#include #include #include #include "general_utils.h" void Merger_tb::run_1() { IN1->write(OpticalSignal(1.0, 1550e-9)); wait(100, SC_MS); IN2->write(OpticalSignal(1.0, 1550e-9)); wait(100, SC_MS); IN1->write(OpticalSignal(sqrt(2.0), 1550e-9)); IN2->write(OpticalSignal(sqrt(2.0), 1550e-9)); wait(100, SC_MS); } void Merger_tb::monitor() { unsigned int event_counter = 0; unsigned int success_counter = 0; const unsigned int test_number = 4; while(true) { wait(); event_counter++; std::cout << sc_time_stamp() << ":" << std::endl << "\tIN1: " << IN1->read() << std::endl << "\tIN2: " << IN2->read() << std::endl << "\tOUT: " << OUT->read() << std::endl << "\tCOUNT: " << event_counter << std::endl; if(event_counter == 2) { if (is_close(norm(OUT->read().m_field), 0.5, 1e-4)) success_counter++; else { std::cout << "-----------------/! \\---------------" << std::endl; std::cout << "Failure!" << std::endl; std::cout << "Expected 0.5W as output power!" << std::endl; std::cout << "-----------------/! \\---------------" << std::endl; } if (is_close(arg(OUT->read().m_field), 0, 1e-4)) success_counter++; else { std::cout << "-----------------/! \\---------------" << std::endl; std::cout << "Failure!" << std::endl; std::cout << "Expected 0 as output phase!" << std::endl; std::cout << "-----------------/! \\---------------" << std::endl; } } if(event_counter == 4) { if (is_close(norm(OUT->read().m_field), 2, 1e-4)) success_counter++; else { std::cout << "-----------------/! \\---------------" << std::endl; std::cout << "Failure!" << std::endl; std::cout << "Expected 2W as output power!" << std::endl; std::cout << "-----------------/! \\---------------" << std::endl; } } if(event_counter == 6) { if (is_close(norm(OUT->read().m_field), 4, 1e-4)) success_counter++; else { std::cout << "-----------------/! \\---------------" << std::endl; std::cout << "Failure!" << std::endl; std::cout << "Expected 2W as output power!" << std::endl; std::cout << "-----------------/! \\---------------" << std::endl; } std::cout << "-----------------/! \\---------------" << std::endl; std::cout << "Test finished!" << std::endl; std::cout << "Success rate: " << success_counter << "/" << test_number << std::endl; std::cout << "-----------------/! \\---------------" << std::endl; } } } void Merger_tb_run() { // Apply SPECS resolution before creating any device specsGlobalConfig.applyEngineResolution(); spx::oa_signal_type IN1, IN2, OUT; Merger uut("uut", 3.0103); uut.m_attenuation_dB = 0; uut.p_in1(IN1); uut.p_in2(IN2); uut.p_out(OUT); Merger_tb tb("tb"); tb.IN1(IN1); tb.IN2(IN2); tb.OUT(OUT); // Open Trace file // sc_trace_file *Tf; std::string trace_filename = "traces/"; trace_filename += "merger_tb"; specsGlobalConfig.trace_filename = trace_filename; // Apply SPECS options specific to the testbench specsGlobalConfig.simulation_mode = OpticalOutputPortMode::EVENT_DRIVEN; specsGlobalConfig.trace_all_optical_nets = 0; Probe probe_merger("probe_merger",specsGlobalConfig.default_trace_file); probe_merger.p_in(OUT); // Run SPECS pre-simulation code specsGlobalConfig.prepareSimulation(); // Start simulation sc_start(); std::cout << std::endl << std::endl; std::cout << ".vcd trace file: " << specsGlobalConfig.trace_filename << std::endl; sc_close_vcd_trace_file(specsGlobalConfig.default_trace_file); }