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ShowSetup.cpp
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#include <fstream>
#include "vtr_assert.h"
#include "vtr_log.h"
#include "vtr_memory.h"
#include "vpr_types.h"
#include "vpr_error.h"
#include "globals.h"
#include "echo_files.h"
#include "read_options.h"
#include "read_xml_arch_file.h"
#include "ShowSetup.h"
/******** Function Prototypes ********/
static void ShowPackerOpts(const t_packer_opts& PackerOpts);
static void ShowNetlistOpts(const t_netlist_opts& NetlistOpts);
static void ShowPlacerOpts(const t_placer_opts& PlacerOpts,
const t_annealing_sched& AnnealSched);
static void ShowRouterOpts(const t_router_opts& RouterOpts);
static void ShowAnalysisOpts(const t_analysis_opts& AnalysisOpts);
static void ShowNocOpts(const t_noc_opts& NocOpts);
static void ShowAnnealSched(const t_annealing_sched& AnnealSched);
/******** Function Implementations ********/
void ShowSetup(const t_vpr_setup& vpr_setup) {
VTR_LOG("Timing analysis: %s\n", (vpr_setup.TimingEnabled ? "ON" : "OFF"));
VTR_LOG("Circuit netlist file: %s\n", vpr_setup.FileNameOpts.NetFile.c_str());
VTR_LOG("Circuit placement file: %s\n", vpr_setup.FileNameOpts.PlaceFile.c_str());
VTR_LOG("Circuit routing file: %s\n", vpr_setup.FileNameOpts.RouteFile.c_str());
VTR_LOG("Circuit SDC file: %s\n", vpr_setup.Timing.SDCFile.c_str());
if (vpr_setup.FileNameOpts.read_vpr_constraints_file.empty()) {
VTR_LOG("Vpr floorplanning constraints file: not specified\n");
} else {
VTR_LOG("Vpr floorplanning constraints file: %s\n", vpr_setup.FileNameOpts.read_vpr_constraints_file.c_str());
}
VTR_LOG("\n");
VTR_LOG("Packer: %s\n", (vpr_setup.PackerOpts.doPacking ? "ENABLED" : "DISABLED"));
VTR_LOG("Placer: %s\n", (vpr_setup.PlacerOpts.doPlacement ? "ENABLED" : "DISABLED"));
VTR_LOG("Router: %s\n", (vpr_setup.RouterOpts.doRouting ? "ENABLED" : "DISABLED"));
VTR_LOG("Analysis: %s\n", (vpr_setup.AnalysisOpts.doAnalysis ? "ENABLED" : "DISABLED"));
VTR_LOG("\n");
VTR_LOG("VPR was run with the following options:\n\n");
ShowNetlistOpts(vpr_setup.NetlistOpts);
if (vpr_setup.PackerOpts.doPacking) {
ShowPackerOpts(vpr_setup.PackerOpts);
}
if (vpr_setup.PlacerOpts.doPlacement) {
ShowPlacerOpts(vpr_setup.PlacerOpts, vpr_setup.AnnealSched);
}
if (vpr_setup.RouterOpts.doRouting) {
ShowRouterOpts(vpr_setup.RouterOpts);
}
if (vpr_setup.AnalysisOpts.doAnalysis) {
ShowAnalysisOpts(vpr_setup.AnalysisOpts);
}
if (vpr_setup.NocOpts.noc) {
ShowNocOpts(vpr_setup.NocOpts);
}
}
void ClusteredNetlistStats::writeHuman(std::ostream& output) const {
output << "Cluster level netlist and block usage statistics\n";
output << "Netlist num_nets: " << num_nets << "\n";
output << "Netlist num_blocks: " << num_blocks << "\n";
for (const auto& type : logical_block_types) {
output << "Netlist " << type.name << " blocks: " << num_blocks_type[type.index] << ".\n";
}
output << "Netlist inputs pins: " << L_num_p_inputs << "\n";
output << "Netlist output pins: " << L_num_p_outputs << "\n";
}
void ClusteredNetlistStats::writeJSON(std::ostream& output) const {
output << "{\n";
output << " \"num_nets\": \"" << num_nets << "\",\n";
output << " \"num_blocks\": \"" << num_blocks << "\",\n";
output << " \"input_pins\": \"" << L_num_p_inputs << "\",\n";
output << " \"output_pins\": \"" << L_num_p_outputs << "\",\n";
output << " \"blocks\": {\n";
for (const auto& type : logical_block_types) {
output << " \"" << type.name << "\": " << num_blocks_type[type.index];
if ((int)type.index < (int)logical_block_types.size() - 1)
output << ",\n";
else
output << "\n";
}
output << " }\n";
output << "}\n";
}
void ClusteredNetlistStats::writeXML(std::ostream& output) const {
output << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n";
output << "<block_usage_report>\n";
output << " <nets num=\"" << num_nets << "\"></nets>\n";
output << " <blocks num=\"" << num_blocks << "\">\n";
for (const auto& type : logical_block_types) {
output << " <block type=\"" << type.name << "\" usage=\"" << num_blocks_type[type.index] << "\"></block>\n";
}
output << " </blocks>\n";
output << " <input_pins num=\"" << L_num_p_inputs << "\"></input_pins>\n";
output << " <output_pins num=\"" << L_num_p_outputs << "\"></output_pins>\n";
output << "</block_usage_report>\n";
}
ClusteredNetlistStats::ClusteredNetlistStats() {
auto& device_ctx = g_vpr_ctx.device();
auto& cluster_ctx = g_vpr_ctx.clustering();
int j;
L_num_p_inputs = 0;
L_num_p_outputs = 0;
num_blocks_type = std::vector<int>(device_ctx.logical_block_types.size(), 0);
num_nets = (int)cluster_ctx.clb_nlist.nets().size();
num_blocks = (int)cluster_ctx.clb_nlist.blocks().size();
logical_block_types = device_ctx.logical_block_types;
/* Count I/O input and output pads */
for (auto blk_id : cluster_ctx.clb_nlist.blocks()) {
auto logical_block = cluster_ctx.clb_nlist.block_type(blk_id);
auto physical_tile = pick_physical_type(logical_block);
num_blocks_type[logical_block->index]++;
if (is_io_type(physical_tile)) {
for (j = 0; j < logical_block->pb_type->num_pins; j++) {
int physical_pin = get_physical_pin(physical_tile, logical_block, j);
if (cluster_ctx.clb_nlist.block_net(blk_id, j) != ClusterNetId::INVALID()) {
auto pin_type = get_pin_type_from_pin_physical_num(physical_tile, physical_pin);
if (pin_type == DRIVER) {
L_num_p_inputs++;
} else {
VTR_ASSERT(pin_type == RECEIVER);
L_num_p_outputs++;
}
}
}
}
}
}
void ClusteredNetlistStats::write(OutputFormat fmt, std::ostream& output) const {
switch (fmt) {
case HumanReadable:
writeHuman(output);
break;
case JSON:
writeJSON(output);
break;
case XML:
writeXML(output);
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_PACK,
"Unknown extension on in block usage summary file");
break;
}
}
void writeClusteredNetlistStats(std::string block_usage_filename) {
const auto stats = ClusteredNetlistStats();
// Print out the human readable version to stdout
stats.write(ClusteredNetlistStats::OutputFormat::HumanReadable, std::cout);
if (block_usage_filename.size() > 0) {
ClusteredNetlistStats::OutputFormat fmt;
if (vtr::check_file_name_extension(block_usage_filename.c_str(), ".json")) {
fmt = ClusteredNetlistStats::OutputFormat::JSON;
} else if (vtr::check_file_name_extension(block_usage_filename.c_str(), ".xml")) {
fmt = ClusteredNetlistStats::OutputFormat::XML;
} else if (vtr::check_file_name_extension(block_usage_filename.c_str(), ".txt")) {
fmt = ClusteredNetlistStats::OutputFormat::HumanReadable;
} else {
VPR_FATAL_ERROR(VPR_ERROR_PACK, "Unknown extension on output %s", block_usage_filename.c_str());
}
std::fstream fp;
fp.open(block_usage_filename, std::fstream::out | std::fstream::trunc);
stats.write(fmt, fp);
fp.close();
}
}
static void ShowAnnealSched(const t_annealing_sched& AnnealSched) {
VTR_LOG("AnnealSched.type: ");
switch (AnnealSched.type) {
case AUTO_SCHED:
VTR_LOG("AUTO_SCHED\n");
break;
case USER_SCHED:
VTR_LOG("USER_SCHED\n");
break;
case DUSTY_SCHED:
VTR_LOG("DUSTY_SCHED\n");
break;
default:
VTR_LOG_ERROR("Unknown annealing schedule\n");
}
VTR_LOG("AnnealSched.inner_num: %f\n", AnnealSched.inner_num);
if (USER_SCHED == AnnealSched.type) {
VTR_LOG("AnnealSched.init_t: %f\n", AnnealSched.init_t);
VTR_LOG("AnnealSched.alpha_t: %f\n", AnnealSched.alpha_t);
VTR_LOG("AnnealSched.exit_t: %f\n", AnnealSched.exit_t);
} else if (DUSTY_SCHED == AnnealSched.type) {
VTR_LOG("AnnealSched.alpha_min: %f\n", AnnealSched.alpha_min);
VTR_LOG("AnnealSched.alpha_max: %f\n", AnnealSched.alpha_max);
VTR_LOG("AnnealSched.alpha_decay: %f\n", AnnealSched.alpha_decay);
VTR_LOG("AnnealSched.success_min: %f\n", AnnealSched.success_min);
VTR_LOG("AnnealSched.success_target: %f\n", AnnealSched.success_target);
}
}
static void ShowRouterOpts(const t_router_opts& RouterOpts) {
VTR_LOG("RouterOpts.route_type: ");
switch (RouterOpts.route_type) {
case GLOBAL:
VTR_LOG("GLOBAL\n");
break;
case DETAILED:
VTR_LOG("DETAILED\n");
break;
default:
VTR_LOG_ERROR("Unknown router opt\n");
}
VTR_LOG("RouterOpts.flat_routing: ");
if (RouterOpts.flat_routing) {
VTR_LOG("true\n");
} else {
VTR_LOG("false\n");
}
if (DETAILED == RouterOpts.route_type) {
VTR_LOG("RouterOpts.router_algorithm: ");
switch (RouterOpts.router_algorithm) {
case BREADTH_FIRST:
VTR_LOG("BREADTH_FIRST\n");
break;
case TIMING_DRIVEN:
VTR_LOG("TIMING_DRIVEN\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "<Unknown>\n");
}
VTR_LOG("RouterOpts.base_cost_type: ");
switch (RouterOpts.base_cost_type) {
case DELAY_NORMALIZED:
VTR_LOG("DELAY_NORMALIZED\n");
break;
case DELAY_NORMALIZED_LENGTH:
VTR_LOG("DELAY_NORMALIZED_LENGTH\n");
break;
case DELAY_NORMALIZED_LENGTH_BOUNDED:
VTR_LOG("DELAY_NORMALIZED_LENGTH_BOUNDED\n");
break;
case DELAY_NORMALIZED_FREQUENCY:
VTR_LOG("DELAY_NORMALIZED_FREQUENCY\n");
break;
case DELAY_NORMALIZED_LENGTH_FREQUENCY:
VTR_LOG("DELAY_NORMALIZED_LENGTH_FREQUENCY\n");
break;
case DEMAND_ONLY:
VTR_LOG("DEMAND_ONLY\n");
break;
case DEMAND_ONLY_NORMALIZED_LENGTH:
VTR_LOG("DEMAND_ONLY_NORMALIZED_LENGTH\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown base_cost_type\n");
}
VTR_LOG("RouterOpts.fixed_channel_width: ");
if (NO_FIXED_CHANNEL_WIDTH == RouterOpts.fixed_channel_width) {
VTR_LOG("NO_FIXED_CHANNEL_WIDTH\n");
} else {
VTR_LOG("%d\n", RouterOpts.fixed_channel_width);
}
VTR_LOG("RouterOpts.check_route: ");
switch (RouterOpts.check_route) {
case e_check_route_option::OFF:
VTR_LOG("OFF\n");
break;
case e_check_route_option::QUICK:
VTR_LOG("QUICK\n");
break;
case e_check_route_option::FULL:
VTR_LOG("FULL\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown check_route value\n");
}
VTR_LOG("RouterOpts.acc_fac: %f\n", RouterOpts.acc_fac);
VTR_LOG("RouterOpts.bb_factor: %d\n", RouterOpts.bb_factor);
VTR_LOG("RouterOpts.bend_cost: %f\n", RouterOpts.bend_cost);
VTR_LOG("RouterOpts.first_iter_pres_fac: %f\n", RouterOpts.first_iter_pres_fac);
VTR_LOG("RouterOpts.initial_pres_fac: %f\n", RouterOpts.initial_pres_fac);
VTR_LOG("RouterOpts.pres_fac_mult: %f\n", RouterOpts.pres_fac_mult);
VTR_LOG("RouterOpts.max_router_iterations: %d\n", RouterOpts.max_router_iterations);
VTR_LOG("RouterOpts.min_incremental_reroute_fanout: %d\n", RouterOpts.min_incremental_reroute_fanout);
VTR_LOG("RouterOpts.do_check_rr_graph: %s\n", RouterOpts.do_check_rr_graph ? "true" : "false");
VTR_LOG("RouterOpts.verify_binary_search: %s\n", RouterOpts.verify_binary_search ? "true" : "false");
VTR_LOG("RouterOpts.min_channel_width_hint: %d\n", RouterOpts.min_channel_width_hint);
VTR_LOG("RouterOpts.read_rr_edge_metadata: %s\n", RouterOpts.read_rr_edge_metadata ? "true" : "false");
VTR_LOG("RouterOpts.exit_after_first_routing_iteration: %s\n", RouterOpts.exit_after_first_routing_iteration ? "true" : "false");
if (TIMING_DRIVEN == RouterOpts.router_algorithm) {
VTR_LOG("RouterOpts.astar_fac: %f\n", RouterOpts.astar_fac);
VTR_LOG("RouterOpts.router_profiler_astar_fac: %f\n", RouterOpts.router_profiler_astar_fac);
VTR_LOG("RouterOpts.criticality_exp: %f\n", RouterOpts.criticality_exp);
VTR_LOG("RouterOpts.max_criticality: %f\n", RouterOpts.max_criticality);
VTR_LOG("RouterOpts.init_wirelength_abort_threshold: %f\n", RouterOpts.init_wirelength_abort_threshold);
VTR_LOG("RouterOpts.save_routing_per_iteration: %s\n", RouterOpts.save_routing_per_iteration ? "true" : "false");
VTR_LOG("RouterOpts.congested_routing_iteration_threshold_frac: %f\n", RouterOpts.congested_routing_iteration_threshold_frac);
VTR_LOG("RouterOpts.high_fanout_threshold: %d\n", RouterOpts.high_fanout_threshold);
VTR_LOG("RouterOpts.router_debug_net: %d\n", RouterOpts.router_debug_net);
VTR_LOG("RouterOpts.router_debug_sink_rr: %d\n", RouterOpts.router_debug_sink_rr);
VTR_LOG("RouterOpts.router_debug_iteration: %d\n", RouterOpts.router_debug_iteration);
VTR_LOG("RouterOpts.max_convergence_count: %d\n", RouterOpts.max_convergence_count);
VTR_LOG("RouterOpts.reconvergence_cpd_threshold: %f\n", RouterOpts.reconvergence_cpd_threshold);
VTR_LOG("RouterOpts.update_lower_bound_delays: %s\n", RouterOpts.update_lower_bound_delays ? "true" : "false");
VTR_LOG("RouterOpts.first_iteration_timing_report_file: %s\n", RouterOpts.first_iteration_timing_report_file.c_str());
std::string incr_delay_ripup_opts[3] = {"ON", "OFF", "AUTO"};
VTR_LOG("RouterOpts.incr_reroute_delay_ripup: %s\n", incr_delay_ripup_opts[(size_t)RouterOpts.incr_reroute_delay_ripup].c_str());
VTR_LOG("RouterOpts.route_bb_update: ");
switch (RouterOpts.route_bb_update) {
case e_route_bb_update::STATIC:
VTR_LOG("STATIC\n");
break;
case e_route_bb_update::DYNAMIC:
VTR_LOG("DYNAMIC\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown route_bb_update\n");
}
VTR_LOG("RouterOpts.lookahead_type: ");
switch (RouterOpts.lookahead_type) {
case e_router_lookahead::CLASSIC:
VTR_LOG("CLASSIC\n");
break;
case e_router_lookahead::MAP:
VTR_LOG("MAP\n");
break;
case e_router_lookahead::EXTENDED_MAP:
VTR_LOG("EXTENDED_MAP\n");
break;
case e_router_lookahead::NO_OP:
VTR_LOG("NO_OP\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown lookahead_type\n");
}
VTR_LOG("RouterOpts.initial_timing: ");
switch (RouterOpts.initial_timing) {
case e_router_initial_timing::ALL_CRITICAL:
VTR_LOG("ALL_CRITICAL\n");
break;
case e_router_initial_timing::LOOKAHEAD:
VTR_LOG("LOOKAHEAD\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown initial_timing\n");
}
VTR_LOG("RouterOpts.router_heap: ");
switch (RouterOpts.router_heap) {
case e_heap_type::INVALID_HEAP:
VTR_LOG("INVALID_HEAP\n");
break;
case e_heap_type::BINARY_HEAP:
VTR_LOG("BINARY_HEAP\n");
break;
case e_heap_type::BUCKET_HEAP_APPROXIMATION:
VTR_LOG("BUCKET_HEAP_APPROXIMATION\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown router_heap\n");
}
}
if (RouterOpts.routing_failure_predictor == SAFE)
VTR_LOG("RouterOpts.routing_failure_predictor = SAFE\n");
else if (RouterOpts.routing_failure_predictor == AGGRESSIVE)
VTR_LOG("RouterOpts.routing_failure_predictor = AGGRESSIVE\n");
else if (RouterOpts.routing_failure_predictor == OFF)
VTR_LOG("RouterOpts.routing_failure_predictor = OFF\n");
if (RouterOpts.routing_budgets_algorithm == DISABLE) {
VTR_LOG("RouterOpts.routing_budgets_algorithm = DISABLE\n");
} else if (RouterOpts.routing_budgets_algorithm == MINIMAX) {
VTR_LOG("RouterOpts.routing_budgets_algorithm = MINIMAX\n");
} else if (RouterOpts.routing_budgets_algorithm == YOYO) {
VTR_LOG("RouterOpts.routing_budgets_algorithm = YOYO\n");
} else if (RouterOpts.routing_budgets_algorithm == SCALE_DELAY) {
VTR_LOG("RouterOpts.routing_budgets_algorithm = SCALE_DELAY\n");
}
} else {
VTR_ASSERT(GLOBAL == RouterOpts.route_type);
VTR_LOG("RouterOpts.router_algorithm: ");
switch (RouterOpts.router_algorithm) {
case BREADTH_FIRST:
VTR_LOG("BREADTH_FIRST\n");
break;
case TIMING_DRIVEN:
VTR_LOG("TIMING_DRIVEN\n");
break;
default:
VTR_LOG_ERROR("Unknown router algorithm\n");
}
VTR_LOG("RouterOpts.base_cost_type: ");
switch (RouterOpts.base_cost_type) {
case DELAY_NORMALIZED:
VTR_LOG("DELAY_NORMALIZED\n");
break;
case DEMAND_ONLY:
VTR_LOG("DEMAND_ONLY\n");
break;
default:
VTR_LOG_ERROR("Unknown router base cost type\n");
}
VTR_LOG("RouterOpts.fixed_channel_width: ");
if (NO_FIXED_CHANNEL_WIDTH == RouterOpts.fixed_channel_width) {
VTR_LOG("NO_FIXED_CHANNEL_WIDTH\n");
} else {
VTR_LOG("%d\n", RouterOpts.fixed_channel_width);
}
VTR_LOG("RouterOpts.acc_fac: %f\n", RouterOpts.acc_fac);
VTR_LOG("RouterOpts.bb_factor: %d\n", RouterOpts.bb_factor);
VTR_LOG("RouterOpts.bend_cost: %f\n", RouterOpts.bend_cost);
VTR_LOG("RouterOpts.first_iter_pres_fac: %f\n", RouterOpts.first_iter_pres_fac);
VTR_LOG("RouterOpts.initial_pres_fac: %f\n", RouterOpts.initial_pres_fac);
VTR_LOG("RouterOpts.pres_fac_mult: %f\n", RouterOpts.pres_fac_mult);
VTR_LOG("RouterOpts.max_router_iterations: %d\n", RouterOpts.max_router_iterations);
VTR_LOG("RouterOpts.min_incremental_reroute_fanout: %d\n", RouterOpts.min_incremental_reroute_fanout);
VTR_LOG("RouterOpts.do_check_rr_graph: %s\n", RouterOpts.do_check_rr_graph ? "true" : "false");
VTR_LOG("RouterOpts.verify_binary_search: %s\n", RouterOpts.verify_binary_search ? "true" : "false");
VTR_LOG("RouterOpts.min_channel_width_hint: %d\n", RouterOpts.min_channel_width_hint);
VTR_LOG("RouterOpts.read_rr_edge_metadata: %s\n", RouterOpts.read_rr_edge_metadata ? "true" : "false");
VTR_LOG("RouterOpts.exit_after_first_routing_iteration: %s\n", RouterOpts.exit_after_first_routing_iteration ? "true" : "false");
if (TIMING_DRIVEN == RouterOpts.router_algorithm) {
VTR_LOG("RouterOpts.astar_fac: %f\n", RouterOpts.astar_fac);
VTR_LOG("RouterOpts.router_profiler_astar_fac: %f\n", RouterOpts.router_profiler_astar_fac);
VTR_LOG("RouterOpts.criticality_exp: %f\n", RouterOpts.criticality_exp);
VTR_LOG("RouterOpts.max_criticality: %f\n", RouterOpts.max_criticality);
VTR_LOG("RouterOpts.init_wirelength_abort_threshold: %f\n", RouterOpts.init_wirelength_abort_threshold);
VTR_LOG("RouterOpts.incr_reroute_delay_ripup: %f\n", RouterOpts.incr_reroute_delay_ripup);
VTR_LOG("RouterOpts.save_routing_per_iteration: %s\n", RouterOpts.save_routing_per_iteration ? "true" : "false");
VTR_LOG("RouterOpts.congested_routing_iteration_threshold_frac: %f\n", RouterOpts.congested_routing_iteration_threshold_frac);
VTR_LOG("RouterOpts.high_fanout_threshold: %d\n", RouterOpts.high_fanout_threshold);
VTR_LOG("RouterOpts.router_debug_net: %d\n", RouterOpts.router_debug_net);
VTR_LOG("RouterOpts.router_debug_sink_rr: %d\n", RouterOpts.router_debug_sink_rr);
VTR_LOG("RouterOpts.router_debug_iteration: %d\n", RouterOpts.router_debug_iteration);
VTR_LOG("RouterOpts.max_convergence_count: %d\n", RouterOpts.max_convergence_count);
VTR_LOG("RouterOpts.reconvergence_cpd_threshold: %f\n", RouterOpts.reconvergence_cpd_threshold);
VTR_LOG("RouterOpts.update_lower_bound_delays: %s\n", RouterOpts.update_lower_bound_delays ? "true" : "false");
VTR_LOG("RouterOpts.first_iteration_timing_report_file: %s\n", RouterOpts.first_iteration_timing_report_file.c_str());
VTR_LOG("RouterOpts.route_bb_update: ");
switch (RouterOpts.route_bb_update) {
case e_route_bb_update::STATIC:
VTR_LOG("STATIC\n");
break;
case e_route_bb_update::DYNAMIC:
VTR_LOG("DYNAMIC\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown route_bb_update\n");
}
VTR_LOG("RouterOpts.lookahead_type: ");
switch (RouterOpts.lookahead_type) {
case e_router_lookahead::CLASSIC:
VTR_LOG("CLASSIC\n");
break;
case e_router_lookahead::MAP:
VTR_LOG("MAP\n");
break;
case e_router_lookahead::EXTENDED_MAP:
VTR_LOG("EXTENDED_MAP\n");
break;
case e_router_lookahead::NO_OP:
VTR_LOG("NO_OP\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown lookahead_type\n");
}
VTR_LOG("RouterOpts.initial_timing: ");
switch (RouterOpts.initial_timing) {
case e_router_initial_timing::ALL_CRITICAL:
VTR_LOG("ALL_CRITICAL\n");
break;
case e_router_initial_timing::LOOKAHEAD:
VTR_LOG("LOOKAHEAD\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown initial_timing\n");
}
VTR_LOG("RouterOpts.router_heap: ");
switch (RouterOpts.router_heap) {
case e_heap_type::INVALID_HEAP:
VTR_LOG("INVALID_HEAP\n");
break;
case e_heap_type::BINARY_HEAP:
VTR_LOG("BINARY_HEAP\n");
break;
case e_heap_type::BUCKET_HEAP_APPROXIMATION:
VTR_LOG("BUCKET_HEAP_APPROXIMATION\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown router_heap\n");
}
}
}
VTR_LOG("\n");
}
static void ShowPlacerOpts(const t_placer_opts& PlacerOpts,
const t_annealing_sched& AnnealSched) {
VTR_LOG("PlacerOpts.place_freq: ");
switch (PlacerOpts.place_freq) {
case PLACE_ONCE:
VTR_LOG("PLACE_ONCE\n");
break;
case PLACE_ALWAYS:
VTR_LOG("PLACE_ALWAYS\n");
break;
case PLACE_NEVER:
VTR_LOG("PLACE_NEVER\n");
break;
default:
VTR_LOG_ERROR("Unknown Place Freq\n");
}
if ((PLACE_ONCE == PlacerOpts.place_freq)
|| (PLACE_ALWAYS == PlacerOpts.place_freq)) {
VTR_LOG("PlacerOpts.place_algorithm: ");
switch (PlacerOpts.place_algorithm.get()) {
case BOUNDING_BOX_PLACE:
VTR_LOG("BOUNDING_BOX_PLACE\n");
break;
case CRITICALITY_TIMING_PLACE:
VTR_LOG("CRITICALITY_TIMING_PLACE\n");
break;
case SLACK_TIMING_PLACE:
VTR_LOG("SLACK_TIMING_PLACE\n");
break;
default:
VTR_LOG_ERROR("Unknown placement algorithm\n");
}
VTR_LOG("PlacerOpts.pad_loc_type: ");
switch (PlacerOpts.pad_loc_type) {
case FREE:
VTR_LOG("FREE\n");
break;
case RANDOM:
VTR_LOG("RANDOM\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown I/O pad location type\n");
}
VTR_LOG("PlacerOpts.constraints_file: ");
if (PlacerOpts.constraints_file == "") {
VTR_LOG("No constraints file given\n");
} else {
VTR_LOG("Using constraints file '%s'\n", PlacerOpts.constraints_file.c_str());
}
VTR_LOG("PlacerOpts.place_cost_exp: %f\n", PlacerOpts.place_cost_exp);
VTR_LOG("PlacerOpts.place_chan_width: %d\n", PlacerOpts.place_chan_width);
if (PlacerOpts.place_algorithm.is_timing_driven()) {
VTR_LOG("PlacerOpts.inner_loop_recompute_divider: %d\n", PlacerOpts.inner_loop_recompute_divider);
VTR_LOG("PlacerOpts.recompute_crit_iter: %d\n", PlacerOpts.recompute_crit_iter);
VTR_LOG("PlacerOpts.timing_tradeoff: %f\n", PlacerOpts.timing_tradeoff);
VTR_LOG("PlacerOpts.td_place_exp_first: %f\n", PlacerOpts.td_place_exp_first);
VTR_LOG("PlacerOpts.td_place_exp_last: %f\n", PlacerOpts.td_place_exp_last);
VTR_LOG("PlacerOpts.delay_offset: %f\n", PlacerOpts.delay_offset);
VTR_LOG("PlacerOpts.delay_ramp_delta_threshold: %d\n", PlacerOpts.delay_ramp_delta_threshold);
VTR_LOG("PlacerOpts.delay_ramp_slope: %f\n", PlacerOpts.delay_ramp_slope);
VTR_LOG("PlacerOpts.tsu_rel_margin: %f\n", PlacerOpts.tsu_rel_margin);
VTR_LOG("PlacerOpts.tsu_abs_margin: %f\n", PlacerOpts.tsu_abs_margin);
VTR_LOG("PlacerOpts.post_place_timing_report_file: %s\n", PlacerOpts.post_place_timing_report_file.c_str());
VTR_LOG("PlacerOpts.allowed_tiles_for_delay_model: %s\n", PlacerOpts.allowed_tiles_for_delay_model.c_str());
std::string e_reducer_strings[5] = {"MIN", "MAX", "MEDIAN", "ARITHMEAN", "GEOMEAN"};
if ((size_t)PlacerOpts.delay_model_reducer > 4)
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown delay_model_reducer\n");
VTR_LOG("PlacerOpts.delay_model_reducer: %s\n", e_reducer_strings[(size_t)PlacerOpts.delay_model_reducer].c_str());
std::string place_delay_model_strings[2] = {"DELTA", "DELTA_OVERRIDE"};
if ((size_t)PlacerOpts.delay_model_type > 1)
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown delay_model_type\n");
VTR_LOG("PlacerOpts.delay_model_type: %s\n", place_delay_model_strings[(size_t)PlacerOpts.delay_model_type].c_str());
}
VTR_LOG("PlacerOpts.rlim_escape_fraction: %f\n", PlacerOpts.rlim_escape_fraction);
VTR_LOG("PlacerOpts.move_stats_file: %s\n", PlacerOpts.move_stats_file.c_str());
VTR_LOG("PlacerOpts.placement_saves_per_temperature: %d\n", PlacerOpts.placement_saves_per_temperature);
VTR_LOG("PlacerOpts.effort_scaling: ");
switch (PlacerOpts.effort_scaling) {
case CIRCUIT:
VTR_LOG("CIRCUIT\n");
break;
case DEVICE_CIRCUIT:
VTR_LOG("DEVICE_CIRCUIT\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown effort_scaling\n");
}
VTR_LOG("PlacerOpts.place_delta_delay_matrix_calculation_method: ");
switch (PlacerOpts.place_delta_delay_matrix_calculation_method) {
case e_place_delta_delay_algorithm::ASTAR_ROUTE:
VTR_LOG("ASTAR_ROUTE\n");
break;
case e_place_delta_delay_algorithm::DIJKSTRA_EXPANSION:
VTR_LOG("DIJKSTRA_EXPANSION\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown delta_delay_matrix_calculation_method\n");
}
VTR_LOG("PlaceOpts.seed: %d\n", PlacerOpts.seed);
ShowAnnealSched(AnnealSched);
}
VTR_LOG("\n");
}
static void ShowNetlistOpts(const t_netlist_opts& NetlistOpts) {
VTR_LOG("NetlistOpts.abosrb_buffer_luts : %s\n", (NetlistOpts.absorb_buffer_luts) ? "true" : "false");
VTR_LOG("NetlistOpts.sweep_dangling_primary_ios : %s\n", (NetlistOpts.sweep_dangling_primary_ios) ? "true" : "false");
VTR_LOG("NetlistOpts.sweep_dangling_nets : %s\n", (NetlistOpts.sweep_dangling_nets) ? "true" : "false");
VTR_LOG("NetlistOpts.sweep_dangling_blocks : %s\n", (NetlistOpts.sweep_dangling_blocks) ? "true" : "false");
VTR_LOG("NetlistOpts.sweep_constant_primary_outputs: %s\n", (NetlistOpts.sweep_constant_primary_outputs) ? "true" : "false");
VTR_LOG("NetlistOpts.netlist_verbosity : %d\n", NetlistOpts.netlist_verbosity);
std::string const_gen_inference_strings[3] = {"NONE", "COMB", "COMB_SEQ"};
if ((size_t)NetlistOpts.const_gen_inference > 3)
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown delay_model_reducer\n");
VTR_LOG("NetlistOpts.const_gen_inference : %s\n", const_gen_inference_strings[(size_t)NetlistOpts.const_gen_inference].c_str());
VTR_LOG("\n");
}
static void ShowAnalysisOpts(const t_analysis_opts& AnalysisOpts) {
VTR_LOG("AnalysisOpts.gen_post_synthesis_netlist: %s\n", (AnalysisOpts.gen_post_synthesis_netlist) ? "true" : "false");
VTR_LOG("AnalysisOpts.timing_report_npaths: %d\n", AnalysisOpts.timing_report_npaths);
VTR_LOG("AnalysisOpts.timing_report_skew: %s\n", AnalysisOpts.timing_report_skew ? "true" : "false");
VTR_LOG("AnalysisOpts.echo_dot_timing_graph_node: %s\n", AnalysisOpts.echo_dot_timing_graph_node.c_str());
VTR_LOG("AnalysisOpts.timing_report_detail: ");
switch (AnalysisOpts.timing_report_detail) {
case e_timing_report_detail::NETLIST:
VTR_LOG("NETLIST\n");
break;
case e_timing_report_detail::AGGREGATED:
VTR_LOG("AGGREGATED\n");
break;
case e_timing_report_detail::DETAILED_ROUTING:
VTR_LOG("DETAILED_ROUTING\n");
break;
case e_timing_report_detail::DEBUG:
VTR_LOG("DEBUG\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown timing_report_detail\n");
}
const auto opts = {
std::make_tuple(&AnalysisOpts.post_synth_netlist_unconn_input_handling, "post_synth_netlist_unconn_input_handling"),
std::make_tuple(&AnalysisOpts.post_synth_netlist_unconn_output_handling, "post_synth_netlist_unconn_output_handling"),
};
for (const auto& opt : opts) {
auto value = *std::get<0>(opt);
VTR_LOG("AnalysisOpts.%s: ", std::get<1>(opt));
switch (value) {
case e_post_synth_netlist_unconn_handling::UNCONNECTED:
VTR_LOG("UNCONNECTED\n");
break;
case e_post_synth_netlist_unconn_handling::NETS:
VTR_LOG("NETS\n");
break;
case e_post_synth_netlist_unconn_handling::GND:
VTR_LOG("GND\n");
break;
case e_post_synth_netlist_unconn_handling::VCC:
VTR_LOG("VCC\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown post_synth_netlist_unconn_handling\n");
}
}
VTR_LOG("\n");
}
static void ShowPackerOpts(const t_packer_opts& PackerOpts) {
VTR_LOG("PackerOpts.allow_unrelated_clustering: %s\n", vtr::join(PackerOpts.allow_unrelated_clustering, " ").c_str());
VTR_LOG("PackerOpts.alpha_clustering: %f\n", PackerOpts.alpha);
VTR_LOG("PackerOpts.beta_clustering: %f\n", PackerOpts.beta);
VTR_LOG("PackerOpts.cluster_seed_type: ");
switch (PackerOpts.cluster_seed_type) {
case e_cluster_seed::TIMING:
VTR_LOG("TIMING\n");
break;
case e_cluster_seed::MAX_INPUTS:
VTR_LOG("MAX_INPUTS\n");
break;
case e_cluster_seed::BLEND:
VTR_LOG("BLEND\n");
break;
case e_cluster_seed::MAX_PINS:
VTR_LOG("MAX_PINS\n");
break;
case e_cluster_seed::MAX_INPUT_PINS:
VTR_LOG("MAX_INPUT_PINS\n");
break;
case e_cluster_seed::BLEND2:
VTR_LOG("BLEND2\n");
break;
default:
VPR_FATAL_ERROR(VPR_ERROR_UNKNOWN, "Unknown packer cluster_seed_type\n");
}
VTR_LOG("PackerOpts.connection_driven: %s", (PackerOpts.connection_driven ? "true\n" : "false\n"));
VTR_LOG("PackerOpts.global_clocks: %s", (PackerOpts.global_clocks ? "true\n" : "false\n"));
VTR_LOG("PackerOpts.hill_climbing_flag: %s", (PackerOpts.hill_climbing_flag ? "true\n" : "false\n"));
VTR_LOG("PackerOpts.inter_cluster_net_delay: %f\n", PackerOpts.inter_cluster_net_delay);
VTR_LOG("PackerOpts.timing_driven: %s", (PackerOpts.timing_driven ? "true\n" : "false\n"));
VTR_LOG("PackerOpts.target_external_pin_util: %s", vtr::join(PackerOpts.target_external_pin_util, " ").c_str());
VTR_LOG("\n");
VTR_LOG("\n");
}
static void ShowNocOpts(const t_noc_opts& NocOpts) {
VTR_LOG("NocOpts.noc_flows_file: %s\n", NocOpts.noc_flows_file.c_str());
VTR_LOG("NocOpts.noc_routing_algorithm: %s\n", NocOpts.noc_routing_algorithm.c_str());
VTR_LOG("\n");
}