/* * nextpnr -- Next Generation Place and Route * * Copyright (C) 2018 Clifford Wolf * Copyright (C) 2018 David Shah * * 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 "pack.h" #include #include #include "cells.h" #include "design_utils.h" #include "log.h" NEXTPNR_NAMESPACE_BEGIN // Pack LUTs and LUT-FF pairs static void pack_lut_lutffs(Context *ctx) { log_info("Packing LUT-FFs..\n"); std::unordered_set packed_cells; std::vector new_cells; for (auto cell : ctx->cells) { CellInfo *ci = cell.second; log_info("cell '%s' is of type '%s'\n", ci->name.c_str(ctx), ci->type.c_str(ctx)); if (is_lut(ctx, ci)) { CellInfo *packed = create_ice_cell(ctx, "ICESTORM_LC", ci->name.str(ctx) + "_LC"); std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(packed->attrs, packed->attrs.begin())); packed_cells.insert(ci->name); new_cells.push_back(packed); log_info("packed cell %s into %s\n", ci->name.c_str(ctx), packed->name.c_str(ctx)); // See if we can pack into a DFF // TODO: LUT cascade NetInfo *o = ci->ports.at(ctx->id("O")).net; CellInfo *dff = net_only_drives(ctx, o, is_ff, "D", true); auto lut_bel = ci->attrs.find(ctx->id("BEL")); bool packed_dff = false; if (dff) { log_info("found attached dff %s\n", dff->name.c_str(ctx)); auto dff_bel = dff->attrs.find(ctx->id("BEL")); if (lut_bel != ci->attrs.end() && dff_bel != dff->attrs.end() && lut_bel->second != dff_bel->second) { // Locations don't match, can't pack } else { lut_to_lc(ctx, ci, packed, false); dff_to_lc(ctx, dff, packed, false); ctx->nets.erase(o->name); if (dff_bel != dff->attrs.end()) packed->attrs[ctx->id("BEL")] = dff_bel->second; packed_cells.insert(dff->name); log_info("packed cell %s into %s\n", dff->name.c_str(ctx), packed->name.c_str(ctx)); packed_dff = true; } } if (!packed_dff) { lut_to_lc(ctx, ci, packed, true); } } } for (auto pcell : packed_cells) { ctx->cells.erase(pcell); } for (auto ncell : new_cells) { ctx->cells[ncell->name] = ncell; } } // Pack FFs not packed as LUTFFs static void pack_nonlut_ffs(Context *ctx) { log_info("Packing non-LUT FFs..\n"); std::unordered_set packed_cells; std::vector new_cells; for (auto cell : ctx->cells) { CellInfo *ci = cell.second; if (is_ff(ctx, ci)) { CellInfo *packed = create_ice_cell(ctx, "ICESTORM_LC", ci->name.str(ctx) + "_DFFLC"); std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(packed->attrs, packed->attrs.begin())); log_info("packed cell %s into %s\n", ci->name.c_str(ctx), packed->name.c_str(ctx)); packed_cells.insert(ci->name); new_cells.push_back(packed); dff_to_lc(ctx, ci, packed, true); } } for (auto pcell : packed_cells) { ctx->cells.erase(pcell); } for (auto ncell : new_cells) { ctx->cells[ncell->name] = ncell; } } // "Pack" RAMs static void pack_ram(Context *ctx) { log_info("Packing RAMs..\n"); std::unordered_set packed_cells; std::vector new_cells; for (auto cell : ctx->cells) { CellInfo *ci = cell.second; if (is_ram(ctx, ci)) { CellInfo *packed = create_ice_cell(ctx, "ICESTORM_RAM", ci->name.str(ctx) + "_RAM"); packed_cells.insert(ci->name); new_cells.push_back(packed); for (auto param : ci->params) packed->params[param.first] = param.second; packed->params["NEG_CLK_W"] = std::to_string(ci->type == ctx->id("SB_RAM40_4KNW") || ci->type == ctx->id("SB_RAM40_4KNRNW")); packed->params["NEG_CLK_R"] = std::to_string(ci->type == ctx->id("SB_RAM40_4KNR") || ci->type == ctx->id("SB_RAM40_4KNRNW")); packed->type = ctx->id("ICESTORM_RAM"); for (auto port : ci->ports) { PortInfo &pi = port.second; std::string newname = pi.name; size_t bpos = newname.find('['); if (bpos != std::string::npos) { newname = newname.substr(0, bpos) + "_" + newname.substr(bpos + 1, (newname.size() - bpos) - 2); } replace_port(ci, pi.name, packed, newname); } } } for (auto pcell : packed_cells) { ctx->cells.erase(pcell); } for (auto ncell : new_cells) { ctx->cells[ncell->name] = ncell; } } // Merge a net into a constant net static void set_net_constant(const Context *ctx, NetInfo *orig, NetInfo *constnet, bool constval) { orig->driver.cell = nullptr; for (auto user : orig->users) { if (user.cell != nullptr) { CellInfo *uc = user.cell; log_info("%s user %s\n", orig->name.c_str(ctx), uc->name.c_str(ctx)); if (is_lut(ctx, uc) && (user.port.str(ctx).at(0) == 'I') && !constval) { uc->ports[user.port].net = nullptr; } else { uc->ports[user.port].net = constnet; constnet->users.push_back(user); } } } orig->users.clear(); } // Pack constants (simple implementation) static void pack_constants(Context *ctx) { log_info("Packing constants..\n"); CellInfo *gnd_cell = create_ice_cell(ctx, "ICESTORM_LC", "$PACKER_GND"); gnd_cell->params[ctx->id("LUT_INIT")] = "0"; NetInfo *gnd_net = new NetInfo; gnd_net->name = "$PACKER_GND_NET"; gnd_net->driver.cell = gnd_cell; gnd_net->driver.port = ctx->id("O"); CellInfo *vcc_cell = create_ice_cell(ctx, "ICESTORM_LC", "$PACKER_VCC"); vcc_cell->params[ctx->id("LUT_INIT")] = "1"; NetInfo *vcc_net = new NetInfo; vcc_net->name = ctx->id("$PACKER_VCC_NET"); vcc_net->driver.cell = vcc_cell; vcc_net->driver.port = ctx->id("O"); std::vector dead_nets; bool gnd_used = false, vcc_used = false; for (auto net : ctx->nets) { NetInfo *ni = net.second; if (ni->driver.cell != nullptr && ni->driver.cell->type == ctx->id("GND")) { set_net_constant(ctx, ni, gnd_net, false); gnd_used = true; dead_nets.push_back(net.first); } else if (ni->driver.cell != nullptr && ni->driver.cell->type == ctx->id("VCC")) { set_net_constant(ctx, ni, vcc_net, true); vcc_used = true; dead_nets.push_back(net.first); } } if (gnd_used) { ctx->cells[gnd_cell->name] = gnd_cell; ctx->nets[gnd_net->name] = gnd_net; } if (vcc_used) { ctx->cells[vcc_cell->name] = vcc_cell; ctx->nets[vcc_net->name] = vcc_net; } for (auto dn : dead_nets) ctx->nets.erase(dn); } static bool is_nextpnr_iob(Context *ctx, CellInfo *cell) { return cell->type == ctx->id("$nextpnr_ibuf") || cell->type == ctx->id("$nextpnr_obuf") || cell->type == ctx->id("$nextpnr_iobuf"); } // Pack IO buffers static void pack_io(Context *ctx) { std::unordered_set packed_cells; std::vector new_cells; log_info("Packing IOs..\n"); for (auto cell : ctx->cells) { CellInfo *ci = cell.second; if (is_nextpnr_iob(ctx, ci)) { CellInfo *sb = nullptr; if (ci->type == ctx->id("$nextpnr_ibuf") || ci->type == ctx->id("$nextpnr_iobuf")) { sb = net_only_drives(ctx, ci->ports.at("O").net, is_sb_io, "PACKAGE_PIN", true, ci); } else if (ci->type == ctx->id("$nextpnr_obuf")) { sb = net_only_drives(ctx, ci->ports.at("I").net, is_sb_io, "PACKAGE_PIN", true, ci); } if (sb != nullptr) { // Trivial case, SB_IO used. Just destroy the net and the // iobuf log_info("%s feeds SB_IO %s, removing %s %s.\n", ci->name.c_str(ctx), sb->name.c_str(ctx), ci->type.c_str(ctx), ci->name.c_str(ctx)); NetInfo *net = sb->ports.at("PACKAGE_PIN").net; if (net != nullptr) { ctx->nets.erase(net->name); sb->ports.at("PACKAGE_PIN").net = nullptr; } } else { // Create a SB_IO buffer sb = create_ice_cell(ctx, "SB_IO"); nxio_to_sb(ctx, ci, sb); new_cells.push_back(sb); } packed_cells.insert(ci->name); std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(sb->attrs, sb->attrs.begin())); } } for (auto pcell : packed_cells) { ctx->cells.erase(pcell); } for (auto ncell : new_cells) { ctx->cells[ncell->name] = ncell; } } static void insert_global(Context *ctx, NetInfo *net, bool is_reset, bool is_cen) { std::string glb_name = net->name.str(ctx) + std::string("_$glb_") + (is_reset ? "sr" : (is_cen ? "ce" : "clk")); CellInfo *gb = create_ice_cell(ctx, "SB_GB", "$gbuf_" + glb_name); gb->ports[ctx->id("USER_SIGNAL_TO_GLOBAL_BUFFER")].net = net; PortRef pr; pr.cell = gb; pr.port = ctx->id("USER_SIGNAL_TO_GLOBAL_BUFFER"); net->users.push_back(pr); pr.cell = gb; pr.port = ctx->id("GLOBAL_BUFFER_OUTPUT"); NetInfo *glbnet = new NetInfo(); glbnet->name = ctx->id(glb_name); glbnet->driver = pr; ctx->nets[glbnet->name] = glbnet; gb->ports[ctx->id("GLOBAL_BUFFER_OUTPUT")].net = glbnet; std::vector keep_users; for (auto user : net->users) { if (is_clock_port(ctx, user) || (is_reset && is_reset_port(ctx, user)) || (is_cen && is_enable_port(ctx, user))) { user.cell->ports[user.port].net = glbnet; glbnet->users.push_back(user); } else { keep_users.push_back(user); } } net->users = keep_users; ctx->cells[gb->name] = gb; } // Simple global promoter (clock only) static void promote_globals(Context *ctx) { log_info("Promoting globals..\n"); std::unordered_map clock_count, reset_count, cen_count; for (auto net : ctx->nets) { NetInfo *ni = net.second; if (ni->driver.cell != nullptr && !is_global_net(ctx, ni)) { clock_count[net.first] = 0; reset_count[net.first] = 0; cen_count[net.first] = 0; for (auto user : ni->users) { if (is_clock_port(ctx, user)) clock_count[net.first]++; if (is_reset_port(ctx, user)) reset_count[net.first]++; if (is_enable_port(ctx, user)) cen_count[net.first]++; } } } int prom_globals = 0, prom_resets = 0, prom_cens = 0; int gbs_available = 8; for (auto cell : ctx->cells) if (is_gbuf(ctx, cell.second)) --gbs_available; while (prom_globals < gbs_available) { auto global_clock = std::max_element(clock_count.begin(), clock_count.end(), [](const std::pair &a, const std::pair &b) { return a.second < b.second; }); auto global_reset = std::max_element(reset_count.begin(), reset_count.end(), [](const std::pair &a, const std::pair &b) { return a.second < b.second; }); auto global_cen = std::max_element(cen_count.begin(), cen_count.end(), [](const std::pair &a, const std::pair &b) { return a.second < b.second; }); if (global_reset->second > global_clock->second && prom_resets < 4) { NetInfo *rstnet = ctx->nets[global_reset->first]; insert_global(ctx, rstnet, true, false); ++prom_globals; ++prom_resets; clock_count.erase(rstnet->name); reset_count.erase(rstnet->name); cen_count.erase(rstnet->name); } else if (global_cen->second > global_clock->second && prom_cens < 4) { NetInfo *cennet = ctx->nets[global_cen->first]; insert_global(ctx, cennet, false, true); ++prom_globals; ++prom_cens; clock_count.erase(cennet->name); reset_count.erase(cennet->name); cen_count.erase(cennet->name); } else if (global_clock->second != 0) { NetInfo *clknet = ctx->nets[global_clock->first]; insert_global(ctx, clknet, false, false); ++prom_globals; clock_count.erase(clknet->name); reset_count.erase(clknet->name); cen_count.erase(clknet->name); } else { break; } } } // Main pack function void pack_design(Context *ctx) { pack_constants(ctx); promote_globals(ctx); pack_io(ctx); pack_lut_lutffs(ctx); pack_nonlut_ffs(ctx); pack_ram(ctx); } NEXTPNR_NAMESPACE_END