// tb_poly_mul.cpp - Verilator C++ testbench for poly_mul_sync // // Reads test vectors from +VECTOR_FILE= plusarg. // Format: one line with 512 space-separated hex values: // A[0] A[1] ... A[255] B[0] B[1] ... B[255] // Each value is a 3-digit hex (12-bit). // // Drives DUT with 256 paired (A,B) coefficients, waits for valid_o, // then reads 256 output coefficients via valid/ready handshake. // Prints "RESULT: COEFF0 COEFF1 ... COEFF255\n" to stdout. // // Clock: 10ns period. Reset: 2 cycles. #include #include #include #include #include #include #include #include #include "Vpoly_mul_sync.h" #include "verilated.h" #define CLK_PERIOD_NS 10.0 #define TIMEOUT_CYCLES 500000 static vluint64_t main_time = 0; double sc_time_stamp() { return main_time; } // Toggle clock: both edges + eval (one full cycle) static void posedge(Vpoly_mul_sync* dut) { dut->clk = 1; main_time += (vluint64_t)(CLK_PERIOD_NS / 2.0); dut->eval(); dut->clk = 0; main_time += (vluint64_t)(CLK_PERIOD_NS / 2.0); dut->eval(); } static int hex_char_to_nibble(char c) { if (c >= '0' && c <= '9') return c - '0'; if (c >= 'A' && c <= 'F') return c - 'A' + 10; if (c >= 'a' && c <= 'f') return c - 'a' + 10; return 0; } // Parse 3-char hex token to 12-bit value. static uint16_t hex3_to_val(const std::string& tok) { uint16_t val = 0; for (size_t i = 0; i < tok.length() && i < 3; i++) { val = (val << 4) | hex_char_to_nibble(tok[i]); } return val & 0xFFF; } // Format 12-bit value as 3-char hex. static std::string val_to_hex3(uint16_t val) { char buf[4]; snprintf(buf, sizeof(buf), "%03X", val & 0xFFF); return std::string(buf); } int main(int argc, char** argv) { Verilated::commandArgs(argc, argv); // Parse +VECTOR_FILE= plusarg const char* vector_file = NULL; for (int i = 1; i < argc; i++) { std::string arg(argv[i]); if (arg.rfind("+VECTOR_FILE=", 0) == 0) { vector_file = argv[i] + 13; } } if (!vector_file) { std::cerr << "ERROR: +VECTOR_FILE= not specified" << std::endl; return 1; } std::ifstream infile(vector_file); if (!infile.is_open()) { std::cerr << "ERROR: Cannot open vector file: " << vector_file << std::endl; return 1; } // Instantiate DUT Vpoly_mul_sync* dut = new Vpoly_mul_sync; // Initialize dut->clk = 0; dut->rst_n = 0; dut->coeff_a_in = 0; dut->coeff_b_in = 0; dut->valid_i = 0; dut->ready_i = 0; // Reset: 2 full cycles for (int i = 0; i < 2; i++) posedge(dut); dut->rst_n = 1; std::string line; vluint64_t cycle = 0; int vec_count = 0; while (std::getline(infile, line)) { if (line.empty() || line[0] == '#') continue; // Parse: A[0] A[1] ... A[255] B[0] B[1] ... B[255] // Total: 512 hex values, one line std::istringstream iss(line); std::string tok; std::vector input_coeffs(512); int coeff_idx = 0; while (iss >> tok && coeff_idx < 512) { input_coeffs[coeff_idx] = hex3_to_val(tok); coeff_idx++; } if (coeff_idx != 512) { std::cerr << "ERROR: Expected 512 coefficients, got " << coeff_idx << " (vec " << vec_count << ")" << std::endl; continue; } // ---- Load 256 A+B pairs ---- while (!dut->ready_o) { posedge(dut); cycle++; if (cycle > TIMEOUT_CYCLES) goto timeout_err; } for (int i = 0; i < 256; i++) { dut->coeff_a_in = input_coeffs[i]; dut->coeff_b_in = input_coeffs[256 + i]; dut->valid_i = 1; posedge(dut); cycle++; dut->valid_i = 0; if (cycle > TIMEOUT_CYCLES) goto timeout_err; } // ---- Wait for valid_o (DUT computing) ---- dut->ready_i = 1; while (!dut->valid_o) { posedge(dut); cycle++; if (cycle > TIMEOUT_CYCLES) goto timeout_err; } // ---- Read 256 output coefficients ---- printf("RESULT: "); for (int i = 0; i < 256; i++) { // Wait for valid_o to be asserted (data is valid NOW) while (!dut->valid_o) { posedge(dut); cycle++; if (cycle > TIMEOUT_CYCLES) goto timeout_err; } // Capture coefficient BEFORE consuming posedge uint16_t coeff_val = (uint16_t)(dut->coeff_out & 0xFFF); printf("%s%s", val_to_hex3(coeff_val).c_str(), (i < 255) ? " " : ""); // Consume this coefficient: posedge with ready_i=1 posedge(dut); cycle++; } printf("\n"); vec_count++; } std::cout << "Processed " << vec_count << " vectors" << std::endl; infile.close(); delete dut; return (vec_count > 0) ? 0 : 1; timeout_err: std::cerr << "ERROR: Timeout at cycle " << cycle << " (vec " << vec_count << ")" << std::endl; infile.close(); delete dut; return 1; }