yosys/passes/sat/sim.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.com>
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*
* 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/yosys.h"
#include "kernel/sigtools.h"
#include "kernel/celltypes.h"
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#include "kernel/mem.h"
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#include "kernel/fstdata.h"
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#include <ctime>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
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enum class SimulationMode {
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sim,
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cmp,
gold,
gate,
};
static const std::map<std::string, int> g_units =
{
{ "", -9 }, // default is ns
{ "s", 0 },
{ "ms", -3 },
{ "us", -6 },
{ "ns", -9 },
{ "ps", -12 },
{ "fs", -15 },
{ "as", -18 },
{ "zs", -21 },
};
static double stringToTime(std::string str)
{
if (str=="END") return -1;
char *endptr;
long value = strtol(str.c_str(), &endptr, 10);
if (g_units.find(endptr)==g_units.end())
log_error("Cannot parse '%s', bad unit '%s'\n", str.c_str(), endptr);
if (value < 0)
log_error("Time value '%s' must be positive\n", str.c_str());
return value * pow(10.0, g_units.at(endptr));
}
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struct SimShared
{
bool debug = false;
bool hide_internal = true;
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bool writeback = false;
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bool zinit = false;
int rstlen = 1;
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FstData *fst = nullptr;
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double start_time = 0;
double stop_time = -1;
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SimulationMode sim_mode = SimulationMode::sim;
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bool cycles_set = false;
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};
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void zinit(State &v)
{
if (v != State::S1)
v = State::S0;
}
void zinit(Const &v)
{
for (auto &bit : v.bits)
zinit(bit);
}
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struct SimInstance
{
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SimShared *shared;
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std::string scope;
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Module *module;
Cell *instance;
SimInstance *parent;
dict<Cell*, SimInstance*> children;
SigMap sigmap;
dict<SigBit, State> state_nets;
dict<SigBit, pool<Cell*>> upd_cells;
dict<SigBit, pool<Wire*>> upd_outports;
pool<SigBit> dirty_bits;
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pool<Cell*> dirty_cells;
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pool<IdString> dirty_memories;
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pool<SimInstance*, hash_ptr_ops> dirty_children;
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struct ff_state_t
{
State past_clock;
Const past_d;
};
struct mem_state_t
{
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Mem *mem;
std::vector<Const> past_wr_clk;
std::vector<Const> past_wr_en;
std::vector<Const> past_wr_addr;
std::vector<Const> past_wr_data;
Const data;
};
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dict<Cell*, ff_state_t> ff_database;
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dict<IdString, mem_state_t> mem_database;
pool<Cell*> formal_database;
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dict<Cell*, IdString> mem_cells;
std::vector<Mem> memories;
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dict<Wire*, pair<int, Const>> vcd_database;
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dict<Wire*, pair<fstHandle, Const>> fst_database;
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dict<Wire*, fstHandle> fst_handles;
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SimInstance(SimShared *shared, std::string scope, Module *module, Cell *instance = nullptr, SimInstance *parent = nullptr) :
shared(shared), scope(scope), module(module), instance(instance), parent(parent), sigmap(module)
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{
log_assert(module);
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if (parent) {
log_assert(parent->children.count(instance) == 0);
parent->children[instance] = this;
}
for (auto wire : module->wires())
{
SigSpec sig = sigmap(wire);
for (int i = 0; i < GetSize(sig); i++) {
if (state_nets.count(sig[i]) == 0)
state_nets[sig[i]] = State::Sx;
if (wire->port_output) {
upd_outports[sig[i]].insert(wire);
dirty_bits.insert(sig[i]);
}
}
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if ((shared->fst) && !(shared->hide_internal && wire->name[0] == '$')) {
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fstHandle id = shared->fst->getHandle(scope + "." + RTLIL::unescape_id(wire->name));
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if (id==0 && wire->name.isPublic())
log_warning("Unable to found wire %s in input file.\n", (scope + "." + RTLIL::unescape_id(wire->name)).c_str());
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fst_handles[wire] = id;
}
if (wire->attributes.count(ID::init)) {
Const initval = wire->attributes.at(ID::init);
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for (int i = 0; i < GetSize(sig) && i < GetSize(initval); i++)
if (initval[i] == State::S0 || initval[i] == State::S1) {
state_nets[sig[i]] = initval[i];
dirty_bits.insert(sig[i]);
}
}
}
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memories = Mem::get_all_memories(module);
for (auto &mem : memories) {
auto &mdb = mem_database[mem.memid];
mdb.mem = &mem;
for (auto &port : mem.wr_ports) {
mdb.past_wr_clk.push_back(Const(State::Sx));
mdb.past_wr_en.push_back(Const(State::Sx, GetSize(port.en)));
mdb.past_wr_addr.push_back(Const(State::Sx, GetSize(port.addr)));
mdb.past_wr_data.push_back(Const(State::Sx, GetSize(port.data)));
}
mdb.data = mem.get_init_data();
}
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for (auto cell : module->cells())
{
Module *mod = module->design->module(cell->type);
if (mod != nullptr) {
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dirty_children.insert(new SimInstance(shared, scope + "." + RTLIL::unescape_id(cell->name), mod, cell, this));
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}
for (auto &port : cell->connections()) {
if (cell->input(port.first))
for (auto bit : sigmap(port.second)) {
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upd_cells[bit].insert(cell);
// Make sure cell inputs connected to constants are updated in the first cycle
if (bit.wire == nullptr)
dirty_bits.insert(bit);
}
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}
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if (cell->type.in(ID($dff))) {
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ff_state_t ff;
ff.past_clock = State::Sx;
ff.past_d = Const(State::Sx, cell->getParam(ID::WIDTH).as_int());
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ff_database[cell] = ff;
}
if (cell->is_mem_cell())
{
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mem_cells[cell] = cell->parameters.at(ID::MEMID).decode_string();
}
if (cell->type.in(ID($assert), ID($cover), ID($assume))) {
formal_database.insert(cell);
}
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}
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if (shared->zinit)
{
for (auto &it : ff_database)
{
Cell *cell = it.first;
ff_state_t &ff = it.second;
zinit(ff.past_d);
SigSpec qsig = cell->getPort(ID::Q);
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Const qdata = get_state(qsig);
zinit(qdata);
set_state(qsig, qdata);
}
for (auto &it : mem_database) {
mem_state_t &mem = it.second;
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for (auto &val : mem.past_wr_en)
zinit(val);
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zinit(mem.data);
}
}
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}
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~SimInstance()
{
for (auto child : children)
delete child.second;
}
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IdString name() const
{
if (instance != nullptr)
return instance->name;
return module->name;
}
std::string hiername() const
{
if (instance != nullptr)
return parent->hiername() + "." + log_id(instance->name);
return log_id(module->name);
}
Const get_state(SigSpec sig)
{
Const value;
for (auto bit : sigmap(sig))
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if (bit.wire == nullptr)
value.bits.push_back(bit.data);
else if (state_nets.count(bit))
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value.bits.push_back(state_nets.at(bit));
else
value.bits.push_back(State::Sz);
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if (shared->debug)
log("[%s] get %s: %s\n", hiername().c_str(), log_signal(sig), log_signal(value));
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return value;
}
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bool set_state(SigSpec sig, Const value)
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{
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bool did_something = false;
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sig = sigmap(sig);
log_assert(GetSize(sig) <= GetSize(value));
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for (int i = 0; i < GetSize(sig); i++)
if (state_nets.at(sig[i]) != value[i]) {
state_nets.at(sig[i]) = value[i];
dirty_bits.insert(sig[i]);
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did_something = true;
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}
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if (shared->debug)
log("[%s] set %s: %s\n", hiername().c_str(), log_signal(sig), log_signal(value));
return did_something;
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}
void update_cell(Cell *cell)
{
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if (ff_database.count(cell))
return;
if (formal_database.count(cell))
return;
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if (mem_cells.count(cell))
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{
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dirty_memories.insert(mem_cells[cell]);
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return;
}
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if (children.count(cell))
{
auto child = children.at(cell);
for (auto &conn: cell->connections())
if (cell->input(conn.first) && GetSize(conn.second)) {
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Const value = get_state(conn.second);
child->set_state(child->module->wire(conn.first), value);
}
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dirty_children.insert(child);
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return;
}
if (yosys_celltypes.cell_evaluable(cell->type))
{
RTLIL::SigSpec sig_a, sig_b, sig_c, sig_d, sig_s, sig_y;
bool has_a, has_b, has_c, has_d, has_s, has_y;
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has_a = cell->hasPort(ID::A);
has_b = cell->hasPort(ID::B);
has_c = cell->hasPort(ID::C);
has_d = cell->hasPort(ID::D);
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has_s = cell->hasPort(ID::S);
has_y = cell->hasPort(ID::Y);
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if (has_a) sig_a = cell->getPort(ID::A);
if (has_b) sig_b = cell->getPort(ID::B);
if (has_c) sig_c = cell->getPort(ID::C);
if (has_d) sig_d = cell->getPort(ID::D);
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if (has_s) sig_s = cell->getPort(ID::S);
if (has_y) sig_y = cell->getPort(ID::Y);
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if (shared->debug)
log("[%s] eval %s (%s)\n", hiername().c_str(), log_id(cell), log_id(cell->type));
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// Simple (A -> Y) and (A,B -> Y) cells
if (has_a && !has_c && !has_d && !has_s && has_y) {
set_state(sig_y, CellTypes::eval(cell, get_state(sig_a), get_state(sig_b)));
return;
}
// (A,B,C -> Y) cells
if (has_a && has_b && has_c && !has_d && !has_s && has_y) {
set_state(sig_y, CellTypes::eval(cell, get_state(sig_a), get_state(sig_b), get_state(sig_c)));
return;
}
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// (A,S -> Y) cells
if (has_a && !has_b && !has_c && !has_d && has_s && has_y) {
set_state(sig_y, CellTypes::eval(cell, get_state(sig_a), get_state(sig_s)));
return;
}
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// (A,B,S -> Y) cells
if (has_a && has_b && !has_c && !has_d && has_s && has_y) {
set_state(sig_y, CellTypes::eval(cell, get_state(sig_a), get_state(sig_b), get_state(sig_s)));
return;
}
log_warning("Unsupported evaluable cell type: %s (%s.%s)\n", log_id(cell->type), log_id(module), log_id(cell));
return;
}
log_error("Unsupported cell type: %s (%s.%s)\n", log_id(cell->type), log_id(module), log_id(cell));
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}
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void update_memory(IdString id) {
auto &mdb = mem_database[id];
auto &mem = *mdb.mem;
for (int port_idx = 0; port_idx < GetSize(mem.rd_ports); port_idx++)
{
auto &port = mem.rd_ports[port_idx];
Const addr = get_state(port.addr);
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Const data = Const(State::Sx, mem.width << port.wide_log2);
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if (port.clk_enable)
log_error("Memory %s.%s has clocked read ports. Run 'memory' with -nordff.\n", log_id(module), log_id(mem.memid));
if (addr.is_fully_def()) {
int index = addr.as_int() - mem.start_offset;
if (index >= 0 && index < mem.size)
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data = mdb.data.extract(index*mem.width, mem.width << port.wide_log2);
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}
set_state(port.data, data);
}
}
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void update_ph1()
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{
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pool<Cell*> queue_cells;
pool<Wire*> queue_outports;
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queue_cells.swap(dirty_cells);
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while (1)
{
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for (auto bit : dirty_bits)
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{
if (upd_cells.count(bit))
for (auto cell : upd_cells.at(bit))
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queue_cells.insert(cell);
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if (upd_outports.count(bit) && parent != nullptr)
for (auto wire : upd_outports.at(bit))
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queue_outports.insert(wire);
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}
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dirty_bits.clear();
if (!queue_cells.empty())
{
for (auto cell : queue_cells)
update_cell(cell);
queue_cells.clear();
continue;
}
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for (auto &memid : dirty_memories)
update_memory(memid);
dirty_memories.clear();
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for (auto wire : queue_outports)
if (instance->hasPort(wire->name)) {
Const value = get_state(wire);
parent->set_state(instance->getPort(wire->name), value);
}
queue_outports.clear();
for (auto child : dirty_children)
child->update_ph1();
dirty_children.clear();
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if (dirty_bits.empty())
break;
}
}
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bool update_ph2()
{
bool did_something = false;
for (auto &it : ff_database)
{
Cell *cell = it.first;
ff_state_t &ff = it.second;
if (cell->type.in(ID($dff)))
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{
bool clkpol = cell->getParam(ID::CLK_POLARITY).as_bool();
State current_clock = get_state(cell->getPort(ID::CLK))[0];
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if (clkpol ? (ff.past_clock == State::S1 || current_clock != State::S1) :
(ff.past_clock == State::S0 || current_clock != State::S0))
continue;
if (set_state(cell->getPort(ID::Q), ff.past_d))
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did_something = true;
}
}
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for (auto &it : mem_database)
{
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mem_state_t &mdb = it.second;
auto &mem = *mdb.mem;
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for (int port_idx = 0; port_idx < GetSize(mem.wr_ports); port_idx++)
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{
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auto &port = mem.wr_ports[port_idx];
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Const addr, data, enable;
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if (!port.clk_enable)
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{
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addr = get_state(port.addr);
data = get_state(port.data);
enable = get_state(port.en);
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}
else
{
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if (port.clk_polarity ?
(mdb.past_wr_clk[port_idx] == State::S1 || get_state(port.clk) != State::S1) :
(mdb.past_wr_clk[port_idx] == State::S0 || get_state(port.clk) != State::S0))
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continue;
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addr = mdb.past_wr_addr[port_idx];
data = mdb.past_wr_data[port_idx];
enable = mdb.past_wr_en[port_idx];
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}
if (addr.is_fully_def())
{
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int index = addr.as_int() - mem.start_offset;
if (index >= 0 && index < mem.size)
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for (int i = 0; i < (mem.width << port.wide_log2); i++)
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if (enable[i] == State::S1 && mdb.data.bits.at(index*mem.width+i) != data[i]) {
mdb.data.bits.at(index*mem.width+i) = data[i];
dirty_memories.insert(mem.memid);
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did_something = true;
}
}
}
}
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for (auto it : children)
if (it.second->update_ph2()) {
dirty_children.insert(it.second);
did_something = true;
}
return did_something;
}
void update_ph3()
{
for (auto &it : ff_database)
{
Cell *cell = it.first;
ff_state_t &ff = it.second;
if (cell->type.in(ID($dff))) {
ff.past_clock = get_state(cell->getPort(ID::CLK))[0];
ff.past_d = get_state(cell->getPort(ID::D));
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}
}
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for (auto &it : mem_database)
{
mem_state_t &mem = it.second;
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for (int i = 0; i < GetSize(mem.mem->wr_ports); i++) {
auto &port = mem.mem->wr_ports[i];
mem.past_wr_clk[i] = get_state(port.clk);
mem.past_wr_en[i] = get_state(port.en);
mem.past_wr_addr[i] = get_state(port.addr);
mem.past_wr_data[i] = get_state(port.data);
}
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}
for (auto cell : formal_database)
{
string label = log_id(cell);
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if (cell->attributes.count(ID::src))
label = cell->attributes.at(ID::src).decode_string();
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State a = get_state(cell->getPort(ID::A))[0];
State en = get_state(cell->getPort(ID::EN))[0];
if (cell->type == ID($cover) && en == State::S1 && a != State::S1)
log("Cover %s.%s (%s) reached.\n", hiername().c_str(), log_id(cell), label.c_str());
if (cell->type == ID($assume) && en == State::S1 && a != State::S1)
log("Assumption %s.%s (%s) failed.\n", hiername().c_str(), log_id(cell), label.c_str());
if (cell->type == ID($assert) && en == State::S1 && a != State::S1)
log_warning("Assert %s.%s (%s) failed.\n", hiername().c_str(), log_id(cell), label.c_str());
}
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for (auto it : children)
it.second->update_ph3();
}
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void writeback(pool<Module*> &wbmods)
{
if (wbmods.count(module))
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log_error("Instance %s of module %s is not unique: Writeback not possible. (Fix by running 'uniquify'.)\n", hiername().c_str(), log_id(module));
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wbmods.insert(module);
for (auto wire : module->wires())
wire->attributes.erase(ID::init);
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for (auto &it : ff_database)
{
Cell *cell = it.first;
SigSpec sig_q = cell->getPort(ID::Q);
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Const initval = get_state(sig_q);
for (int i = 0; i < GetSize(sig_q); i++)
{
Wire *w = sig_q[i].wire;
if (w->attributes.count(ID::init) == 0)
w->attributes[ID::init] = Const(State::Sx, GetSize(w));
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w->attributes[ID::init][sig_q[i].offset] = initval[i];
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}
}
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for (auto &it : mem_database)
{
mem_state_t &mem = it.second;
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mem.mem->clear_inits();
MemInit minit;
minit.addr = mem.mem->start_offset;
minit.data = mem.data;
minit.en = Const(State::S1, mem.mem->width);
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mem.mem->inits.push_back(minit);
mem.mem->emit();
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}
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for (auto it : children)
it.second->writeback(wbmods);
}
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void write_vcd_header(std::ofstream &f, int &id)
{
f << stringf("$scope module %s $end\n", log_id(name()));
for (auto wire : module->wires())
{
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if (shared->hide_internal && wire->name[0] == '$')
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continue;
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f << stringf("$var wire %d n%d %s%s $end\n", GetSize(wire), id, wire->name[0] == '$' ? "\\" : "", log_id(wire));
vcd_database[wire] = make_pair(id++, Const());
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}
for (auto child : children)
child.second->write_vcd_header(f, id);
f << stringf("$upscope $end\n");
}
void write_vcd_step(std::ofstream &f)
{
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for (auto &it : vcd_database)
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{
Wire *wire = it.first;
Const value = get_state(wire);
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int id = it.second.first;
if (it.second.second == value)
continue;
it.second.second = value;
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f << "b";
for (int i = GetSize(value)-1; i >= 0; i--) {
switch (value[i]) {
case State::S0: f << "0"; break;
case State::S1: f << "1"; break;
case State::Sx: f << "x"; break;
default: f << "z";
}
}
f << stringf(" n%d\n", id);
}
for (auto child : children)
child.second->write_vcd_step(f);
}
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void write_fst_header(struct fstContext *f)
{
fstWriterSetScope(f, FST_ST_VCD_MODULE, stringf("%s",log_id(name())).c_str(), nullptr);
for (auto wire : module->wires())
{
if (shared->hide_internal && wire->name[0] == '$')
continue;
fstHandle id = fstWriterCreateVar(f, FST_VT_VCD_WIRE, FST_VD_IMPLICIT, GetSize(wire),
stringf("%s%s", wire->name[0] == '$' ? "\\" : "", log_id(wire)).c_str(), 0);
fst_database[wire] = make_pair(id, Const());
}
for (auto child : children)
child.second->write_fst_header(f);
fstWriterSetUpscope(f);
}
void write_fst_step(struct fstContext *f)
{
for (auto &it : fst_database)
{
Wire *wire = it.first;
Const value = get_state(wire);
fstHandle id = it.second.first;
if (it.second.second == value)
continue;
it.second.second = value;
std::stringstream ss;
for (int i = GetSize(value)-1; i >= 0; i--) {
switch (value[i]) {
case State::S0: ss << "0"; break;
case State::S1: ss << "1"; break;
case State::Sx: ss << "x"; break;
default: ss << "z";
}
}
fstWriterEmitValueChange(f, id, ss.str().c_str());
}
for (auto child : children)
child.second->write_fst_step(f);
}
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void setInitState(uint64_t time)
{
for (auto &it : ff_database)
{
Cell *cell = it.first;
SigSpec qsig = cell->getPort(ID::Q);
if (qsig.is_wire()) {
IdString name = qsig.as_wire()->name;
fstHandle id = shared->fst->getHandle(scope + "." + RTLIL::unescape_id(name));
if (id==0 && name.isPublic())
log_warning("Unable to found wire %s in input file.\n", (scope + "." + RTLIL::unescape_id(name)).c_str());
if (id!=0) {
Const fst_val = Const::from_string(shared->fst->valueAt(id, time));
set_state(qsig, fst_val);
}
}
}
for (auto child : children)
child.second->setInitState(time);
}
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bool checkSignals(uint64_t time)
{
bool retVal = false;
for(auto &item : fst_handles) {
if (item.second==0) continue; // Ignore signals not found
Const fst_val = Const::from_string(shared->fst->valueAt(item.second, time));
Const sim_val = get_state(item.first);
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if (sim_val.size()!=fst_val.size())
log_error("Signal '%s' size is different in gold and gate.\n", log_id(item.first));
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if (shared->sim_mode == SimulationMode::sim) {
// No checks performed when using stimulus
} else if (shared->sim_mode == SimulationMode::gate && !fst_val.is_fully_def()) { // FST data contains X
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for(int i=0;i<fst_val.size();i++) {
if (fst_val[i]!=State::Sx && fst_val[i]!=sim_val[i]) {
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log_warning("Signal '%s' in file %s in simulation %s\n", log_id(item.first), log_signal(fst_val), log_signal(sim_val));
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retVal = true;
break;
}
}
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} else if (shared->sim_mode == SimulationMode::gold && !sim_val.is_fully_def()) { // sim data contains X
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for(int i=0;i<sim_val.size();i++) {
if (sim_val[i]!=State::Sx && fst_val[i]!=sim_val[i]) {
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log_warning("Signal '%s' in file %s in simulation %s\n", log_id(item.first), log_signal(fst_val), log_signal(sim_val));
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retVal = true;
break;
}
}
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} else {
if (fst_val!=sim_val) {
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log_warning("Signal '%s' in file %s in simulation '%s'\n", log_id(item.first), log_signal(fst_val), log_signal(sim_val));
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retVal = true;
}
}
}
for (auto child : children)
retVal |= child.second->checkSignals(time);
return retVal;
}
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};
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struct SimWorker : SimShared
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{
SimInstance *top = nullptr;
std::ofstream vcdfile;
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struct fstContext *fstfile = nullptr;
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pool<IdString> clock, clockn, reset, resetn;
std::string timescale;
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std::string sim_filename;
std::string scope;
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~SimWorker()
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{
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delete top;
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}
void write_vcd_header()
{
vcdfile << stringf("$version %s $end\n", yosys_version_str);
std::time_t t = std::time(nullptr);
char mbstr[255];
if (std::strftime(mbstr, sizeof(mbstr), "%c", std::localtime(&t))) {
vcdfile << stringf("$date ") << mbstr << stringf(" $end\n");
}
if (!timescale.empty())
vcdfile << stringf("$timescale %s $end\n", timescale.c_str());
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int id = 1;
top->write_vcd_header(vcdfile, id);
vcdfile << stringf("$enddefinitions $end\n");
}
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void write_vcd_step(int t)
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{
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vcdfile << stringf("#%d\n", t);
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top->write_vcd_step(vcdfile);
}
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void write_fst_header()
{
std::time_t t = std::time(nullptr);
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fstWriterSetDate(fstfile, asctime(std::localtime(&t)));
fstWriterSetVersion(fstfile, yosys_version_str);
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if (!timescale.empty())
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fstWriterSetTimescaleFromString(fstfile, timescale.c_str());
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fstWriterSetPackType(fstfile, FST_WR_PT_FASTLZ);
fstWriterSetRepackOnClose(fstfile, 1);
top->write_fst_header(fstfile);
}
void write_fst_step(int t)
{
fstWriterEmitTimeChange(fstfile, t);
top->write_fst_step(fstfile);
}
void write_output_header()
{
if (vcdfile.is_open())
write_vcd_header();
if (fstfile)
write_fst_header();
}
void write_output_step(int t)
{
if (vcdfile.is_open())
write_vcd_step(t);
if (fstfile)
write_fst_step(t);
}
void write_output_end()
{
if (fstfile)
fstWriterClose(fstfile);
}
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void update()
{
while (1)
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{
if (debug)
log("\n-- ph1 --\n");
top->update_ph1();
if (debug)
log("\n-- ph2 --\n");
if (!top->update_ph2())
break;
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}
if (debug)
log("\n-- ph3 --\n");
top->update_ph3();
}
void set_inports(pool<IdString> ports, State value)
{
for (auto portname : ports)
{
Wire *w = top->module->wire(portname);
if (w == nullptr)
log_error("Can't find port %s on module %s.\n", log_id(portname), log_id(top->module));
top->set_state(w, value);
}
}
void run(Module *topmod, int numcycles)
{
log_assert(top == nullptr);
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top = new SimInstance(this, scope, topmod);
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if (debug)
log("\n===== 0 =====\n");
else
log("Simulating cycle 0.\n");
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set_inports(reset, State::S1);
set_inports(resetn, State::S0);
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set_inports(clock, State::Sx);
set_inports(clockn, State::Sx);
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update();
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write_output_header();
write_output_step(0);
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for (int cycle = 0; cycle < numcycles; cycle++)
{
if (debug)
log("\n===== %d =====\n", 10*cycle + 5);
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else
log("Simulating cycle %d.\n", (cycle*2)+1);
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set_inports(clock, State::S0);
set_inports(clockn, State::S1);
update();
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write_output_step(10*cycle + 5);
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if (debug)
log("\n===== %d =====\n", 10*cycle + 10);
else
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log("Simulating cycle %d.\n", (cycle*2)+2);
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set_inports(clock, State::S1);
set_inports(clockn, State::S0);
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if (cycle+1 == rstlen) {
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set_inports(reset, State::S0);
set_inports(resetn, State::S1);
}
update();
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write_output_step(10*cycle + 10);
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}
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write_output_step(10*numcycles + 2);
write_output_end();
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if (writeback) {
pool<Module*> wbmods;
top->writeback(wbmods);
}
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}
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void run_cosim(Module *topmod, int numcycles)
{
log_assert(top == nullptr);
fst = new FstData(sim_filename);
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if (scope.empty())
log_error("Scope must be defined for co-simulation.\n");
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top = new SimInstance(this, scope, topmod);
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std::vector<fstHandle> fst_clock;
for (auto portname : clock)
{
Wire *w = topmod->wire(portname);
if (!w)
log_error("Can't find port %s on module %s.\n", log_id(portname), log_id(top->module));
if (!w->port_input)
log_error("Clock port %s on module %s is not input.\n", log_id(portname), log_id(top->module));
fstHandle id = fst->getHandle(scope + "." + RTLIL::unescape_id(portname));
if (id==0)
log_error("Can't find port %s.%s in FST.\n", scope.c_str(), log_id(portname));
fst_clock.push_back(id);
}
for (auto portname : clockn)
{
Wire *w = topmod->wire(portname);
if (!w)
log_error("Can't find port %s on module %s.\n", log_id(portname), log_id(top->module));
if (!w->port_input)
log_error("Clock port %s on module %s is not input.\n", log_id(portname), log_id(top->module));
fstHandle id = fst->getHandle(scope + "." + RTLIL::unescape_id(portname));
if (id==0)
log_error("Can't find port %s.%s in FST.\n", scope.c_str(), log_id(portname));
fst_clock.push_back(id);
}
if (fst_clock.size()==0)
log_error("No clock signals defined for input file\n");
SigMap sigmap(topmod);
std::map<Wire*,fstHandle> inputs;
for (auto wire : topmod->wires()) {
if (wire->port_input) {
fstHandle id = fst->getHandle(scope + "." + RTLIL::unescape_id(wire->name));
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if (id==0)
log_error("Unable to find required '%s' signal in file\n",(scope + "." + RTLIL::unescape_id(wire->name)).c_str());
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inputs[wire] = id;
}
}
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uint64_t startCount = 0;
uint64_t stopCount = 0;
if (start_time==0) {
if (start_time < fst->getStartTime())
log_warning("Start time is before simulation file start time\n");
startCount = fst->getStartTime();
} else if (start_time==-1)
startCount = fst->getEndTime();
else {
startCount = start_time / fst->getTimescale();
if (startCount > fst->getEndTime()) {
startCount = fst->getEndTime();
log_warning("Start time is after simulation file end time\n");
}
}
if (stop_time==0) {
if (stop_time < fst->getStartTime())
log_warning("Stop time is before simulation file start time\n");
stopCount = fst->getStartTime();
} else if (stop_time==-1)
stopCount = fst->getEndTime();
else {
stopCount = stop_time / fst->getTimescale();
if (stopCount > fst->getEndTime()) {
stopCount = fst->getEndTime();
log_warning("Stop time is after simulation file end time\n");
}
}
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if (stopCount<startCount) {
log_error("Stop time is before start time\n");
}
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auto samples = fst->getAllEdges(fst_clock, startCount, stopCount);
// Limit to number of cycles if provided
if (cycles_set && ((size_t)(numcycles *2) < samples.size()))
samples.erase(samples.begin() + (numcycles*2), samples.end());
// Add setup time (start time)
if (samples.empty() || samples.front()!=startCount)
samples.insert(samples.begin(), startCount);
fst->reconstructAllAtTimes(samples);
bool initial = true;
int cycle = 0;
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log("Co-simulation from %lu%s to %lu%s\n", (unsigned long)startCount, fst->getTimescaleString(), (unsigned long)stopCount, fst->getTimescaleString());
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for(auto &time : samples) {
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log("Co-simulating cycle %d [%lu%s].\n", cycle, (unsigned long)time, fst->getTimescaleString());
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for(auto &item : inputs) {
std::string v = fst->valueAt(item.second, time);
top->set_state(item.first, Const::from_string(v));
}
if (initial) {
top->setInitState(time);
initial = false;
}
update();
bool status = top->checkSignals(time);
if (status)
log_error("Signal difference\n");
cycle++;
}
if (writeback) {
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pool<Module*> wbmods;
top->writeback(wbmods);
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}
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}
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};
struct SimPass : public Pass {
SimPass() : Pass("sim", "simulate the circuit") { }
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void help() override
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{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" sim [options] [top-level]\n");
log("\n");
log("This command simulates the circuit using the given top-level module.\n");
log("\n");
log(" -vcd <filename>\n");
log(" write the simulation results to the given VCD file\n");
log("\n");
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log(" -fst <filename>\n");
log(" write the simulation results to the given FST file\n");
log("\n");
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log(" -clock <portname>\n");
log(" name of top-level clock input\n");
log("\n");
log(" -clockn <portname>\n");
log(" name of top-level clock input (inverse polarity)\n");
log("\n");
log(" -reset <portname>\n");
log(" name of top-level reset input (active high)\n");
log("\n");
log(" -resetn <portname>\n");
log(" name of top-level inverted reset input (active low)\n");
log("\n");
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log(" -rstlen <integer>\n");
log(" number of cycles reset should stay active (default: 1)\n");
log("\n");
log(" -zinit\n");
log(" zero-initialize all uninitialized regs and memories\n");
log("\n");
log(" -timescale <string>\n");
log(" include the specified timescale declaration in the vcd\n");
log("\n");
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log(" -n <integer>\n");
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log(" number of clock cycles to simulate (default: 20)\n");
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log("\n");
log(" -a\n");
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log(" use all nets in VCD/FST operations, not just those with public names\n");
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log("\n");
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log(" -w\n");
log(" writeback mode: use final simulation state as new init state\n");
log("\n");
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log(" -r\n");
log(" read simulation results file (file formats supported: FST)\n");
log("\n");
log(" -scope\n");
log(" scope of simulation top model\n");
log("\n");
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log(" -at <time>\n");
log(" sets start and stop time\n");
log("\n");
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log(" -start <time>\n");
log(" start co-simulation in arbitary time (default 0)\n");
log("\n");
log(" -stop <time>\n");
log(" stop co-simulation in arbitary time (default END)\n");
log("\n");
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log(" -sim\n");
log(" simulation with stimulus from FST (default)\n");
log("\n");
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log(" -sim-cmp\n");
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log(" co-simulation expect exact match\n");
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log("\n");
log(" -sim-gold\n");
log(" co-simulation, x in simulation can match any value in FST\n");
log("\n");
log(" -sim-gate\n");
log(" co-simulation, x in FST can match any value in simulation\n");
log("\n");
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log(" -d\n");
log(" enable debug output\n");
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log("\n");
}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
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{
SimWorker worker;
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int numcycles = 20;
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bool start_set = false, stop_set = false, at_set = false;
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log_header(design, "Executing SIM pass (simulate the circuit).\n");
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++) {
if (args[argidx] == "-vcd" && argidx+1 < args.size()) {
std::string vcd_filename = args[++argidx];
rewrite_filename(vcd_filename);
worker.vcdfile.open(vcd_filename.c_str());
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continue;
}
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if (args[argidx] == "-fst" && argidx+1 < args.size()) {
std::string fst_filename = args[++argidx];
rewrite_filename(fst_filename);
worker.fstfile = (struct fstContext *)fstWriterCreate(fst_filename.c_str(),1);
continue;
}
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if (args[argidx] == "-n" && argidx+1 < args.size()) {
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numcycles = atoi(args[++argidx].c_str());
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worker.cycles_set = true;
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continue;
}
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if (args[argidx] == "-rstlen" && argidx+1 < args.size()) {
worker.rstlen = atoi(args[++argidx].c_str());
continue;
}
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if (args[argidx] == "-clock" && argidx+1 < args.size()) {
worker.clock.insert(RTLIL::escape_id(args[++argidx]));
continue;
}
if (args[argidx] == "-clockn" && argidx+1 < args.size()) {
worker.clockn.insert(RTLIL::escape_id(args[++argidx]));
continue;
}
if (args[argidx] == "-reset" && argidx+1 < args.size()) {
worker.reset.insert(RTLIL::escape_id(args[++argidx]));
continue;
}
if (args[argidx] == "-resetn" && argidx+1 < args.size()) {
worker.resetn.insert(RTLIL::escape_id(args[++argidx]));
continue;
}
if (args[argidx] == "-timescale" && argidx+1 < args.size()) {
worker.timescale = args[++argidx];
continue;
}
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if (args[argidx] == "-a") {
worker.hide_internal = false;
continue;
}
if (args[argidx] == "-d") {
worker.debug = true;
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continue;
}
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if (args[argidx] == "-w") {
worker.writeback = true;
continue;
}
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if (args[argidx] == "-zinit") {
worker.zinit = true;
continue;
}
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if (args[argidx] == "-r" && argidx+1 < args.size()) {
std::string sim_filename = args[++argidx];
rewrite_filename(sim_filename);
worker.sim_filename = sim_filename;
continue;
}
if (args[argidx] == "-scope" && argidx+1 < args.size()) {
worker.scope = args[++argidx];
continue;
}
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if (args[argidx] == "-start" && argidx+1 < args.size()) {
worker.start_time = stringToTime(args[++argidx]);
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start_set = true;
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continue;
}
if (args[argidx] == "-stop" && argidx+1 < args.size()) {
worker.stop_time = stringToTime(args[++argidx]);
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stop_set = true;
continue;
}
if (args[argidx] == "-at" && argidx+1 < args.size()) {
worker.start_time = stringToTime(args[++argidx]);
worker.stop_time = worker.start_time;
at_set = true;
continue;
}
if (args[argidx] == "-sim") {
worker.sim_mode = SimulationMode::sim;
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continue;
}
if (args[argidx] == "-sim-cmp") {
worker.sim_mode = SimulationMode::cmp;
continue;
}
if (args[argidx] == "-sim-gold") {
worker.sim_mode = SimulationMode::gold;
continue;
}
if (args[argidx] == "-sim-gate") {
worker.sim_mode = SimulationMode::gate;
continue;
}
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break;
}
extra_args(args, argidx, design);
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if (at_set && (start_set || stop_set || worker.cycles_set))
log_error("'at' option can only be defined separate of 'start','stop' and 'n'\n");
if (stop_set && worker.cycles_set)
log_error("'stop' and 'n' can only be used exclusively'\n");
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Module *top_mod = nullptr;
if (design->full_selection()) {
top_mod = design->top_module();
if (!top_mod)
log_cmd_error("Design has no top module, use the 'hierarchy' command to specify one.\n");
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} else {
auto mods = design->selected_whole_modules();
if (GetSize(mods) != 1)
log_cmd_error("Only one top module must be selected.\n");
top_mod = mods.front();
}
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if (worker.sim_filename.empty())
worker.run(top_mod, numcycles);
else
worker.run_cosim(top_mod, numcycles);
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}
} SimPass;
PRIVATE_NAMESPACE_END