cuda-samples/Samples/5_Domain_Specific/HSOpticalFlow/upscaleKernel.cuh

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#include "common.h"

///////////////////////////////////////////////////////////////////////////////
/// \brief upscale one component of a displacement field, CUDA kernel
/// \param[in]  width   field width
/// \param[in]  height  field height
/// \param[in]  stride  field stride
/// \param[in]  scale   scale factor (multiplier)
/// \param[out] out     result
///////////////////////////////////////////////////////////////////////////////
__global__ void UpscaleKernel(int width, int height, int stride, float scale,
                              float *out, cudaTextureObject_t texCoarse) {
  const int ix = threadIdx.x + blockIdx.x * blockDim.x;
  const int iy = threadIdx.y + blockIdx.y * blockDim.y;

  if (ix >= width || iy >= height) return;

  float x = ((float)ix + 0.5f) / (float)width;
  float y = ((float)iy + 0.5f) / (float)height;

  // exploit hardware interpolation
  // and scale interpolated vector to match next pyramid level resolution
  out[ix + iy * stride] = tex2D<float>(texCoarse, x, y) * scale;
}

///////////////////////////////////////////////////////////////////////////////
/// \brief upscale one component of a displacement field, kernel wrapper
/// \param[in]  src         field component to upscale
/// \param[in]  width       field current width
/// \param[in]  height      field current height
/// \param[in]  stride      field current stride
/// \param[in]  newWidth    field new width
/// \param[in]  newHeight   field new height
/// \param[in]  newStride   field new stride
/// \param[in]  scale       value scale factor (multiplier)
/// \param[out] out         upscaled field component
///////////////////////////////////////////////////////////////////////////////
static void Upscale(const float *src, int width, int height, int stride,
                    int newWidth, int newHeight, int newStride, float scale,
                    float *out) {
  dim3 threads(32, 8);
  dim3 blocks(iDivUp(newWidth, threads.x), iDivUp(newHeight, threads.y));

  cudaTextureObject_t texCoarse;
  cudaResourceDesc texRes;
  memset(&texRes, 0, sizeof(cudaResourceDesc));

  texRes.resType = cudaResourceTypePitch2D;
  texRes.res.pitch2D.devPtr = (void *)src;
  texRes.res.pitch2D.desc = cudaCreateChannelDesc<float>();
  texRes.res.pitch2D.width = width;
  texRes.res.pitch2D.height = height;
  texRes.res.pitch2D.pitchInBytes = stride * sizeof(float);

  cudaTextureDesc texDescr;
  memset(&texDescr, 0, sizeof(cudaTextureDesc));

  texDescr.normalizedCoords = true;
  texDescr.filterMode = cudaFilterModeLinear;
  texDescr.addressMode[0] = cudaAddressModeMirror;
  texDescr.addressMode[1] = cudaAddressModeMirror;
  texDescr.readMode = cudaReadModeElementType;

  checkCudaErrors(
      cudaCreateTextureObject(&texCoarse, &texRes, &texDescr, NULL));

  UpscaleKernel<<<blocks, threads>>>(newWidth, newHeight, newStride, scale, out,
                                     texCoarse);
}