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Small GEMM for AArch64
This is a fairly conservative addition of small matrix kernels using SVE.tags/v0.3.28^2
Chris Sidebottom
1 year ago
11 changed files with 5845 additions and 0 deletions
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+2 -0Makefile.system
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+20 -0kernel/arm64/KERNEL.ARMV8SVE
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+657 -0kernel/arm64/dgemm_small_kernel_nn_sve.c
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+414 -0kernel/arm64/dgemm_small_kernel_nt_sve.c
-
+709 -0kernel/arm64/dgemm_small_kernel_tn_sve.c
-
+482 -0kernel/arm64/dgemm_small_kernel_tt_sve.c
-
+47 -0kernel/arm64/gemm_small_kernel_permit_sve.c
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+1046 -0kernel/arm64/sgemm_small_kernel_nn_sve.c
-
+647 -0kernel/arm64/sgemm_small_kernel_nt_sve.c
-
+1247 -0kernel/arm64/sgemm_small_kernel_tn_sve.c
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+574 -0kernel/arm64/sgemm_small_kernel_tt_sve.c
+ 2
- 0
Makefile.system
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| @@ -268,6 +268,8 @@ SMALL_MATRIX_OPT = 1 | |||||
| else ifeq ($(ARCH), power) | else ifeq ($(ARCH), power) | ||||
| SMALL_MATRIX_OPT = 1 | SMALL_MATRIX_OPT = 1 | ||||
| BUILD_BFLOAT16 = 1 | BUILD_BFLOAT16 = 1 | ||||
| else ifeq ($(ARCH), arm64) | |||||
| SMALL_MATRIX_OPT = 1 | |||||
| endif | endif | ||||
| ifeq ($(SMALL_MATRIX_OPT), 1) | ifeq ($(SMALL_MATRIX_OPT), 1) | ||||
| CCOMMON_OPT += -DSMALL_MATRIX_OPT | CCOMMON_OPT += -DSMALL_MATRIX_OPT | ||||
+ 20
- 0
kernel/arm64/KERNEL.ARMV8SVE
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| @@ -131,6 +131,16 @@ SGEMMITCOPYOBJ = sgemm_itcopy$(TSUFFIX).$(SUFFIX) | |||||
| SGEMMONCOPYOBJ = sgemm_oncopy$(TSUFFIX).$(SUFFIX) | SGEMMONCOPYOBJ = sgemm_oncopy$(TSUFFIX).$(SUFFIX) | ||||
| SGEMMOTCOPYOBJ = sgemm_otcopy$(TSUFFIX).$(SUFFIX) | SGEMMOTCOPYOBJ = sgemm_otcopy$(TSUFFIX).$(SUFFIX) | ||||
| SGEMM_SMALL_M_PERMIT = gemm_small_kernel_permit_sve.c | |||||
| SGEMM_SMALL_K_NT = sgemm_small_kernel_nt_sve.c | |||||
| SGEMM_SMALL_K_B0_NT = sgemm_small_kernel_nt_sve.c | |||||
| SGEMM_SMALL_K_NN = sgemm_small_kernel_nn_sve.c | |||||
| SGEMM_SMALL_K_B0_NN = sgemm_small_kernel_nn_sve.c | |||||
| SGEMM_SMALL_K_TT = sgemm_small_kernel_tt_sve.c | |||||
| SGEMM_SMALL_K_B0_TT = sgemm_small_kernel_tt_sve.c | |||||
| SGEMM_SMALL_K_TN = sgemm_small_kernel_tn_sve.c | |||||
| SGEMM_SMALL_K_B0_TN = sgemm_small_kernel_tn_sve.c | |||||
| STRMMUNCOPY_M = trmm_uncopy_sve_v1.c | STRMMUNCOPY_M = trmm_uncopy_sve_v1.c | ||||
| STRMMLNCOPY_M = trmm_lncopy_sve_v1.c | STRMMLNCOPY_M = trmm_lncopy_sve_v1.c | ||||
| STRMMUTCOPY_M = trmm_utcopy_sve_v1.c | STRMMUTCOPY_M = trmm_utcopy_sve_v1.c | ||||
| @@ -152,6 +162,16 @@ DGEMMITCOPYOBJ = dgemm_itcopy$(TSUFFIX).$(SUFFIX) | |||||
| DGEMMONCOPYOBJ = dgemm_oncopy$(TSUFFIX).$(SUFFIX) | DGEMMONCOPYOBJ = dgemm_oncopy$(TSUFFIX).$(SUFFIX) | ||||
| DGEMMOTCOPYOBJ = dgemm_otcopy$(TSUFFIX).$(SUFFIX) | DGEMMOTCOPYOBJ = dgemm_otcopy$(TSUFFIX).$(SUFFIX) | ||||
| DGEMM_SMALL_M_PERMIT = gemm_small_kernel_permit_sve.c | |||||
| DGEMM_SMALL_K_NT = dgemm_small_kernel_nt_sve.c | |||||
| DGEMM_SMALL_K_B0_NT = dgemm_small_kernel_nt_sve.c | |||||
| DGEMM_SMALL_K_NN = dgemm_small_kernel_nn_sve.c | |||||
| DGEMM_SMALL_K_B0_NN = dgemm_small_kernel_nn_sve.c | |||||
| DGEMM_SMALL_K_TT = dgemm_small_kernel_tt_sve.c | |||||
| DGEMM_SMALL_K_B0_TT = dgemm_small_kernel_tt_sve.c | |||||
| DGEMM_SMALL_K_TN = dgemm_small_kernel_tn_sve.c | |||||
| DGEMM_SMALL_K_B0_TN = dgemm_small_kernel_tn_sve.c | |||||
| DTRMMUNCOPY_M = trmm_uncopy_sve_v1.c | DTRMMUNCOPY_M = trmm_uncopy_sve_v1.c | ||||
| DTRMMLNCOPY_M = trmm_lncopy_sve_v1.c | DTRMMLNCOPY_M = trmm_lncopy_sve_v1.c | ||||
| DTRMMUTCOPY_M = trmm_utcopy_sve_v1.c | DTRMMUTCOPY_M = trmm_utcopy_sve_v1.c | ||||
+ 657
- 0
kernel/arm64/dgemm_small_kernel_nn_sve.c
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| @@ -0,0 +1,657 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) + (k + offset_k) * lda] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) + (j + (n)) * ldb] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(n, offset_k) packed_b[(k + offset_k) * 4 + n] | |||||
| #define PACK_ELEMENT(n) PACK_ELEMENT_K(n, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR2(m, n) \ | |||||
| float64x2_t result##m##n = vdupq_n_f64(0.0); | |||||
| #define DECLARE_RESULT(m, n) float64_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A2(m, offset_k) \ | |||||
| float64x2_t a##m##_k##offset_k = vld1q_dup_f64(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float64_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B_K2(n, offset_k) \ | |||||
| float64x2_t b##k##n##_k##offset_k = vld1q_f64(&B_ELEMENT_K(n, offset_k)); | |||||
| #define TRANSPOSE_B2_K2(n0, n1, offset_k0, offset_k1) \ | |||||
| float64x2_t b##n0##_k##offset_k0 = \ | |||||
| vzip1q_f64(b##k##n0##_k##offset_k0, b##k##n1##_k##offset_k0); \ | |||||
| float64x2_t b##n0##_k##offset_k1 = \ | |||||
| vzip2q_f64(b##k##n0##_k##offset_k0, b##k##n1##_k##offset_k0); | |||||
| #define SCALE_B2_K2(n0, offset_k0, offset_k1) \ | |||||
| svfloat64_t b##s##n0##_k##offset_k0 = svdup_neonq_f64(b##n0##_k##offset_k0); \ | |||||
| svfloat64_t b##s##n0##_k##offset_k1 = svdup_neonq_f64(b##n0##_k##offset_k1); | |||||
| #define GATHER_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vdupq_n_f64(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f64(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); | |||||
| #define VECTOR_UNPACK_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vld1q_f64(&PACK_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_PACK_B2(n, offset_k) \ | |||||
| vst1q_f64(&PACK_ELEMENT_K(n, offset_k), b##n##_k##offset_k); | |||||
| #define PACK_B0(n, offset_k) \ | |||||
| PACK_ELEMENT_K(n, offset_k) = vget_lane_f64(b##n##_k##offset_k, 0); | |||||
| #define UPDATE_RESULT_VECTOR2(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f64(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = vgetq_lane_f64(result##m##n, 1); | |||||
| #else | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = \ | |||||
| C_ELEMENT(m, n + 0) * beta + vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = \ | |||||
| C_ELEMENT(m, n + 1) * beta + vgetq_lane_f64(result##m##n, 1); | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat64_t result##m##n = svdup_f64(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = svdup_f64(B_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg, &A_ELEMENT_K(v_size * m, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define PACK_B(n, offset_k) \ | |||||
| svst1(pg_first, &PACK_ELEMENT_K(n, offset_k), b##s##n##_k##offset_k); | |||||
| #define VECTOR_PACK_B(n, offset_k) \ | |||||
| svst1(pg_true, &PACK_ELEMENT_K(n* v_size, offset_k), b##s##n##_k##offset_k); | |||||
| #define QUADWORD_PACK_B(n, offset_k) \ | |||||
| svst1(pg_quad, &PACK_ELEMENT_K(n, offset_k), b##s##n##_k##offset_k); | |||||
| #define UNPACK_VECTOR_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1(pg_true, &PACK_ELEMENT_K(n * v_size, offset_k)); | |||||
| #define UNPACK_BROADCAST_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = svdup_f64(PACK_ELEMENT_K(n, offset_k)); | |||||
| #define UNPACK_QUADWORD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &PACK_ELEMENT_K(n, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(v_size * m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u64(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntd(); | |||||
| const uint64_t v_size2 = v_size * 2; | |||||
| const svbool_t pg_true = svptrue_b64(); | |||||
| const svbool_t pg_quad = svwhilelt_b64(0, 2); | |||||
| const svbool_t pg_first = svwhilelt_b64(0, 1); | |||||
| const svfloat64_t alpha_vec = svdup_f64(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat64_t beta_vec = svdup_f64(beta); | |||||
| #endif | |||||
| const BLASLONG n4 = N & -4; | |||||
| const BLASLONG n2 = N & -2; | |||||
| const BLASLONG v_m2 = M & -v_size2; | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| const BLASLONG k2 = K & -2; | |||||
| const int pack_b = M >= v_size2 && N >= 8 && K >= 8 ? 1 : 0; | |||||
| FLOAT* packed_b = | |||||
| (pack_b) ? packed_b = (FLOAT*)malloc(K * 4 * sizeof(FLOAT)) : NULL; | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| if (i == 0) { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_PACK_B2(0, 0); | |||||
| VECTOR_PACK_B2(0, 1); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| VECTOR_PACK_B2(2, 0); | |||||
| VECTOR_PACK_B2(2, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| PACK_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| PACK_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| PACK_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| PACK_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_QUADWORD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| } | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_QUADWORD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_QUADWORD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| } | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| } | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| } | |||||
| } | |||||
| if (pack_b) | |||||
| free(packed_b); | |||||
| return 0; | |||||
| } | |||||
+ 414
- 0
kernel/arm64/dgemm_small_kernel_nt_sve.c
View File
| @@ -0,0 +1,414 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) + (k + offset_k) * lda] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) * ldb + (j + (n))] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(n, offset_k) packed_b[(k + offset_k) * 4 + n] | |||||
| #define PACK_ELEMENT(n) PACK_ELEMENT_K(n, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR2(m, n) \ | |||||
| float64x2_t result##m##n = vdupq_n_f64(0.0); | |||||
| #define DECLARE_RESULT(m, n) float64_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A2(m, offset_k) \ | |||||
| float64x2_t a##m##_k##offset_k = vld1q_dup_f64(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float64_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vld1q_f64(&B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vdupq_n_f64(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f64(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); | |||||
| #define UPDATE_RESULT_VECTOR2(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f64(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = vgetq_lane_f64(result##m##n, 1); | |||||
| #else | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = \ | |||||
| C_ELEMENT(m, n + 0) * beta + vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = \ | |||||
| C_ELEMENT(m, n + 1) * beta + vgetq_lane_f64(result##m##n, 1); | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat64_t result##m##n = svdup_f64(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = svdup_f64(B_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg, &A_ELEMENT_K(v_size * m, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(v_size * m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u64(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntd(); | |||||
| const uint64_t v_size32 = v_size * 32; | |||||
| const uint64_t v_size3 = v_size * 3; | |||||
| const svbool_t pg_true = svptrue_b64(); | |||||
| const svbool_t pg_quad = svwhilelt_b64(0, 2); | |||||
| const svfloat64_t alpha_vec = svdup_f64(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat64_t beta_vec = svdup_f64(beta); | |||||
| #endif | |||||
| const BLASLONG n4 = N & -4; | |||||
| const BLASLONG n2 = N & -2; | |||||
| const BLASLONG v_m3 = M - (M % v_size3); | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 1); | |||||
| DECLARE_RESULT_VECTOR(2, 2); | |||||
| DECLARE_RESULT_VECTOR(2, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 3, 2, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| VECTOR_STORE(pg_true, 2, 1); | |||||
| VECTOR_STORE(pg_true, 2, 2); | |||||
| VECTOR_STORE(pg_true, 2, 3); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| } | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 1); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| VECTOR_STORE(pg_true, 2, 1); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| } | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 2, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| } | |||||
| } | |||||
| return 0; | |||||
| } | |||||
+ 709
- 0
kernel/arm64/dgemm_small_kernel_tn_sve.c
View File
| @@ -0,0 +1,709 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) * lda + (k + offset_k)] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) + (j + (n)) * ldb] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(m, offset_k) packed_a[(k + offset_k) * 2 * v_size + m] | |||||
| #define PACK_ELEMENT(m) PACK_ELEMENT_K(m, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR2(m, n) \ | |||||
| float64x2_t result##m##n = vdupq_n_f64(0.0); | |||||
| #define DECLARE_RESULT(m, n) float64_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A2(m, offset_k) \ | |||||
| float64x2_t a##m##_k##offset_k = vld1q_dup_f64(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float64_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B_K2(n, offset_k) \ | |||||
| float64x2_t b##k##n##_k##offset_k = vld1q_f64(&B_ELEMENT_K(n, offset_k)); | |||||
| #define TRANSPOSE_B2_K2(n0, n1, offset_k0, offset_k1) \ | |||||
| float64x2_t b##n0##_k##offset_k0 = \ | |||||
| vzip1q_f64(b##k##n0##_k##offset_k0, b##k##n1##_k##offset_k0); \ | |||||
| float64x2_t b##n0##_k##offset_k1 = \ | |||||
| vzip2q_f64(b##k##n0##_k##offset_k0, b##k##n1##_k##offset_k0); | |||||
| #define SCALE_B2_K2(n0, offset_k0, offset_k1) \ | |||||
| svfloat64_t b##s##n0##_k##offset_k0 = svdup_neonq_f64(b##n0##_k##offset_k0); \ | |||||
| svfloat64_t b##s##n0##_k##offset_k1 = svdup_neonq_f64(b##n0##_k##offset_k1); | |||||
| #define GATHER_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vdupq_n_f64(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f64(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); | |||||
| #define VECTOR_UNPACK_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vld1q_f64(&PACK_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_PACK_B2(n, offset_k) \ | |||||
| vst1q_f64(&PACK_ELEMENT_K(n, offset_k), b##n##_k##offset_k); | |||||
| #define PACK_B0(n, offset_k) \ | |||||
| PACK_ELEMENT_K(n, offset_k) = vget_lane_f64(b##n##_k##offset_k, 0); | |||||
| #define UPDATE_RESULT_VECTOR2(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f64(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = vgetq_lane_f64(result##m##n, 1); | |||||
| #else | |||||
| #define SCATTER_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = \ | |||||
| C_ELEMENT(m, n + 0) * beta + vgetq_lane_f64(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = \ | |||||
| C_ELEMENT(m, n + 1) * beta + vgetq_lane_f64(result##m##n, 1); | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat64_t result##m##n = svdup_f64(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = svdup_f64(B_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg, &A_ELEMENT_K(v_size * m, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1_gather_index(pg, &A_ELEMENT_K(v_size * m, offset_k), lda_vec); | |||||
| #define PACK_A(m, offset_k) \ | |||||
| svst1(pg_first, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define VECTOR_PACK_A(m, offset_k) \ | |||||
| svst1(pg_true, &PACK_ELEMENT_K(m* v_size, offset_k), a##s##m##_k##offset_k); | |||||
| #define QUADWORD_PACK_A(m, offset_k) \ | |||||
| svst1(pg_quad, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define UNPACK_VECTOR_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg_true, &PACK_ELEMENT_K(m * v_size, offset_k)); | |||||
| #define UNPACK_BROADCAST_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UNPACK_QUADWORD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1rq(pg_true, &PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(v_size * m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u64(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntd(); | |||||
| const uint64_t v_size2 = v_size * 2; | |||||
| const svbool_t pg_true = svptrue_b64(); | |||||
| const svbool_t pg_quad = svwhilelt_b64(0, 2); | |||||
| const svbool_t pg_first = svwhilelt_b64(0, 1); | |||||
| const svfloat64_t alpha_vec = svdup_f64(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat64_t beta_vec = svdup_f64(beta); | |||||
| #endif | |||||
| const svuint64_t lda_vec = svindex_u64(0LL, lda); | |||||
| const BLASLONG v_m2 = M & -v_size2; | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| const BLASLONG n4 = N & -4; | |||||
| const BLASLONG n2 = N & -2; | |||||
| const BLASLONG k2 = K & -2; | |||||
| const int pack_a = M >= v_size2 && N >= 8 && K >= 8 ? 1 : 0; | |||||
| FLOAT* packed_a = | |||||
| (pack_a) ? packed_a = (FLOAT*)malloc(K * 2 * v_size * sizeof(FLOAT)) : NULL; | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| if (j == 0) { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| VECTOR_PACK_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 1); | |||||
| VECTOR_PACK_A(0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| VECTOR_PACK_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 1); | |||||
| VECTOR_PACK_A(1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| VECTOR_PACK_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| VECTOR_PACK_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 3, 0); | |||||
| } | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 1, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| } | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| } | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| VECTOR_LOAD_B_K2(2, 0); | |||||
| VECTOR_LOAD_B_K2(3, 0); | |||||
| TRANSPOSE_B2_K2(2, 3, 0, 1); | |||||
| SCALE_B2_K2(2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 1, 0); | |||||
| BROADCAST_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 2, 0); | |||||
| BROADCAST_LOAD_B(3, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < k2; k += 2) { | |||||
| VECTOR_LOAD_B_K2(0, 0); | |||||
| VECTOR_LOAD_B_K2(1, 0); | |||||
| TRANSPOSE_B2_K2(0, 1, 0, 1); | |||||
| SCALE_B2_K2(0, 0, 1); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 1); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 1); | |||||
| } | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| BROADCAST_LOAD_B(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| } | |||||
| } | |||||
| if (pack_a) | |||||
| free(packed_a); | |||||
| return 0; | |||||
| } | |||||
+ 482
- 0
kernel/arm64/dgemm_small_kernel_tt_sve.c
View File
| @@ -0,0 +1,482 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) * lda + (k + offset_k)] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) * ldb + (j + (n))] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(m, offset_k) packed_a[(k + offset_k) * 2 * v_size + m] | |||||
| #define PACK_ELEMENT(m) PACK_ELEMENT_K(m, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR2(m, n) \ | |||||
| float64x2_t result##m##n = vdupq_n_f64(0.0); | |||||
| #define DECLARE_RESULT(m, n) float64_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A2(m, offset_k) \ | |||||
| float64x2_t a##m##_k##offset_k = vld1q_dup_f64(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float64_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vld1q_f64(&B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vdupq_n_f64(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f64(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); | |||||
| #define VECTOR_UNPACK_B2(n, offset_k) \ | |||||
| float64x2_t b##n##_k##offset_k = vld1q_f64(&PACK_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_PACK_B2(n, offset_k) \ | |||||
| vst1q_f64(&PACK_ELEMENT_K(n, offset_k), b##n##_k##offset_k); | |||||
| #define PACK_B0(n, offset_k) \ | |||||
| PACK_ELEMENT_K(n, offset_k) = vget_lane_f64(b##n##_k##offset_k, 0); | |||||
| #define UPDATE_RESULT_VECTOR2(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f64(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE2(m, n) \ | |||||
| vst1q_f64(&C_ELEMENT(m, n), vmulq_f64(result##m##n, vdupq_n_f64(alpha))); | |||||
| #define STORE(m, n) C_ELEMENT(m, n) = alpha * result##m##n; | |||||
| #else | |||||
| #define VECTOR_STORE2(m, n) \ | |||||
| result##m##n = vmulq_f64(result##m##n, vdupq_n_f64(alpha)); \ | |||||
| result##m##n = \ | |||||
| vfmaq_f64(result##m##n, vld1q_f64(&C_ELEMENT(m, n)), vdupq_n_f64(beta)); \ | |||||
| vst1q_f64(&C_ELEMENT(m, n), result##m##n); | |||||
| #define STORE(m, n) \ | |||||
| C_ELEMENT(m, n) = C_ELEMENT(m, n) * beta + alpha * result##m##n; | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat64_t result##m##n = svdup_f64(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = svdup_f64(B_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg, &A_ELEMENT_K(v_size * m, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat64_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1_gather_index(pg, &A_ELEMENT_K(v_size * m, offset_k), lda_vec); | |||||
| #define PACK_A(m, offset_k) \ | |||||
| svst1(pg_first, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define VECTOR_PACK_A(m, offset_k) \ | |||||
| svst1(pg_true, &PACK_ELEMENT_K(m* v_size, offset_k), a##s##m##_k##offset_k); | |||||
| #define QUADWORD_PACK_A(m, offset_k) \ | |||||
| svst1(pg_quad, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define UNPACK_VECTOR_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg_true, &PACK_ELEMENT_K(m * v_size, offset_k)); | |||||
| #define UNPACK_BROADCAST_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = svdup_f64(PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UNPACK_QUADWORD_A(m, offset_k) \ | |||||
| svfloat64_t a##s##m##_k##offset_k = \ | |||||
| svld1rq(pg_true, &PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(v_size * m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u64(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u64(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntd(); | |||||
| const uint64_t v_size2 = v_size * 2; | |||||
| const svbool_t pg_true = svptrue_b64(); | |||||
| const svbool_t pg_quad = svwhilelt_b64(0, 2); | |||||
| const svbool_t pg_first = svwhilelt_b64(0, 1); | |||||
| const svfloat64_t alpha_vec = svdup_f64(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat64_t beta_vec = svdup_f64(beta); | |||||
| #endif | |||||
| const svuint64_t lda_vec = svindex_u64(0LL, lda); | |||||
| const BLASLONG v_m2 = M & -v_size2; | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| const BLASLONG n4 = N & -4; | |||||
| const BLASLONG n2 = N & -2; | |||||
| const int pack_a = M >= v_size2 && N >= 8 && K >= 8 ? 1 : 0; | |||||
| FLOAT* packed_a = | |||||
| (pack_a) ? packed_a = (FLOAT*)malloc(K * 2 * v_size * sizeof(FLOAT)) : NULL; | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| if (j == 0) { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| VECTOR_PACK_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| VECTOR_PACK_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| } | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 2, 1, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| UNPACK_VECTOR_A(1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| GATHER_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| } | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| } | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b64((uint64_t)i, (uint64_t)(M)); | |||||
| BLASLONG j = 0; | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| QUADWORD_LOAD_B(2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 2, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 2, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| } | |||||
| for (; j < n2; j += 2) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| } | |||||
| } | |||||
| if (pack_a) | |||||
| free(packed_a); | |||||
| return 0; | |||||
| } | |||||
+ 47
- 0
kernel/arm64/gemm_small_kernel_permit_sve.c
View File
| @@ -0,0 +1,47 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL | |||||
| DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR | |||||
| SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER | |||||
| CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, | |||||
| OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE | |||||
| USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| int CNAME(int transa, int transb, BLASLONG M, BLASLONG N, BLASLONG K, FLOAT alpha, FLOAT beta) | |||||
| { | |||||
| BLASLONG MNK = M * N * K; | |||||
| #if defined(DOUBLE) // dgemm | |||||
| // TN prefers full copies much earlier | |||||
| if (transa && !transb && MNK > 16*16*16) { | |||||
| return 0; | |||||
| } | |||||
| #else // sgemm | |||||
| // TODO! | |||||
| #endif | |||||
| if (MNK <= 64*64*64) | |||||
| return 1; | |||||
| return 0; | |||||
| } | |||||
+ 1046
- 0
kernel/arm64/sgemm_small_kernel_nn_sve.c
File diff suppressed because it is too large
View File
+ 647
- 0
kernel/arm64/sgemm_small_kernel_nt_sve.c
View File
| @@ -0,0 +1,647 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) + (k + offset_k) * lda] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) * ldb + (j + (n))] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(n, offset_k) packed_b[(k + offset_k) * 8 + n] | |||||
| #define PACK_ELEMENT(n) PACK_ELEMENT_K(n, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR4(m, n) \ | |||||
| float32x4_t result##m##n = vdupq_n_f32(0.0); | |||||
| #define DECLARE_RESULT(m, n) float32_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A4(m, offset_k) \ | |||||
| float32x4_t a##m##_k##offset_k = vld1q_dup_f32(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float32_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vld1q_f32(&B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vdupq_n_f32(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 2, offset_k), b##n##_k##offset_k, 2); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 3, offset_k), b##n##_k##offset_k, 3); | |||||
| #define VECTOR_UNPACK_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vld1q_f32(&PACK_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_PACK_B4(n, offset_k) \ | |||||
| vst1q_f32(&PACK_ELEMENT_K(n, offset_k), b##n##_k##offset_k); | |||||
| #define PACK_B0(n, offset_k) \ | |||||
| PACK_ELEMENT_K(n, offset_k) = vget_lane_f32(b##n##_k##offset_k, 0); | |||||
| #define UPDATE_RESULT_VECTOR4(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f32(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define SCATTER_STORE4(m, n) \ | |||||
| result##m##n = vmulq_f32(result##m##n, vdupq_n_f32(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = vgetq_lane_f32(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = vgetq_lane_f32(result##m##n, 1); \ | |||||
| C_ELEMENT(m, n + 2) = vgetq_lane_f32(result##m##n, 2); \ | |||||
| C_ELEMENT(m, n + 3) = vgetq_lane_f32(result##m##n, 3); | |||||
| #else | |||||
| #define SCATTER_STORE4(m, n) \ | |||||
| result##m##n = vmulq_f32(result##m##n, vdupq_n_f32(alpha)); \ | |||||
| C_ELEMENT(m, n + 0) = \ | |||||
| C_ELEMENT(m, n + 0) * beta + vgetq_lane_f32(result##m##n, 0); \ | |||||
| C_ELEMENT(m, n + 1) = \ | |||||
| C_ELEMENT(m, n + 1) * beta + vgetq_lane_f32(result##m##n, 1); \ | |||||
| C_ELEMENT(m, n + 2) = \ | |||||
| C_ELEMENT(m, n + 2) * beta + vgetq_lane_f32(result##m##n, 2); \ | |||||
| C_ELEMENT(m, n + 3) = \ | |||||
| C_ELEMENT(m, n + 3) * beta + vgetq_lane_f32(result##m##n, 3); | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat32_t result##m##n = svdup_f32(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = svdup_f32(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = svdup_f32(B_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_LOAD_A(pg, m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg, &A_ELEMENT_K(v_size * m, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define PACK_B(n, offset_k) \ | |||||
| svst1(pg_first, &PACK_ELEMENT_K(n, offset_k), b##s##n##_k##offset_k); | |||||
| #define VECTOR_PACK_B(n, offset_k) \ | |||||
| svst1(pg_true, &PACK_ELEMENT_K(n* v_size, offset_k), b##s##n##_k##offset_k); | |||||
| #define QUADWORD_PACK_B(n, offset_k) \ | |||||
| svst1(pg_quad, &PACK_ELEMENT_K(n, offset_k), b##s##n##_k##offset_k); | |||||
| #define UNPACK_VECTOR_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = \ | |||||
| svld1(pg_true, &PACK_ELEMENT_K(n * v_size, offset_k)); | |||||
| #define UNPACK_BROADCAST_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = svdup_f32(PACK_ELEMENT_K(n, offset_k)); | |||||
| #define UNPACK_QUADWORD_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &PACK_ELEMENT_K(n, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u32(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(v_size * m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(v_size* m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u32(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u32(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntw(); | |||||
| const uint64_t v_size3 = v_size * 3; | |||||
| const svbool_t pg_true = svptrue_b32(); | |||||
| const svbool_t pg_quad = svwhilelt_b32(0, 4); | |||||
| const svbool_t pg_first = svwhilelt_b32(0, 1); | |||||
| const svfloat32_t alpha_vec = svdup_f32(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat32_t beta_vec = svdup_f32(beta); | |||||
| #endif | |||||
| const BLASLONG n8 = N & -8; | |||||
| const BLASLONG n4 = N & -4; | |||||
| const BLASLONG v_m3 = M - (M % v_size3); | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| const int pack_b = M >= v_size3 && N >= 8 && K >= 8 ? 1 : 0; | |||||
| FLOAT* packed_b = | |||||
| (pack_b) ? packed_b = (FLOAT*)malloc(K * 8 * sizeof(FLOAT)) : NULL; | |||||
| BLASLONG j = 0; | |||||
| for (; j < n8; j += 8) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 4); | |||||
| DECLARE_RESULT_VECTOR(1, 5); | |||||
| DECLARE_RESULT_VECTOR(1, 6); | |||||
| DECLARE_RESULT_VECTOR(1, 7); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 1); | |||||
| DECLARE_RESULT_VECTOR(2, 2); | |||||
| DECLARE_RESULT_VECTOR(2, 3); | |||||
| DECLARE_RESULT_VECTOR(2, 4); | |||||
| DECLARE_RESULT_VECTOR(2, 5); | |||||
| DECLARE_RESULT_VECTOR(2, 6); | |||||
| DECLARE_RESULT_VECTOR(2, 7); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| if (i == 0) { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| QUADWORD_PACK_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| QUADWORD_PACK_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 7, 4, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| UNPACK_QUADWORD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 0, 4); | |||||
| VECTOR_STORE(pg_true, 0, 5); | |||||
| VECTOR_STORE(pg_true, 0, 6); | |||||
| VECTOR_STORE(pg_true, 0, 7); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| VECTOR_STORE(pg_true, 1, 4); | |||||
| VECTOR_STORE(pg_true, 1, 5); | |||||
| VECTOR_STORE(pg_true, 1, 6); | |||||
| VECTOR_STORE(pg_true, 1, 7); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| VECTOR_STORE(pg_true, 2, 1); | |||||
| VECTOR_STORE(pg_true, 2, 2); | |||||
| VECTOR_STORE(pg_true, 2, 3); | |||||
| VECTOR_STORE(pg_true, 2, 4); | |||||
| VECTOR_STORE(pg_true, 2, 5); | |||||
| VECTOR_STORE(pg_true, 2, 6); | |||||
| VECTOR_STORE(pg_true, 2, 7); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| UNPACK_QUADWORD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 0, 4); | |||||
| VECTOR_STORE(pg_true, 0, 5); | |||||
| VECTOR_STORE(pg_true, 0, 6); | |||||
| VECTOR_STORE(pg_true, 0, 7); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b32((uint32_t)i, (uint32_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| if (LIKELY(packed_b != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| UNPACK_QUADWORD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| UNPACK_QUADWORD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| VECTOR_STORE(pg_tail, 0, 4); | |||||
| VECTOR_STORE(pg_tail, 0, 5); | |||||
| VECTOR_STORE(pg_tail, 0, 6); | |||||
| VECTOR_STORE(pg_tail, 0, 7); | |||||
| } | |||||
| } | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 1); | |||||
| DECLARE_RESULT_VECTOR(2, 2); | |||||
| DECLARE_RESULT_VECTOR(2, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(2, 3, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 1, 1); | |||||
| VECTOR_STORE(pg_true, 1, 2); | |||||
| VECTOR_STORE(pg_true, 1, 3); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| VECTOR_STORE(pg_true, 2, 1); | |||||
| VECTOR_STORE(pg_true, 2, 2); | |||||
| VECTOR_STORE(pg_true, 2, 3); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 3); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b32((uint32_t)i, (uint32_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 3); | |||||
| } | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m3; i += v_size3) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(2, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 2, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 2, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| VECTOR_STORE(pg_true, 1, 0); | |||||
| VECTOR_STORE(pg_true, 2, 0); | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_true, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0); | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b32((uint32_t)i, (uint32_t)(M)); | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| VECTOR_LOAD_A(pg_tail, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0); | |||||
| } | |||||
| } | |||||
| if (pack_b) | |||||
| free(packed_b); | |||||
| return 0; | |||||
| } | |||||
+ 1247
- 0
kernel/arm64/sgemm_small_kernel_tn_sve.c
File diff suppressed because it is too large
View File
+ 574
- 0
kernel/arm64/sgemm_small_kernel_tt_sve.c
View File
| @@ -0,0 +1,574 @@ | |||||
| /*************************************************************************** | |||||
| Copyright (c) 2024, The OpenBLAS Project | |||||
| All rights reserved. | |||||
| Redistribution and use in source and binary forms, with or without | |||||
| modification, are permitted provided that the following conditions are | |||||
| met: | |||||
| 1. Redistributions of source code must retain the above copyright | |||||
| notice, this list of conditions and the following disclaimer. | |||||
| 2. Redistributions in binary form must reproduce the above copyright | |||||
| notice, this list of conditions and the following disclaimer in | |||||
| the documentation and/or other materials provided with the | |||||
| distribution. | |||||
| 3. Neither the name of the OpenBLAS project nor the names of | |||||
| its contributors may be used to endorse or promote products | |||||
| derived from this software without specific prior written permission. | |||||
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |||||
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |||||
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |||||
| ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE | |||||
| LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |||||
| CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE | |||||
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) | |||||
| HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | |||||
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF | |||||
| THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |||||
| *****************************************************************************/ | |||||
| #include "common.h" | |||||
| #include <arm_neon.h> | |||||
| #include <arm_sve.h> | |||||
| #ifdef __ARM_NEON_SVE_BRIDGE | |||||
| #include <arm_neon_sve_bridge.h> | |||||
| #else | |||||
| #define svdup_neonq_f32(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat32_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #define svdup_neonq_f64(fixed_reg) \ | |||||
| ({ \ | |||||
| svfloat64_t scalable_reg; \ | |||||
| asm("mov %0.q, %q1" : "=w"(scalable_reg) : "w"(fixed_reg) :); \ | |||||
| scalable_reg; \ | |||||
| }) | |||||
| #endif | |||||
| #define A_ELEMENT_K(m, offset_k) A[(i + (m)) * lda + (k + offset_k)] | |||||
| #define A_ELEMENT(m) A_ELEMENT_K(m, 0) | |||||
| #define B_ELEMENT_K(n, offset_k) B[(k + offset_k) * ldb + (j + (n))] | |||||
| #define B_ELEMENT(n) B_ELEMENT_K(n, 0) | |||||
| #define C_ELEMENT(m, n) C[(i + (m)) + (j + (n)) * ldc] | |||||
| #define PACK_ELEMENT_K(m, offset_k) packed_a[(k + offset_k) * v_size2 + m] | |||||
| #define PACK_ELEMENT(m) PACK_ELEMENT_K(m, 0) | |||||
| // ASIMD | |||||
| #define DECLARE_RESULT_VECTOR4(m, n) \ | |||||
| float32x4_t result##m##n = vdupq_n_f32(0.0); | |||||
| #define DECLARE_RESULT(m, n) float32_t result##m##n = 0.0; | |||||
| #define BROADCAST_LOAD_A4(m, offset_k) \ | |||||
| float32x4_t a##m##_k##offset_k = vld1q_dup_f32(&A_ELEMENT_K(m, offset_k)); | |||||
| #define LOAD_A1(m, offset_k) \ | |||||
| float32_t a##m##_k##offset_k = A_ELEMENT_K(m, offset_k); | |||||
| #define VECTOR_LOAD_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vld1q_f32(&B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vdupq_n_f32(B_ELEMENT_K(n, offset_k)); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 1, offset_k), b##n##_k##offset_k, 1); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 2, offset_k), b##n##_k##offset_k, 2); \ | |||||
| b##n##_k##offset_k = \ | |||||
| vsetq_lane_f32(B_ELEMENT_K(n + 3, offset_k), b##n##_k##offset_k, 3); | |||||
| #define VECTOR_UNPACK_B4(n, offset_k) \ | |||||
| float32x4_t b##n##_k##offset_k = vld1q_f32(&PACK_ELEMENT_K(n, offset_k)); | |||||
| #define VECTOR_PACK_B4(n, offset_k) \ | |||||
| vst1q_f32(&PACK_ELEMENT_K(n, offset_k), b##n##_k##offset_k); | |||||
| #define PACK_B0(n, offset_k) \ | |||||
| PACK_ELEMENT_K(n, offset_k) = vget_lane_f32(b##n##_k##offset_k, 0); | |||||
| #define UPDATE_RESULT_VECTOR4(m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| vfmaq_f32(result##m##n, a##m##_k##offset_k, b##n##_k##offset_k); | |||||
| #define UPDATE_RESULT(m, n, offset_k) \ | |||||
| result##m##n = result##m##n + a##m##_k##offset_k * b##n##_k##offset_k; | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE4(m, n) \ | |||||
| vst1q_f32(&C_ELEMENT(m, n), vmulq_f32(result##m##n, vdupq_n_f32(alpha))); | |||||
| #define STORE(m, n) C_ELEMENT(m, n) = alpha * result##m##n; | |||||
| #else | |||||
| #define VECTOR_STORE4(m, n) \ | |||||
| result##m##n = vmulq_f32(result##m##n, vdupq_n_f32(alpha)); \ | |||||
| result##m##n = \ | |||||
| vfmaq_f32(result##m##n, vld1q_f32(&C_ELEMENT(m, n)), vdupq_n_f32(beta)); \ | |||||
| vst1q_f32(&C_ELEMENT(m, n), result##m##n); | |||||
| #define STORE(m, n) \ | |||||
| C_ELEMENT(m, n) = C_ELEMENT(m, n) * beta + alpha * result##m##n; | |||||
| #endif | |||||
| // SVE | |||||
| #define DECLARE_RESULT_VECTOR(m, n) svfloat32_t result##m##n = svdup_f32(0.0); | |||||
| #define BROADCAST_LOAD_A(m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = svdup_f32(A_ELEMENT_K(m, offset_k)); | |||||
| #define BROADCAST_LOAD_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = svdup_f32(B_ELEMENT_K(n, offset_k)); | |||||
| #define QUADWORD_LOAD_B(n, offset_k) \ | |||||
| svfloat32_t b##s##n##_k##offset_k = \ | |||||
| svld1rq(pg_true, &B_ELEMENT_K(n, offset_k)); | |||||
| #define GATHER_LOAD_A(pg, offset_m, m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = \ | |||||
| svld1_gather_index(pg, &A_ELEMENT_K(offset_m, offset_k), lda_vec); | |||||
| #define PACK_A(m, offset_k) \ | |||||
| svst1(pg_first, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define VECTOR_PACK_A(offset_m, m, offset_k) \ | |||||
| svst1(pg_true, &PACK_ELEMENT_K(m* v_size, offset_k), a##s##m##_k##offset_k); | |||||
| #define QUADWORD_PACK_A(m, offset_k) \ | |||||
| svst1(pg_quad, &PACK_ELEMENT_K(m, offset_k), a##s##m##_k##offset_k); | |||||
| #define UNPACK_VECTOR_A(offset_m, m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = \ | |||||
| svld1(pg_true, &PACK_ELEMENT_K(offset_m, offset_k)); | |||||
| #define UNPACK_BROADCAST_A(m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = svdup_f32(PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UNPACK_QUADWORD_A(m, offset_k) \ | |||||
| svfloat32_t a##s##m##_k##offset_k = \ | |||||
| svld1rq(pg_true, &PACK_ELEMENT_K(m, offset_k)); | |||||
| #define UPDATE_RESULT_VECTOR(pg, m, n, offset_k) \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, a##s##m##_k##offset_k, b##s##n##_k##offset_k); | |||||
| #define UPDATE_RESULT_VECTOR_QUADWORD(m, n, outer, lane, offset_k) \ | |||||
| result##m##n = svmla_lane( \ | |||||
| result##m##n, a##s##m##_k##offset_k, b##s##outer##_k##offset_k, lane); | |||||
| #ifdef B0 | |||||
| #define VECTOR_STORE(pg, offset_m, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1(pg, &C_ELEMENT(offset_m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u32(0LL, ldc), result##m##n); | |||||
| #else | |||||
| #define VECTOR_STORE(pg, offset_m, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = \ | |||||
| svmla_m(pg, result##m##n, svld1(pg, &C_ELEMENT(offset_m, n)), beta_vec); \ | |||||
| svst1(pg, &C_ELEMENT(offset_m, n), result##m##n); | |||||
| #define SCATTER_STORE(pg, m, n) \ | |||||
| result##m##n = svmul_m(pg, result##m##n, alpha_vec); \ | |||||
| result##m##n = svmla_m( \ | |||||
| pg, \ | |||||
| result##m##n, \ | |||||
| svld1_gather_index(pg, &C_ELEMENT(v_size * m, n), svindex_u32(0LL, ldc)), \ | |||||
| beta_vec); \ | |||||
| svst1_scatter_index( \ | |||||
| pg, &C_ELEMENT(v_size* m, n), svindex_u32(0LL, ldc), result##m##n); | |||||
| #endif | |||||
| #ifndef LIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define LIKELY(x) __builtin_expect(!!(x), 1) | |||||
| #else | |||||
| #define LIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifndef UNLIKELY | |||||
| #ifdef __GNUC__ | |||||
| #define UNLIKELY(x) __builtin_expect(!!(x), 0) | |||||
| #else | |||||
| #define UNLIKELY(x) (x) | |||||
| #endif | |||||
| #endif | |||||
| #ifdef B0 | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #else | |||||
| int | |||||
| CNAME(BLASLONG M, | |||||
| BLASLONG N, | |||||
| BLASLONG K, | |||||
| IFLOAT* A, | |||||
| BLASLONG lda, | |||||
| FLOAT alpha, | |||||
| IFLOAT* B, | |||||
| BLASLONG ldb, | |||||
| FLOAT beta, | |||||
| FLOAT* C, | |||||
| BLASLONG ldc) | |||||
| #endif | |||||
| { | |||||
| const uint64_t v_size = svcntw(); | |||||
| const uint64_t v_size2 = v_size * 2; | |||||
| const svbool_t pg_true = svptrue_b32(); | |||||
| const svfloat32_t alpha_vec = svdup_f32(alpha); | |||||
| #ifndef B0 | |||||
| const svfloat32_t beta_vec = svdup_f32(beta); | |||||
| #endif | |||||
| const svuint32_t lda_vec = svindex_u32(0LL, lda); | |||||
| const BLASLONG v_m2 = M & -v_size2; | |||||
| const BLASLONG v_m1 = M & -v_size; | |||||
| const BLASLONG n8 = N & -8; | |||||
| const BLASLONG n4 = N & -4; | |||||
| const int pack_a = M >= v_size2 && N >= 8 && K >= 8 ? 1 : 0; | |||||
| FLOAT* packed_a = | |||||
| (pack_a) ? packed_a = (FLOAT*)malloc(K * 2 * v_size * sizeof(FLOAT)) : NULL; | |||||
| BLASLONG i = 0; | |||||
| for (; i < v_m2; i += v_size2) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n8; j += 8) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 4); | |||||
| DECLARE_RESULT_VECTOR(1, 5); | |||||
| DECLARE_RESULT_VECTOR(1, 6); | |||||
| DECLARE_RESULT_VECTOR(1, 7); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| if (j == 0) { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| VECTOR_PACK_A(0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| GATHER_LOAD_A(pg_true, v_size, 1, 0); | |||||
| VECTOR_PACK_A(v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| UNPACK_VECTOR_A(v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| GATHER_LOAD_A(pg_true, v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 7, 4, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 0, 3); | |||||
| VECTOR_STORE(pg_true, 0, 0, 4); | |||||
| VECTOR_STORE(pg_true, 0, 0, 5); | |||||
| VECTOR_STORE(pg_true, 0, 0, 6); | |||||
| VECTOR_STORE(pg_true, 0, 0, 7); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 0); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 1); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 2); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 3); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 4); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 5); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 6); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 7); | |||||
| } | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 1); | |||||
| DECLARE_RESULT_VECTOR(1, 2); | |||||
| DECLARE_RESULT_VECTOR(1, 3); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| UNPACK_VECTOR_A(v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| GATHER_LOAD_A(pg_true, v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(1, 3, 0, 3, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 0, 3); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 0); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 1); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 2); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 3); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(1, 0); | |||||
| if (LIKELY(packed_a != NULL)) { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| UNPACK_VECTOR_A(0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| UNPACK_VECTOR_A(v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } else { | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| GATHER_LOAD_A(pg_true, v_size, 1, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 1, 0, 0); | |||||
| } | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| VECTOR_STORE(pg_true, v_size, 1, 0); | |||||
| } | |||||
| } | |||||
| for (; i < v_m1; i += v_size) { | |||||
| BLASLONG j = 0; | |||||
| for (; j < n8; j += 8) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 0, 3); | |||||
| VECTOR_STORE(pg_true, 0, 0, 4); | |||||
| VECTOR_STORE(pg_true, 0, 0, 5); | |||||
| VECTOR_STORE(pg_true, 0, 0, 6); | |||||
| VECTOR_STORE(pg_true, 0, 0, 7); | |||||
| } | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| VECTOR_STORE(pg_true, 0, 0, 1); | |||||
| VECTOR_STORE(pg_true, 0, 0, 2); | |||||
| VECTOR_STORE(pg_true, 0, 0, 3); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_true, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_true, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_true, 0, 0, 0); | |||||
| } | |||||
| } | |||||
| for (; i < M; i += v_size) { | |||||
| const svbool_t pg_tail = svwhilelt_b32((uint32_t)i, (uint32_t)(M)); | |||||
| BLASLONG j = 0; | |||||
| for (; j < n8; j += 8) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| DECLARE_RESULT_VECTOR(0, 4); | |||||
| DECLARE_RESULT_VECTOR(0, 5); | |||||
| DECLARE_RESULT_VECTOR(0, 6); | |||||
| DECLARE_RESULT_VECTOR(0, 7); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| QUADWORD_LOAD_B(4, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 4, 4, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 5, 4, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 6, 4, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 7, 4, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 3); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 4); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 5); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 6); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 7); | |||||
| } | |||||
| for (; j < n4; j += 4) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| DECLARE_RESULT_VECTOR(0, 1); | |||||
| DECLARE_RESULT_VECTOR(0, 2); | |||||
| DECLARE_RESULT_VECTOR(0, 3); | |||||
| for (; k < K; k++) { | |||||
| QUADWORD_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 0, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 1, 0, 1, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 2, 0, 2, 0); | |||||
| UPDATE_RESULT_VECTOR_QUADWORD(0, 3, 0, 3, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0, 0); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 1); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 2); | |||||
| VECTOR_STORE(pg_tail, 0, 0, 3); | |||||
| } | |||||
| for (; j < N; j++) { | |||||
| BLASLONG k = 0; | |||||
| DECLARE_RESULT_VECTOR(0, 0); | |||||
| for (; k < K; k++) { | |||||
| BROADCAST_LOAD_B(0, 0); | |||||
| GATHER_LOAD_A(pg_tail, 0, 0, 0); | |||||
| UPDATE_RESULT_VECTOR(pg_tail, 0, 0, 0); | |||||
| } | |||||
| VECTOR_STORE(pg_tail, 0, 0, 0); | |||||
| } | |||||
| } | |||||
| if (pack_a) | |||||
| free(packed_a); | |||||
| return 0; | |||||
| } | |||||