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Diffstat (limited to 'src/core/CL/cl_kernels/common/transpose.cl')
| -rw-r--r-- | src/core/CL/cl_kernels/common/transpose.cl | 245 |
1 files changed, 245 insertions, 0 deletions
diff --git a/src/core/CL/cl_kernels/common/transpose.cl b/src/core/CL/cl_kernels/common/transpose.cl new file mode 100644 index 0000000000..5b4c68ca10 --- /dev/null +++ b/src/core/CL/cl_kernels/common/transpose.cl @@ -0,0 +1,245 @@ +/* + * Copyright (c) 2017-2021, 2023 Arm Limited. + * + * SPDX-License-Identifier: MIT + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to + * deal in the Software without restriction, including without limitation the + * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + * sell copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all + * copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ +#define PARTIAL_STORE_M0 VEC_SIZE_LEFTOVER_X +#define PARTIAL_STORE_N0 VEC_SIZE_LEFTOVER_Y + +#include "helpers.h" +#include "repeat.h" + +#if defined(DATA_TYPE_IN_BYTES) && defined(VEC_SIZE_X) && defined(VEC_SIZE_LEFTOVER_X) && defined(VEC_SIZE_Y) && defined(VEC_SIZE_LEFTOVER_Y) + +#if VEC_SIZE_X == 1 +#if VEC_SIZE_Y == 1 +#define TRANSPOSED_U(val) \ + { \ + u0 \ + } +#elif VEC_SIZE_Y == 2 +#define TRANSPOSED_U(val) \ + { \ + u0, u1 \ + } +#elif VEC_SIZE_Y == 3 +#define TRANSPOSED_U(val) \ + { \ + u0, u1, u2 \ + } +#elif VEC_SIZE_Y == 4 +#define TRANSPOSED_U(val) \ + { \ + u0, u1, u2, u3 \ + } +#elif VEC_SIZE_Y == 8 +#define TRANSPOSED_U(val) \ + { \ + u0, u1, u2, u3, u4, u5, u6, u7 \ + } +#elif VEC_SIZE_Y == 16 +#define TRANSPOSED_U(val) \ + { \ + u0, u1, u2, u3, u4, u5, u6, u7, \ + u8, u9, u10, u11, u12, u13, u14, u15 \ + } +#endif /* switch VEC_SIZE_Y */ +#else // VEC_SIZE_X == 1 +#if VEC_SIZE_Y == 1 +#define TRANSPOSED_U(val) \ + { \ + u0.val \ + } +#elif VEC_SIZE_Y == 2 +#define TRANSPOSED_U(val) \ + { \ + u0.val, u1.val \ + } +#elif VEC_SIZE_Y == 3 +#define TRANSPOSED_U(val) \ + { \ + u0.val, u1.val, u2.val \ + } +#elif VEC_SIZE_Y == 4 +#define TRANSPOSED_U(val) \ + { \ + u0.val, u1.val, u2.val, u3.val \ + } +#elif VEC_SIZE_Y == 8 +#define TRANSPOSED_U(val) \ + { \ + u0.val, u1.val, u2.val, u3.val, u4.val, u5.val, u6.val, u7.val \ + } +#elif VEC_SIZE_Y == 16 +#define TRANSPOSED_U(val) \ + { \ + u0.val, u1.val, u2.val, u3.val, u4.val, u5.val, u6.val, u7.val, \ + u8.val, u9.val, u10.val, u11.val, u12.val, u13.val, u14.val, u15.val \ + } +#endif /* switch VEC_SIZE_Y */ +#endif // VEC_SIZE_X == 1 + +#if DATA_TYPE_IN_BYTES == 4 +#define DATA_TYPE uint +#elif DATA_TYPE_IN_BYTES == 2 +#define DATA_TYPE ushort +#elif DATA_TYPE_IN_BYTES == 1 +#define DATA_TYPE uchar +#else /* switch DATA_TYPE_IN_BYTES */ +#error DATA_TYPE_IN_BYTES not supported for transpose +#endif /* switch DATA_TYPE_IN_BYTES */ + +/** This OpenCL kernel computes the matrix transposition of input matrix + * + * @note The number of bytes of the data type need to be passed at compile time using -DDATA_TYPE_IN_BYTES. DATA_TYPE_IN_BYTES can be: + * -# -DDATA_TYPE_IN_BYTES=1 for transposing U8 or S8 matrices + * -# -DDATA_TYPE_IN_BYTES=2 for transposing U16, S16 or FP16 matrices + * -# -DDATA_TYPE_IN_BYTES=4 for transposing U32, S32 or FP32 matrices + * -# -DVEC_SIZE_X is the number of elements processed in X dimension + * -# -DVEC_SIZE_LEFTOVER_X is the leftover size in the X dimension; x_dimension % VEC_SIZE_X + * -# -DVEC_SIZE_Y is the number of elements processed in Y dimension + * -# -DVEC_SIZE_LEFTOVER_Y is the leftover size in the Y dimension; y_dimension % VEC_SIZE_Y + * + * + * @param[in] src_ptr Pointer to the source matrix. Supported data types: All + * @param[in] src_stride_x Stride of the source matrix in X dimension (in bytes) + * @param[in] src_step_x src_stride_x * number of elements along X processed per workitem(in bytes) + * @param[in] src_stride_y Stride of the source matrix in Y dimension (in bytes) + * @param[in] src_step_y src_stride_y * number of elements along Y processed per workitem(in bytes) + * @param[in] src_stride_z Stride of the source matrix in Z dimension (in bytes) + * @param[in] src_step_z src_stride_z * number of elements along Z processed per workitem(in bytes) + * @param[in] src_offset_first_element_in_bytes The offset of the first element in the source matrix + * @param[out] dst_ptr Pointer to the destination matrix Supported data type: same as src_ptr + * @param[in] dst_stride_x Stride of the destination matrix in X dimension (in bytes) + * @param[in] dst_step_x dst_gx_stride_x * number of elements along X processed per workitem(in bytes) + * @param[in] dst_stride_y Stride of the destination matrix in Y dimension (in bytes) + * @param[in] dst_step_y dst_gx_stride_y * number of elements along Y processed per workitem(in bytes) + * @param[in] dst_stride_z Stride of the destination matrix in Z dimension (in bytes) + * @param[in] dst_step_z dst_gx_stride_z * number of elements along Z processed per workitem(in bytes) + * @param[in] dst_offset_first_element_in_bytes The offset of the first element in the destination matrix + */ +__kernel void transpose(TENSOR3D_DECLARATION(src), + TENSOR3D_DECLARATION(dst)) +{ + uint x_offs = max((int)(get_global_id(0) * VEC_SIZE_X - (VEC_SIZE_X - VEC_SIZE_LEFTOVER_X) % VEC_SIZE_X), 0); + uint y_offs = max((int)(get_global_id(1) * VEC_SIZE_Y - (VEC_SIZE_Y - VEC_SIZE_LEFTOVER_Y) % VEC_SIZE_Y), 0); + uint z_offs = get_global_id(2); + + // Compute addresses + __global uchar *src_addr = src_ptr + src_offset_first_element_in_bytes + x_offs * DATA_TYPE_IN_BYTES + y_offs * src_stride_y + z_offs * src_stride_z; + __global uchar *dst_addr = dst_ptr + dst_offset_first_element_in_bytes + y_offs * DATA_TYPE_IN_BYTES + x_offs * dst_stride_y + z_offs * dst_stride_z; + + // Load the NxM block at (x, y) + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u0 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)src_addr); +#if VEC_SIZE_Y > 1 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u1 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + src_stride_y)); +#endif /* VEC_SIZE_Y > 1 */ +#if VEC_SIZE_Y > 2 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u2 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 2 * src_stride_y)); +#endif /* VEC_SIZE_Y > 2 */ +#if VEC_SIZE_Y > 3 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u3 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 3 * src_stride_y)); +#endif /* VEC_SIZE_Y > 3 */ +#if VEC_SIZE_Y > 4 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u4 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 4 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u5 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 5 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u6 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 6 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u7 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 7 * src_stride_y)); +#endif /* VEC_SIZE_Y > 4 */ +#if VEC_SIZE_Y > 8 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u8 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 8 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u9 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 9 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u10 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 10 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u11 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 11 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u12 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 12 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u13 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 13 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u14 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 14 * src_stride_y)); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_X) + u15 = VLOAD(VEC_SIZE_X)(0, (__global DATA_TYPE *)(src_addr + 15 * src_stride_y)); +#endif /* VEC_SIZE_Y > 8 */ + + //Create transposed vectors + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t0 = TRANSPOSED_U(s0); +#if VEC_SIZE_X > 1 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t1 = TRANSPOSED_U(s1); +#endif /* VEC_SIZE_X > 1 */ +#if VEC_SIZE_X > 2 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t2 = TRANSPOSED_U(s2); +#endif /* VEC_SIZE_X > 2 */ +#if VEC_SIZE_X > 3 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t3 = TRANSPOSED_U(s3); +#endif /* VEC_SIZE_X > 3 */ +#if VEC_SIZE_X > 4 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t4 = TRANSPOSED_U(s4); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t5 = TRANSPOSED_U(s5); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t6 = TRANSPOSED_U(s6); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t7 = TRANSPOSED_U(s7); +#endif /* VEC_SIZE_X > 4 */ +#if VEC_SIZE_X > 8 + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t8 = TRANSPOSED_U(s8); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + t9 = TRANSPOSED_U(s9); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tA = TRANSPOSED_U(sA); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tB = TRANSPOSED_U(sB); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tC = TRANSPOSED_U(sC); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tD = TRANSPOSED_U(sD); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tE = TRANSPOSED_U(sE); + VEC_DATA_TYPE(DATA_TYPE, VEC_SIZE_Y) + tF = TRANSPOSED_U(sF); +#endif /* VEC_SIZE_X > 8 */ + + // Store the block at (y, x) + REPEAT_VAR_INIT_TO_CONST(VEC_SIZE_X, uint, zout, 0); //uint zout0=0,zout1=0,zout2=0,... zout7=0; + STORE_BLOCK_BOUNDARY_AWARE(VEC_SIZE_X, VEC_SIZE_Y, DATA_TYPE, t, (__global uchar *)dst_addr, dst_stride_y, zout, VEC_SIZE_LEFTOVER_X, VEC_SIZE_LEFTOVER_Y, VEC_SIZE_LEFTOVER_X != 0 + && get_global_id(0) == 0, + VEC_SIZE_LEFTOVER_Y != 0 && get_global_id(1) == 0); +} + +#endif // defined(DATA_TYPE_IN_BYTES) && defined(VEC_SIZE_X) && defined(VEC_SIZE_LEFTOVER_X) && defined(VEC_SIZE_Y) && defined(VEC_SIZE_LEFTOVER_Y) |