public static void main(String[] args) { System.out.println("SingleMachine_ProbMatrix_Evaporation080302"); // openga.applications.data.singleMachine singleMachineData = new // openga.applications.data.singleMachine(); int jobSets[] = new int[] {20, 30, 40, 50, 60, 90}; // 20, 30, 40, 50, 60, 90, 100, 200 int counter = 0; int popSize[] = new int[] {100}; // 50, 100, 155, 210 double crossoverRate[] = new double[] {0.9}, // 0.8, 0.5 mutationRate[] = new double[] {0.5}; // 0.6, 0.3 int populationSize[] = new int[] {100}; // 200, 100 int repeatExperiments = 30; int startingGeneration[] = new int[] {200}; // 200, 500 double startingGenerationPercent[] = new double[] {0.5}; // 0.1, 0.3, 0.5 int interval[] = new int[] {10}; double intervalPercent[] = new double[] {0.02}; // 0.01, 0.05, 0.1 int strategy[] = new int[] {0}; boolean applyEvaporation = false; String evaporationMethod[] = new String[] {"add"}; // "constant", "method1", "method2", "Threshold", "add" double lamdalearningrate[] = new double[] {1}; // 0.7 double betalearningrate[] = new double[] {1}; // 0.1 double w1 = 1; double w2 = 1; // Sourd Instance for (int m = 0; m < jobSets.length; m++) { // jobSets.length for (int k = 0; k < 49; k++) { // 49 9 // if((jobSets[m] <= 50 && (k == 0 || k == 3 || k == 6 || k == 21 || k == 24 || k == 27 || k // == 42 || k == 45 || k == 48)) || (jobSets[m] > 50 && k < 9)){ if ((jobSets[m] <= 50) || (jobSets[m] > 50 && k < 9)) { for (int j = 0; j < startingGeneration.length; j++) { for (int n = 0; n < interval.length; n++) { for (int p = 0; p < strategy.length; p++) { for (int q = 0; q < evaporationMethod.length; q++) { for (int i = 0; i < repeatExperiments; i++) { singleMachinePREDA singleMachine1 = new singleMachinePREDA(); System.out.println("Combinations: " + counter); openga.applications.data.singleMachine readSingleMachineData1 = new openga.applications.data.singleMachine(); int numberOfJobs = jobSets[m]; String fileName = readSingleMachineData1.getFileName(numberOfJobs, k); // fileName = "bky"+numberOfJobs+"_1"; // fileName = "sks388a"; System.out.print(fileName + "\t"); readSingleMachineData1.setData("sks/" + fileName + ".txt"); readSingleMachineData1.getDataFromFile(); int dueDate[] = readSingleMachineData1.getDueDate(); int processingTime[] = readSingleMachineData1.getPtime(); singleMachine1.setData(numberOfJobs, dueDate, processingTime, fileName); singleMachine1.setProbabilityMatrixData(startingGeneration[j], interval[n]); singleMachine1.setSequenceStrategy(strategy[p]); singleMachine1.setLearning(lamdalearningrate[0], betalearningrate[0]); singleMachine1.setEvaporationMethod(applyEvaporation, evaporationMethod[q]); singleMachine1.initiateVars(); singleMachine1.start(); counter++; } // end for } } } } } // end if } } System.exit(0); /* //BKY Instance int incrementSteps = 5; for(int i = 0 ; i < repeatExperiments ; i ++ ){ for(int j = 0 ; j < jobSets.length ; j ++ ){//jobSets.length for(int k = 0 ; k < startingGeneration.length ; k ++ ){ for (int m = 0; m < interval.length; m++) { for (int n = 0; n < strategy.length; n++) { for(int p = 296 ; p < 297 ; ){ openga.applications.data.readSingleMachine readSingleMachineData1 = new openga.applications.data.readSingleMachine(); int numberOfJobs = jobSets[j]; String fileName = readSingleMachineData1.getFileName(numberOfJobs, p); readSingleMachineData1.setData("instances/SingleMachineBKS/"+fileName+".txt"); if(readSingleMachineData1.testReadData()){//to test whether the file exist singleMachinewithProbMatrix singleMachine1 = new singleMachinewithProbMatrix(); System.out.println("Combinations: "+counter+"\t"+fileName); //System.out.print(fileName+"\t"); readSingleMachineData1.getDataFromFile(); int dueDate[] = readSingleMachineData1.getDueDate(); int processingTime[] = readSingleMachineData1.getPtime(); singleMachine1.setData(numberOfJobs, dueDate, processingTime, fileName); singleMachine1.setParameters(popSize[0], crossoverRate[0], mutationRate[0], 100000); singleMachine1.setProbabilityMatrixData(startingGeneration[k], interval[m]); singleMachine1.setSequenceStrategy(strategy[n]); singleMachine1.setEvaporationMethod(false, evaporationMethod[0]); singleMachine1.initiateVars(); singleMachine1.start(); counter ++; } p += incrementSteps; } } } } } }//end for of BKY */ }
public static void main(String[] args) { System.out.println("SPGA2_forParallel 20060302 Mining Gene Clone Mating with Archive"); int numberOfSubPopulations[] = new int[] {40}; // 10, 20, 30, 40 int popSize[] = new int[] {210}; // 100, 155, 210 int numberOfJob[] = new int[] {35, 50, 65}; // 35, 50, 65 int numberOfMachines[] = new int[] {10, 15, 18}; // 10, 15, 18 int totalSolnsToExamine[] = new int[] {1000000}; // 1000000, 1500000, 2000000 boolean applySecCRX[] = new boolean[] {false}; // false, true boolean applySecMutation[] = new boolean[] {true}; boolean applyClone[] = new boolean[] {false, true}; int tournamentSize[] = new int[] {10}; // 2, 10 int cloneStrategies[] = new int[] {2}; // 0: random, 1: swap, 2:inverse, 3:shift, 4:adjacent.0, 1, 2, 3, 4 double timeToClone[] = new double[] {0}; // 0, 0.25, 0.5, 0.75 double crossoverRate = 0.9, mutationRate = 0.1, elitism = 0.2; int repeatExperiments = 15; int counter = 0; /* for(int i = 0 ; i < repeatExperiments ; i ++ ){ for(int j = 0 ; j < applyClone.length ; j ++ ){ for(int k = 0 ; k < tournamentSize.length ; k ++ ){ for(int r = 0 ; r < numberOfJob.length ; r ++ ){ System.out.println("combinations: "+counter++); SPGA2_forParallelMachine SPGA2_forParallelMachine1 = new SPGA2_forParallelMachine(); SPGA2_forParallelMachine1.setParallelMachineData(numberOfJob[r], numberOfMachines[r]); SPGA2_forParallelMachine1.setParameters(numberOfSubPopulations[0], popSize[0], totalSolnsToExamine[0], crossoverRate, mutationRate, elitism, applySecCRX[0], applySecMutation[0]); SPGA2_forParallelMachine1.setCloneActive(applyClone[j]); SPGA2_forParallelMachine1.setTournamentSize(tournamentSize[k]); SPGA2_forParallelMachine1.initiateVars(); SPGA2_forParallelMachine1.start(); SPGA2_forParallelMachine1 = null; System.gc(); } } } }// end i for(int i = 0 ; i < repeatExperiments ; i ++ ){ for(int j = 0 ; j < numberOfJob.length ; j ++ ){ for(int r = 0 ; r < cloneStrategies.length ; r ++ ){ for(int k = 0 ; k < timeToClone.length ; k ++ ){ System.out.println("combinations: "+counter++); SPGA2_forParallelMachine SPGA2_forParallelMachine1 = new SPGA2_forParallelMachine(); SPGA2_forParallelMachine1.setParallelMachineData(numberOfJob[j], numberOfMachines[j]); SPGA2_forParallelMachine1.setParameters(numberOfSubPopulations[0], popSize[0], totalSolnsToExamine[0], crossoverRate, mutationRate, elitism, applySecCRX[0], applySecMutation[0]); SPGA2_forParallelMachine1.setCloneActive(applyClone[0], cloneStrategies[r]); SPGA2_forParallelMachine1.setTournamentSize(tournamentSize[0]); SPGA2_forParallelMachine1.initiateVars(); SPGA2_forParallelMachine1.setTimeToClone(timeToClone[k]); SPGA2_forParallelMachine1.start(); SPGA2_forParallelMachine1 = null; System.gc(); } } } }// end i */ for (int i = 0; i < repeatExperiments; i++) { for (int r = 0; r < numberOfJob.length; r++) { System.out.println("combinations: " + counter++); SPGA2_forParallelMachine SPGA2_forParallelMachine1 = new SPGA2_forParallelMachine(); SPGA2_forParallelMachine1.setParallelMachineData(numberOfJob[r], numberOfMachines[r]); SPGA2_forParallelMachine1.setParameters( numberOfSubPopulations[0], popSize[0], totalSolnsToExamine[0], crossoverRate, mutationRate, elitism, applySecCRX[0], applySecMutation[0]); SPGA2_forParallelMachine1.setCloneActive(applyClone[0], 2); SPGA2_forParallelMachine1.initiateVars(); SPGA2_forParallelMachine1.start(); SPGA2_forParallelMachine1.setTimeToClone(timeToClone[0]); SPGA2_forParallelMachine1 = null; System.gc(); } // end r } // end i /* for(int i = 0 ; i < repeatExperiments ; i ++ ){ for(int j = 0 ; j < numberOfSubPopulations.length ; j ++ ){ for(int k = 0 ; k < popSize.length ; k ++ ){ for(int L = 0 ; L < applySecCRX.length ; L ++ ){ for(int m = 0 ; m < applySecMutation.length ; m ++ ){ for(int r = 0 ; r < numberOfJob.length ; r ++ ){ System.out.println(numberOfJob[r]+"\t"+numberOfSubPopulations[j]+"\t"+ popSize[k]); System.out.println("combinations: "+counter++); SPGA2_forParallelMachine SPGA2_forParallelMachine1 = new SPGA2_forParallelMachine(); SPGA2_forParallelMachine1.setParallelMachineData(numberOfJob[r], numberOfMachines[r]); SPGA2_forParallelMachine1.setParameters(numberOfSubPopulations[j], popSize[k], totalSolnsToExamine[0], crossoverRate, mutationRate, elitism, applySecCRX[L], applySecMutation[m]); SPGA2_forParallelMachine1.initiateVars(); SPGA2_forParallelMachine1.start(); SPGA2_forParallelMachine1 = null; System.gc(); //System.exit(0); }//end r }//end m }// end L }// end k }// end j }// end i */ System.exit(0); }