remove legacy codes for Verilog formal verification testbench generation

This commit is contained in:
tangxifan 2019-10-28 15:21:14 -06:00
parent c047fd3cb2
commit fe005f1f56
3 changed files with 2 additions and 426 deletions

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@ -418,11 +418,6 @@ void vpr_fpga_verilog(ModuleManager& module_manager,
std::string random_top_testbench_file_path = std::string(src_dir_path) std::string random_top_testbench_file_path = std::string(src_dir_path)
+ std::string(chomped_circuit_name) + std::string(chomped_circuit_name)
+ std::string(random_top_testbench_verilog_file_postfix); + std::string(random_top_testbench_verilog_file_postfix);
/* FIXME: old function TO BE REMOVED */
dump_verilog_random_top_testbench(sram_verilog_orgz_info, chomped_circuit_name,
std::string(random_top_testbench_file_path + ".bak").c_str(), src_dir_path,
vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts, *(Arch.spice));
/* TODO: remove the .bak when it is ready */
print_verilog_random_top_testbench(std::string(chomped_circuit_name), random_top_testbench_file_path, print_verilog_random_top_testbench(std::string(chomped_circuit_name), random_top_testbench_file_path,
std::string(src_dir_path), L_logical_blocks, std::string(src_dir_path), L_logical_blocks,
vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts, Arch.spice->spice_params); vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts, Arch.spice->spice_params);

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@ -1,412 +0,0 @@
/***********************************/
/* Dump Synthesizable Veriolog */
/* Xifan TANG, EPFL/LSI */
/***********************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <time.h>
#include <assert.h>
#include <sys/stat.h>
#include <unistd.h>
/* Include vpr structs*/
#include "util.h"
#include "physical_types.h"
#include "vpr_types.h"
#include "globals.h"
#include "rr_graph.h"
#include "route_common.h"
#include "vpr_utils.h"
/* Include spice support headers*/
#include "read_xml_spice_util.h"
#include "linkedlist.h"
#include "fpga_x2p_types.h"
#include "fpga_x2p_utils.h"
#include "fpga_x2p_pbtypes_utils.h"
#include "fpga_x2p_backannotate_utils.h"
#include "fpga_x2p_bitstream_utils.h"
#include "fpga_x2p_globals.h"
#include "fpga_bitstream.h"
/* Include verilog support headers*/
#include "verilog_global.h"
#include "verilog_utils.h"
#include "verilog_routing.h"
#include "verilog_pbtypes.h"
#include "verilog_decoder.h"
#include "verilog_top_netlist_utils.h"
#include "verilog_top_testbench.h"
#include "verilog_formal_random_top_testbench.h"
/* Local variables */
static char* formal_random_top_tb_postfix = "_top_formal_verification_random_tb";
static char* gfpga_postfix = "_gfpga";
static char* bench_postfix = "_bench";
static char* flag_postfix = "_flag";
static char* def_clk_name = "clk";
static char* error_counter = "nb_error";
static char* clock_input_name = NULL;
/* Local Subroutines declaration */
/******** Subroutines ***********/
static
void dump_verilog_top_random_testbench_ports(FILE* fp,
t_sram_orgz_info* cur_sram_orgz_info,
char* circuit_name,
t_syn_verilog_opts fpga_verilog_opts){
int iblock;
boolean bench_as_clk = FALSE;
t_spice_model* mem_model = NULL;
get_sram_orgz_info_mem_model(cur_sram_orgz_info, &mem_model);
fprintf(fp, "`include \"%s\"\n", fpga_verilog_opts.reference_verilog_benchmark_file);
fprintf(fp, "module %s%s;\n", circuit_name, formal_random_top_tb_postfix);
// Instantiate register for inputs stimulis
fprintf(fp, "//----- Shared inputs\n");
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_INPAD == logical_block[iblock].type) {
fprintf(fp, " reg %s;\n", logical_block[iblock].name);
if(logical_block[iblock].is_clock)
bench_as_clk = TRUE;
}
}
}
if(FALSE == bench_as_clk)
fprintf(fp, " reg %s;\n", def_clk_name);
// Instantiate wire for gfpga output
fprintf(fp, "\n//----- GFPGA outputs\n");
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_OUTPAD == logical_block[iblock].type) {
fprintf(fp, " wire %s%s;\n", logical_block[iblock].name, gfpga_postfix);
}
}
}
// Instantiate wire for benchmark output
fprintf(fp, "\n`ifdef %s\n//----- Benchmark outputs\n", autochecked_simulation_flag);
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_OUTPAD == logical_block[iblock].type) {
fprintf(fp, " wire %s%s;\n", logical_block[iblock].name, bench_postfix);
}
}
}
// Instantiate register for output comparison
fprintf(fp, "\n//----- Output flags\n");
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_OUTPAD == logical_block[iblock].type) {
fprintf(fp, " reg %s%s;\n", logical_block[iblock].name, flag_postfix);
}
}
} fprintf(fp, "`endif\n");
// Instantiate an integer to count the number of error and determine if the simulation succeed or failed
fprintf(fp, "\n//----- Error counter \n");
fprintf(fp, " integer %s = 0;\n\n", error_counter);
return;
}
static
void dump_verilog_top_random_testbench_call_benchmark(FILE* fp,
char* reference_verilog_top_name){
int iblock;
fprintf(fp, "`ifdef %s\n", autochecked_simulation_flag);
fprintf(fp, "// Reference Benchmark instanciation\n");
fprintf(fp, " %s ref_U0(\n", reference_verilog_top_name);
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(iblock > 0){
fprintf(fp, ",\n");
}
if(VPACK_INPAD == logical_block[iblock].type){
fprintf(fp, " %s", logical_block[iblock].name);
} else if(VPACK_OUTPAD == logical_block[iblock].type){
fprintf(fp, " %s%s",
logical_block[iblock].name,
bench_postfix);
}
}
}
fprintf(fp, " );\n");
fprintf(fp, "// End Benchmark instanciation\n`endif\n\n");
return;
}
static
int get_simulation_time(//int num_prog_clock_cycles,
//float prog_clock_period,
int num_op_clock_cycles,
float op_clock_period) {
int total_time_period = 0;
/* Take into account the prog_reset and reset cycles */
total_time_period = (100 * (2 * num_op_clock_cycles * op_clock_period)) * 1000000000; // * 1000000000 is to change the unit to ns rather than second
return total_time_period;
}
static
void dump_verilog_timeout_and_vcd(FILE * fp,
char* circuit_name,
t_spice verilog) {
//t_sram_orgz_info* cur_sram_orgz_info){
int simulation_time;
simulation_time = get_simulation_time(//get_sram_orgz_info_num_mem_bit(cur_sram_orgz_info),
//1./verilog.spice_params.stimulate_params.prog_clock_freq,
verilog.spice_params.meas_params.sim_num_clock_cycle,
1./verilog.spice_params.stimulate_params.op_clock_freq);
fprintf(fp, " // Begin Icarus requirement\n");
fprintf(fp, "`ifdef %s\n", icarus_simulator_flag);
fprintf(fp, " initial begin\n");
fprintf(fp, " $dumpfile(\"%s_formal.vcd\");\n", circuit_name);
fprintf(fp, " $dumpvars(1, %s%s);\n", circuit_name,
formal_random_top_tb_postfix);
fprintf(fp, " end\n\n");
fprintf(fp, " initial begin\n");
fprintf(fp, " $timeformat(-9, 2, \"ns\", 20);\n");
fprintf(fp, " $display(\"Simulation start\");\n");
fprintf(fp, " #%i // Can be changed by the user for his need\n", simulation_time);
fprintf(fp, " if(%s == 0) begin\n", error_counter);
fprintf(fp, " $display(\"Simulation Succeed\");\n");
fprintf(fp, " end else begin\n");
fprintf(fp, " $display(\"Simulation Failed with %s error(s)\", %s);\n", "%d", error_counter);
fprintf(fp, " end\n");
fprintf(fp, " $finish;\n");
fprintf(fp, " end\n");
fprintf(fp, "`endif\n\n");
return;
}
static
void dump_verilog_top_random_testbench_check(FILE* fp){
int iblock;
fprintf(fp, " // Begin checking\n");
fprintf(fp, " always@(negedge %s) begin\n", clock_input_name);
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_OUTPAD == logical_block[iblock].type){
fprintf(fp, " if(!(%s%s === %s%s) && !(%s%s === 1'bx)) begin\n",
logical_block[iblock].name,
gfpga_postfix,
logical_block[iblock].name,
bench_postfix,
logical_block[iblock].name,
bench_postfix);
fprintf(fp, " %s%s <= 1'b1;\n", logical_block[iblock].name,
flag_postfix);
fprintf(fp, " end else begin\n %s%s <= 1'b0;\n end\n", logical_block[iblock].name,
flag_postfix);
}
}
}
fprintf(fp, " end\n\n");
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_OUTPAD == logical_block[iblock].type){
fprintf(fp, " always@(posedge %s%s) begin\n", logical_block[iblock].name,
flag_postfix);
fprintf(fp, " if(%s%s) begin\n", logical_block[iblock].name,
flag_postfix);
fprintf(fp, " %s = %s + 1;\n", error_counter, error_counter);
fprintf(fp, " $display(\"Mismatch on %s%s at time = %s\", $realtime);\n", logical_block[iblock].name,
gfpga_postfix, "%t");
fprintf(fp, " end\n");
fprintf(fp, " end\n");
}
}
}
return;
}
static
void dump_verilog_random_testbench_call_top_module(FILE* fp,
char* circuit_name) {
int iblock;
fprintf(fp, "// GFPGA instanciation\n");
fprintf(fp, " %s%s DUT(\n", circuit_name, formal_verification_top_postfix);
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(iblock > 0){
fprintf(fp, ",\n");
}
if(VPACK_INPAD == logical_block[iblock].type){
fprintf(fp, " %s", logical_block[iblock].name);
} else if(VPACK_OUTPAD == logical_block[iblock].type){
fprintf(fp, " %s%s",
logical_block[iblock].name,
gfpga_postfix);
}
}
}
fprintf(fp, " );\n");
fprintf(fp, "// End GFPGA instanciation\n\n");
}
static
void dump_verilog_top_random_stimuli(FILE* fp,
t_spice verilog){
int iblock;
fprintf(fp, "//----- Initialization\n");
fprintf(fp, " initial begin\n");
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_INPAD == logical_block[iblock].type) {
fprintf(fp, " %s <= 1'b0;\n", logical_block[iblock].name);
if(logical_block[iblock].is_clock)
clock_input_name = logical_block[iblock].name;
/* if(logical_block[iblock].is_reset)
reset_input_name = logical_block[iblock].name; */
}
}
}
if(NULL == clock_input_name){
clock_input_name = def_clk_name;
fprintf(fp, " %s <= 1'b0;\n", def_clk_name);
}
fprintf(fp, " while(1) begin\n");
fprintf(fp, " #%.1f\n", ((0.5/verilog.spice_params.stimulate_params.op_clock_freq)/verilog_sim_timescale));
fprintf(fp, " %s <= !%s;\n", clock_input_name, clock_input_name);
fprintf(fp, " end\n");
fprintf(fp, " end\n\n");
/* fprintf(fp, "//----- Reset Stimulis\n"); // Not ready yet to determine if input is reset
fprintf(fp, " initial begin\n");
fprintf(fp, " #%.3f\n",(rand() % 10) + 0.001);
fprintf(fp, " %s <= !%s;\n", reset_input_name, reset_input_name);
fprintf(fp, " #%.3f\n",(rand() % 10) + 0.001);
fprintf(fp, " %s <= !%s;\n", reset_input_name, reset_input_name);
fprintf(fp, " while(1) begin\n");
fprintf(fp, " #%.3f\n", (rand() % 15) + 0.5);
fprintf(fp, " %s <= !%s;\n", reset_input_name, reset_input_name);
fprintf(fp, " #%.3f\n", (rand() % 10000) + 200);
fprintf(fp, " %s <= !%s;\n", reset_input_name, reset_input_name);
fprintf(fp, " end\n");
fprintf(fp, " end\n\n"); */
fprintf(fp, "//----- Input Stimulis\n");
fprintf(fp, " always@(negedge %s) begin\n", clock_input_name);
for (iblock = 0; iblock < num_logical_blocks; iblock++) {
/* General INOUT*/
if (iopad_verilog_model == logical_block[iblock].mapped_spice_model) {
/* Make sure We find the correct logical block !*/
assert((VPACK_INPAD == logical_block[iblock].type)
||(VPACK_OUTPAD == logical_block[iblock].type));
if(VPACK_INPAD == logical_block[iblock].type) {
//if((logical_block[iblock].is_clock || logical_block[iblock].is_reset ) == 0 )
if(logical_block[iblock].is_clock == 0 )
fprintf(fp, " %s <= $random;\n", logical_block[iblock].name);
}
}
}
fprintf(fp, " end\n\n");
return;
}
void dump_verilog_random_top_testbench(t_sram_orgz_info* cur_sram_orgz_info,
char* circuit_name,
const char* top_netlist_name,
char* verilog_dir_path,
t_syn_verilog_opts fpga_verilog_opts,
t_spice verilog) {
FILE* fp = NULL;
char* title = my_strcat("FPGA Verilog Testbench for Formal Top-level netlist of Design: ", circuit_name);
/* Check if the path exists*/
fp = fopen(top_netlist_name,"w");
if (NULL == fp) {
vpr_printf(TIO_MESSAGE_ERROR,
"(FILE:%s,LINE[%d])Failure in create top Verilog testbench %s!",
__FILE__, __LINE__, top_netlist_name);
exit(1);
}
vpr_printf(TIO_MESSAGE_INFO,
"Writing Random Testbench for FPGA Top-level Verilog netlist for %s...\n",
circuit_name);
/* Print the title */
dump_verilog_file_header(fp, title);
my_free(title);
/* Print preprocessing flags */
verilog_include_defines_preproc_file(fp, verilog_dir_path);
verilog_include_simulation_defines_file(fp, verilog_dir_path);
/* Start of testbench */
dump_verilog_top_random_testbench_ports(fp, cur_sram_orgz_info, circuit_name, fpga_verilog_opts);
/* Call defined top-level module */
dump_verilog_random_testbench_call_top_module(fp, circuit_name);
/* Call defined benchmark */
dump_verilog_top_random_testbench_call_benchmark(fp, circuit_name);
/* Add stimuli for reset, set, clock and iopad signals */
dump_verilog_top_random_stimuli(fp, verilog);
/* Add output autocheck */
fprintf(fp, "`ifdef %s\n", autochecked_simulation_flag);
dump_verilog_top_random_testbench_check(fp);
fprintf(fp, "`endif\n\n");
/* Add Icarus requirement */
dump_verilog_timeout_and_vcd(fp, circuit_name , verilog/*, cur_sram_orgz_info*/);
/* Testbench ends*/
fprintf(fp, "endmodule\n");
/* Close the file*/
fclose(fp);
return;
}

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@ -1,17 +1,10 @@
#ifndef VERILOG_FORMAL_RANDOME_TOP_TESTBENCH #ifndef VERILOG_FORMAL_RANDOM_TOP_TESTBENCH
#define VERILOG_FORMAL_RANDOME_TOP_TESTBENCH #define VERILOG_FORMAL_RANDOM_TOP_TESTBENCH
#include <string> #include <string>
#include "vpr_types.h" #include "vpr_types.h"
#include "spice_types.h" #include "spice_types.h"
void dump_verilog_random_top_testbench(t_sram_orgz_info* cur_sram_orgz_info,
char* circuit_name,
const char* top_netlist_name,
char* verilog_dir_path,
t_syn_verilog_opts fpga_verilog_opts,
t_spice verilog);
void print_verilog_random_top_testbench(const std::string& circuit_name, void print_verilog_random_top_testbench(const std::string& circuit_name,
const std::string& verilog_fname, const std::string& verilog_fname,
const std::string& verilog_dir, const std::string& verilog_dir,