Java CLProgram Examples

Programming Language: Java

Namespace/Package Name: com.nativelibs4java.opencl

Class/Type: CLProgram

Examples at hotexamples.com: 2

Java CLProgram - 2 examples found. These are the top rated real world Java examples of com.nativelibs4java.opencl.CLProgram extracted from open source projects. You can rate examples to help us improve the quality of examples.

Frequently Used Methods

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addBuildOption(5)

build(4)

addInclude(2)

allocate(2)

createKernel(2)

createMacros(2)

resolveInclusions(2)

setBinaries(2)

writeBinaries(2)

addStoredEntry(1)

Example #1

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File: Vector.java Project: nimbusrepo/GPGPU-on-Hadoop

  private static void initCL(CLDevice.Type clType) throws Exception {
    /** * Hole OpenCL-Plattformen z.B. AMD APP, NVIDIA CUDA ** */
    platforms = JavaCL.listPlatforms();

    /** * Hole OpenCL-Device des geforderten Typs z.B. GPU, CPU ** */
    EnumSet<CLDevice.Type> types = EnumSet.of(clType);
    devices = new ArrayList<CLDevice>();
    CLDevice[] devTmp;

    for (CLPlatform platform : platforms) {
      devTmp = platform.listDevices(types, true);
      devices.addAll(Arrays.asList(devTmp));
    }

    /** * Erstelle OpenCL-Context und CommandQueue ** */
    devTmp = new CLDevice[devices.size()];
    context = JavaCL.createContext(null, devices.toArray(devTmp));
    cmdQ = context.createDefaultQueue(QueueProperties.ProfilingEnable);

    /** * OpenCL-Quellcode einlesen ** */
    String src = readFile(KERNEL_PATH);
    // String src = KERNEL_SRC;

    /** * OpenCL-Programm aus Quellcode erstellen ** */
    program = context.createProgram(src);

    try {
      program.build();
    } catch (CLBuildException err) {
      Logger.logError(CLAZZ, "Build log for \"" + devices.get(0) + "\n" + err.getMessage());
      throw err;
    }

    /** * OpenCL-Kernel laden ** */
    kernel = program.createKernel("addVec");
  }

Example #2

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File: OpenCLInnerLoop.java Project: duncdrum/ocular

 public void compute(
     final float[] scores,
     final float[] whiteObservations,
     final float[] blackObservations,
     final int sequenceLength) {
   int gridSizeX = (int) Math.ceil(((double) sequenceLength) / (blockSizeX * rollX));
   int extendedSeqLength = gridSizeX * (blockSizeX * rollX);
   d_Ow.write(
       queue,
       pc.capture(
           Pointer.pointerToFloats(
               CudaUtil.extendWithZeros(
                   whiteObservations,
                   (extendedSeqLength + maxTemplateWidth - 1) * CharacterTemplate.LINE_HEIGHT))),
       false);
   d_Ob.write(
       queue,
       pc.capture(
           Pointer.pointerToFloats(
               CudaUtil.extendWithZeros(
                   blackObservations,
                   (extendedSeqLength + maxTemplateWidth - 1) * CharacterTemplate.LINE_HEIGHT))),
       false);
   queue.enqueueBarrier();
   for (int tw = minTemplateWidth; tw <= maxTemplateWidth; ++tw) {
     if (templateNumIndices[tw - minTemplateWidth] > 0) {
       int gridSizeY =
           (int) Math.ceil(((double) templateNumIndices[tw - minTemplateWidth]) / blockSizeY);
       CLKernel computeKernel = program.createKernel("compute_emissions_" + tw);
       computeKernel.setArgs(
           templateIndicesOffsets[tw - minTemplateWidth] * sequenceLength,
           sequenceLength,
           templateNumIndices[tw - minTemplateWidth],
           d_Tw[tw - minTemplateWidth],
           d_Tb[tw - minTemplateWidth],
           d_Ow,
           d_Ob,
           d_scores);
       computeKernel.enqueueNDRange(
           queue,
           new int[] {gridSizeX * blockSizeX, gridSizeY * blockSizeY},
           new int[] {blockSizeX, blockSizeY});
     }
   }
   queue.enqueueBarrier();
   d_scores.read(queue).getFloats(scores);
 }