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yosys/techlibs/xilinx/synth_xilinx.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
* (C) 2019 Eddie Hung <eddie@fpgeh.com>
*
* 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 "kernel/register.h"
#include "kernel/celltypes.h"
#include "kernel/rtlil.h"
#include "kernel/log.h"
USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
#define XC7_WIRE_DELAY 300 // Number with which ABC will map a 6-input gate
// to one LUT6 (instead of a LUT5 + LUT2)
struct SynthXilinxPass : public ScriptPass
{
SynthXilinxPass() : ScriptPass("synth_xilinx", "synthesis for Xilinx FPGAs") { }
void help() YS_OVERRIDE
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" synth_xilinx [options]\n");
log("\n");
log("This command runs synthesis for Xilinx FPGAs. This command does not operate on\n");
log("partly selected designs. At the moment this command creates netlists that are\n");
log("compatible with 7-Series Xilinx devices.\n");
log("\n");
log(" -top <module>\n");
log(" use the specified module as top module\n");
log("\n");
log(" -family {xcup|xcu|xc7|xc6v|xc5v|xc6s}\n");
log(" run synthesis for the specified Xilinx architecture\n");
log(" generate the synthesis netlist for the specified family.\n");
log(" default: xc7\n");
log("\n");
log(" -edif <file>\n");
log(" write the design to the specified edif file. writing of an output file\n");
log(" is omitted if this parameter is not specified.\n");
log("\n");
log(" -blif <file>\n");
log(" write the design to the specified BLIF file. writing of an output file\n");
log(" is omitted if this parameter is not specified.\n");
log("\n");
log(" -vpr\n");
log(" generate an output netlist (and BLIF file) suitable for VPR\n");
log(" (this feature is experimental and incomplete)\n");
log("\n");
log(" -ise\n");
log(" generate an output netlist suitable for ISE (enables -iopad)\n");
log("\n");
log(" -nobram\n");
log(" do not use block RAM cells in output netlist\n");
log("\n");
log(" -nolutram\n");
log(" do not use distributed RAM cells in output netlist\n");
log("\n");
log(" -nosrl\n");
log(" do not use distributed SRL cells in output netlist\n");
log("\n");
log(" -nocarry\n");
log(" do not use XORCY/MUXCY/CARRY4 cells in output netlist\n");
log("\n");
log(" -nowidelut\n");
log(" do not use MUXF[78] resources to implement LUTs larger than LUT6s\n");
log("\n");
log(" -nodsp\n");
log(" do not use DSP48E1s to implement multipliers and associated logic\n");
log("\n");
log(" -iopad\n");
log(" enable I/O buffer insertion (selected automatically by -ise)\n");
log("\n");
log(" -noiopad\n");
log(" disable I/O buffer insertion (only useful with -ise)\n");
log("\n");
log(" -noclkbuf\n");
log(" disable automatic clock buffer insertion\n");
log("\n");
log(" -uram\n");
log(" infer URAM288s for large memories (xcup only)\n");
log("\n");
log(" -widemux <int>\n");
log(" enable inference of hard multiplexer resources (MUXF[78]) for muxes at or\n");
log(" above this number of inputs (minimum value 2, recommended value >= 5).\n");
log(" default: 0 (no inference)\n");
log("\n");
log(" -run <from_label>:<to_label>\n");
log(" only run the commands between the labels (see below). an empty\n");
log(" from label is synonymous to 'begin', and empty to label is\n");
log(" synonymous to the end of the command list.\n");
log("\n");
log(" -flatten\n");
log(" flatten design before synthesis\n");
log("\n");
log(" -retime\n");
log(" run 'abc' with -dff option\n");
log("\n");
log(" -abc9\n");
log(" use new ABC9 flow (EXPERIMENTAL)\n");
log("\n");
log("\n");
log("The following commands are executed by this synthesis command:\n");
help_script();
log("\n");
}
std::string top_opt, edif_file, blif_file, family;
bool flatten, retime, vpr, ise, iopad, noiopad, noclkbuf, nobram, nolutram, nosrl, nocarry, nowidelut, nodsp, uram, abc9;
bool flatten_before_abc;
int widemux;
void clear_flags() YS_OVERRIDE
{
top_opt = "-auto-top";
edif_file.clear();
blif_file.clear();
family = "xc7";
flatten = false;
retime = false;
vpr = false;
ise = false;
iopad = false;
noiopad = false;
noclkbuf = false;
nocarry = false;
nobram = false;
nolutram = false;
nosrl = false;
nocarry = false;
nowidelut = false;
nodsp = false;
uram = false;
abc9 = false;
flatten_before_abc = false;
widemux = 0;
}
void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
{
std::string run_from, run_to;
clear_flags();
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++)
{
if (args[argidx] == "-top" && argidx+1 < args.size()) {
top_opt = "-top " + args[++argidx];
continue;
}
if ((args[argidx] == "-family" || args[argidx] == "-arch") && argidx+1 < args.size()) {
family = args[++argidx];
continue;
}
if (args[argidx] == "-edif" && argidx+1 < args.size()) {
edif_file = args[++argidx];
continue;
}
if (args[argidx] == "-blif" && argidx+1 < args.size()) {
blif_file = args[++argidx];
continue;
}
if (args[argidx] == "-run" && argidx+1 < args.size()) {
size_t pos = args[argidx+1].find(':');
if (pos == std::string::npos)
break;
run_from = args[++argidx].substr(0, pos);
run_to = args[argidx].substr(pos+1);
continue;
}
if (args[argidx] == "-flatten") {
flatten = true;
continue;
}
if (args[argidx] == "-flatten_before_abc") {
flatten_before_abc = true;
continue;
}
if (args[argidx] == "-retime") {
retime = true;
continue;
}
if (args[argidx] == "-nocarry") {
nocarry = true;
continue;
}
if (args[argidx] == "-nowidelut") {
nowidelut = true;
continue;
}
if (args[argidx] == "-vpr") {
vpr = true;
continue;
}
if (args[argidx] == "-ise") {
ise = true;
continue;
}
if (args[argidx] == "-iopad") {
iopad = true;
continue;
}
if (args[argidx] == "-noiopad") {
noiopad = true;
continue;
}
if (args[argidx] == "-noclkbuf") {
noclkbuf = true;
continue;
}
if (args[argidx] == "-nocarry") {
nocarry = true;
continue;
}
if (args[argidx] == "-nobram") {
nobram = true;
continue;
}
if (args[argidx] == "-nolutram" || /*deprecated alias*/ args[argidx] == "-nodram") {
nolutram = true;
continue;
}
if (args[argidx] == "-nosrl") {
nosrl = true;
continue;
}
if (args[argidx] == "-widemux" && argidx+1 < args.size()) {
widemux = atoi(args[++argidx].c_str());
continue;
}
if (args[argidx] == "-abc9") {
abc9 = true;
continue;
}
if (args[argidx] == "-nodsp") {
nodsp = true;
continue;
}
if (args[argidx] == "-uram") {
uram = true;
continue;
}
break;
}
extra_args(args, argidx, design);
if (family != "xcup" && family != "xcu" && family != "xc7" && family != "xc6v" && family != "xc5v" && family != "xc6s")
log_cmd_error("Invalid Xilinx -family setting: '%s'.\n", family.c_str());
if (widemux != 0 && widemux < 2)
log_cmd_error("-widemux value must be 0 or >= 2.\n");
if (!design->full_selection())
log_cmd_error("This command only operates on fully selected designs!\n");
if (abc9 && retime)
log_cmd_error("-retime option not currently compatible with -abc9!\n");
log_header(design, "Executing SYNTH_XILINX pass.\n");
log_push();
run_script(design, run_from, run_to);
log_pop();
}
void script() YS_OVERRIDE
{
std::string ff_map_file;
if (help_mode)
ff_map_file = "+/xilinx/{family}_ff_map.v";
else if (family == "xc6s")
ff_map_file = "+/xilinx/xc6s_ff_map.v";
else
ff_map_file = "+/xilinx/xc7_ff_map.v";
if (check_label("begin")) {
std::string read_args;
if (vpr)
read_args += " -D_EXPLICIT_CARRY";
read_args += " -lib +/xilinx/cells_sim.v";
run("read_verilog" + read_args);
run("read_verilog -lib +/xilinx/cells_xtra.v");
run(stringf("hierarchy -check %s", top_opt.c_str()));
}
if (check_label("prepare")) {
run("proc");
if (flatten || help_mode)
run("flatten", "(with '-flatten')");
run("opt_expr");
run("opt_clean");
run("check");
run("opt");
if (help_mode)
run("wreduce [-keepdc]", "(option for '-widemux')");
else
run("wreduce" + std::string(widemux > 0 ? " -keepdc" : ""));
run("peepopt");
run("opt_clean");
if (widemux > 0 || help_mode)
run("muxpack", " ('-widemux' only)");
// xilinx_srl looks for $shiftx cells for identifying variable-length
// shift registers, so attempt to convert $pmux-es to this
// Also: wide multiplexer inference benefits from this too
if (!(nosrl && widemux == 0) || help_mode) {
run("pmux2shiftx", "(skip if '-nosrl' and '-widemux=0')");
run("clean", " (skip if '-nosrl' and '-widemux=0')");
}
run("techmap -map +/cmp2lut.v -D LUT_WIDTH=6");
}
if (check_label("map_dsp", "(skip if '-nodsp')")) {
if (!nodsp || help_mode) {
run("memory_dff"); // xilinx_dsp will merge registers, reserve memory port registers first
// NB: Xilinx multipliers are signed only
if (help_mode)
run("techmap -map +/mul2dsp.v -map +/xilinx/{family}_dsp_map.v {options}");
else if (family == "xc2v" || family == "xc3s" || family == "xc3se" || family == "xc3sa")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc3s_mult_map.v -D DSP_A_MAXWIDTH=18 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL18X18");
else if (family == "xc3sda")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc3sda_dsp_map.v -D DSP_A_MAXWIDTH=18 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL18X18");
else if (family == "xc6s")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc6s_dsp_map.v -D DSP_A_MAXWIDTH=18 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL18X18");
else if (family == "xc4v")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc4v_dsp_map.v -D DSP_A_MAXWIDTH=18 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL18X18");
else if (family == "xc5v")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc5v_dsp_map.v -D DSP_A_MAXWIDTH=25 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL25X18");
else if (family == "xc6v" || family == "xc7")
run("techmap -map +/mul2dsp.v -map +/xilinx/xc7_dsp_map.v -D DSP_A_MAXWIDTH=25 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MAXWIDTH_PARTIAL=18 " // Partial multipliers are intentionally
// limited to 18x18 in order to take
// advantage of the (PCOUT << 17) -> PCIN
// dedicated cascade chain capability
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL25X18");
else if (family == "xcu" || family == "xcup")
run("techmap -map +/mul2dsp.v -map +/xilinx/xcu_dsp_map.v -D DSP_A_MAXWIDTH=27 -D DSP_B_MAXWIDTH=18 "
"-D DSP_A_MAXWIDTH_PARTIAL=18 " // Partial multipliers are intentionally
// limited to 18x18 in order to take
// advantage of the (PCOUT << 17) -> PCIN
// dedicated cascade chain capability
"-D DSP_A_MINWIDTH=2 -D DSP_B_MINWIDTH=2 " // Blocks Nx1 multipliers
"-D DSP_Y_MINWIDTH=9 " // UG901 suggests small multiplies are those 4x4 and smaller
"-D DSP_SIGNEDONLY=1 -D DSP_NAME=$__MUL27X18");
run("select a:mul2dsp");
run("setattr -unset mul2dsp");
run("opt_expr -fine");
run("wreduce");
run("select -clear");
run("xilinx_dsp");
run("chtype -set $mul t:$__soft_mul");
}
}
if (check_label("coarse")) {
run("alumacc");
run("share");
run("opt");
run("fsm");
run("opt -fast");
run("memory -nomap");
run("opt_clean");
}
if (check_label("map_uram", "(only if '-uram')")) {
if (help_mode) {
run("memory_bram -rules +/xilinx/{family}_urams.txt");
run("techmap -map +/xilinx/{family}_urams_map.v");
} else if (uram) {
if (family == "xcup") {
run("memory_bram -rules +/xilinx/xcup_urams.txt");
run("techmap -map +/xilinx/xcup_urams_map.v");
} else {
log_warning("UltraRAM inference not supported for family %s.\n", family.c_str());
}
}
}
if (check_label("map_bram", "(skip if '-nobram')")) {
if (help_mode) {
run("memory_bram -rules +/xilinx/{family}_brams.txt");
run("techmap -map +/xilinx/{family}_brams_map.v");
} else if (!nobram) {
if (family == "xc6s") {
run("memory_bram -rules +/xilinx/xc6s_brams.txt");
run("techmap -map +/xilinx/xc6s_brams_map.v");
} else if (family == "xc6v" || family == "xc7") {
run("memory_bram -rules +/xilinx/xc7_xcu_brams.txt");
run("techmap -map +/xilinx/xc7_brams_map.v");
} else if (family == "xcu" || family == "xcup") {
run("memory_bram -rules +/xilinx/xc7_xcu_brams.txt");
run("techmap -map +/xilinx/xcu_brams_map.v");
} else {
log_warning("Block RAM inference not yet supported for family %s.\n", family.c_str());
}
}
}
if (check_label("map_lutram", "(skip if '-nolutram')")) {
if (!nolutram || help_mode) {
run("memory_bram -rules +/xilinx/lutrams.txt");
run("techmap -map +/xilinx/lutrams_map.v");
}
}
if (check_label("map_ffram")) {
if (widemux > 0)
run("opt -fast -mux_bool -undriven -fine"); // Necessary to omit -mux_undef otherwise muxcover
// performs less efficiently
else
run("opt -fast -full");
run("memory_map");
}
if (check_label("fine")) {
run("dffsr2dff");
run("dff2dffe");
if (help_mode) {
run("simplemap t:$mux", " ('-widemux' only)");
run("muxcover <internal options>, ('-widemux' only)");
}
else if (widemux > 0) {
run("simplemap t:$mux");
constexpr int cost_mux2 = 100;
std::string muxcover_args = stringf(" -nodecode -mux2=%d", cost_mux2);
switch (widemux) {
case 2: muxcover_args += stringf(" -mux4=%d -mux8=%d -mux16=%d", cost_mux2+1, cost_mux2+2, cost_mux2+3); break;
case 3:
case 4: muxcover_args += stringf(" -mux4=%d -mux8=%d -mux16=%d", cost_mux2*(widemux-1)-2, cost_mux2*(widemux-1)-1, cost_mux2*(widemux-1)); break;
case 5:
case 6:
case 7:
case 8: muxcover_args += stringf(" -mux8=%d -mux16=%d", cost_mux2*(widemux-1)-1, cost_mux2*(widemux-1)); break;
case 9:
case 10:
case 11:
case 12:
case 13:
case 14:
case 15:
default: muxcover_args += stringf(" -mux16=%d", cost_mux2*(widemux-1)-1); break;
}
run("muxcover " + muxcover_args);
}
run("opt -full");
if (!nosrl || help_mode)
run("xilinx_srl -variable -minlen 3", "(skip if '-nosrl')");
std::string techmap_args = " -map +/techmap.v";
if (help_mode)
techmap_args += " [-map +/xilinx/mux_map.v]";
else if (widemux > 0)
techmap_args += stringf(" -D MIN_MUX_INPUTS=%d -map +/xilinx/mux_map.v", widemux);
if (help_mode)
techmap_args += " [-map +/xilinx/arith_map.v]";
else if (!nocarry) {
techmap_args += " -map +/xilinx/arith_map.v";
if (vpr)
techmap_args += " -D _EXPLICIT_CARRY";
else if (abc9)
techmap_args += " -D _CLB_CARRY";
}
run("techmap " + techmap_args);
run("opt -fast");
}
if (check_label("map_cells")) {
std::string techmap_args = "-map +/techmap.v -map +/xilinx/cells_map.v";
if (widemux > 0)
techmap_args += stringf(" -D MIN_MUX_INPUTS=%d", widemux);
run("techmap " + techmap_args);
run("clean");
}
if (check_label("map_ffs")) {
if (abc9 || help_mode) {
run("clkpart -set_attr clkpart 1", "('-abc9' only)");
run("techmap -map " + ff_map_file, "('-abc9' only)");
}
}
if (check_label("map_luts")) {
run("opt_expr -mux_undef");
if (flatten_before_abc)
run("flatten");
if (help_mode)
run("abc -luts 2:2,3,6:5[,10,20] [-dff]", "(option for 'nowidelut'; option for '-retime')");
else if (abc9) {
if (family != "xc7")
log_warning("'synth_xilinx -abc9' not currently supported for the '%s' family, "
"will use timing for 'xc7' instead.\n", family.c_str());
run("techmap -map +/xilinx/abc9_map.v -max_iter 1");
run("read_verilog -icells -lib +/xilinx/abc9_model.v");
std::string abc9_opts = " -box +/xilinx/abc9_xc7.box";
abc9_opts += stringf(" -W %d", XC7_WIRE_DELAY);
abc9_opts += " -nomfs";
if (nowidelut)
abc9_opts += " -lut +/xilinx/abc9_xc7_nowide.lut";
else
abc9_opts += " -lut +/xilinx/abc9_xc7.lut";
run("abc9" + abc9_opts);
run("clean");
run("clkpart -unpart clkpart");
}
else {
if (nowidelut)
run("abc -luts 2:2,3,6:5" + string(retime ? " -dff" : ""));
else
run("abc -luts 2:2,3,6:5,10,20" + string(retime ? " -dff" : ""));
run("clean");
}
// This shregmap call infers fixed length shift registers after abc
// has performed any necessary retiming
if (!nosrl || help_mode)
run("xilinx_srl -fixed -minlen 3", "(skip if '-nosrl')");
std::string techmap_args = "-map +/xilinx/lut_map.v -map +/xilinx/cells_map.v";
if (help_mode)
techmap_args += " [-map " + ff_map_file + "]";
else if (abc9)
techmap_args += " -map +/xilinx/abc9_unmap.v";
else
techmap_args += " -map " + ff_map_file;
run("techmap " + techmap_args);
}
if (check_label("finalize")) {
bool do_iopad = iopad || (ise && !noiopad);
if (help_mode || !noclkbuf) {
if (help_mode || do_iopad)
run("clkbufmap -buf BUFG O:I -inpad IBUFG O:I", "(skip if '-noclkbuf', '-inpad' passed if '-iopad' or '-ise' and not '-noiopad')");
else
run("clkbufmap -buf BUFG O:I");
}
if (help_mode || do_iopad)
run("iopadmap -bits -outpad OBUF I:O -inpad IBUF O:I A:top", "(only if '-iopad' or '-ise' and not '-noiopad')");
if (help_mode || ise)
run("extractinv -inv INV O:I", "(only if '-ise')");
run("clean");
}
if (check_label("check")) {
run("hierarchy -check");
run("stat -tech xilinx");
run("check -noinit");
}
if (check_label("edif")) {
if (!edif_file.empty() || help_mode)
run(stringf("write_edif -pvector bra %s", edif_file.c_str()));
}
if (check_label("blif")) {
if (!blif_file.empty() || help_mode)
run(stringf("write_blif %s", edif_file.c_str()));
}
}
} SynthXilinxPass;
PRIVATE_NAMESPACE_END
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