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| author | Giorgio Arena <giorgio.arena@arm.com> | 2020-10-02 10:20:11 +0100 |
|---|---|---|
| committer | Giorgio Arena <giorgio.arena@arm.com> | 2020-10-07 14:28:17 +0000 |
| commit | d304adbb1c6a2f66144c9cac1104f6e3f30d255a (patch) | |
| tree | 325849f9280cfb0c92900794371d1c63d70a619c /src/core/CL/cl_kernels/gemm_helpers.h | |
| parent | 1e75adac392dd979bd1a838583ed196e311bc77a (diff) | |
| download | ComputeLibrary-d304adbb1c6a2f66144c9cac1104f6e3f30d255a.tar.gz | |
COMPMID-3703 Remove OpenCL padding: CLActivationLayerKernel + create utility macro
Change-Id: I73edadc7299247e7bc51ae37c00d3709023da44a
Signed-off-by: Giorgio Arena <giorgio.arena@arm.com>
Reviewed-on: https://review.mlplatform.org/c/ml/ComputeLibrary/+/4073
Tested-by: Arm Jenkins <bsgcomp@arm.com>
Reviewed-by: Gian Marco Iodice <gianmarco.iodice@arm.com>
Comments-Addressed: Arm Jenkins <bsgcomp@arm.com>
Diffstat (limited to 'src/core/CL/cl_kernels/gemm_helpers.h')
| -rw-r--r-- | src/core/CL/cl_kernels/gemm_helpers.h | 327 |
1 files changed, 1 insertions, 326 deletions
diff --git a/src/core/CL/cl_kernels/gemm_helpers.h b/src/core/CL/cl_kernels/gemm_helpers.h index 6f6edc1bcf..3943a8de78 100644 --- a/src/core/CL/cl_kernels/gemm_helpers.h +++ b/src/core/CL/cl_kernels/gemm_helpers.h @@ -799,101 +799,6 @@ (BASENAME##F, 0, (__global DATA_TYPE *)(PTR + 15 * STRIDE_Y + Z##F)); /** @} */ // end of groupd STORE_ROW_n -/** Partially store the 0 to (n-1)th rows of the given variables - * @name STORE_ROW_PARTIAL_n - * Within each row, store the lower @p STORE_N0 elements of vectors of width @p N0 - * - * @note in case @p STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * @param[in] N0 The width of the passed in vector. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] STORE_N0 The **lower** size of the vectors to store. Supported: [1-16 and <= @p N0 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @{ - */ -#define STORE_ROW_PARTIAL_1(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##0, 0, (__global DATA_TYPE *)(PTR + 0 * STRIDE_Y + Z##0)); - -#define STORE_ROW_PARTIAL_2(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_1(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##1, 0, (__global DATA_TYPE *)(PTR + 1 * STRIDE_Y + Z##1)); - -#define STORE_ROW_PARTIAL_3(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_2(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##2, 0, (__global DATA_TYPE *)(PTR + 2 * STRIDE_Y + Z##2)); - -#define STORE_ROW_PARTIAL_4(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_3(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##3, 0, (__global DATA_TYPE *)(PTR + 3 * STRIDE_Y + Z##3)); - -#define STORE_ROW_PARTIAL_5(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_4(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##4, 0, (__global DATA_TYPE *)(PTR + 4 * STRIDE_Y + Z##4)); - -#define STORE_ROW_PARTIAL_6(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_5(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##5, 0, (__global DATA_TYPE *)(PTR + 5 * STRIDE_Y + Z##5)); - -#define STORE_ROW_PARTIAL_7(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_6(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##6, 0, (__global DATA_TYPE *)(PTR + 6 * STRIDE_Y + Z##6)); - -#define STORE_ROW_PARTIAL_8(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_7(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##7, 0, (__global DATA_TYPE *)(PTR + 7 * STRIDE_Y + Z##7)); - -#define STORE_ROW_PARTIAL_9(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_8(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##8, 0, (__global DATA_TYPE *)(PTR + 8 * STRIDE_Y + Z##8)); - -#define STORE_ROW_PARTIAL_10(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_9(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##9, 0, (__global DATA_TYPE *)(PTR + 9 * STRIDE_Y + Z##9)); - -#define STORE_ROW_PARTIAL_11(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_10(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##A, 0, (__global DATA_TYPE *)(PTR + 10 * STRIDE_Y + Z##A)); - -#define STORE_ROW_PARTIAL_12(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_11(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##B, 0, (__global DATA_TYPE *)(PTR + 11 * STRIDE_Y + Z##B)); - -#define STORE_ROW_PARTIAL_13(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_12(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##C, 0, (__global DATA_TYPE *)(PTR + 12 * STRIDE_Y + Z##C)); - -#define STORE_ROW_PARTIAL_14(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_13(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##D, 0, (__global DATA_TYPE *)(PTR + 13 * STRIDE_Y + Z##D)); - -#define STORE_ROW_PARTIAL_15(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_14(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##E, 0, (__global DATA_TYPE *)(PTR + 14 * STRIDE_Y + Z##E)); - -#define STORE_ROW_PARTIAL_16(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - STORE_ROW_PARTIAL_15(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) \ - VSTORE_PARTIAL(N0, STORE_N0) \ - (BASENAME##F, 0, (__global DATA_TYPE *)(PTR + 15 * STRIDE_Y + Z##F)); -/** @} */ // end of groupd STORE_ROW_PARTIAL_n - /** Convert and store the 0th to (n-1)th rows of the given variables * @name CONVERT_STORE_ROW_n * @@ -1008,127 +913,6 @@ #define STORE_BLOCK(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) STORE_BLOCK_STR(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) /** @} */ // end of group STORE_BLOCK -/** Partially store a block of the given size STORE_M0xSTORE_N0 - * @name STORE_BLOCK_PARTIAL - * - * @note The vector width @p N0 is also required for correct partial storing behaviour. - * @note in case @p STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * The data to store is expected to have consecutive names for each row. - * E.g., for STORE_M0=3 and basename=c, the expected names are c0, c1 and c2. - * The Z offset is expected to have consecutive names. - * E.g., for STORE_M0=3 and Z=zin, the expected z offset names are zin0, zin1 and zin2. - * - * @param[in] STORE_M0 The number of rows to store. Supported: 1-16 - * @param[in] STORE_N0 The lower number of elements of vectors to store. Supported: 1-16 and <= @p N0 - * @param[in] N0 The size of each vector. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @{ - */ -#define STORE_BLOCK_PARTIAL_STR(STORE_M0, STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) STORE_ROW_PARTIAL_##STORE_M0(N0, STORE_N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) -#define STORE_BLOCK_PARTIAL(STORE_M0, STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) STORE_BLOCK_PARTIAL_STR(STORE_M0, STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) -/** Store a block that can be partial in both x and y dimensions - * - * @note in cases @p PARTIAL_STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * The data to store is expected to have consecutive names for each row. - * E.g., for M0=3 and basename=c, the expected names are c0, c1 and c2. - * The Z offset is expected to have consecutive names. - * E.g., for M0=3 and Z=zin, the expected z offset names are zin0, zin1 and zin2. - * - * @param[in] M0 The number of rows to store, for non-partial blocks. Supported: 1-16 - * @param[in] N0 The size of each vector, for non-partial blocks. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @param[in] PARTIAL_STORE_M0 The partial size in y, for partial blocks. Supported range: [1, @p M0) - * @param[in] PARTIAL_STORE_N0 The partial size in x, for partial blocks. Supported range: [1, @p N0) - * @param[in] N Total number of columns. Used to detect if current block is at the boundary in x. - * @param[in] PARTIAL_COND_Y Condition on the y axis to perform the partial store Y. True to use PARTIAL_STORE_M0 rather than M0. - * @param[in] PARTIAL_COND_X Condition on the x axis to perform the partial store X. True to use PARTIAL_STORE_N0 rather than N0. - */ -#define STORE_BLOCK_PARTIAL_IN_X_AND_Y(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - if(!(PARTIAL_COND_X) && !(PARTIAL_COND_Y)) \ - { \ - STORE_BLOCK_PARTIAL(M0, N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } \ - else if((PARTIAL_COND_Y) && !(PARTIAL_COND_X)) \ - { \ - STORE_BLOCK_PARTIAL(PARTIAL_STORE_M0, N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } \ - else if(!(PARTIAL_COND_Y) && (PARTIAL_COND_X)) \ - { \ - STORE_BLOCK_PARTIAL(M0, PARTIAL_STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } \ - else \ - { \ - STORE_BLOCK_PARTIAL(PARTIAL_STORE_M0, PARTIAL_STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } -/** Store a block that can only be partial in x but not y. - * - * @note in case @p N0 or @p PARTIAL_STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * The data to store is expected to have consecutive names for each row. - * E.g., for M0=3 and basename=c, the expected names are c0, c1 and c2. - * The Z offset is expected to have consecutive names. - * E.g., for M0=3 and Z=zin, the expected z offset names are zin0, zin1 and zin2. - * - * @param[in] M0 The number of rows to store, for non-partial blocks. Supported: 1-16 - * @param[in] N0 The size of each vector, for non-partial blocks. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @param[in] PARTIAL_STORE_N0 The partial size in x, for partial blocks. Supported range: [1, @p N0) - * @param[in] N Total number of columns. Used to detect if current block is at the boundary in x. - * @param[in] PARTIAL_COND_X Condition on the x axis to perform the partial store X. True to use PARTIAL_STORE_N0 rather than N0. - */ -#define STORE_BLOCK_PARTIAL_IN_X(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_N0, N, PARTIAL_COND_X) \ - if(!(PARTIAL_COND_X)) \ - { \ - STORE_BLOCK_PARTIAL(M0, N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } \ - else \ - { \ - STORE_BLOCK_PARTIAL(M0, PARTIAL_STORE_N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } -/** Store a block that can only be partial in y but not x. - * - * @note in case @p N0 or @p PARTIAL_STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * The data to store is expected to have consecutive names for each row. - * E.g., for M0=3 and basename=c, the expected names are c0, c1 and c2. - * The Z offset is expected to have consecutive names. - * E.g., for M0=3 and Z=zin, the expected z offset names are zin0, zin1 and zin2. - * - * @param[in] M0 The number of rows to store, for non-partial blocks. Supported: 1-16 - * @param[in] N0 The size of each vector, for non-partial blocks. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @param[in] PARTIAL_STORE_M0 The partial size in y, for partial blocks. Supported range: [1, @p M0) - * @param[in] PARTIAL_COND_Y Condition on the y axis to perform the partial store Y. True to use PARTIAL_STORE_M0 rather than M0. - */ -#define STORE_BLOCK_PARTIAL_IN_Y(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_COND_Y) \ - if(!(PARTIAL_COND_Y)) \ - { \ - STORE_BLOCK_PARTIAL(M0, N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } \ - else \ - { \ - STORE_BLOCK_PARTIAL(PARTIAL_STORE_M0, N0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z); \ - } -/** @} */ // end of group STORE_BLOCK_PARTIAL - /** Convert and store a block of the given size M0xN0 * @name CONVERT_STORE_BLOCK * @@ -1732,113 +1516,4 @@ */ #define CONVERT_BLOCK_STR(M, N, DATA_TYPE, BASENAME_SRC, BASENAME_DST) CONVERT_ROW_##M(N, DATA_TYPE, BASENAME_SRC, BASENAME_DST) #define CONVERT_BLOCK(M, N, DATA_TYPE, BASENAME_SRC, BASENAME_DST) CONVERT_BLOCK_STR(M, N, DATA_TYPE, BASENAME_SRC, BASENAME_DST) -/** @} */ // end of group CONVERT_BLOCK - -#if defined(PARTIAL_STORE_M0) && defined(PARTIAL_STORE_N0) - -/** Boundary-aware GEMM block store - * @name STORE_BLOCK_BOUNDARY_AWARE - * This macro assumes the following schemes to achieve boundary-awareness: - * - Overlapping load in Y axis from lhs tensor. This implies lhs has no padding along y dim. - * - Non-Overlapping(normal) load from rhs tensor. This imples rhs can have paddings. - * - Overlapping load in Y axis from bias tensor. This implies rhs has no padding along y dim. - * The macro then ensures that the dst tensor can be stored without any paddings in both x and y dim. - * - * In the y dimension, we place the partial blocks **at the beginning** while in the x dimension, we place the partial - * blocks **at the end**. - * Say, the dst tensor is of shape MxN and we have M0 and N0 as the block size, this is how we define "partial blocks"/ - * "boundary block" (we use the 2 terms "partial blocks" and "boundary blocks" interchangeably) and its various parameters: - * - * *--x--> x == 0 x == 1 - * | |<------------------------------N-------------------------->| - * y |<--------------N0------------->|<----PARTIAL_STORE_N0----->| - * | -------------############################################################# - * * | | |...............................|...........................| - * y == 0 | PAR_..._M0 |......Boundary block in y......|.Boundary block in x and y.| - * | | |...............................|...........................| - * M --############################################################# - * | | | |...........................| - * y == 1 | M0 | Non-boundary block |....Boundary block in x....| - * | | | |...........................| - * |------------############################################################# - * - * Then @p PARTIAL_STORE_M0 = M % M0 and @p PARTIAL_STORE_N0 = N % N0 - * - * @note in cases @p PARTIAL_STORE_N0 != 1, 2, 3, 4, 8, 16, extra vstore(s) will be invoked, thus incurring small performance penalty. - * - * It automatically detects if a giving M,N,M0,N0 combination can yield partial blocks in either X and Y dimension, - * and select corresponding store methods such that the boundary detection logic is only added when needed. - * - * The data to store is expected to have consecutive names for each row. - * E.g., for M0=3 and basename=c, the expected names are c0, c1 and c2. - * The Z offset is expected to have consecutive names. - * E.g., for M0=3 and Z=zin, the expected z offset names are zin0, zin1 and zin2. - * - * @param[in] M0 The number of rows to store, for non-partial blocks. Supported: 1-16 - * @param[in] N0 The size of each vector, for non-partial blocks. Supported: 1, 2, 3, 4, 8, 16 - * @param[in] DATA_TYPE The data type of the vectors - * @param[in] BASENAME The basename of the variables - * @param[in] PTR The base pointer - * @param[in] STRIDE_Y The stride value in y-axis direction - * @param[in] Z The offset in z-axis direction - * @param[in] PARTIAL_STORE_M0 The partial size in y, for partial blocks. Supported: [0, @p M0) - * @param[in] PARTIAL_STORE_N0 The partial size in x, for partial blocks. Supported: [0, @p N0) - * @param[in] N Total number of columns. Used to detect if current block is at the boundary in x. - * @param[in] PARTIAL_COND_Y Condition on the y axis to perform the partial store Y. True to use PARTIAL_STORE_M0 rather than M0. - * @param[in] PARTIAL_COND_X Condition on the x axis to perform the partial store X. True to use PARTIAL_STORE_N0 rather than N0. - * @{ - */ -#if PARTIAL_STORE_M0 == 0 && PARTIAL_STORE_N0 == 0 -// Case1: No partial blocks in either x or y -#define STORE_BLOCK_BOUNDARY_AWARE(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - STORE_BLOCK(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) - -#elif PARTIAL_STORE_M0 > 0 && PARTIAL_STORE_N0 == 0 -// Case2: Partial blocks in y -#define STORE_BLOCK_BOUNDARY_AWARE(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - STORE_BLOCK_PARTIAL_IN_Y(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_COND_Y) - -#elif PARTIAL_STORE_M0 == 0 && PARTIAL_STORE_N0 > 0 -// Case3: Partial blocks in x -#define STORE_BLOCK_BOUNDARY_AWARE(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - STORE_BLOCK_PARTIAL_IN_X(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_N0, N, PARTIAL_COND_X) - -#else // PARTIAL_STORE_M0 == 0 && PARTIAL_STORE_N0 == 0 -// Case4: Partial blocks in both x and y -#define STORE_BLOCK_BOUNDARY_AWARE(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - STORE_BLOCK_PARTIAL_IN_X_AND_Y(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) - -#endif // PARTIAL_STORE_M0 == 0 && PARTIAL_STORE_N0 == 0 - -#else // defined(PARTIAL_STORE_M0) && defined(PARTIAL_STORE_N0) - -#define STORE_BLOCK_BOUNDARY_AWARE(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z, PARTIAL_STORE_M0, PARTIAL_STORE_N0, N, PARTIAL_COND_Y, PARTIAL_COND_X) \ - STORE_BLOCK(M0, N0, DATA_TYPE, BASENAME, PTR, STRIDE_Y, Z) - -#endif // defined(PARTIAL_STORE_M0) && defined(PARTIAL_STORE_N0) -/** @} */ // end of group STORE_BLOCK_BOUNDARY_AWARE - -#if defined(PARTIAL_STORE_M0) -/** Compute the start m0 row (LHS, BIAS and DST) in a boundary-aware way so as to avoid padding - * @name COMPUTE_M0_START_ROW - * If there're any partial blocks in y dimension, they are placed at the beginning of the rows. - * This shift amount is added to all rows such that the partial block (at the beginning) overlaps with the subsequent - * blocks in the y dimension to avoid any padding. - * EG: M0=4, PARTIAL_STORE_M0=1: - * | Non-overlapping | +M0_ROW_SHIFT (Overlapping) - * block 0 (partial)| start row = 0 | start row = 0 - * block 1 (full) | start row = 4 | start row = 1 - * block 2 (full) | start row = 8 | start row = 5 - * - * @param[in] y Global id of current block in y. - * @param[in] M0 The number of rows to store, for non-partial blocks. Supported: 1-16 - * @param[in] PARTIAL_STORE_M0 The partial size in y, for partial blocks. Supported: [0, @p M0) - * @{ - */ -#define COMPUTE_M0_START_ROW(y, M0, PARTIAL_STORE_M0) \ - ((uint)(max(0, (int)(y * M0) - (int)((M0 - PARTIAL_STORE_M0) % M0)))) -#else // defined(PARTIAL_STORE_M0) -#define COMPUTE_M0_START_ROW(y, M0, PARTIAL_STORE_M0) \ - ((uint)(y * M0)) -#endif // defined(PARTIAL_STORE_M0) -/** @} */ // end of group COMPUTE_M0_START_ROW +/** @} */ // end of group CONVERT_BLOCK
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