CMD_OFFSET_0 = 0; parameter integer RD_CMD_OFFSET_1 = 00; parameter integer RD_CMD_OFFSET_2 = 0; parameter integer RD_CMD_OFFSET_3 = 0; parameter integer RD_DURATION_0 = 0; parameter integer RD_DURATION_1 = 0; parameter integer RD_DURATION_2 = 0; parameter integer RD_DURATION_3 = 0; parameter SYNC_MODE = "FALSE"; parameter integer WR_CMD_OFFSET_0 = 0; parameter integer WR_CMD_OFFSET_1 = 0; parameter integer WR_CMD_OFFSET_2 = 0; parameter integer WR_CMD_OFFSET_3 = 0; parameter integer WR_DURATION_0 = 0; parameter integer WR_DURATION_1 = 0; parameter integer WR_DURATION_2 = 0; parameter integer WR_DURATION_3 = 0; output PHYCTLALMOSTFULL; output PHYCTLEMPTY; output PHYCTLFULL; output PHYCTLREADY; output [1:0] INRANKA; output [1:0] INRANKB; output [1:0] INRANKC; output [1:0] INRANKD; output [1:0] PCENABLECALIB; output [3:0] AUXOUTPUT; output [3:0] INBURSTPENDING; output [3:0] OUTBURSTPENDING; input MEMREFCLK; input PHYCLK; input PHYCTLMSTREMPTY; input PHYCTLWRENABLE; input PLLLOCK; input READCALIBENABLE; input REFDLLLOCK; input RESET; input SYNCIN; input WRITECALIBENABLE; input [31:0] PHYCTLWD; endmodule module PLLE2_ADV (...); parameter BANDWIDTH = "OPTIMIZED"; parameter COMPENSATION = "ZHOLD"; parameter STARTUP_WAIT = "FALSE"; parameter integer CLKOUT0_DIVIDE = 1; parameter integer CLKOUT1_DIVIDE = 1; parameter integer CLKOUT2_DIVIDE = 1; parameter integer CLKOUT3_DIVIDE = 1; parameter integer CLKOUT4_DIVIDE = 1; parameter integer CLKOUT5_DIVIDE = 1; parameter integer DIVCLK_DIVIDE = 1; parameter integer CLKFBOUT_MULT = 5; parameter real CLKFBOUT_PHASE = 0.000; parameter real CLKIN1_PERIOD = 0.000; parameter real CLKIN2_PERIOD = 0.000; parameter real CLKOUT0_DUTY_CYCLE = 0.500; parameter real CLKOUT0_PHASE = 0.000; parameter real CLKOUT1_DUTY_CYCLE = 0.500; parameter real CLKOUT1_PHASE = 0.000; parameter real CLKOUT2_DUTY_CYCLE = 0.500; parameter real CLKOUT2_PHASE = 0.000; parameter real CLKOUT3_DUTY_CYCLE = 0.500; parameter real CLKOUT3_PHASE = 0.000; parameter real CLKOUT4_DUTY_CYCLE = 0.500; parameter real CLKOUT4_PHASE = 0.000; parameter real CLKOUT5_DUTY_CYCLE = 0.500; parameter real CLKOUT5_PHASE = 0.000; parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; parameter [0:0] IS_RST_INVERTED = 1'b0; parameter real REF_JITTER1 = 0.010; parameter real REF_JITTER2 = 0.010; parameter real VCOCLK_FREQ_MAX = 2133.000; parameter real VCOCLK_FREQ_MIN = 800.000; parameter real CLKIN_FREQ_MAX = 1066.000; parameter real CLKIN_FREQ_MIN = 19.000; parameter real CLKPFD_FREQ_MAX = 550.0; parameter real CLKPFD_FREQ_MIN = 19.0; output CLKFBOUT; output CLKOUT0; output CLKOUT1; output CLKOUT2; output CLKOUT3; output CLKOUT4; output CLKOUT5; output DRDY; output LOCKED; output [15:0] DO; input CLKFBIN; input CLKIN1; input CLKIN2; input CLKINSEL; input DCLK; input DEN; input DWE; input PWRDWN; input RST; input [15:0] DI; input [6:0] DADDR; endmodule module PLLE2_BASE (...); parameter BANDWIDTH = "OPTIMIZED"; parameter integer CLKFBOUT_MULT = 5; parameter real CLKFBOUT_PHASE = 0.000; parameter real CLKIN1_PERIOD = 0.000; parameter integer CLKOUT0_DIVIDE = 1; parameter real CLKOUT0_DUTY_CYCLE = 0.500; parameter real CLKOUT0_PHASE = 0.000; parameter integer CLKOUT1_DIVIDE = 1; parameter real CLKOUT1_DUTY_CYCLE = 0.500; parameter real CLKOUT1_PHASE = 0.000; parameter integer CLKOUT2_DIVIDE = 1; parameter real CLKOUT2_DUTY_CYCLE = 0.500; parameter real CLKOUT2_PHASE = 0.000; parameter integer CLKOUT3_DIVIDE = 1; parameter real CLKOUT3_DUTY_CYCLE = 0.500; parameter real CLKOUT3_PHASE = 0.000; parameter integer CLKOUT4_DIVIDE = 1; parameter real CLKOUT4_DUTY_CYCLE = 0.500; parameter real CLKOUT4_PHASE = 0.000; parameter integer CLKOUT5_DIVIDE = 1; parameter real CLKOUT5_DUTY_CYCLE = 0.500; parameter real CLKOUT5_PHASE = 0.000; parameter integer DIVCLK_DIVIDE = 1; parameter real REF_JITTER1 = 0.010; parameter STARTUP_WAIT = "FALSE"; output CLKFBOUT; output CLKOUT0; output CLKOUT1; output CLKOUT2; output CLKOUT3; output CLKOUT4; output CLKOUT5; output LOCKED; input CLKFBIN; input CLKIN1; input PWRDWN; input RST; endmodule (* keep *) module PS7 (...); output DMA0DAVALID; output DMA0DRREADY; output DMA0RSTN; output DMA1DAVALID; output DMA1DRREADY; output DMA1RSTN; output DMA2DAVALID; output DMA2DRREADY; output DMA2RSTN; output DMA3DAVALID; output DMA3DRREADY; output DMA3RSTN; output EMIOCAN0PHYTX; output EMIOCAN1PHYTX; output EMIOENET0GMIITXEN; output EMIOENET0GMIITXER; output EMIOENET0MDIOMDC; output EMIOENET0MDIOO; output EMIOENET0MDIOTN; output EMIOENET0PTPDELAYREQRX; output EMIOENET0PTPDELAYREQTX; output EMIOENET0PTPPDELAYREQRX; output EMIOENET0PTPPDELAYREQTX; output EMIOENET0PTPPDELAYRESPRX; output EMIOENET0PTPPDELAYRESPTX; output EMIOENET0PTPSYNCFRAMERX; output EMIOENET0PTPSYNCFRAMETX; output EMIOENET0SOFRX; output EMIOENET0SOFTX; output EMIOENET1GMIITXEN; output EMIOENET1GMIITXER; output EMIOENET1MDIOMDC; output EMIOENET1MDIOO; output EMIOENET1MDIOTN; output EMIOENET1PTPDELAYREQRX; output EMIOENET1PTPDELAYREQTX; output EMIOENET1PTPPDELAYREQRX; output EMIOENET1PTPPDELAYREQTX; output EMIOENET1PTPPDELAYRESPRX; output EMIOENET1PTPPDELAYRESPTX; output EMIOENET1PTPSYNCFRAMERX; output EMIOENET1PTPSYNCFRAMETX; output EMIOENET1SOFRX; output EMIOENET1SOFTX; output EMIOI2C0SCLO; output EMIOI2C0SCLTN; output EMIOI2C0SDAO; output EMIOI2C0SDATN; output EMIOI2C1SCLO; output EMIOI2C1SCLTN; output EMIOI2C1SDAO; output EMIOI2C1SDATN; output EMIOPJTAGTDO; output EMIOPJTAGTDTN; output EMIOSDIO0BUSPOW; output EMIOSDIO0CLK; output EMIOSDIO0CMDO; output EMIOSDIO0CMDTN; output EMIOSDIO0LED; output EMIOSDIO1BUSPOW; output EMIOSDIO1CLK; output EMIOSDIO1CMDO; output EMIOSDIO1CMDTN; output EMIOSDIO1LED; output EMIOSPI0MO; output EMIOSPI0MOTN; output EMIOSPI0SCLKO; output EMIOSPI0SCLKTN; output EMIOSPI0SO; output EMIOSPI0SSNTN; output EMIOSPI0STN; output EMIOSPI1MO; output EMIOSPI1MOTN; output EMIOSPI1SCLKO; output EMIOSPI1SCLKTN; output EMIOSPI1SO; output EMIOSPI1SSNTN; output EMIOSPI1STN; output EMIOTRACECTL; output EMIOUART0DTRN; output EMIOUART0RTSN; output EMIOUART0TX; output EMIOUART1DTRN; output EMIOUART1RTSN; output EMIOUART1TX; output EMIOUSB0VBUSPWRSELECT; output EMIOUSB1VBUSPWRSELECT; output EMIOWDTRSTO; output EVENTEVENTO; output MAXIGP0ARESETN; output MAXIGP0ARVALID; output MAXIGP0AWVALID; output MAXIGP0BREADY; output MAXIGP0RREADY; output MAXIGP0WLAST; output MAXIGP0WVALID; output MAXIGP1ARESETN; output MAXIGP1ARVALID; output MAXIGP1AWVALID; output MAXIGP1BREADY; output MAXIGP1RREADY; output MAXIGP1WLAST; output MAXIGP1WVALID; output SAXIACPARESETN; output SAXIACPARREADY; output SAXIACPAWREADY; output SAXIACPBVALID; output SAXIACPRLAST; output SAXIACPRVALID; output SAXIACPWREADY; output SAXIGP0ARESETN; output SAXIGP0ARREADY; output SAXIGP0AWREADY; output SAXIGP0BVALID; output SAXIGP0RLAST; output SAXIGP0RVALID; output SAXIGP0WREADY; output SAXIGP1ARESETN; output SAXIGP1ARREADY; output SAXIGP1AWREADY; output SAXIGP1BVALID; output SAXIGP1RLAST; output SAXIGP1RVALID; output SAXIGP1WREADY; output SAXIHP0ARESETN; output SAXIHP0ARREADY; output SAXIHP0AWREADY; output SAXIHP0BVALID; output SAXIHP0RLAST; output SAXIHP0RVALID; output SAXIHP0WREADY; output SAXIHP1ARESETN; output SAXIHP1ARREADY; output SAXIHP1AWREADY; output SAXIHP1BVALID; output SAXIHP1RLAST; output SAXIHP1RVALID; output SAXIHP1WREADY; output SAXIHP2ARESETN; output SAXIHP2ARREADY; output SAXIHP2AWREADY; output SAXIHP2BVALID; output SAXIHP2RLAST; output SAXIHP2RVALID; output SAXIHP2WREADY; output SAXIHP3ARESETN; output SAXIHP3ARREADY; output SAXIHP3AWREADY; output SAXIHP3BVALID; output SAXIHP3RLAST; output SAXIHP3RVALID; output SAXIHP3WREADY; output [11:0] MAXIGP0ARID; output [11:0] MAXIGP0AWID; output [11:0] MAXIGP0WID; output [11:0] MAXIGP1ARID; output [11:0] MAXIGP1AWID; output [11:0] MAXIGP1WID; output [1:0] DMA0DATYPE; output [1:0] DMA1DATYPE; output [1:0] DMA2DATYPE; output [1:0] DMA3DATYPE; output [1:0] EMIOUSB0PORTINDCTL; output [1:0] EMIOUSB1PORTINDCTL; output [1:0] EVENTSTANDBYWFE; output [1:0] EVENTSTANDBYWFI; output [1:0] MAXIGP0ARBURST; output [1:0] MAXIGP0ARLOCK; output [1:0] MAXIGP0ARSIZE; output [1:0] MAXIGP0AWBURST; output [1:0] MAXIGP0AWLOCK; output [1:0] MAXIGP0AWSIZE; output [1:0] MAXIGP1ARBURST; output [1:0] MAXIGP1ARLOCK; output [1:0] MAXIGP1ARSIZE; output [1:0] MAXIGP1AWBURST; output [1:0] MAXIGP1AWLOCK; output [1:0] MAXIGP1AWSIZE; output [1:0] SAXIACPBRESP; output [1:0] SAXIACPRRESP; output [1:0] SAXIGP0BRESP; output [1:0] SAXIGP0RRESP; output [1:0] SAXIGP1BRESP; output [1:0] SAXIGP1RRESP; output [1:0] SAXIHP0BRESP; output [1:0] SAXIHP0RRESP; output [1:0] SAXIHP1BRESP; output [1:0] SAXIHP1RRESP; output [1:0] SAXIHP2BRESP; output [1:0] SAXIHP2RRESP; output [1:0] SAXIHP3BRESP; output [1:0] SAXIHP3RRESP; output [28:0] IRQP2F; output [2:0] EMIOSDIO0BUSVOLT; output [2:0] EMIOSDIO1BUSVOLT; output [2:0] EMIOSPI0SSON; output [2:0] EMIOSPI1SSON; output [2:0] EMIOTTC0WAVEO; output [2:0] EMIOTTC1WAVEO; output [2:0] MAXIGP0ARPROT; output [2:0] MAXIGP0AWPROT; output [2:0] MAXIGP1ARPROT; output [2:0] MAXIGP1AWPROT; output [2:0] SAXIACPBID; output [2:0] SAXIACPRID; output [2:0] SAXIHP0RACOUNT; output [2:0] SAXIHP1RACOUNT; output [2:0] SAXIHP2RACOUNT; output [2:0] SAXIHP3RACOUNT; output [31:0] EMIOTRACEDATA; output [31:0] FTMTP2FDEBUG; output [31:0] MAXIGP0ARADDR; output [31:0] MAXIGP0AWADDR; output [31:0] MAXIGP0WDATA; output [31:0] MAXIGP1ARADDR; output [31:0] MAXIGP1AWADDR; output [31:0] MAXIGP1WDATA; output [31:0] SAXIGP0RDATA; output [31:0] SAXIGP1RDATA; output [3:0] EMIOSDIO0DATAO; output [3:0] EMIOSDIO0DATATN; output [3:0] EMIOSDIO1DATAO; output [3:0] EMIOSDIO1DATATN; output [3:0] FCLKCLK; output [3:0] FCLKRESETN; output [3:0] FTMTF2PTRIGACK; output [3:0] FTMTP2FTRIG; output [3:0] MAXIGP0ARCACHE; output [3:0] MAXIGP0ARLEN; output [3:0] MAXIGP0ARQOS; output [3:0] MAXIGP0AWCACHE; output [3:0] MAXIGP0AWLEN; output [3:0] MAXIGP0AWQOS; output [3:0] MAXIGP0WSTRB; output [3:0] MAXIGP1ARCACHE; output [3:0] MAXIGP1ARLEN; output [3:0] MAXIGP1ARQOS; output [3:0] MAXIGP1AWCACHE; output [3:0] MAXIGP1AWLEN; output [3:0] MAXIGP1AWQOS; output [3:0] MAXIGP1WSTRB; output [5:0] SAXIGP0BID; output [5:0] SAXIGP0RID; output [5:0] SAXIGP1BID; output [5:0] SAXIGP1RID; output [5:0] SAXIHP0BID; output [5:0] SAXIHP0RID; output [5:0] SAXIHP0WACOUNT; output [5:0] SAXIHP1BID; output [5:0] SAXIHP1RID; output [5:0] SAXIHP1WACOUNT; output [5:0] SAXIHP2BID; output [5:0] SAXIHP2RID; output [5:0] SAXIHP2WACOUNT; output [5:0] SAXIHP3BID; output [5:0] SAXIHP3RID; output [5:0] SAXIHP3WACOUNT; output [63:0] EMIOGPIOO; output [63:0] EMIOGPIOTN; output [63:0] SAXIACPRDATA; output [63:0] SAXIHP0RDATA; output [63:0] SAXIHP1RDATA; output [63:0] SAXIHP2RDATA; output [63:0] SAXIHP3RDATA; output [7:0] EMIOENET0GMIITXD; output [7:0] EMIOENET1GMIITXD; output [7:0] SAXIHP0RCOUNT; output [7:0] SAXIHP0WCOUNT; output [7:0] SAXIHP1RCOUNT; output [7:0] SAXIHP1WCOUNT; output [7:0] SAXIHP2RCOUNT; output [7:0] SAXIHP2WCOUNT; output [7:0] SAXIHP3RCOUNT; output [7:0] SAXIHP3WCOUNT; inout DDRCASB; inout DDRCKE; inout DDRCKN; inout DDRCKP; inout DDRCSB; inout DDRDRSTB; inout DDRODT; inout DDRRASB; inout DDRVRN; inout DDRVRP; inout DDRWEB; inout PSCLK; inout PSPORB; inout PSSRSTB; inout [14:0] DDRA; inout [2:0] DDRBA; inout [31:0] DDRDQ; inout [3:0] DDRDM; inout [3:0] DDRDQSN; inout [3:0] DDRDQSP; inout [53:0] MIO; input DMA0ACLK; input DMA0DAREADY; input DMA0DRLAST; input DMA0DRVALID; input DMA1ACLK; input DMA1DAREADY; input DMA1DRLAST; input DMA1DRVALID; input DMA2ACLK; input DMA2DAREADY; input DMA2DRLAST; input DMA2DRVALID; input DMA3ACLK; input DMA3DAREADY; input DMA3DRLAST; input DMA3DRVALID; input EMIOCAN0PHYRX; input EMIOCAN1PHYRX; input EMIOENET0EXTINTIN; input EMIOENET0GMIICOL; input EMIOENET0GMIICRS; input EMIOENET0GMIIRXCLK; input EMIOENET0GMIIRXDV; input EMIOENET0GMIIRXER; input EMIOENET0GMIITXCLK; input EMIOENET0MDIOI; input EMIOENET1EXTINTIN; input EMIOENET1GMIICOL; input EMIOENET1GMIICRS; input EMIOENET1GMIIRXCLK; input EMIOENET1GMIIRXDV; input EMIOENET1GMIIRXER; input EMIOENET1GMIITXCLK; input EMIOENET1MDIOI; input EMIOI2C0SCLI; input EMIOI2C0SDAI; input EMIOI2C1SCLI; input EMIOI2C1SDAI; input EMIOPJTAGTCK; input EMIOPJTAGTDI; input EMIOPJTAGTMS; input EMIOSDIO0CDN; input EMIOSDIO0CLKFB; input EMIOSDIO0CMDI; input EMIOSDIO0WP; input EMIOSDIO1CDN; input EMIOSDIO1CLKFB; input EMIOSDIO1CMDI; input EMIOSDIO1WP; input EMIOSPI0MI; input EMIOSPI0SCLKI; input EMIOSPI0SI; input EMIOSPI0SSIN; input EMIOSPI1MI; input EMIOSPI1SCLKI; input EMIOSPI1SI; input EMIOSPI1SSIN; input EMIOSRAMINTIN; input EMIOTRACECLK; input EMIOUART0CTSN; input EMIOUART0DCDN; input EMIOUART0DSRN; input EMIOUART0RIN; input EMIOUART0RX; input EMIOUART1CTSN; input EMIOUART1DCDN; input EMIOUART1DSRN; input EMIOUART1RIN; input EMIOUART1RX; input EMIOUSB0VBUSPWRFAULT; input EMIOUSB1VBUSPWRFAULT; input EMIOWDTCLKI; input EVENTEVENTI; input FPGAIDLEN; input FTMDTRACEINCLOCK; input FTMDTRACEINVALID; input MAXIGP0ACLK; input MAXIGP0ARREADY; input MAXIGP0AWREADY; input MAXIGP0BVALID; input MAXIGP0RLAST; input MAXIGP0RVALID; input MAXIGP0WREADY; input MAXIGP1ACLK; input MAXIGP1ARREADY; input MAXIGP1AWREADY; input MAXIGP1BVALID; input MAXIGP1RLAST; input MAXIGP1RVALID; input MAXIGP1WREADY; input SAXIACPACLK; input SAXIACPARVALID; input SAXIACPAWVALID; input SAXIACPBREADY; input SAXIACPRREADY; input SAXIACPWLAST; input SAXIACPWVALID; input SAXIGP0ACLK; input SAXIGP0ARVALID; input SAXIGP0AWVALID; input SAXIGP0BREADY; input SAXIGP0RREADY; input SAXIGP0WLAST; input SAXIGP0WVALID; input SAXIGP1ACLK; input SAXIGP1ARVALID; input SAXIGP1AWVALID; input SAXIGP1BREADY; input SAXIGP1RREADY; input SAXIGP1WLAST; input SAXIGP1WVALID; input SAXIHP0ACLK; input SAXIHP0ARVALID; input SAXIHP0AWVALID; input SAXIHP0BREADY; input SAXIHP0RDISSUECAP1EN; input SAXIHP0RREADY; input SAXIHP0WLAST; input SAXIHP0WRISSUECAP1EN; input SAXIHP0WVALID; input SAXIHP1ACLK; input SAXIHP1ARVALID; input SAXIHP1AWVALID; input SAXIHP1BREADY; input SAXIHP1RDISSUECAP1EN; input SAXIHP1RREADY; input SAXIHP1WLAST; input SAXIHP1WRISSUECAP1EN; input SAXIHP1WVALID; input SAXIHP2ACLK; input SAXIHP2ARVALID; input SAXIHP2AWVALID; input SAXIHP2BREADY; input SAXIHP2RDISSUECAP1EN; input SAXIHP2RREADY; input SAXIHP2WLAST; input SAXIHP2WRISSUECAP1EN; input SAXIHP2WVALID; input SAXIHP3ACLK; input SAXIHP3ARVALID; input SAXIHP3AWVALID; input SAXIHP3BREADY; input SAXIHP3RDISSUECAP1EN; input SAXIHP3RREADY; input SAXIHP3WLAST; input SAXIHP3WRISSUECAP1EN; input SAXIHP3WVALID; input [11:0] MAXIGP0BID; input [11:0] MAXIGP0RID; input [11:0] MAXIGP1BID; input [11:0] MAXIGP1RID; input [19:0] IRQF2P; input [1:0] DMA0DRTYPE; input [1:0] DMA1DRTYPE; input [1:0] DMA2DRTYPE; input [1:0] DMA3DRTYPE; input [1:0] MAXIGP0BRESP; input [1:0] MAXIGP0RRESP; input [1:0] MAXIGP1BRESP; input [1:0] MAXIGP1RRESP; input [1:0] SAXIACPARBURST; input [1:0] SAXIACPARLOCK; input [1:0] SAXIACPARSIZE; input [1:0] SAXIACPAWBURST; input [1:0] SAXIACPAWLOCK; input [1:0] SAXIACPAWSIZE; input [1:0] SAXIGP0ARBURST; input [1:0] SAXIGP0ARLOCK; input [1:0] SAXIGP0ARSIZE; input [1:0] SAXIGP0AWBURST; input [1:0] SAXIGP0AWLOCK; input [1:0] SAXIGP0AWSIZE; input [1:0] SAXIGP1ARBURST; input [1:0] SAXIGP1ARLOCK; input [1:0] SAXIGP1ARSIZE; input [1:0] SAXIGP1AWBURST; input [1:0] SAXIGP1AWLOCK; input [1:0] SAXIGP1AWSIZE; input [1:0] SAXIHP0ARBURST; input [1:0] SAXIHP0ARLOCK; input [1:0] SAXIHP0ARSIZE; input [1:0] SAXIHP0AWBURST; input [1:0] SAXIHP0AWLOCK; input [1:0] SAXIHP0AWSIZE; input [1:0] SAXIHP1ARBURST; input [1:0] SAXIHP1ARLOCK; input [1:0] SAXIHP1ARSIZE; input [1:0] SAXIHP1AWBURST; input [1:0] SAXIHP1AWLOCK; input [1:0] SAXIHP1AWSIZE; input [1:0] SAXIHP2ARBURST; input [1:0] SAXIHP2ARLOCK; input [1:0] SAXIHP2ARSIZE; input [1:0] SAXIHP2AWBURST; input [1:0] SAXIHP2AWLOCK; input [1:0] SAXIHP2AWSIZE; input [1:0] SAXIHP3ARBURST; input [1:0] SAXIHP3ARLOCK; input [1:0] SAXIHP3ARSIZE; input [1:0] SAXIHP3AWBURST; input [1:0] SAXIHP3AWLOCK; input [1:0] SAXIHP3AWSIZE; input [2:0] EMIOTTC0CLKI; input [2:0] EMIOTTC1CLKI; input [2:0] SAXIACPARID; input [2:0] SAXIACPARPROT; input [2:0] SAXIACPAWID; input [2:0] SAXIACPAWPROT; input [2:0] SAXIACPWID; input [2:0] SAXIGP0ARPROT; input [2:0] SAXIGP0AWPROT; input [2:0] SAXIGP1ARPROT; input [2:0] SAXIGP1AWPROT; input [2:0] SAXIHP0ARPROT; input [2:0] SAXIHP0AWPROT; input [2:0] SAXIHP1ARPROT; input [2:0] SAXIHP1AWPROT; input [2:0] SAXIHP2ARPROT; input [2:0] SAXIHP2AWPROT; input [2:0] SAXIHP3ARPROT; input [2:0] SAXIHP3AWPROT; input [31:0] FTMDTRACEINDATA; input [31:0] FTMTF2PDEBUG; input [31:0] MAXIGP0RDATA; input [31:0] MAXIGP1RDATA; input [31:0] SAXIACPARADDR; input [31:0] SAXIACPAWADDR; input [31:0] SAXIGP0ARADDR; input [31:0] SAXIGP0AWADDR; input [31:0] SAXIGP0WDATA; input [31:0] SAXIGP1ARADDR; input [31:0] SAXIGP1AWADDR; input [31:0] SAXIGP1WDATA; input [31:0] SAXIHP0ARADDR; input [31:0] SAXIHP0AWADDR; input [31:0] SAXIHP1ARADDR; input [31:0] SAXIHP1AWADDR; input [31:0] SAXIHP2ARADDR; input [31:0] SAXIHP2AWADDR; input [31:0] SAXIHP3ARADDR; input [31:0] SAXIHP3AWADDR; input [3:0] DDRARB; input [3:0] EMIOSDIO0DATAI; input [3:0] EMIOSDIO1DATAI; input [3:0] FCLKCLKTRIGN; input [3:0] FTMDTRACEINATID; input [3:0] FTMTF2PTRIG; input [3:0] FTMTP2FTRIGACK; input [3:0] SAXIACPARCACHE; input [3:0] SAXIACPARLEN; input [3:0] SAXIACPARQOS; input [3:0] SAXIACPAWCACHE; input [3:0] SAXIACPAWLEN; input [3:0] SAXIACPAWQOS; input [3:0] SAXIGP0ARCACHE; input [3:0] SAXIGP0ARLEN; input [3:0] SAXIGP0ARQOS; input [3:0] SAXIGP0AWCACHE; input [3:0] SAXIGP0AWLEN; input [3:0] SAXIGP0AWQOS; input [3:0] SAXIGP0WSTRB; input [3:0] SAXIGP1ARCACHE; input [3:0] SAXIGP1ARLEN; input [3:0] SAXIGP1ARQOS; input [3:0] SAXIGP1AWCACHE; input [3:0] SAXIGP1AWLEN; input [3:0] SAXIGP1AWQOS; input [3:0] SAXIGP1WSTRB; input [3:0] SAXIHP0ARCACHE; input [3:0] SAXIHP0ARLEN; input [3:0] SAXIHP0ARQOS; input [3:0] SAXIHP0AWCACHE; input [3:0] SAXIHP0AWLEN; input [3:0] SAXIHP0AWQOS; input [3:0] SAXIHP1ARCACHE; input [3:0] SAXIHP1ARLEN; input [3:0] SAXIHP1ARQOS; input [3:0] SAXIHP1AWCACHE; input [3:0] SAXIHP1AWLEN; input [3:0] SAXIHP1AWQOS; input [3:0] SAXIHP2ARCACHE; input [3:0] SAXIHP2ARLEN; input [3:0] SAXIHP2ARQOS; input [3:0] SAXIHP2AWCACHE; input [3:0] SAXIHP2AWLEN; input [3:0] SAXIHP2AWQOS; input [3:0] SAXIHP3ARCACHE; input [3:0] SAXIHP3ARLEN; input [3:0] SAXIHP3ARQOS; input [3:0] SAXIHP3AWCACHE; input [3:0] SAXIHP3AWLEN; input [3:0] SAXIHP3AWQOS; input [4:0] SAXIACPARUSER; input [4:0] SAXIACPAWUSER; input [5:0] SAXIGP0ARID; input [5:0] SAXIGP0AWID; input [5:0] SAXIGP0WID; input [5:0] SAXIGP1ARID; input [5:0] SAXIGP1AWID; input [5:0] SAXIGP1WID; input [5:0] SAXIHP0ARID; input [5:0] SAXIHP0AWID; input [5:0] SAXIHP0WID; input [5:0] SAXIHP1ARID; input [5:0] SAXIHP1AWID; input [5:0] SAXIHP1WID; input [5:0] SAXIHP2ARID; input [5:0] SAXIHP2AWID; input [5:0] SAXIHP2WID; input [5:0] SAXIHP3ARID; input [5:0] SAXIHP3AWID; input [5:0] SAXIHP3WID; input [63:0] EMIOGPIOI; input [63:0] SAXIACPWDATA; input [63:0] SAXIHP0WDATA; input [63:0] SAXIHP1WDATA; input [63:0] SAXIHP2WDATA; input [63:0] SAXIHP3WDATA; input [7:0] EMIOENET0GMIIRXD; input [7:0] EMIOENET1GMIIRXD; input [7:0] SAXIACPWSTRB; input [7:0] SAXIHP0WSTRB; input [7:0] SAXIHP1WSTRB; input [7:0] SAXIHP2WSTRB; input [7:0] SAXIHP3WSTRB; endmodule module PULLDOWN (...); output O; endmodule module PULLUP (...); output O; endmodule module RAM128X1S (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, A6, D, WCLK, WE; endmodule module RAM256X1S (...); parameter [255:0] INIT = 256'h0; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input [7:0] A; input D; input WCLK; input WE; endmodule module RAM32M (...); parameter [63:0] INIT_A = 64'h0000000000000000; parameter [63:0] INIT_B = 64'h0000000000000000; parameter [63:0] INIT_C = 64'h0000000000000000; parameter [63:0] INIT_D = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output [1:0] DOA; output [1:0] DOB; output [1:0] DOC; output [1:0] DOD; input [4:0] ADDRA; input [4:0] ADDRB; input [4:0] ADDRC; input [4:0] ADDRD; input [1:0] DIA; input [1:0] DIB; input [1:0] DIC; input [1:0] DID; input WCLK; input WE; endmodule module RAM32X1S (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, D, WCLK, WE; endmodule module RAM32X1S_1 (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, D, WCLK, WE; endmodule module RAM32X2S (...); parameter [31:0] INIT_00 = 32'h00000000; parameter [31:0] INIT_01 = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O0, O1; input A0, A1, A2, A3, A4, D0, D1, WCLK, WE; endmodule module RAM64M (...); parameter [63:0] INIT_A = 64'h0000000000000000; parameter [63:0] INIT_B = 64'h0000000000000000; parameter [63:0] INIT_C = 64'h0000000000000000; parameter [63:0] INIT_D = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output DOA; output DOB; output DOC; output DOD; input [5:0] ADDRA; input [5:0] ADDRB; input [5:0] ADDRC; input [5:0] ADDRD; input DIA; input DIB; input DIC; input DID; input WCLK; input WE; endmodule module RAM64X1S (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, D, WCLK, WE; endmodule module RAM64X1S_1 (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, D, WCLK, WE; endmodule module RAM64X2S (...); parameter [63:0] INIT_00 = 64'h0000000000000000; parameter [63:0] INIT_01 = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O0, O1; input A0, A1, A2, A3, A4, A5, D0, D1, WCLK, WE; endmodule module ROM128X1 (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; output O; input A0, A1, A2, A3, A4, A5, A6; endmodule module ROM256X1 (...); parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; output O; input A0, A1, A2, A3, A4, A5, A6, A7; endmodule module ROM32X1 (...); parameter [31:0] INIT = 32'h00000000; output O; input A0, A1, A2, A3, A4; endmodule module ROM64X1 (...); parameter [63:0] INIT = 64'h0000000000000000; output O; input A0, A1, A2, A3, A4, A5; endmodule (* keep *) module STARTUPE2 (...); parameter PROG_USR = "FALSE"; parameter real SIM_CCLK_FREQ = 0.0; output CFGCLK; output CFGMCLK; output EOS; output PREQ; input CLK; input GSR; input GTS; input KEYCLEARB; input PACK; input USRCCLKO; input USRCCLKTS; input USRDONEO; input USRDONETS; endmodule module USR_ACCESSE2 (...); output CFGCLK; output DATAVALID; output [31:0] DATA; endmodule module XADC (...); output BUSY; output DRDY; output EOC; output EOS; output JTAGBUSY; output JTAGLOCKED; output JTAGMODIFIED; output OT; output [15:0] DO; output [7:0] ALM; output [4:0] CHANNEL; output [4:0] MUXADDR; input CONVST; input CONVSTCLK; input DCLK; input DEN; input DWE; input RESET; input VN; input VP; input [15:0] DI; input [15:0] VAUXN; input [15:0] VAUXP; input [6:0] DADDR; parameter [15:0] INIT_40 = 16'h0; parameter [15:0] INIT_41 = 16'h0; parameter [15:0] INIT_42 = 16'h0800; parameter [15:0] INIT_43 = 16'h0; parameter [15:0] INIT_44 = 16'h0; parameter [15:0] INIT_45 = 16'h0; parameter [15:0] INIT_46 = 16'h0; parameter [15:0] INIT_47 = 16'h0; parameter [15:0] INIT_48 = 16'h0; parameter [15:0] INIT_49 = 16'h0; parameter [15:0] INIT_4A = 16'h0; parameter [15:0] INIT_4B = 16'h0; parameter [15:0] INIT_4C = 16'h0; parameter [15:0] INIT_4D = 16'h0; parameter [15:0] INIT_4E = 16'h0; parameter [15:0] INIT_4F = 16'h0; parameter [15:0] INIT_50 = 16'h0; parameter [15:0] INIT_51 = 16'h0; parameter [15:0] INIT_52 = 16'h0; parameter [15:0] INIT_53 = 16'h0; parameter [15:0] INIT_54 = 16'h0; parameter [15:0] INIT_55 = 16'h0; parameter [15:0] INIT_56 = 16'h0; parameter [15:0] INIT_57 = 16'h0; parameter [15:0] INIT_58 = 16'h0; parameter [15:0] INIT_59 = 16'h0; parameter [15:0] INIT_5A = 16'h0; parameter [15:0] INIT_5B = 16'h0; parameter [15:0] INIT_5C = 16'h0; parameter [15:0] INIT_5D = 16'h0; parameter [15:0] INIT_5E = 16'h0; parameter [15:0] INIT_5F = 16'h0; parameter IS_CONVSTCLK_INVERTED = 1'b0; parameter IS_DCLK_INVERTED = 1'b0; parameter SIM_DEVICE = "7SERIES"; parameter SIM_MONITOR_FILE = "design.txt"; endmodule