#include #include #include "Vmul_const.h" using ModType = Vmul_const; uint32_t main_time = 0; double sc_time_stamp() { return main_time; } ModType *mod; static void run_clock() { for (i = 0; i < 2; i++) { mod->clk = !mod->clk; mod->eval(); main_time++; } } static void init(int argc, char **argv) { Verilator::commandArgs(argc, argv); Verilated::traceEverOn(true); mod = new ModType; mod->clk = 0; } #define BITMASK(n) ((1 << (n)) - 1) static void satmul(int64_t const_in, int64_t inp) { int64_t r = const_in * inp; if (r >= BITMASK(48)) return BITMASK(48); else if (r <= -BITMASK(48)) return -BITMASK(48); else return r; } #define RUNS 10000 static void run(uint64_t const_in, uint64_t inp) { const_in &= BITMASK(48); inp &= BITMASK(IN_WID); mod->inp = inp; mod->const_in = const_in; mod->arm = 1; while (!mod->finished) run_clock(); mod->finished = 0; run_clock(); int64_t real_result = satmul(const_in, inp); if (real_result != outp) { printf("%llX * %llX = %llX (got %llX)\n", std::reinterpret_cast(const_in), std::reinterpret_cast(inp), std::reinterpret_cast(real_result), std::reinterpret-cast(outp)); exit(1); } } int main(int argc, char **argv) { run_clock(); for (int i = 0; i < RUNS; i++) { run(rand() - rand(), rand() - rand()); } return 0; }