Exemple #1
0
void reference_integration() {
	DEBUG_OUTPUT(2, "Make a copy of ensemble for reference ensemble" );
	reference_ens = initial_ens.clone();
	DEBUG_OUTPUT(1, "Reference integration" );
	prepare_integrator();
	integ->set_ensemble( reference_ens );
	integ->integrate();
}
Exemple #2
0
void run_integration(){
	if(!validate_configuration(cfg) ) ERROR( "Invalid configuration" );

	load_generate_ensemble();

	DEBUG_OUTPUT(2, "Make a copy of ensemble for energy conservation test" );
	current_ens = initial_ens.clone();

	prepare_integrator();

	double integration_time = watch_time ( cfg.valid("interval") ? stability_test : generic_integrate );

	save_ensemble();

	INFO_OUTPUT( 1, "Integration time: " << integration_time << " ms " << std::endl);
}
Exemple #3
0
void output_test() {
	if(!validate_configuration(cfg) ) ERROR( "Invalid configuration" );

	if(!read_input_file(initial_ens, cfg) ) {
		ERROR("you should have a tested input file");
	}

	DEBUG_OUTPUT(2, "Make a copy of ensemble for energy conservation test" );
	current_ens = initial_ens.clone();

	prepare_integrator();

	double integration_time = watch_time ( cfg.valid("interval") ? stability_test : generic_integrate );

	if(read_output_file(reference_ens,cfg)){

		// Compare with reneference ensemble for integrator verification
		double pos_diff = 0, vel_diff = 0, time_diff = 0;
		bool comparison =  compare_ensembles( current_ens, reference_ens , pos_diff, vel_diff, time_diff );

		INFO_OUTPUT(1,"\tPosition difference: " << pos_diff  << endl
			 << "\tVelocity difference: " << vel_diff  << endl
			 << "\tTime     difference: " << time_diff << endl );

		if( !comparison || pos_diff > pos_threshold || vel_diff > vel_threshold || time_diff > time_threshold ){
			INFO_OUTPUT(0, "Test failed" << endl);
			exit(1);
		}else {
			INFO_OUTPUT(0, "Test success" << endl);
		}


	}else{
		ERROR("You should provide a test output file");
	}

	INFO_OUTPUT( 1, "Integration time: " << integration_time << " ms " << std::endl);
}
Exemple #4
0
void benchmark_item(const string& param, const string& value) {
	//outputConfigSummary(std::cout,cfg);
	if(!validate_configuration(cfg) ) ERROR( "Invalid configuration" );

	if(param == "input" || param == "nsys" || param == "nbod" || cfg.count("reinitialize"))
		load_generate_ensemble();

	DEBUG_OUTPUT(2, "Make a copy of ensemble for energy conservation test" );
	current_ens = initial_ens.clone();

	double init_time = watch_time( prepare_integrator );

	double integration_time = watch_time( generic_integrate );

	double max_deltaE = find_max_energy_conservation_error(current_ens, initial_ens );

	// Compare with reneference ensemble for integrator verification
	double pos_diff = 0, vel_diff = 0, time_diff = 0;
	bool comparison =  compare_ensembles( current_ens, reference_ens , pos_diff, vel_diff, time_diff );

	/// CSV output for use in spreadsheet software 
	std::cout << param << ", "
	          << value << ",  "   
			  << current_ens.time_ranges() << ",  "
	          << max_deltaE << ",    " 
			  << pos_diff << ",    "
			  << vel_diff << ",   "
			  << time_diff << ",   "
	          << integration_time << ",    "
	          << init_time 
	          << std::endl;

	if( !comparison || pos_diff > pos_threshold || vel_diff > vel_threshold || time_diff > time_threshold ){
		fail_verify();
	}

}