Exemple #1
0
        static void Main(string[] args)
        {
            string inputDir = @"C:\CSSLWaferFab\Input\";

            string outputDir = @"C:\CSSLWaferFab\Output\WaferFabSim\";

            string parameters = @"FittedEPTParameters - 2019-8-1_4months.csv";

            DateTime initialDateTime = new DateTime(2019, 8, 1);

            Settings.WriteOutput = true;
            Settings.FixSeed     = true;

            ShellModel WaferFabSim = new ShellModel(outputDir);

            // Load WaferFab settings
            AutoDataReader reader = new AutoDataReader(inputDir + @"CSVs\", inputDir + @"SerializedFiles\");

            WaferFabSettings waferFabSettings = reader.ReadWaferFabSettings(parameters, true, true, DispatcherBase.Type.EPTOVERTAKING);

            waferFabSettings.SampleInterval       = 1 * 60 * 60; // seconds
            waferFabSettings.LotStartsFrequency   = 1;           // hours
            waferFabSettings.UseRealLotStartsFlag = true;

            // MIVS Settings
            //waferFabSettings.WIPTargets = reader.ReadWIPTargets(waferFabSettings.LotSteps, "WIPTargets.csv");
            //waferFabSettings.MIVSjStepBack = 2;
            //waferFabSettings.MIVSkStepAhead = 2;

            // Read Initial Lots
            WaferFabSim.ReadRealSnaphots(inputDir + @$ "SerializedFiles\RealSnapShots_2019-{initialDateTime.Month}-1_2019-{initialDateTime.Month + 1}-1_1h.dat");
            waferFabSettings.InitialRealLots = WaferFabSim.RealSnapshotReader.RealSnapshots.Where(x => x.Time.Date == initialDateTime).OrderBy(x => x.Time).First().GetRealLots(1);

            // Experiment settings
            ExperimentSettings experimentSettings = new ExperimentSettings();

            int count = waferFabSettings.InitialRealLots.Where(x => x.StartTime == null).Count();

            experimentSettings.NumberOfReplications = 30;
            experimentSettings.LengthOfReplication  = 121 * 24 * 60 * 60; // seconds
            experimentSettings.LengthOfWarmUp       = 0 * 60 * 60;        // seconds

            // Connect settings
            WaferFabSim.MyWaferFabSettings = waferFabSettings;

            WaferFabSim.MyExperimentSettings = experimentSettings;

            // Run simulation
            WaferFabSim.RunSimulation();

            // Report summary
            SimulationReporter reporter = WaferFabSim.MySimulation.MakeSimulationReporter();

            reporter.PrintSummaryToFile();
            reporter.PrintSummaryToConsole();
        }
Exemple #2
0
        static void Main(string[] args)
        {
            string inputDir = @"C:\Users\nx008314\OneDrive - Nexperia\Work\WaferFab\";

            string outputDir = @"C:\CSSLWaferFab\";

            Settings.Output  = true;
            Settings.FixSeed = true;

            ShellModel WaferFabSim = new ShellModel(inputDir, outputDir);

            // Load WaferFab settings
            //ManualDataReader reader = new ManualDataReader(inputDir + "CSVs");
            AutoDataReader reader = new AutoDataReader(inputDir + "Auto");

            WaferFabSettings waferFabSettings = reader.ReadWaferFabSettings();

            waferFabSettings.SampleInterval       = 1 * 60 * 60; // seconds
            waferFabSettings.LotStartsFrequency   = 1;           // hours
            waferFabSettings.UseRealLotStartsFlag = true;

            // Read Initial Lots
            WaferFabSim.ReadRealSnaphots(inputDir + @"SerializedFiles\RealSnapshots_2019-12-1_2020-1-1_1h.dat");

            waferFabSettings.InitialRealLots = WaferFabSim.RealSnapshotReader.RealSnapshots.First().RealLots;

            // Experiment settings
            ExperimentSettings experimentSettings = new ExperimentSettings();

            experimentSettings.NumberOfReplications = 1;
            experimentSettings.LengthOfReplication  = 1 * 24 * 60 * 60; // seconds
            experimentSettings.LengthOfWarmUp       = 0 * 60 * 60;      // seconds

            // Connect settings
            WaferFabSim.MyWaferFabSettings = waferFabSettings;

            WaferFabSim.MyExperimentSettings = experimentSettings;

            // Run simulation
            WaferFabSim.RunSimulation();

            // Report summary
            SimulationReporter reporter = WaferFabSim.MySimulation.MakeSimulationReporter();

            reporter.PrintSummaryToFile();
            reporter.PrintSummaryToConsole();
        }
Exemple #3
0
        public static void RunNormalSimulation()
        {
            string inputDir  = Path.GetFullPath(Path.Combine(Directory.GetCurrentDirectory(), @"..\..\..\", "Parameters", ParametersDirectory));
            string outputDir = @"C:\CSSLWaferFab\Output\RLToyFab\";

            CSSL.Modeling.Settings.WriteOutput = true;

            // Fab settings
            //IDataReader reader = new DataReader1(inputDir);
            IDataReader    reader         = new DataReader2(inputDir);
            ToyFabSettings toyFabSettings = reader.ReadToyFabSettings();

            // Build Fab
            Simulation sim = new Simulation("RLToyFab", outputDir);

            // Experiment settings
            sim.MyExperiment.NumberOfReplications = 10;
            sim.MyExperiment.LengthOfWarmUp       = LengthOfWarmUp;
            sim.MyExperiment.LengthOfReplication  = LengthOfReplication;

            // Build the model
            ToyFab toyFab = new ToyFab(sim.MyModel, "WaferFab")
            {
                LotSteps       = toyFabSettings.LotSteps,
                LengthOfWarmUp = LengthOfWarmUp
            };

            AddWorkStations(toyFab, toyFabSettings, sim);

            foreach (var sequence in toyFabSettings.Sequences)
            {
                toyFab.AddSequence(sequence.Key, sequence.Value);
            }

            toyFab.SetLotGenerator(new LotGenerator(toyFab, "LotGenerator", NumberOfLots));

            sim.Run();

            // Report summary
            SimulationReporter reporter = sim.MakeSimulationReporter();

            reporter.PrintSummaryToFile();
            reporter.PrintSummaryToConsole();
        }
Exemple #4
0
        private static void Experiment(string control, DateTime startDate, string experimentOutputDirectory, bool dynamic, bool stochastic, double weightA, double weightB, double weightC, Dictionary <string, double> deterministicNonProductiveTimesRMS, Dictionary <string, double> deterministicNonProductiveTimesARMS, int CPTimeLimit = 0)
        {
            string     outputDir = experimentOutputDirectory;
            Simulation sim       = new Simulation("LithographyAreaSim", outputDir);

            // Parameters
            double simulationLength  = 30 * 24 * 3600 + 1;
            string productionControl = control;

            // The experiment part
            sim.MyExperiment.LengthOfReplication = simulationLength;
            sim.MyExperiment.LengthOfWarmUp      = 0;
            if (stochastic)
            {
                sim.MyExperiment.NumberOfReplications = 1;
            }
            else
            {
                sim.MyExperiment.NumberOfReplications = 1;
            }

            // The model part

            // Create lithographyarea
            LithographyArea lithographyarea = new LithographyArea(sim.MyModel, "LithographyArea", startDate, simulationLength, dynamic, stochastic, weightA, weightB, weightC, deterministicNonProductiveTimesRMS, deterministicNonProductiveTimesARMS);

            // Property dispatcherBase
            DispatcherBase dispatcher = null;

            // Create chosen dispatcher
            if (productionControl == "FIFO")
            {
                dispatcher = new FIFODispatcher(lithographyarea, "FIFODispatcher");
            }
            else if (productionControl == "EDD")
            {
                dispatcher = new EDDDispatcher(lithographyarea, "EDDDispatcher");
            }
            else if (productionControl == "SPT")
            {
                dispatcher = new SPTDispatcher(lithographyarea, "SPTDispatcher");
            }
            else if (productionControl == "CurrentProductionControl")
            {
                dispatcher = new CurrentDispatcher(lithographyarea, "CurrentDispatcher");
            }
            else if (productionControl == "ILPScheduling")
            {
                dispatcher = new ILPSchedulingDispatcher(lithographyarea, "ILPSchedulingDispatcher");
            }
            else if (productionControl == "CPScheduling")
            {
                dispatcher = new CPDispatcher(lithographyarea, "CPDispatcher", CPTimeLimit);
            }

            // Set dispatcher
            lithographyarea.SetDispatcher(dispatcher);

            // Create and set lotGenerator
            LotGenerator lotGenerator = new LotGenerator(lithographyarea, "LotGenerator", dispatcher);

            lithographyarea.SetLotGenerator(lotGenerator);

            // Create and set machines
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#1", dispatcher, 1));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#2", dispatcher, 2));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#3", dispatcher, 3));
            lithographyarea.AddMachine(new Machine(lithographyarea, "ASML#4", dispatcher, 4));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#5", dispatcher, 5));
            lithographyarea.AddMachine(new Machine(lithographyarea, "ASML#6", dispatcher, 6));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#7", dispatcher, 7));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#8", dispatcher, 8));
            lithographyarea.AddMachine(new Machine(lithographyarea, "ASML#9", dispatcher, 9));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#10", dispatcher, 10));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#11", dispatcher, 11));
            lithographyarea.AddMachine(new Machine(lithographyarea, "StepCluster#13", dispatcher, 12));

            // The observer part

            LithographyAreaObserver lithographyAreaObserver = new LithographyAreaObserver(sim, startDate);

            lithographyarea.Subscribe(lithographyAreaObserver);

            foreach (Machine machine in lithographyarea.Machines)
            {
                MachineObserver machineObserver = new MachineObserver(sim, startDate);
                machine.Subscribe(machineObserver);
            }

            // Run

            sim.Run();

            // The reporting part

            SimulationReporter reporter = sim.MakeSimulationReporter();

            reporter.PrintSummaryToFile();
            reporter.PrintSummaryToConsole();
        }
Exemple #5
0
        static void Main(string[] args)
        {
            Simulation sim = new Simulation("SomeSimulation", @"C:\CSSL");

            Settings.WriteOutput = false;

            Settings.NotifyObservers = true;

            // Parameters...

            double dispatchTime                  = 1E-3;
            double lambda                        = 100;
            int    numberServerpools             = 10;
            int    numberServerpoolsToChooseFrom = 10;

            // The experiment part...

            sim.MyExperiment.NumberOfReplications = 3;
            sim.MyExperiment.LengthOfReplication  = 10;
            sim.MyExperiment.LengthOfWarmUp       = 2;

            // The model part...

            DataCenter dataCenter = new DataCenter(sim.MyModel, "DataCenter");

            for (int i = 0; i < numberServerpools; i++)
            {
                dataCenter.AddServerpool(new ServerPool(dataCenter, $"Serverpool_{i}"));
            }

            Dispatcher dispatcher = new Dispatcher(dataCenter, "Dispatcher", new ExponentialDistribution(1), double.PositiveInfinity, dataCenter.ServerPools, dispatchTime, numberServerpoolsToChooseFrom);

            dataCenter.SetDispatcher(dispatcher);

            JobGenerator jobGenerator = new JobGenerator(dataCenter, "JobGenerator", new ExponentialDistribution(lambda), dispatcher);

            dataCenter.SetJobGenerator(jobGenerator);

            // The observer part...

            DispatcherObserver dispatcherObserver = new DispatcherObserver(sim);

            dispatcher.Subscribe(dispatcherObserver);

            DataCenterObserver dataCenterObserver = new DataCenterObserver(sim);

            dataCenter.Subscribe(dataCenterObserver);

            foreach (ServerPool serverpool in dataCenter.ServerPools)
            {
                ServerPoolObserver serverpoolObserver = new ServerPoolObserver(sim);
                serverpool.Subscribe(serverpoolObserver);
            }

            // Run...

            sim.Run();

            // The reporting part...

            SimulationReporter reporter = sim.MakeSimulationReporter();

            reporter.PrintSummaryToFile();
            reporter.PrintSummaryToConsole();
        }