[ActionName("resolveSimulatedAnnealingGAPInstance")] // path dell'api. public string resolveSimulatedAnnealingGAPInstance(AnnealingParameters paramts) { GAPInstance Gap = JSONConverter.deserializeGAP(dataDirectory + "\\" + paramts.getFileName()); return(new BasicHeu(Gap).simulatedAnnealing(paramts.getTemperature(), paramts.getSteps(), paramts.getTempDecrease(), paramts.getCoolingScheduleSteps()).ToString()); }
public void LogAnnealingTtp1Intro(AnnealingParameters parameters) { using (var file = new System.IO.StreamWriter(OutputPath, true)) { file.WriteLine("NEIGHBOURHOOD SIZE:" + parameters.NeighbourhoodSize); file.WriteLine("INITIAL TEMPERATURE:" + parameters.InitialTemperature); file.WriteLine("TEMPERATURE PERCENTAGE DROP PER ANNEALING CYCLE:" + parameters.TemperaturePercentageDropPerCycle); if (LogOutputType == AlgorithmLogOutput) { file.WriteLine("NUM_CYCLE;GLOBAL_BEST_FITNESS;BEST_FITNESS; CURRENT_FITNESS;TEMPERATURE;"); } } }
public GaThenSaTtp1(Problem.Problem problem, GaThenSATtp1Parameters parameters) { Problem = problem; Genetic = new GaTtp1(problem, parameters.GeneticParameters); var annealingParams = new AnnealingParameters { InitialTemperature = parameters.AnnealingParameters.InitialTemperature, NeighbourhoodSize = parameters.AnnealingParameters.NeighbourhoodSize, NumAlgorithmIterations = 1, NumAnnealingCycles = parameters.AnnealingParameters.NumAnnealingCycles, TemperaturePercentageDropPerCycle = parameters.AnnealingParameters.TemperaturePercentageDropPerCycle, }; Parameters = parameters; Parameters.AnnealingParameters = annealingParams; Annealing = new AnnealingTtp1(problem, annealingParams); }