/* * yosys -- Yosys Open SYnthesis Suite * * Copyright (C) 2012 Clifford Wolf * * 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" USING_YOSYS_NAMESPACE PRIVATE_NAMESPACE_BEGIN void invert_gp_dff(Cell *cell, bool invert_input) { string cell_type = cell->type.str(); bool cell_type_latch = cell_type.find("LATCH") != string::npos; bool cell_type_i = cell_type.find('I') != string::npos; bool cell_type_r = cell_type.find('R') != string::npos; bool cell_type_s = cell_type.find('S') != string::npos; if (!invert_input) { Const initval = cell->getParam(ID::INIT); if (GetSize(initval) >= 1) { if (initval.bits[0] == State::S0) initval.bits[0] = State::S1; else if (initval.bits[0] == State::S1) initval.bits[0] = State::S0; cell->setParam(ID::INIT, initval); } if (cell_type_r && cell_type_s) { Const srmode = cell->getParam(ID(SRMODE)); if (GetSize(srmode) >= 1) { if (srmode.bits[0] == State::S0) srmode.bits[0] = State::S1; else if (srmode.bits[0] == State::S1) srmode.bits[0] = State::S0; cell->setParam(ID(SRMODE), srmode); } } else { if (cell_type_r) { cell->setPort(ID(nSET), cell->getPort(ID(nRST))); cell->unsetPort(ID(nRST)); cell_type_r = false; cell_type_s = true; } else if (cell_type_s) { cell->setPort(ID(nRST), cell->getPort(ID(nSET))); cell->unsetPort(ID(nSET)); cell_type_r = true; cell_type_s = false; } } } if (cell_type_i) { cell->setPort(ID::Q, cell->getPort(ID(nQ))); cell->unsetPort(ID(nQ)); cell_type_i = false; } else { cell->setPort(ID(nQ), cell->getPort(ID::Q)); cell->unsetPort(ID::Q); cell_type_i = true; } if(cell_type_latch) cell->type = stringf("\\GP_DLATCH%s%s%s", cell_type_s ? "S" : "", cell_type_r ? "R" : "", cell_type_i ? "I" : ""); else cell->type = stringf("\\GP_DFF%s%s%s", cell_type_s ? "S" : "", cell_type_r ? "R" : "", cell_type_i ? "I" : ""); log("Merged %s inverter into cell %s.%s: %s -> %s\n", invert_input ? "input" : "output", log_id(cell->module), log_id(cell), cell_type.c_str()+1, log_id(cell->type)); } struct Greenpak4DffInvPass : public Pass { Greenpak4DffInvPass() : Pass("greenpak4_dffinv", "merge greenpak4 inverters and DFF/latches") { } void help() YS_OVERRIDE { log("\n"); log(" greenpak4_dffinv [options] [selection]\n"); log("\n"); log("Merge GP_INV cells with GP_DFF* and GP_DLATCH* cells.\n"); log("\n"); } void execute(std::vector args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing GREENPAK4_DFFINV pass (merge input/output inverters into FF/latch cells).\n"); size_t argidx; for (argidx = 1; argidx < args.size(); argidx++) { // if (args[argidx] == "-singleton") { // singleton_mode = true; // continue; // } break; } extra_args(args, argidx, design); pool gp_dff_types; gp_dff_types.insert(ID(GP_DFF)); gp_dff_types.insert(ID(GP_DFFI)); gp_dff_types.insert(ID(GP_DFFR)); gp_dff_types.insert(ID(GP_DFFRI)); gp_dff_types.insert(ID(GP_DFFS)); gp_dff_types.insert(ID(GP_DFFSI)); gp_dff_types.insert(ID(GP_DFFSR)); gp_dff_types.insert(ID(GP_DFFSRI)); gp_dff_types.insert(ID(GP_DLATCH)); gp_dff_types.insert(ID(GP_DLATCHI)); gp_dff_types.insert(ID(GP_DLATCHR)); gp_dff_types.insert(ID(GP_DLATCHRI)); gp_dff_types.insert(ID(GP_DLATCHS)); gp_dff_types.insert(ID(GP_DLATCHSI)); gp_dff_types.insert(ID(GP_DLATCHSR)); gp_dff_types.insert(ID(GP_DLATCHSRI)); for (auto module : design->selected_modules()) { SigMap sigmap(module); dict sig_use_cnt; dict inv_in2out, inv_out2in; dict inv_in2cell; pool dff_cells; for (auto wire : module->wires()) { if (!wire->port_output) continue; for (auto bit : sigmap(wire)) sig_use_cnt[bit]++; } for (auto cell : module->cells()) for (auto &conn : cell->connections()) if (cell->input(conn.first) || !cell->known()) for (auto bit : sigmap(conn.second)) sig_use_cnt[bit]++; for (auto cell : module->selected_cells()) { if (gp_dff_types.count(cell->type)) { dff_cells.insert(cell); continue; } if (cell->type == ID(GP_INV)) { SigBit in_bit = sigmap(cell->getPort(ID(IN))); SigBit out_bit = sigmap(cell->getPort(ID(OUT))); inv_in2out[in_bit] = out_bit; inv_out2in[out_bit] = in_bit; inv_in2cell[in_bit] = cell; continue; } } for (auto cell : dff_cells) { SigBit d_bit = sigmap(cell->getPort(ID::D)); SigBit q_bit = sigmap(cell->hasPort(ID::Q) ? cell->getPort(ID::Q) : cell->getPort(ID(nQ))); while (inv_out2in.count(d_bit)) { sig_use_cnt[d_bit]--; invert_gp_dff(cell, true); d_bit = inv_out2in.at(d_bit); cell->setPort(ID::D, d_bit); sig_use_cnt[d_bit]++; } while (inv_in2out.count(q_bit) && sig_use_cnt[q_bit] == 1) { SigBit new_q_bit = inv_in2out.at(q_bit); module->remove(inv_in2cell.at(q_bit)); sig_use_cnt.erase(q_bit); inv_in2out.erase(q_bit); inv_out2in.erase(new_q_bit); inv_in2cell.erase(q_bit); invert_gp_dff(cell, false); if (cell->hasPort(ID::Q)) cell->setPort(ID::Q, new_q_bit); else cell->setPort(ID(nQ), new_q_bit); } } } } } Greenpak4DffInvPass; PRIVATE_NAMESPACE_END