mirror of https://github.com/YosysHQ/yosys.git
328 lines
9.3 KiB
C++
328 lines
9.3 KiB
C++
/*
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* yosys -- Yosys Open SYnthesis Suite
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*
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* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*
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*/
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#include "kernel/yosys.h"
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#include "kernel/sigtools.h"
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#include "kernel/mem.h"
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USING_YOSYS_NAMESPACE
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PRIVATE_NAMESPACE_BEGIN
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// Describes found feedback path.
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struct FeedbackPath {
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// Which write port it is.
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int wrport_idx;
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// Which data bit of that write port it is.
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int data_bit_idx;
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// Values of all mux select signals that need to be set to select this path.
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dict<RTLIL::SigBit, bool> condition;
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// The exact feedback bit used (used to match read port).
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SigBit feedback_bit;
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FeedbackPath(int wrport_idx, int data_bit_idx, dict<RTLIL::SigBit, bool> condition, SigBit feedback_bit) : wrport_idx(wrport_idx), data_bit_idx(data_bit_idx), condition(condition), feedback_bit(feedback_bit) {}
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};
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struct OptMemFeedbackWorker
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{
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RTLIL::Design *design;
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RTLIL::Module *module;
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SigMap sigmap, sigmap_xmux;
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dict<RTLIL::SigBit, std::pair<RTLIL::Cell*, int>> sig_to_mux;
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dict<RTLIL::SigBit, int> sig_users_count;
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dict<pair<pool<dict<SigBit, bool>>, SigBit>, SigBit> conditions_logic_cache;
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// -----------------------------------------------------------------
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// Converting feedbacks to async read ports to proper enable signals
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// -----------------------------------------------------------------
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void find_data_feedback(const pool<RTLIL::SigBit> &async_rd_bits, RTLIL::SigBit sig,
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const dict<RTLIL::SigBit, bool> &state,
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int wrport_idx, int data_bit_idx,
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std::vector<FeedbackPath> &paths)
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{
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if (async_rd_bits.count(sig)) {
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paths.push_back(FeedbackPath(wrport_idx, data_bit_idx, state, sig));
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return;
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}
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if (sig_users_count[sig] != 1) {
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// Only descend into muxes if we're the only user.
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return;
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}
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if (sig_to_mux.count(sig) == 0)
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return;
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RTLIL::Cell *cell = sig_to_mux.at(sig).first;
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int bit_idx = sig_to_mux.at(sig).second;
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std::vector<RTLIL::SigBit> sig_a = sigmap(cell->getPort(ID::A));
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std::vector<RTLIL::SigBit> sig_b = sigmap(cell->getPort(ID::B));
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std::vector<RTLIL::SigBit> sig_s = sigmap(cell->getPort(ID::S));
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std::vector<RTLIL::SigBit> sig_y = sigmap(cell->getPort(ID::Y));
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log_assert(sig_y.at(bit_idx) == sig);
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for (int i = 0; i < GetSize(sig_s); i++)
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if (state.count(sig_s[i]) && state.at(sig_s[i]) == true) {
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find_data_feedback(async_rd_bits, sig_b.at(bit_idx + i*sig_y.size()), state, wrport_idx, data_bit_idx, paths);
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return;
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}
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for (int i = 0; i < GetSize(sig_s); i++)
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{
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if (state.count(sig_s[i]) && state.at(sig_s[i]) == false)
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continue;
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dict<RTLIL::SigBit, bool> new_state = state;
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new_state[sig_s[i]] = true;
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find_data_feedback(async_rd_bits, sig_b.at(bit_idx + i*sig_y.size()), new_state, wrport_idx, data_bit_idx, paths);
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}
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dict<RTLIL::SigBit, bool> new_state = state;
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for (auto bit : sig_s)
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new_state[bit] = false;
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find_data_feedback(async_rd_bits, sig_a.at(bit_idx), new_state, wrport_idx, data_bit_idx, paths);
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}
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RTLIL::SigBit conditions_to_logic(pool<dict<RTLIL::SigBit, bool>> &conditions, SigBit olden)
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{
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auto key = make_pair(conditions, olden);
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if (conditions_logic_cache.count(key))
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return conditions_logic_cache.at(key);
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RTLIL::SigSpec terms;
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for (auto &cond : conditions) {
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RTLIL::SigSpec sig1, sig2;
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for (auto &it : cond) {
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sig1.append(it.first);
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sig2.append(it.second ? RTLIL::State::S1 : RTLIL::State::S0);
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}
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terms.append(module->Ne(NEW_ID, sig1, sig2));
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}
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if (olden != State::S1)
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terms.append(olden);
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if (GetSize(terms) == 0)
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terms = State::S1;
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if (GetSize(terms) > 1)
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terms = module->ReduceAnd(NEW_ID, terms);
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return conditions_logic_cache[key] = terms;
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}
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void translate_rd_feedback_to_en(Mem &mem)
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{
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// Look for async read ports that may be suitable for feedback paths.
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dict<RTLIL::SigSpec, std::vector<pool<RTLIL::SigBit>>> async_rd_bits;
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for (auto &port : mem.rd_ports)
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{
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if (port.clk_enable)
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continue;
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SigSpec addr = sigmap_xmux(port.addr);
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async_rd_bits[addr].resize(mem.width);
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for (int i = 0; i < mem.width; i++)
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async_rd_bits[addr][i].insert(sigmap(port.data[i]));
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}
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if (async_rd_bits.empty())
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return;
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// Look for actual feedback paths.
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std::vector<FeedbackPath> paths;
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for (int i = 0; i < GetSize(mem.wr_ports); i++)
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{
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auto &port = mem.wr_ports[i];
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SigSpec addr = sigmap_xmux(port.addr);
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if (!async_rd_bits.count(addr))
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continue;
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log(" Analyzing %s.%s write port %d.\n", log_id(module), log_id(mem.memid), i);
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for (int j = 0; j < GetSize(port.data); j++)
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{
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if (port.en[j] == State::S0)
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continue;
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dict<RTLIL::SigBit, bool> state;
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find_data_feedback(async_rd_bits.at(addr).at(j), sigmap(port.data[j]), state, i, j, paths);
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}
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}
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if (paths.empty())
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return;
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// Now determine which read ports are actually used only for
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// feedback paths, and can be removed.
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dict<SigBit, int> feedback_users_count;
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for (auto &path : paths)
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feedback_users_count[path.feedback_bit]++;
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pool<SigBit> feedback_ok;
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for (auto &port : mem.rd_ports)
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{
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if (port.clk_enable)
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continue;
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bool ok = true;
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for (auto bit : sigmap(port.data))
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if (sig_users_count[bit] != feedback_users_count[bit])
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ok = false;
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if (ok)
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{
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// This port is going bye-bye.
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for (auto bit : sigmap(port.data))
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feedback_ok.insert(bit);
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port.removed = true;
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}
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}
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if (feedback_ok.empty())
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return;
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// Prepare a feedback condition list grouped by port bits.
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dict<std::pair<int, int>, pool<dict<SigBit, bool>>> portbit_conds;
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for (auto &path : paths)
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if (feedback_ok.count(path.feedback_bit))
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portbit_conds[std::make_pair(path.wrport_idx, path.data_bit_idx)].insert(path.condition);
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if (portbit_conds.empty())
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return;
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// Okay, let's do it.
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log("Populating enable bits on write ports of memory %s.%s with async read feedback:\n", log_id(module), log_id(mem.memid));
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for (auto &it : portbit_conds)
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{
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int wrport_idx = it.first.first;
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int bit = it.first.second;
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auto &port = mem.wr_ports[wrport_idx];
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port.en[bit] = conditions_to_logic(it.second, port.en[bit]);
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log(" Port %d bit %d: added enable logic for %d different cases.\n", wrport_idx, bit, GetSize(it.second));
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}
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mem.emit();
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for (auto bit : feedback_ok)
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module->connect(bit, State::Sx);
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design->scratchpad_set_bool("opt.did_something", true);
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}
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// -------------
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// Setup and run
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// -------------
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OptMemFeedbackWorker(RTLIL::Design *design) : design(design) {}
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void operator()(RTLIL::Module* module)
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{
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std::vector<Mem> memories = Mem::get_selected_memories(module);
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this->module = module;
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sigmap.set(module);
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sig_to_mux.clear();
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conditions_logic_cache.clear();
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sigmap_xmux = sigmap;
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for (auto wire : module->wires()) {
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if (wire->port_output)
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for (auto bit : sigmap(wire))
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sig_users_count[bit]++;
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}
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for (auto cell : module->cells())
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{
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if (cell->type == ID($mux))
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{
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RTLIL::SigSpec sig_a = sigmap_xmux(cell->getPort(ID::A));
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RTLIL::SigSpec sig_b = sigmap_xmux(cell->getPort(ID::B));
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if (sig_a.is_fully_undef())
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sigmap_xmux.add(cell->getPort(ID::Y), sig_b);
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else if (sig_b.is_fully_undef())
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sigmap_xmux.add(cell->getPort(ID::Y), sig_a);
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}
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if (cell->type.in(ID($mux), ID($pmux)))
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{
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std::vector<RTLIL::SigBit> sig_y = sigmap(cell->getPort(ID::Y));
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for (int i = 0; i < int(sig_y.size()); i++)
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sig_to_mux[sig_y[i]] = std::pair<RTLIL::Cell*, int>(cell, i);
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}
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for (auto &conn : cell->connections())
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if (!cell->known() || cell->input(conn.first))
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for (auto bit : sigmap(conn.second))
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sig_users_count[bit]++;
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}
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for (auto &mem : memories)
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translate_rd_feedback_to_en(mem);
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}
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};
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struct OptMemFeedbackPass : public Pass {
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OptMemFeedbackPass() : Pass("opt_mem_feedback", "convert memory read-to-write port feedback paths to write enables") { }
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void help() override
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{
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// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
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log("\n");
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log(" opt_mem_feedback [selection]\n");
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log("\n");
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log("This pass detects cases where an asynchronous read port is only connected via\n");
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log("a mux tree to a write port with the same address. When such a connection is\n");
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log("found, it is replaced with a new condition on an enable signal, allowing\n");
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log("for removal of the read port.\n");
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log("\n");
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}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override {
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log_header(design, "Executing OPT_MEM_FEEDBACK pass (finding memory read-to-write feedback paths).\n");
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extra_args(args, 1, design);
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OptMemFeedbackWorker worker(design);
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for (auto module : design->selected_modules())
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worker(module);
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}
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} OptMemFeedbackPass;
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PRIVATE_NAMESPACE_END
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