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// =================================================================================================
// This file is part of the CLBlast project. The project is licensed under Apache Version 2.0. This
// project loosely follows the Google C++ styleguide and uses a tab-size of two spaces and a max-
// width of 100 characters per line.
//
// Author(s):
// Cedric Nugteren <www.cedricnugteren.nl>
//
// This file contains the an implementation of 3D convolution on a 4D image using GEMM kernels. It
// uses parameters from the direct GEMM kernel. This is the part with the loads from memory (1/2).
// This uses "CONVGEMM_WITH_IM2COL" as a switch to select between direct convgemm or first running
// the im2col kernel to create a 'col' temporary matrix.
//
// =================================================================================================
// Enables loading of this file using the C++ pre-processor's #include (C++11 standard raw string
// literal). Comment-out this line for syntax-highlighting when developing.
R"(
// =================================================================================================
#if defined(ROUTINE_CONVGEMM) && !defined(CONVGEMM_WITH_IM2COL)
// Loads global off-chip memory into thread-private register files. This function is specific for
// loading the image input tensor. This includes a bounds check.
INLINE_FUNC real GlobalToPrivateCheckedImage(const __global real* restrict imagegm, const int image_offset_batch,
const int h_id, const int w_id, const int kwg,
const int input_h, const int input_w, const int channels,
const int kernel_h, const int kernel_w,
const int pad_h, const int pad_w,
const int stride_h, const int stride_w,
const int dilation_h, const int dilation_w) {
// Im2col indices
const int kernel_2d_index = kwg % (kernel_h * kernel_w);
const int kw_id = kernel_2d_index % kernel_w;
const int kh_id = kernel_2d_index / kernel_w;
const int c_id = kwg / (kernel_h * kernel_w);
const int h_index = -pad_h + kh_id * dilation_h + stride_h * h_id;
const int w_index = -pad_w + kw_id * dilation_w + stride_w * w_id;
// With bounds check
real result;
if (h_index >= 0 && h_index < input_h &&
w_index >= 0 && w_index < input_w) {
const int image_index = w_index + input_w * (h_index + input_h * c_id);
result = imagegm[image_index + image_offset_batch];
}
else {
SetToZero(result);
}
return result;
}
// Loads global off-chip memory into local (shared) memory on-chip. This function is specific for
// loading the image input tensor. This includes a bounds check.
INLINE_FUNC real GlobalToLocalCheckedImage(const __global realMD* restrict imagegm, LOCAL_PTR real* alm,
const int image_offset_batch,
const int h_id, const int w_id, const int kwg,
const int input_h, const int input_w, const int channels,
const int kernel_h, const int kernel_w,
const int pad_h, const int pad_w,
const int stride_h, const int stride_w,
const int dilation_h, const int dilation_w) {
#if MDIMCD == MDIMAD
const int la0 = get_local_id(0);
const int la1 = get_local_id(1);
#else
const int tid = get_local_id(0) + MDIMCD*get_local_id(1);
const int la0 = tid % MDIMAD;
const int la1 = tid / MDIMAD;
#endif
#pragma unroll
for (int _mia = 0; _mia < MWAD; _mia += 1) {
#pragma unroll
for (int _kia = 0; _kia < KWAD; _kia += 1) {
// Computes the indices for the global memory
int mg = _mia + la0*MWAD;
int kg = _kia + la1*KWAD;
int idm = mg + GetGroupID0()*WGD;
int idk = kg + kwg;
// Im2col indices
const int kernel_2d_index = idk % (kernel_h * kernel_w);
const int kw_id = kernel_2d_index % kernel_w;
const int kh_id = kernel_2d_index / kernel_w;
const int c_id = idk / (kernel_h * kernel_w);
const int h_index = -pad_h + kh_id * dilation_h + stride_h * h_id;
const int w_index = -pad_w + kw_id * dilation_w + stride_w * w_id;
// Loads the data from global memory into the local memory
if (h_index >= 0 && h_index < input_h &&
w_index >= 0 && w_index < input_w) {
const int image_index = w_index + input_w * (h_index + input_h * c_id);
const real result = imagegm[image_index + image_offset_batch];
alm[kg*(WGD + PADA) + mg] = result;
}
else {
SetToZero(alm[kg*(WGD + PADA) + mg]);
}
}
}
}
#endif
// =================================================================================================
// End of the C++11 raw string literal
)"
// =================================================================================================
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