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|
/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Claire Xenia Wolf <claire@yosyshq.com>
* Copyright (C) 2018 gatecat <gatecat@ds0.me>
* Copyright (C) 2018 Serge Bazanski <q3k@q3k.org>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#include "cells.h"
#include "design_utils.h"
#include "log.h"
#include "util.h"
NEXTPNR_NAMESPACE_BEGIN
std::unique_ptr<CellInfo> create_ice_cell(Context *ctx, IdString type, std::string name)
{
static int auto_idx = 0;
IdString name_id =
name.empty() ? ctx->id("$nextpnr_" + type.str(ctx) + "_" + std::to_string(auto_idx++)) : ctx->id(name);
auto new_cell = std::make_unique<CellInfo>(ctx, name_id, type);
if (type == id_ICESTORM_LC) {
new_cell->params[id_LUT_INIT] = Property(0, 16);
new_cell->params[id_NEG_CLK] = Property::State::S0;
new_cell->params[id_CARRY_ENABLE] = Property::State::S0;
new_cell->params[id_DFF_ENABLE] = Property::State::S0;
new_cell->params[id_SET_NORESET] = Property::State::S0;
new_cell->params[id_ASYNC_SR] = Property::State::S0;
new_cell->params[id_CIN_CONST] = Property::State::S0;
new_cell->params[id_CIN_SET] = Property::State::S0;
new_cell->addInput(id_I0);
new_cell->addInput(id_I1);
new_cell->addInput(id_I2);
new_cell->addInput(id_I3);
new_cell->addInput(id_CIN);
new_cell->addInput(id_CLK);
new_cell->addInput(id_CEN);
new_cell->addInput(id_SR);
new_cell->addOutput(id_LO);
new_cell->addOutput(id_O);
new_cell->addOutput(id_COUT);
} else if (type == id_SB_IO) {
new_cell->params[id_PIN_TYPE] = Property(0, 6);
new_cell->params[id_PULLUP] = Property::State::S0;
new_cell->params[id_NEG_TRIGGER] = Property::State::S0;
new_cell->params[id_IO_STANDARD] = Property("SB_LVCMOS");
new_cell->addInout(id_PACKAGE_PIN);
new_cell->addInput(id_LATCH_INPUT_VALUE);
new_cell->addInput(id_CLOCK_ENABLE);
new_cell->addInput(id_INPUT_CLK);
new_cell->addInput(id_OUTPUT_CLK);
new_cell->addInput(id_OUTPUT_ENABLE);
new_cell->addInput(id_D_OUT_0);
new_cell->addInput(id_D_OUT_1);
new_cell->addOutput(id_D_IN_0);
new_cell->addOutput(id_D_IN_1);
} else if (type == id_ICESTORM_RAM) {
new_cell->params[id_NEG_CLK_W] = Property::State::S0;
new_cell->params[id_NEG_CLK_R] = Property::State::S0;
new_cell->params[id_WRITE_MODE] = Property::State::S0;
new_cell->params[id_READ_MODE] = Property::State::S0;
new_cell->addInput(id_RCLK);
new_cell->addInput(id_RCLKE);
new_cell->addInput(id_RE);
new_cell->addInput(id_WCLK);
new_cell->addInput(id_WCLKE);
new_cell->addInput(id_WE);
for (int i = 0; i < 16; i++) {
new_cell->addInput(ctx->id("WDATA_" + std::to_string(i)));
new_cell->addInput(ctx->id("MASK_" + std::to_string(i)));
new_cell->addOutput(ctx->id("RDATA_" + std::to_string(i)));
}
for (int i = 0; i < 11; i++) {
new_cell->addInput(ctx->id("RADDR_" + std::to_string(i)));
new_cell->addInput(ctx->id("WADDR_" + std::to_string(i)));
}
} else if (type == id_ICESTORM_LFOSC) {
new_cell->addInput(id_CLKLFEN);
new_cell->addInput(id_CLKLFPU);
new_cell->addOutput(id_CLKLF);
new_cell->addOutput(id_CLKLF_FABRIC);
} else if (type == id_ICESTORM_HFOSC) {
new_cell->params[id_CLKHF_DIV] = Property("0b00");
new_cell->params[id_TRIM_EN] = Property("0b0");
new_cell->addInput(id_CLKHFEN);
new_cell->addInput(id_CLKHFPU);
new_cell->addOutput(id_CLKHF);
new_cell->addOutput(id_CLKHF_FABRIC);
for (int i = 0; i < 10; i++)
new_cell->addInput(ctx->id("TRIM" + std::to_string(i)));
} else if (type == id_SB_GB) {
new_cell->addInput(id_USER_SIGNAL_TO_GLOBAL_BUFFER);
new_cell->addOutput(id_GLOBAL_BUFFER_OUTPUT);
} else if (type == id_ICESTORM_SPRAM) {
new_cell->addInput(id_WREN);
new_cell->addInput(id_CHIPSELECT);
new_cell->addInput(id_CLOCK);
new_cell->addInput(id_STANDBY);
new_cell->addInput(id_SLEEP);
new_cell->addInput(id_POWEROFF);
for (int i = 0; i < 16; i++) {
new_cell->addInput(ctx->id("DATAIN_" + std::to_string(i)));
new_cell->addOutput(ctx->id("DATAOUT_" + std::to_string(i)));
}
for (int i = 0; i < 14; i++) {
new_cell->addInput(ctx->id("ADDRESS_" + std::to_string(i)));
}
for (int i = 0; i < 4; i++) {
new_cell->addInput(ctx->id("MASKWREN_" + std::to_string(i)));
}
} else if (type == id_ICESTORM_DSP) {
new_cell->params[id_NEG_TRIGGER] = Property::State::S0;
new_cell->params[id_C_REG] = Property::State::S0;
new_cell->params[id_A_REG] = Property::State::S0;
new_cell->params[id_B_REG] = Property::State::S0;
new_cell->params[id_D_REG] = Property::State::S0;
new_cell->params[id_TOP_8x8_MULT_REG] = Property::State::S0;
new_cell->params[id_BOT_8x8_MULT_REG] = Property::State::S0;
new_cell->params[id_PIPELINE_16x16_MULT_REG1] = Property::State::S0;
new_cell->params[id_PIPELINE_16x16_MULT_REG2] = Property::State::S0;
new_cell->params[id_TOPOUTPUT_SELECT] = Property(0, 2);
new_cell->params[id_TOPADDSUB_LOWERINPUT] = Property(0, 2);
new_cell->params[id_TOPADDSUB_UPPERINPUT] = Property::State::S0;
new_cell->params[id_TOPADDSUB_CARRYSELECT] = Property(0, 2);
new_cell->params[id_BOTOUTPUT_SELECT] = Property(0, 2);
new_cell->params[id_BOTADDSUB_LOWERINPUT] = Property(0, 2);
new_cell->params[id_BOTADDSUB_UPPERINPUT] = Property::State::S0;
new_cell->params[id_BOTADDSUB_CARRYSELECT] = Property(0, 2);
new_cell->params[id_MODE_8x8] = Property::State::S0;
new_cell->params[id_A_SIGNED] = Property::State::S0;
new_cell->params[id_B_SIGNED] = Property::State::S0;
new_cell->addInput(id_CLK);
new_cell->addInput(id_CE);
for (int i = 0; i < 16; i++) {
new_cell->addInput(ctx->id("C_" + std::to_string(i)));
new_cell->addInput(ctx->id("A_" + std::to_string(i)));
new_cell->addInput(ctx->id("B_" + std::to_string(i)));
new_cell->addInput(ctx->id("D_" + std::to_string(i)));
}
new_cell->addInput(id_AHOLD);
new_cell->addInput(id_BHOLD);
new_cell->addInput(id_CHOLD);
new_cell->addInput(id_DHOLD);
new_cell->addInput(id_IRSTTOP);
new_cell->addInput(id_IRSTBOT);
new_cell->addInput(id_ORSTTOP);
new_cell->addInput(id_ORSTBOT);
new_cell->addInput(id_OLOADTOP);
new_cell->addInput(id_OLOADBOT);
new_cell->addInput(id_ADDSUBTOP);
new_cell->addInput(id_ADDSUBBOT);
new_cell->addInput(id_OHOLDTOP);
new_cell->addInput(id_OHOLDBOT);
new_cell->addInput(id_CI);
new_cell->addInput(id_ACCUMCI);
new_cell->addInput(id_SIGNEXTIN);
for (int i = 0; i < 32; i++) {
new_cell->addOutput(ctx->id("O_" + std::to_string(i)));
}
new_cell->addOutput(id_CO);
new_cell->addOutput(id_ACCUMCO);
new_cell->addOutput(id_SIGNEXTOUT);
} else if (type == id_ICESTORM_PLL) {
new_cell->params[id_DELAY_ADJMODE_FB] = Property::State::S0;
new_cell->params[id_DELAY_ADJMODE_REL] = Property::State::S0;
new_cell->params[id_DIVF] = Property(0, 7);
new_cell->params[id_DIVQ] = Property(0, 3);
new_cell->params[id_DIVR] = Property(0, 4);
new_cell->params[id_FDA_FEEDBACK] = Property(0, 4);
new_cell->params[id_FDA_RELATIVE] = Property(0, 4);
new_cell->params[id_FEEDBACK_PATH] = Property(1, 3);
new_cell->params[id_FILTER_RANGE] = Property(0, 3);
new_cell->params[id_PLLOUT_SELECT_A] = Property(0, 2);
new_cell->params[id_PLLOUT_SELECT_B] = Property(0, 2);
new_cell->params[id_PLLTYPE] = Property(0, 3);
new_cell->params[id_SHIFTREG_DIVMODE] = Property::State::S0;
new_cell->params[id_TEST_MODE] = Property::State::S0;
new_cell->addInput(id_BYPASS);
for (int i = 0; i < 8; i++)
new_cell->addInput(ctx->id("DYNAMICDELAY_" + std::to_string(i)));
new_cell->addInput(id_EXTFEEDBACK);
new_cell->addInput(id_LATCHINPUTVALUE);
new_cell->addInput(id_REFERENCECLK);
new_cell->addInput(id_RESETB);
new_cell->addInput(id_SCLK);
new_cell->addInput(id_SDI);
new_cell->addOutput(id_SDO);
new_cell->addOutput(id_LOCK);
new_cell->addOutput(id_PLLOUT_A);
new_cell->addOutput(id_PLLOUT_B);
new_cell->addOutput(id_PLLOUT_A_GLOBAL);
new_cell->addOutput(id_PLLOUT_B_GLOBAL);
} else if (type == id_SB_RGBA_DRV) {
new_cell->params[id_CURRENT_MODE] = std::string("0b0");
new_cell->params[id_RGB0_CURRENT] = std::string("0b000000");
new_cell->params[id_RGB1_CURRENT] = std::string("0b000000");
new_cell->params[id_RGB2_CURRENT] = std::string("0b000000");
new_cell->addInput(id_CURREN);
new_cell->addInput(id_RGBLEDEN);
new_cell->addInput(id_RGB0PWM);
new_cell->addInput(id_RGB1PWM);
new_cell->addInput(id_RGB2PWM);
new_cell->addOutput(id_RGB0);
new_cell->addOutput(id_RGB1);
new_cell->addOutput(id_RGB2);
} else if (type == id_SB_LED_DRV_CUR) {
new_cell->addInput(id_EN);
new_cell->addOutput(id_LEDPU);
} else if (type == id_SB_RGB_DRV) {
new_cell->params[id_RGB0_CURRENT] = std::string("0b000000");
new_cell->params[id_RGB1_CURRENT] = std::string("0b000000");
new_cell->params[id_RGB2_CURRENT] = std::string("0b000000");
new_cell->addInput(id_RGBPU);
new_cell->addInput(id_RGBLEDEN);
new_cell->addInput(id_RGB0PWM);
new_cell->addInput(id_RGB1PWM);
new_cell->addInput(id_RGB2PWM);
new_cell->addOutput(id_RGB0);
new_cell->addOutput(id_RGB1);
new_cell->addOutput(id_RGB2);
} else if (type == id_SB_LEDDA_IP) {
new_cell->addInput(id_LEDDCS);
new_cell->addInput(id_LEDDCLK);
for (int i = 0; i < 8; i++)
new_cell->addInput(ctx->id("LEDDDAT" + std::to_string(i)));
for (int i = 0; i < 3; i++)
new_cell->addInput(ctx->id("LEDDADDR" + std::to_string(i)));
new_cell->addInput(id_LEDDDEN);
new_cell->addInput(id_LEDDEXE);
new_cell->addInput(id_LEDDRST); // doesn't actually exist, for icecube code compatibility
// only
new_cell->addOutput(id_PWMOUT0);
new_cell->addOutput(id_PWMOUT1);
new_cell->addOutput(id_PWMOUT2);
new_cell->addOutput(id_LEDDON);
} else if (type == id_SB_I2C) {
new_cell->params[id_I2C_SLAVE_INIT_ADDR] = std::string("0b1111100001");
new_cell->params[id_BUS_ADDR74] = std::string("0b0001");
for (int i = 0; i < 8; i++) {
new_cell->addInput(ctx->id("SBADRI" + std::to_string(i)));
new_cell->addInput(ctx->id("SBDATI" + std::to_string(i)));
new_cell->addOutput(ctx->id("SBDATO" + std::to_string(i)));
}
new_cell->addInput(id_SBCLKI);
new_cell->addInput(id_SBRWI);
new_cell->addInput(id_SBSTBI);
new_cell->addInput(id_SCLI);
new_cell->addInput(id_SDAI);
new_cell->addOutput(id_SBACKO);
new_cell->addOutput(id_I2CIRQ);
new_cell->addOutput(id_I2CWKUP);
new_cell->addOutput(id_SCLO);
new_cell->addOutput(id_SCLOE);
new_cell->addOutput(id_SDAO);
new_cell->addOutput(id_SDAOE);
} else if (type == id_SB_SPI) {
new_cell->params[id_BUS_ADDR74] = std::string("0b0000");
for (int i = 0; i < 8; i++) {
new_cell->addInput(ctx->id("SBADRI" + std::to_string(i)));
new_cell->addInput(ctx->id("SBDATI" + std::to_string(i)));
new_cell->addOutput(ctx->id("SBDATO" + std::to_string(i)));
}
new_cell->addInput(id_SBCLKI);
new_cell->addInput(id_SBRWI);
new_cell->addInput(id_SBSTBI);
new_cell->addInput(id_MI);
new_cell->addInput(id_SI);
new_cell->addInput(id_SCKI);
new_cell->addInput(id_SCSNI);
new_cell->addOutput(id_SBACKO);
new_cell->addOutput(id_SPIIRQ);
new_cell->addOutput(id_SPIWKUP);
new_cell->addOutput(id_SO);
new_cell->addOutput(id_SOE);
new_cell->addOutput(id_MO);
new_cell->addOutput(id_MOE);
new_cell->addOutput(id_SCKO);
new_cell->addOutput(id_SCKOE);
for (int i = 0; i < 4; i++) {
new_cell->addOutput(ctx->id("MCSNO" + std::to_string(i)));
new_cell->addOutput(ctx->id("MCSNOE" + std::to_string(i)));
}
} else {
log_error("unable to create iCE40 cell of type %s", type.c_str(ctx));
}
return new_cell;
}
void lut_to_lc(const Context *ctx, CellInfo *lut, CellInfo *lc, bool no_dff)
{
if (lc->hierpath == IdString())
lc->hierpath = lut->hierpath;
lc->params[id_LUT_INIT] = lut->params[id_LUT_INIT].extract(0, 16, Property::State::S0);
lut->movePortTo(id_I0, lc, id_I0);
lut->movePortTo(id_I1, lc, id_I1);
lut->movePortTo(id_I2, lc, id_I2);
lut->movePortTo(id_I3, lc, id_I3);
if (no_dff) {
lut->movePortTo(id_O, lc, id_O);
lc->params[id_DFF_ENABLE] = Property::State::S0;
}
}
void dff_to_lc(const Context *ctx, CellInfo *dff, CellInfo *lc, bool pass_thru_lut)
{
if (lc->hierpath == IdString())
lc->hierpath = dff->hierpath;
lc->params[id_DFF_ENABLE] = Property::State::S1;
std::string config = dff->type.str(ctx).substr(6);
auto citer = config.begin();
dff->movePortTo(id_C, lc, id_CLK);
if (citer != config.end() && *citer == 'N') {
lc->params[id_NEG_CLK] = Property::State::S1;
++citer;
} else {
lc->params[id_NEG_CLK] = Property::State::S0;
}
if (citer != config.end() && *citer == 'E') {
dff->movePortTo(id_E, lc, id_CEN);
++citer;
}
if (citer != config.end()) {
if ((config.end() - citer) >= 2) {
char c = *(citer++);
NPNR_ASSERT(c == 'S');
lc->params[id_ASYNC_SR] = Property::State::S0;
} else {
lc->params[id_ASYNC_SR] = Property::State::S1;
}
if (*citer == 'S') {
citer++;
dff->movePortTo(id_S, lc, id_SR);
lc->params[id_SET_NORESET] = Property::State::S1;
} else {
NPNR_ASSERT(*citer == 'R');
citer++;
dff->movePortTo(id_R, lc, id_SR);
lc->params[id_SET_NORESET] = Property::State::S0;
}
}
NPNR_ASSERT(citer == config.end());
if (pass_thru_lut) {
lc->params[id_LUT_INIT] = Property(2, 16);
dff->movePortTo(id_D, lc, id_I0);
}
dff->movePortTo(id_Q, lc, id_O);
}
void nxio_to_sb(Context *ctx, CellInfo *nxio, CellInfo *sbio, pool<IdString> &todelete_cells)
{
if (nxio->type == ctx->id("$nextpnr_ibuf")) {
sbio->params[id_PIN_TYPE] = 1;
auto pu_attr = nxio->attrs.find(id_PULLUP);
if (pu_attr != nxio->attrs.end())
sbio->params[id_PULLUP] = pu_attr->second;
nxio->movePortTo(id_O, sbio, id_D_IN_0);
} else if (nxio->type == ctx->id("$nextpnr_obuf")) {
sbio->params[id_PIN_TYPE] = 25;
nxio->movePortTo(id_I, sbio, id_D_OUT_0);
} else if (nxio->type == ctx->id("$nextpnr_iobuf")) {
// N.B. tristate will be dealt with below
NetInfo *i = nxio->getPort(id_I);
if (i == nullptr || i->driver.cell == nullptr)
sbio->params[id_PIN_TYPE] = 1;
else
sbio->params[id_PIN_TYPE] = 25;
auto pu_attr = nxio->attrs.find(id_PULLUP);
if (pu_attr != nxio->attrs.end())
sbio->params[id_PULLUP] = pu_attr->second;
nxio->movePortTo(id_I, sbio, id_D_OUT_0);
nxio->movePortTo(id_O, sbio, id_D_IN_0);
} else {
NPNR_ASSERT(false);
}
NetInfo *donet = sbio->ports.at(id_D_OUT_0).net, *dinet = sbio->ports.at(id_D_IN_0).net;
// Rename I/O nets to avoid conflicts
if (donet != nullptr && donet->name == nxio->name)
if (donet)
ctx->renameNet(donet->name, ctx->id(donet->name.str(ctx) + "$SB_IO_OUT"));
if (dinet != nullptr && dinet->name == nxio->name)
if (dinet)
ctx->renameNet(dinet->name, ctx->id(dinet->name.str(ctx) + "$SB_IO_IN"));
if (ctx->nets.count(nxio->name)) {
int i = 0;
IdString new_name;
do {
new_name = ctx->id(nxio->name.str(ctx) + "$rename$" + std::to_string(i++));
} while (ctx->nets.count(new_name));
if (ctx->nets.at(nxio->name).get())
ctx->renameNet(ctx->nets.at(nxio->name).get()->name, new_name);
}
// Create a new top port net for accurate IO timing analysis and simulation netlists
if (ctx->ports.count(nxio->name)) {
IdString tn_netname = nxio->name;
NPNR_ASSERT(!ctx->nets.count(tn_netname));
ctx->net_aliases.erase(tn_netname);
NetInfo *toplevel_net = ctx->createNet(tn_netname);
sbio->connectPort(id_PACKAGE_PIN, toplevel_net);
ctx->ports[nxio->name].net = toplevel_net;
}
CellInfo *tbuf = net_driven_by(
ctx, donet, [](const Context *ctx, const CellInfo *cell) { return cell->type == ctx->id("$_TBUF_"); },
id_Y);
if (tbuf) {
sbio->params[id_PIN_TYPE] = 41;
tbuf->movePortTo(id_A, sbio, id_D_OUT_0);
tbuf->movePortTo(id_E, sbio, id_OUTPUT_ENABLE);
if (donet->users.entries() > 1) {
for (auto user : donet->users)
log_info(" remaining tristate user: %s.%s\n", user.cell->name.c_str(ctx), user.port.c_str(ctx));
log_error("unsupported tristate IO pattern for IO buffer '%s', "
"instantiate SB_IO manually to ensure correct behaviour\n",
nxio->name.c_str(ctx));
}
ctx->nets.erase(donet->name);
todelete_cells.insert(tbuf->name);
}
}
uint8_t sb_pll40_type(const BaseCtx *ctx, const CellInfo *cell)
{
if (cell->type == id_SB_PLL40_PAD)
return 2;
if (cell->type == id_SB_PLL40_2_PAD)
return 4;
if (cell->type == id_SB_PLL40_2F_PAD)
return 6;
if (cell->type == id_SB_PLL40_CORE)
return 3;
if (cell->type == id_SB_PLL40_2F_CORE)
return 7;
NPNR_ASSERT(0);
}
bool is_clock_port(const BaseCtx *ctx, const PortRef &port)
{
if (port.cell == nullptr)
return false;
if (is_ff(ctx, port.cell))
return port.port == id_C;
if (port.cell->type == id_ICESTORM_LC)
return port.port == id_CLK;
if (is_ram(ctx, port.cell) || port.cell->type == id_ICESTORM_RAM)
return port.port.in(id_RCLK, id_WCLK, id_RCLKN, id_WCLKN);
if (is_sb_mac16(ctx, port.cell) || port.cell->type == id_ICESTORM_DSP)
return port.port == id_CLK;
if (is_sb_spram(ctx, port.cell) || port.cell->type == id_ICESTORM_SPRAM)
return port.port == id_CLOCK;
if (is_sb_io(ctx, port.cell))
return port.port.in(id_INPUT_CLK, id_OUTPUT_CLK);
return false;
}
bool is_reset_port(const BaseCtx *ctx, const PortRef &port)
{
if (port.cell == nullptr)
return false;
if (is_ff(ctx, port.cell))
return port.port.in(id_R, id_S);
if (port.cell->type == id_ICESTORM_LC)
return port.port == id_SR;
if (is_sb_mac16(ctx, port.cell) || port.cell->type == id_ICESTORM_DSP)
return port.port.in(id_IRSTTOP, id_IRSTBOT, id_ORSTTOP, id_ORSTBOT);
return false;
}
bool is_enable_port(const BaseCtx *ctx, const PortRef &port)
{
if (port.cell == nullptr)
return false;
if (is_ff(ctx, port.cell))
return port.port == id_E;
if (port.cell->type == id_ICESTORM_LC)
return port.port == id_CEN;
// FIXME
// if (is_sb_mac16(ctx, port.cell) || port.cell->type == id_ICESTORM_DSP)
// return port.port == id_CE;
return false;
}
NEXTPNR_NAMESPACE_END
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