private void updateOpenCL(float tpf) { //advect time time += tpf; //aquire resource buffer.acquireBufferForSharingNoEvent(clQueue); //no need to wait for the returned event, since the kernel implicitely waits for it (same command queue) //execute kernel float scale = (float) Math.pow(1.1, (1.0 - time%2) / 16.0); kernel.Run1NoEvent(clQueue, ws, buffer, scale); //release resource buffer.releaseBufferForSharingNoEvent(clQueue); }
@Override public void simpleUpdate(float tpf) { //call kernel to test if it is still working if (!failed) { try { kernel.Run1NoEvent(clQueue, new Kernel.WorkSize(1), buffer, 1.0f); } catch (OpenCLException ex) { LOG.log(Level.SEVERE, "Kernel call not working anymore", ex); failed = true; statusText.setText("Failed"); } } } }
private void updateOpenCL(float tpf) { //aquire resource texCL.acquireImageForSharingNoEvent(clQueue); //no need to wait for the returned event, since the kernel implicitely waits for it (same command queue) //execute kernel Kernel.WorkSize ws = new Kernel.WorkSize(settings.getWidth(), settings.getHeight()); kernel.Run1NoEvent(clQueue, ws, texCL, C, 16); //release resource texCL.releaseImageForSharingNoEvent(clQueue); }
testBoolKernel.Run1NoEvent(clQueue, ws, seedsBuffer, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testIntKernel.Run1NoEvent(clQueue, ws, seedsBuffer, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testIntNKernel.Run1NoEvent(clQueue, ws, seedsBuffer, 186, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testIntNKernel.Run1NoEvent(clQueue, ws, seedsBuffer, 97357, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testLongKernel.Run1NoEvent(clQueue, ws, seedsBuffer, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testFloatKernel.Run1NoEvent(clQueue, ws, seedsBuffer, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer); testDoubleKernel.Run1NoEvent(clQueue, ws, seedsBuffer, resultBuffer); resultByteBuffer.rewind(); resultBuffer.read(clQueue, resultByteBuffer);
testMatrix4fKernel1.Run1NoEvent(clQueue, new Kernel.WorkSize(1), m1, buffer); ByteBuffer bb = buffer.map(clQueue, MappingAccess.MAP_READ_ONLY); if (bb.get() == 0) { testMatrix4fKernel2.Run1NoEvent(clQueue, new Kernel.WorkSize(1), m1, m1.determinant(), m1.transpose(), m1.adjoint(), buffer); bb = buffer.map(clQueue, MappingAccess.MAP_READ_ONLY); if (bb.get() == 0) {
testMatrix3fKernel1.Run1NoEvent(clQueue, new Kernel.WorkSize(1), buffer); ByteBuffer bb = buffer.map(clQueue, MappingAccess.MAP_READ_ONLY); if (bb.get() == 0) { Matrix3f m2 = new Matrix3f(-5.2f, 0.757f, 2.01f, 12.0f, -6, 2, 0.01f, 9, 2.255f); Matrix3f mRes = new Matrix3f(-31.68f, -165.703f, 1.51f, 12.468f, 62.4f, 86, -83.99f, 2.6f, -13.025f); testMatrix3fKernel2.Run1NoEvent(clQueue, new Kernel.WorkSize(1), m1, -2.0f, m2, mRes, buffer); bb = buffer.map(clQueue, MappingAccess.MAP_READ_ONLY); if (bb.get() == 0) {