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src/mior/model/OCLParaCSRModel3.java
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89f70c1ec import current mc... |
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package mior.model; import java.util.Arrays; import mcmas.core.MCMCommandQueue; import mcmas.core.MCMCommandQueueProperty; import mcmas.core.MCMContext; import mcmas.core.MCMEvent; import mcmas.core.MCMKernel; import mcmas.core.MCMMem; import mcmas.core.MCMProgram; import mcmas.core.MCMUtils; import mior.model.dist.IMiorDistribution; import org.jocl.Pointer; import org.perf4j.slf4j.Slf4JStopWatch; import org.slf4j.Logger; import org.slf4j.LoggerFactory; public class OCLParaCSRModel3 extends AbstractMiorModel { /** * Java view */ private final int nbMM; private final int nbOM; private final MiorMM [] mmList; private final MiorOM [] omList; private final MiorWorld [] worlds; //private final int [] associations; /** * OpenCL implementation */ final MCMContext context; final MCMCommandQueue queue; final MCMProgram program; final MCMKernel topoKernel; final MCMKernel simulateKernel; final MCMKernel autoliveKernel; final MCMMem mmMem; final MCMMem omMem; final MCMMem worldsMem; final MCMMem mmCSRMem; final MCMMem omCSRMem; //final OCLMem associationsMem; final MCMMem partsMem; private final int [] mmCSR; private final int [] omCSR; private final int [] parts; private final int nbSim; private int blockSize; private final static Logger logger = LoggerFactory.getLogger(OCLParaCSRModel3.class); private final Slf4JStopWatch watch = new Slf4JStopWatch(logger); private final static String MODEL_SOURCE = "kernels/mior_model_multisim3.cl"; private final IMiorDistribution dist; public OCLParaCSRModel3(int onbMM, int onbOM, int nbSim, IMiorDistribution dist) { this.dist = dist; System.out.println(dist); //final double factor = dist.getMax() / ((double) onbOM); this.nbOM = (int) (dist.getMaxFactor() * dist.getMeanOM()); this.nbMM = (int) (dist.getMaxFactor() * dist.getMeanMM()); this.nbSim = nbSim; //this.nbMM = NB_MM; //this.nbOM = NB_OM; this.blockSize = Math.max(nbOM, nbMM); // Allocate Java MIOR structures this.mmList = new MiorMM[nbSim * nbMM]; this.omList = new MiorOM[nbSim * nbOM]; this.worlds = new MiorWorld[nbSim]; //this.associations = new int[nbSim * nbMM * nbOM]; this.mmCSR = allocateStorage(nbSim * nbOM, nbMM); this.omCSR = allocateStorage(nbSim * nbMM, nbOM); this.parts = new int[nbSim * nbMM * nbOM]; MiorUtils.initWorldArray(worlds, dist); MiorUtils.initRandomMMArray(mmList, worlds[0].width); MiorUtils.initRandomOMArray(omList, worlds[0].width); //Arrays.fill(associations, -1); // OpenCL allocations watch.start("OpenCL setup"); this.context = new MCMContext(); this.queue = context.createCommandQueue(MCMCommandQueueProperty.ENABLE_PROFILING); watch.stop(); System.out.println("NB_MM: " + nbMM + ", NB_OM: " + nbOM); watch.start("Program compilation"); this.program = MCMUtils.compileFile(context, MODEL_SOURCE, " -DNB_MM=" + nbMM + " -DNB_OM=" + nbOM);// + " -g -O0"); watch.stop(); watch.start("Kernel allocation"); this.topoKernel = program.createKernel("topology"); this.simulateKernel = program.createKernel("simulate"); this.autoliveKernel = program.createKernel("autolive"); watch.stop(); watch.start("Memory allocation"); this.mmMem = context.newBuffer().Using(mmList).b(); this.omMem = context.newBuffer().Using(omList).b(); this.worldsMem = context.newBuffer().Using(worlds).b(); //this.associationsMem = context.newBuffer().Using(associations).b(); this.mmCSRMem = context.newBuffer().Using(mmCSR).b(); this.omCSRMem = context.newBuffer().Using(omCSR).b(); this.partsMem = context.newBuffer().Using(new int[parts.length]).b(); watch.stop(); } private int[] allocateStorage(int nbList, int listSize) { return new int[nbList * (listSize + 1)]; } @Override public void setBlockSize(int blockSize) { this.blockSize = blockSize; } @Override public int getBlockSize() { return blockSize; } @Override public int getNbSimulations() { return nbSim; } @Override protected void resetImpl() { // Initialise models /*for (int i = 0; i < nbSim; i++) { this.worlds[i] = new MiorWorld(nbMM, nbOM); }*/ MiorUtils.initWorldArray(worlds, dist); MiorUtils.initRandomMMArray(mmList, worlds[0].width); MiorUtils.initRandomOMArray(omList, worlds[0].width); //Arrays.fill(associations, -1); Arrays.fill(mmCSR, 0); Arrays.fill(omCSR, 0); Arrays.fill(parts, 0); queue.enqueueWriteBuffer(mmMem, mmList, 0, mmMem.getSize()); queue.enqueueWriteBuffer(omMem, omList, 0, omMem.getSize()); queue.enqueueWriteBuffer(worldsMem, worlds, 0, worldsMem.getSize()); //queue.enqueueWriteBuffer(associationsMem, Pointer.to(associations), 0, associationsMem.getSize()); queue.enqueueWriteBuffer(mmCSRMem, Pointer.to(mmCSR), 0, mmCSRMem.getSize()); queue.enqueueWriteBuffer(omCSRMem, Pointer.to(omCSR), 0, omCSRMem.getSize()); queue.enqueueWriteBuffer(partsMem, Pointer.to(parts), 0, partsMem.getSize()); queue.finish(); } @Override protected void doTopologyImpl() { // System.out.println(topoKernel.getArgumentsNumber()); topoKernel.setArguments(mmMem, omMem, worldsMem, mmCSRMem, omCSRMem); // associationsMem MCMEvent event = queue.enqueueKernel(topoKernel, 2, new long[] { nbSim * nbMM , nbOM} // Global size ); /*OCLEvent event = queue.enqueueKernel(topoKernel, 2, new long[] { nbMM , nbSim * nbOM}, // Global size new long[] { 1, nbOM } );*/ MCMEvent.waitFor(event); MCMUtils.printEventStats("topology", event); if (! isBatchModeEnabled()) { queue.blockingReadBuffer(mmCSRMem, Pointer.to(mmCSR), 0, mmCSRMem.getSize()); queue.blockingReadBuffer(omCSRMem, Pointer.to(omCSR), 0, omCSRMem.getSize()); //System.out.println(Arrays.toString(mmCSR)); //queue.blockingReadBuffer(associationsMem, Pointer.to(associations), 0, associationsMem.getSize()); } } @Override protected void doLiveImpl() { //throw new UnsupportedOperationException(); simulateKernel.setArguments(mmMem, omMem, worldsMem, mmCSRMem, omCSRMem, partsMem); if (blockSize < Math.max(nbOM, nbMM)) { throw new RuntimeException("blockSize (" + blockSize + ") is too small to execute the simulation"); } MCMEvent event = queue.enqueue1DKernel(simulateKernel, nbSim * blockSize, blockSize); MCMEvent.waitFor(event); MCMUtils.printEventStats("simulate", event); if (! isBatchModeEnabled()) { queue.blockingReadBuffer(mmMem, mmList, 0, mmMem.getSize()); queue.blockingReadBuffer(omMem, omList, 0, omMem.getSize()); queue.blockingReadBuffer(worldsMem, worlds, 0, worldsMem.getSize()); System.out.println("copy"); } } @Override public void doAutoLive() { resetImpl(); doTopologyImpl(); if (blockSize < Math.max(nbOM, nbMM)) { throw new RuntimeException("blockSize (" + blockSize + ") is too small to execute the simulation"); } autoliveKernel.setArguments(mmMem, omMem, worldsMem, mmCSRMem, omCSRMem, partsMem); if (! isBatchModeEnabled()) { int CO2 = -1; while (CO2 == -1 || CO2 != worlds[0].CO2) { CO2 = worlds[0].CO2; System.out.println("CO2 = " + CO2); doLive(); } } else { autoliveKernel.setArguments(mmMem, omMem, worldsMem, mmCSRMem, omCSRMem, partsMem); MCMEvent event = queue.enqueue1DKernel(autoliveKernel, nbSim * blockSize, blockSize); MCMEvent.waitFor(event); MCMUtils.printEventStats("autolive", event); } onSimulationFinished(); } @Override protected void onSimulationFinished() { queue.blockingReadBuffer(mmMem, mmList, 0, mmMem.getSize()); queue.blockingReadBuffer(omMem, omList, 0, omMem.getSize()); queue.blockingReadBuffer(worldsMem, worlds, 0, worldsMem.getSize()); //queue.blockingReadBuffer(associationsMem, Pointer.to(associations), 0, associationsMem.getSize()); queue.blockingReadBuffer(partsMem, Pointer.to(parts), 0, partsMem.getSize()); super.onSimulationFinished(); } @Override protected void releaseImpl() { partsMem.release(); omCSRMem.release(); mmCSRMem.release(); //associationsMem.release(); worldsMem.release(); omMem.release(); mmMem.release(); autoliveKernel.release(); simulateKernel.release(); topoKernel.release(); program.release(); queue.release(); context.release(); } @Override public MiorWorld getWorld() { return worlds[0]; } @Override public MiorOM[] getOMList() { return Arrays.copyOfRange(omList, 0, nbOM); } @Override public MiorMM[] getMMList() { return Arrays.copyOfRange(mmList, 0, nbMM); } @Override public boolean isAccessible(int iMM, int iOM) { return false; //return associations[iMM * nbOM + iOM] != -1; } @Override public boolean isAccessible(int iMM, int iOM, int iSim) { return false; //return associations[iSim * nbMM * nbOM + iMM * nbOM + iOM] != -1; } } |