/* * 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/register.h" #include "kernel/celltypes.h" #include "passes/techmap/libparse.h" #include "kernel/log.h" USING_YOSYS_NAMESPACE PRIVATE_NAMESPACE_BEGIN struct statdata_t { #define STAT_INT_MEMBERS X(num_wires) X(num_wire_bits) X(num_pub_wires) X(num_pub_wire_bits) \ X(num_memories) X(num_memory_bits) X(num_cells) X(num_processes) #define STAT_NUMERIC_MEMBERS STAT_INT_MEMBERS X(area) #define X(_name) int _name; STAT_INT_MEMBERS #undef X double area; string tech; std::map techinfo; std::map num_cells_by_type; std::set unknown_cell_area; statdata_t operator+(const statdata_t &other) const { statdata_t sum = other; #define X(_name) sum._name += _name; STAT_NUMERIC_MEMBERS #undef X for (auto &it : num_cells_by_type) sum.num_cells_by_type[it.first] += it.second; return sum; } statdata_t operator*(int other) const { statdata_t sum = *this; #define X(_name) sum._name *= other; STAT_NUMERIC_MEMBERS #undef X for (auto &it : sum.num_cells_by_type) it.second *= other; return sum; } statdata_t() { #define X(_name) _name = 0; STAT_NUMERIC_MEMBERS #undef X } statdata_t(RTLIL::Design *design, RTLIL::Module *mod, bool width_mode, const dict &cell_area, string techname) { tech = techname; #define X(_name) _name = 0; STAT_NUMERIC_MEMBERS #undef X for (auto &it : mod->wires_) { if (!design->selected(mod, it.second)) continue; if (it.first[0] == '\\') { num_pub_wires++; num_pub_wire_bits += it.second->width; } num_wires++; num_wire_bits += it.second->width; } for (auto &it : mod->memories) { if (!design->selected(mod, it.second)) continue; num_memories++; num_memory_bits += it.second->width * it.second->size; } for (auto &it : mod->cells_) { if (!design->selected(mod, it.second)) continue; RTLIL::IdString cell_type = it.second->type; if (width_mode) { if (cell_type.in("$not", "$pos", "$neg", "$logic_not", "$logic_and", "$logic_or", "$reduce_and", "$reduce_or", "$reduce_xor", "$reduce_xnor", "$reduce_bool", "$lut", "$and", "$or", "$xor", "$xnor", "$shl", "$shr", "$sshl", "$sshr", "$shift", "$shiftx", "$lt", "$le", "$eq", "$ne", "$eqx", "$nex", "$ge", "$gt", "$add", "$sub", "$mul", "$div", "$mod", "$pow", "$alu")) { int width_a = it.second->hasPort("\\A") ? GetSize(it.second->getPort("\\A")) : 0; int width_b = it.second->hasPort("\\B") ? GetSize(it.second->getPort("\\B")) : 0; int width_y = it.second->hasPort("\\Y") ? GetSize(it.second->getPort("\\Y")) : 0; cell_type = stringf("%s_%d", cell_type.c_str(), max({width_a, width_b, width_y})); } else if (cell_type.in("$mux", "$pmux")) cell_type = stringf("%s_%d", cell_type.c_str(), GetSize(it.second->getPort("\\Y"))); else if (cell_type.in("$sr", "$dff", "$dffsr", "$adff", "$dlatch", "$dlatchsr")) cell_type = stringf("%s_%d", cell_type.c_str(), GetSize(it.second->getPort("\\Q"))); } if (!cell_area.empty()) { if (cell_area.count(cell_type)) area += cell_area.at(cell_type); else unknown_cell_area.insert(cell_type); } num_cells++; num_cells_by_type[cell_type]++; } for (auto &it : mod->processes) { if (!design->selected(mod, it.second)) continue; num_processes++; } } void log_data(RTLIL::IdString mod_name, bool top_mod) { log(" Number of wires: %6d\n", num_wires); log(" Number of wire bits: %6d\n", num_wire_bits); log(" Number of public wires: %6d\n", num_pub_wires); log(" Number of public wire bits: %6d\n", num_pub_wire_bits); log(" Number of memories: %6d\n", num_memories); log(" Number of memory bits: %6d\n", num_memory_bits); log(" Number of processes: %6d\n", num_processes); log(" Number of cells: %6d\n", num_cells); for (auto &it : num_cells_by_type) if (it.second) log(" %-26s %6d\n", RTLIL::id2cstr(it.first), it.second); if (!unknown_cell_area.empty()) { log("\n"); for (auto cell_type : unknown_cell_area) log(" Area for cell type %s is unknown!\n", cell_type.c_str()); } if (area != 0) { log("\n"); log(" Chip area for %smodule '%s': %f\n", (top_mod) ? "top " : "", mod_name.c_str(), area); } if (tech == "xilinx") { int lut6_cnt = num_cells_by_type["\\LUT6"]; int lut5_cnt = num_cells_by_type["\\LUT5"]; int lut4_cnt = num_cells_by_type["\\LUT4"]; int lut3_cnt = num_cells_by_type["\\LUT3"]; int lut2_cnt = num_cells_by_type["\\LUT2"]; int lut1_cnt = num_cells_by_type["\\LUT1"]; int lc_cnt = 0; lc_cnt += lut6_cnt; lc_cnt += lut5_cnt; if (lut1_cnt) { int cnt = std::min(lut5_cnt, lut1_cnt); lut5_cnt -= cnt; lut1_cnt -= cnt; } lc_cnt += lut4_cnt; if (lut1_cnt) { int cnt = std::min(lut4_cnt, lut1_cnt); lut4_cnt -= cnt; lut1_cnt -= cnt; } if (lut2_cnt) { int cnt = std::min(lut4_cnt, lut2_cnt); lut4_cnt -= cnt; lut2_cnt -= cnt; } lc_cnt += lut3_cnt; if (lut1_cnt) { int cnt = std::min(lut3_cnt, lut1_cnt); lut3_cnt -= cnt; lut1_cnt -= cnt; } if (lut2_cnt) { int cnt = std::min(lut3_cnt, lut2_cnt); lut3_cnt -= cnt; lut2_cnt -= cnt; } if (lut3_cnt) { int cnt = (lut3_cnt + 1) / 2; lut3_cnt -= cnt; } lc_cnt += (lut2_cnt + lut1_cnt + 1) / 2; log("\n"); log(" Estimated number of LCs: %10d\n", lc_cnt); } } }; statdata_t hierarchy_worker(std::map &mod_stat, RTLIL::IdString mod, int level) { statdata_t mod_data = mod_stat.at(mod); std::map num_cells_by_type; num_cells_by_type.swap(mod_data.num_cells_by_type); for (auto &it : num_cells_by_type) if (mod_stat.count(it.first) > 0) { log(" %*s%-*s %6d\n", 2*level, "", 26-2*level, RTLIL::id2cstr(it.first), it.second); mod_data = mod_data + hierarchy_worker(mod_stat, it.first, level+1) * it.second; mod_data.num_cells -= it.second; } else { mod_data.num_cells_by_type[it.first] += it.second; } return mod_data; } void read_liberty_cellarea(dict &cell_area, string liberty_file) { std::ifstream f; f.open(liberty_file.c_str()); yosys_input_files.insert(liberty_file); if (f.fail()) log_cmd_error("Can't open liberty file `%s': %s\n", liberty_file.c_str(), strerror(errno)); LibertyParser libparser(f); f.close(); for (auto cell : libparser.ast->children) { if (cell->id != "cell" || cell->args.size() != 1) continue; LibertyAst *ar = cell->find("area"); if (ar != NULL && !ar->value.empty()) cell_area["\\" + cell->args[0]] = atof(ar->value.c_str()); } } struct StatPass : public Pass { StatPass() : Pass("stat", "print some statistics") { } void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); log(" stat [options] [selection]\n"); log("\n"); log("Print some statistics (number of objects) on the selected portion of the\n"); log("design.\n"); log("\n"); log(" -top \n"); log(" print design hierarchy with this module as top. if the design is fully\n"); log(" selected and a module has the 'top' attribute set, this module is used\n"); log(" default value for this option.\n"); log("\n"); log(" -liberty \n"); log(" use cell area information from the provided liberty file\n"); log("\n"); log(" -tech \n"); log(" print area estemate for the specified technology. Corrently supported\n"); log(" calues for : xilinx\n"); log("\n"); log(" -width\n"); log(" annotate internal cell types with their word width.\n"); log(" e.g. $add_8 for an 8 bit wide $add cell.\n"); log("\n"); } void execute(std::vector args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Printing statistics.\n"); bool width_mode = false; RTLIL::Module *top_mod = NULL; std::map mod_stat; dict cell_area; string techname; size_t argidx; for (argidx = 1; argidx < args.size(); argidx++) { if (args[argidx] == "-width") { width_mode = true; continue; } if (args[argidx] == "-liberty" && argidx+1 < args.size()) { string liberty_file = args[++argidx]; rewrite_filename(liberty_file); read_liberty_cellarea(cell_area, liberty_file); continue; } if (args[argidx] == "-tech" && argidx+1 < args.size()) { techname = args[++argidx]; continue; } if (args[argidx] == "-top" && argidx+1 < args.size()) { if (design->modules_.count(RTLIL::escape_id(args[argidx+1])) == 0) log_cmd_error("Can't find module %s.\n", args[argidx+1].c_str()); top_mod = design->modules_.at(RTLIL::escape_id(args[++argidx])); continue; } break; } extra_args(args, argidx, design); if (techname != "" && techname != "xilinx") log_cmd_error("Unsupported technology: '%s'\n", techname.c_str()); for (auto mod : design->selected_modules()) { if (!top_mod && design->full_selection()) if (mod->get_bool_attribute("\\top")) top_mod = mod; if (mod->attributes.count("\\abc_box_id")) continue; statdata_t data(design, mod, width_mode, cell_area, techname); mod_stat[mod->name] = data; log("\n"); log("=== %s%s ===\n", RTLIL::id2cstr(mod->name), design->selected_whole_module(mod->name) ? "" : " (partially selected)"); log("\n"); data.log_data(mod->name, false); } if (top_mod != NULL && GetSize(mod_stat) > 1) { log("\n"); log("=== design hierarchy ===\n"); log("\n"); log(" %-28s %6d\n", RTLIL::id2cstr(top_mod->name), 1); statdata_t data = hierarchy_worker(mod_stat, top_mod->name, 0); log("\n"); data.log_data(top_mod->name, true); } log("\n"); } } StatPass; PRIVATE_NAMESPACE_END