/* * 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 bool memcells_cmp(Cell *a, Cell *b) { if (a->type == "$memrd" && b->type == "$memrd") return a->name < b->name; if (a->type == "$memrd" || b->type == "$memrd") return (a->type == "$memrd") < (b->type == "$memrd"); return a->parameters.at("\\PRIORITY").as_int() < b->parameters.at("\\PRIORITY").as_int(); } Cell *handle_memory(Module *module, RTLIL::Memory *memory) { log("Collecting $memrd, $memwr and $meminit for memory `%s' in module `%s':\n", memory->name.c_str(), module->name.c_str()); Const init_data(State::Sx, memory->size * memory->width); SigMap sigmap(module); int wr_ports = 0; SigSpec sig_wr_clk; SigSpec sig_wr_clk_enable; SigSpec sig_wr_clk_polarity; SigSpec sig_wr_addr; SigSpec sig_wr_data; SigSpec sig_wr_en; int rd_ports = 0; SigSpec sig_rd_clk; SigSpec sig_rd_clk_enable; SigSpec sig_rd_clk_polarity; SigSpec sig_rd_transparent; SigSpec sig_rd_addr; SigSpec sig_rd_data; SigSpec sig_rd_en; int addr_bits = 0; std::vector memcells; for (auto &cell_it : module->cells_) { Cell *cell = cell_it.second; if (cell->type.in("$memrd", "$memwr", "$meminit") && memory->name == cell->parameters["\\MEMID"].decode_string()) { SigSpec addr = sigmap(cell->getPort("\\ADDR")); for (int i = 0; i < GetSize(addr); i++) if (addr[i] != State::S0) addr_bits = std::max(addr_bits, i+1); memcells.push_back(cell); } } if (memory->start_offset == 0 && addr_bits < 30 && (1 << addr_bits) < memory->size) memory->size = 1 << addr_bits; if (memory->start_offset >= 0) addr_bits = std::min(addr_bits, ceil_log2(memory->size + memory->start_offset)); addr_bits = std::max(addr_bits, 1); if (memcells.empty()) { log(" no cells found. removing memory.\n"); return nullptr; } std::sort(memcells.begin(), memcells.end(), memcells_cmp); for (auto cell : memcells) { log(" %s (%s)\n", log_id(cell), log_id(cell->type)); if (cell->type == "$meminit") { SigSpec addr = sigmap(cell->getPort("\\ADDR")); SigSpec data = sigmap(cell->getPort("\\DATA")); if (!addr.is_fully_const()) log_error("Non-constant address %s in memory initialization %s.\n", log_signal(addr), log_id(cell)); if (!data.is_fully_const()) log_error("Non-constant data %s in memory initialization %s.\n", log_signal(data), log_id(cell)); int offset = (addr.as_int() - memory->start_offset) * memory->width; if (offset < 0 || offset + GetSize(data) > GetSize(init_data)) log_warning("Address %s in memory initialization %s is out-of-bounds.\n", log_signal(addr), log_id(cell)); for (int i = 0; i < GetSize(data); i++) if (0 <= i+offset && i+offset < GetSize(init_data)) init_data.bits[i+offset] = data[i].data; continue; } if (cell->type == "$memwr") { SigSpec clk = sigmap(cell->getPort("\\CLK")); SigSpec clk_enable = SigSpec(cell->parameters["\\CLK_ENABLE"]); SigSpec clk_polarity = SigSpec(cell->parameters["\\CLK_POLARITY"]); SigSpec addr = sigmap(cell->getPort("\\ADDR")); SigSpec data = sigmap(cell->getPort("\\DATA")); SigSpec en = sigmap(cell->getPort("\\EN")); if (!en.is_fully_zero()) { clk.extend_u0(1, false); clk_enable.extend_u0(1, false); clk_polarity.extend_u0(1, false); addr.extend_u0(addr_bits, false); data.extend_u0(memory->width, false); en.extend_u0(memory->width, false); sig_wr_clk.append(clk); sig_wr_clk_enable.append(clk_enable); sig_wr_clk_polarity.append(clk_polarity); sig_wr_addr.append(addr); sig_wr_data.append(data); sig_wr_en.append(en); wr_ports++; } continue; } if (cell->type == "$memrd") { SigSpec clk = sigmap(cell->getPort("\\CLK")); SigSpec clk_enable = SigSpec(cell->parameters["\\CLK_ENABLE"]); SigSpec clk_polarity = SigSpec(cell->parameters["\\CLK_POLARITY"]); SigSpec transparent = SigSpec(cell->parameters["\\TRANSPARENT"]); SigSpec addr = sigmap(cell->getPort("\\ADDR")); SigSpec data = sigmap(cell->getPort("\\DATA")); SigSpec en = sigmap(cell->getPort("\\EN")); if (!en.is_fully_zero()) { clk.extend_u0(1, false); clk_enable.extend_u0(1, false); clk_polarity.extend_u0(1, false); transparent.extend_u0(1, false); addr.extend_u0(addr_bits, false); data.extend_u0(memory->width, false); sig_rd_clk.append(clk); sig_rd_clk_enable.append(clk_enable); sig_rd_clk_polarity.append(clk_polarity); sig_rd_transparent.append(transparent); sig_rd_addr.append(addr); sig_rd_data.append(data); sig_rd_en.append(en); rd_ports++; } continue; } } std::stringstream sstr; sstr << "$mem$" << memory->name.str() << "$" << (autoidx++); Cell *mem = module->addCell(sstr.str(), "$mem"); mem->parameters["\\MEMID"] = Const(memory->name.str()); mem->parameters["\\WIDTH"] = Const(memory->width); mem->parameters["\\OFFSET"] = Const(memory->start_offset); mem->parameters["\\SIZE"] = Const(memory->size); mem->parameters["\\ABITS"] = Const(addr_bits); mem->parameters["\\INIT"] = init_data; log_assert(sig_wr_clk.size() == wr_ports); log_assert(sig_wr_clk_enable.size() == wr_ports && sig_wr_clk_enable.is_fully_const()); log_assert(sig_wr_clk_polarity.size() == wr_ports && sig_wr_clk_polarity.is_fully_const()); log_assert(sig_wr_addr.size() == wr_ports * addr_bits); log_assert(sig_wr_data.size() == wr_ports * memory->width); log_assert(sig_wr_en.size() == wr_ports * memory->width); mem->parameters["\\WR_PORTS"] = Const(wr_ports); mem->parameters["\\WR_CLK_ENABLE"] = wr_ports ? sig_wr_clk_enable.as_const() : State::S0; mem->parameters["\\WR_CLK_POLARITY"] = wr_ports ? sig_wr_clk_polarity.as_const() : State::S0; mem->setPort("\\WR_CLK", sig_wr_clk); mem->setPort("\\WR_ADDR", sig_wr_addr); mem->setPort("\\WR_DATA", sig_wr_data); mem->setPort("\\WR_EN", sig_wr_en); log_assert(sig_rd_clk.size() == rd_ports); log_assert(sig_rd_clk_enable.size() == rd_ports && sig_rd_clk_enable.is_fully_const()); log_assert(sig_rd_clk_polarity.size() == rd_ports && sig_rd_clk_polarity.is_fully_const()); log_assert(sig_rd_addr.size() == rd_ports * addr_bits); log_assert(sig_rd_data.size() == rd_ports * memory->width); mem->parameters["\\RD_PORTS"] = Const(rd_ports); mem->parameters["\\RD_CLK_ENABLE"] = rd_ports ? sig_rd_clk_enable.as_const() : State::S0; mem->parameters["\\RD_CLK_POLARITY"] = rd_ports ? sig_rd_clk_polarity.as_const() : State::S0; mem->parameters["\\RD_TRANSPARENT"] = rd_ports ? sig_rd_transparent.as_const() : State::S0; mem->setPort("\\RD_CLK", sig_rd_clk); mem->setPort("\\RD_ADDR", sig_rd_addr); mem->setPort("\\RD_DATA", sig_rd_data); mem->setPort("\\RD_EN", sig_rd_en); // Copy attributes from RTLIL memory to $mem for (auto attr : memory->attributes) mem->attributes[attr.first] = attr.second; for (auto c : memcells) module->remove(c); return mem; } static void handle_module(Design *design, Module *module) { std::vector> finqueue; for (auto &mem_it : module->memories) if (design->selected(module, mem_it.second)) { Cell *c = handle_memory(module, mem_it.second); finqueue.push_back(pair(c, mem_it.first)); } for (auto &it : finqueue) { delete module->memories.at(it.second); module->memories.erase(it.second); if (it.first) module->rename(it.first, it.second); } } struct MemoryCollectPass : public Pass { MemoryCollectPass() : Pass("memory_collect", "creating multi-port memory cells") { } void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); log(" memory_collect [selection]\n"); log("\n"); log("This pass collects memories and memory ports and creates generic multiport\n"); log("memory cells.\n"); log("\n"); } void execute(std::vector args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing MEMORY_COLLECT pass (generating $mem cells).\n"); extra_args(args, 1, design); for (auto &mod_it : design->modules_) if (design->selected(mod_it.second)) handle_module(design, mod_it.second); } } MemoryCollectPass; PRIVATE_NAMESPACE_END