| #include "cuda_runtime.h" |
| #include "curand.h" |
| #include "cublas_v2.h" |
|
|
| extern "C" { |
| #include "col2im.h" |
| #include "cuda_dark.h" |
| } |
|
|
| |
| |
|
|
| __global__ void col2im_gpu_kernel(const int n, const float* data_col, |
| const int height, const int width, const int ksize, |
| const int pad, |
| const int stride, |
| const int height_col, const int width_col, |
| float *data_im) { |
| int index = blockIdx.x*blockDim.x+threadIdx.x; |
| for(; index < n; index += blockDim.x*gridDim.x){ |
| float val = 0; |
| int w = index % width + pad; |
| int h = (index / width) % height + pad; |
| int c = index / (width * height); |
| |
| int w_col_start = (w < ksize) ? 0 : (w - ksize) / stride + 1; |
| int w_col_end = min(w / stride + 1, width_col); |
| int h_col_start = (h < ksize) ? 0 : (h - ksize) / stride + 1; |
| int h_col_end = min(h / stride + 1, height_col); |
| |
| int offset = |
| (c * ksize * ksize + h * ksize + w) * height_col * width_col; |
| int coeff_h_col = (1 - stride * ksize * height_col) * width_col; |
| int coeff_w_col = (1 - stride * height_col * width_col); |
| for (int h_col = h_col_start; h_col < h_col_end; ++h_col) { |
| for (int w_col = w_col_start; w_col < w_col_end; ++w_col) { |
| val += data_col[offset + h_col * coeff_h_col + w_col * coeff_w_col]; |
| } |
| } |
| data_im[index] += val; |
| } |
| } |
|
|
| void col2im_gpu(float *data_col, |
| int channels, int height, int width, |
| int ksize, int stride, int pad, float *data_im){ |
| |
| |
| int height_col = (height + 2 * pad - ksize) / stride + 1; |
| int width_col = (width + 2 * pad - ksize) / stride + 1; |
| int num_kernels = channels * height * width; |
| col2im_gpu_kernel<<<(num_kernels+BLOCK-1)/BLOCK, |
| BLOCK>>>( |
| num_kernels, data_col, height, width, ksize, pad, |
| stride, height_col, |
| width_col, data_im); |
| } |
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|
