Add and use vectorized packing in ZVL128B and ZVL256B for RISCVpull/4054/merge
| @@ -96,14 +96,24 @@ CGEMVTKERNEL = zgemv_t_rvv.c | |||
| ZGEMVTKERNEL = zgemv_t_rvv.c | |||
| SGEMMKERNEL = sgemm_kernel_$(SGEMM_UNROLL_M)x$(SGEMM_UNROLL_N)_zvl128b.c | |||
| ifneq ($(filter $(SGEMM_UNROLL_N),4 8 16),) | |||
| SGEMMONCOPY = gemm_ncopy_$(SGEMM_UNROLL_N)_rvv.c | |||
| SGEMMOTCOPY = gemm_tcopy_$(SGEMM_UNROLL_N)_rvv.c | |||
| else | |||
| SGEMMONCOPY = ../generic/gemm_ncopy_$(SGEMM_UNROLL_N).c | |||
| SGEMMOTCOPY = ../generic/gemm_tcopy_$(SGEMM_UNROLL_N).c | |||
| endif | |||
| SGEMMONCOPYOBJ = sgemm_oncopy$(TSUFFIX).$(SUFFIX) | |||
| SGEMMOTCOPYOBJ = sgemm_otcopy$(TSUFFIX).$(SUFFIX) | |||
| ifneq ($(SGEMM_UNROLL_M), $(SGEMM_UNROLL_N)) | |||
| ifneq ($(filter $(SGEMM_UNROLL_M),4 8 16),) | |||
| SGEMMINCOPY = gemm_ncopy_$(SGEMM_UNROLL_M)_rvv.c | |||
| SGEMMITCOPY = gemm_tcopy_$(SGEMM_UNROLL_M)_rvv.c | |||
| else | |||
| SGEMMINCOPY = ../generic/gemm_ncopy_$(SGEMM_UNROLL_M).c | |||
| SGEMMITCOPY = ../generic/gemm_tcopy_$(SGEMM_UNROLL_M).c | |||
| endif | |||
| SGEMMINCOPYOBJ = sgemm_incopy$(TSUFFIX).$(SUFFIX) | |||
| SGEMMITCOPYOBJ = sgemm_itcopy$(TSUFFIX).$(SUFFIX) | |||
| endif | |||
| @@ -255,4 +265,4 @@ SHGEMMOTCOPYOBJ = shgemm_otcopy$(TSUFFIX).$(SUFFIX) | |||
| ifndef SHGEMM_BETA | |||
| SHGEMM_BETA = gemm_beta_rvv.c | |||
| endif | |||
| endif | |||
| endif | |||
| @@ -96,13 +96,23 @@ CTRMMKERNEL = ctrmm_kernel_$(CGEMM_UNROLL_M)x$(CGEMM_UNROLL_N)_zvl256b.c | |||
| ZTRMMKERNEL = ztrmm_kernel_$(ZGEMM_UNROLL_M)x$(ZGEMM_UNROLL_N)_zvl256b.c | |||
| SGEMMKERNEL = sgemm_kernel_$(SGEMM_UNROLL_M)x$(SGEMM_UNROLL_N)_zvl256b.c | |||
| ifneq ($(filter $(SGEMM_UNROLL_N),4 8 16),) | |||
| SGEMMONCOPY = gemm_ncopy_$(SGEMM_UNROLL_N)_rvv.c | |||
| SGEMMOTCOPY = gemm_tcopy_$(SGEMM_UNROLL_N)_rvv.c | |||
| else | |||
| SGEMMONCOPY = ../generic/gemm_ncopy_$(SGEMM_UNROLL_N).c | |||
| SGEMMOTCOPY = ../generic/gemm_tcopy_$(SGEMM_UNROLL_N).c | |||
| endif | |||
| SGEMMONCOPYOBJ = sgemm_oncopy$(TSUFFIX).$(SUFFIX) | |||
| SGEMMOTCOPYOBJ = sgemm_otcopy$(TSUFFIX).$(SUFFIX) | |||
| ifneq ($(SGEMM_UNROLL_M), $(SGEMM_UNROLL_N)) | |||
| ifneq ($(filter $(SGEMM_UNROLL_M),4 8 16),) | |||
| SGEMMINCOPY = gemm_ncopy_$(SGEMM_UNROLL_M)_rvv.c | |||
| SGEMMITCOPY = gemm_tcopy_$(SGEMM_UNROLL_M)_rvv.c | |||
| else | |||
| SGEMMINCOPY = ../generic/gemm_ncopy_$(SGEMM_UNROLL_M).c | |||
| SGEMMITCOPY = ../generic/gemm_tcopy_$(SGEMM_UNROLL_M).c | |||
| endif | |||
| SGEMMINCOPYOBJ = sgemm_incopy$(TSUFFIX).$(SUFFIX) | |||
| SGEMMITCOPYOBJ = sgemm_itcopy$(TSUFFIX).$(SUFFIX) | |||
| endif | |||
| @@ -0,0 +1,325 @@ | |||
| /*************************************************************************** | |||
| Copyright (c) 2025, 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" | |||
| #if !defined(DOUBLE) | |||
| #define VSETVL(n) __riscv_vsetvl_e32m1(n) | |||
| #define FLOAT_V_T vfloat32m1_t | |||
| #define FLOAT_VX2_T vfloat32m1x2_t | |||
| #define FLOAT_VX4_T vfloat32m1x4_t | |||
| #define FLOAT_VX8_T vfloat32m1x8_t | |||
| #define VLSEG_FLOAT __riscv_vlse32_v_f32m1 | |||
| #define VLSSEG2_FLOAT __riscv_vlsseg2e32_v_f32m1x2 | |||
| #define VLSSEG4_FLOAT __riscv_vlsseg4e32_v_f32m1x4 | |||
| #define VLSSEG8_FLOAT __riscv_vlsseg8e32_v_f32m1x8 | |||
| #define VGET_VX2 __riscv_vget_v_f32m1x2_f32m1 | |||
| #define VGET_VX4 __riscv_vget_v_f32m1x4_f32m1 | |||
| #define VGET_VX8 __riscv_vget_v_f32m1x8_f32m1 | |||
| #define VSET_VX2 __riscv_vset_v_f32m1_f32m1x2 | |||
| #define VSET_VX4 __riscv_vset_v_f32m1_f32m1x4 | |||
| #define VSET_VX8 __riscv_vset_v_f32m1_f32m1x8 | |||
| #define VLEV_FLOAT __riscv_vle32_v_f32m1 | |||
| #define VSEV_FLOAT __riscv_vse32_v_f32m1 | |||
| #define VSSEG2_FLOAT __riscv_vsseg2e32_v_f32m1x2 | |||
| #define VSSEG4_FLOAT __riscv_vsseg4e32_v_f32m1x4 | |||
| #define VSSEG8_FLOAT __riscv_vsseg8e32_v_f32m1x8 | |||
| #else | |||
| #define VSETVL(n) __riscv_vsetvl_e64m1(n) | |||
| #define FLOAT_V_T vfloat64m1_t | |||
| #define FLOAT_VX2_T vfloat64m1x2_t | |||
| #define FLOAT_VX4_T vfloat64m1x4_t | |||
| #define FLOAT_VX8_T vfloat64m1x8_t | |||
| #define VLSEG_FLOAT __riscv_vlse64_v_f64m1 | |||
| #define VLSSEG2_FLOAT __riscv_vlsseg2e64_v_f64m1x2 | |||
| #define VLSSEG4_FLOAT __riscv_vlsseg4e64_v_f64m1x4 | |||
| #define VLSSEG8_FLOAT __riscv_vlsseg8e64_v_f64m1x8 | |||
| #define VGET_VX2 __riscv_vget_v_f64m1x2_f64m1 | |||
| #define VGET_VX4 __riscv_vget_v_f64m1x4_f64m1 | |||
| #define VGET_VX8 __riscv_vget_v_f64m1x8_f64m1 | |||
| #define VSET_VX2 __riscv_vset_v_f64m1_f64m1x2 | |||
| #define VSET_VX4 __riscv_vset_v_f64m1_f64m1x4 | |||
| #define VSET_VX8 __riscv_vset_v_f64m1_f64m1x8 | |||
| #define VLEV_FLOAT __riscv_vle64_v_f64m1 | |||
| #define VSEV_FLOAT __riscv_vse64_v_f64m1 | |||
| #define VSSEG2_FLOAT __riscv_vsseg2e64_v_f64m1x2 | |||
| #define VSSEG4_FLOAT __riscv_vsseg4e64_v_f64m1x4 | |||
| #define VSSEG8_FLOAT __riscv_vsseg8e64_v_f64m1x8 | |||
| #endif | |||
| // Optimizes the implementation in ../generic/gemm_ncopy_16.c | |||
| int CNAME(BLASLONG m, BLASLONG n, FLOAT *a, BLASLONG lda, FLOAT *b) | |||
| { | |||
| BLASLONG i, j; | |||
| FLOAT *a_offset; | |||
| FLOAT *a_offset1, *a_offset2, *a_offset3, *a_offset4; | |||
| FLOAT *a_offset5, *a_offset6, *a_offset7, *a_offset8; | |||
| FLOAT *b_offset; | |||
| FLOAT_V_T v1, v2, v3, v4, v5, v6, v7, v8; | |||
| FLOAT_V_T v9, v10, v11, v12, v13, v14, v15, v16; | |||
| FLOAT_VX2_T vx2, vx21; | |||
| FLOAT_VX4_T vx4, vx41; | |||
| FLOAT_VX8_T vx8, vx81; | |||
| size_t vl; | |||
| //fprintf(stderr, "gemm_ncopy_16 m=%ld n=%ld lda=%ld\n", m, n, lda); | |||
| a_offset = a; | |||
| b_offset = b; | |||
| j = (n >> 4); | |||
| if (j) { | |||
| vl = VSETVL(8); | |||
| do { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda * 8; | |||
| a_offset += 16 * lda; | |||
| i = m >> 3; | |||
| if (i) { | |||
| do { | |||
| vx8 = VLSSEG8_FLOAT(a_offset1, lda * sizeof(FLOAT), vl); | |||
| vx81 = VLSSEG8_FLOAT(a_offset2, lda * sizeof(FLOAT), vl); | |||
| v1 = VGET_VX8(vx8, 0); | |||
| v2 = VGET_VX8(vx8, 1); | |||
| v3 = VGET_VX8(vx8, 2); | |||
| v4 = VGET_VX8(vx8, 3); | |||
| v5 = VGET_VX8(vx8, 4); | |||
| v6 = VGET_VX8(vx8, 5); | |||
| v7 = VGET_VX8(vx8, 6); | |||
| v8 = VGET_VX8(vx8, 7); | |||
| v9 = VGET_VX8(vx81, 0); | |||
| v10 = VGET_VX8(vx81, 1); | |||
| v11 = VGET_VX8(vx81, 2); | |||
| v12 = VGET_VX8(vx81, 3); | |||
| v13 = VGET_VX8(vx81, 4); | |||
| v14 = VGET_VX8(vx81, 5); | |||
| v15 = VGET_VX8(vx81, 6); | |||
| v16 = VGET_VX8(vx81, 7); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| VSEV_FLOAT(b_offset + 8, v9, vl); | |||
| VSEV_FLOAT(b_offset + 16, v2, vl); | |||
| VSEV_FLOAT(b_offset + 24, v10, vl); | |||
| VSEV_FLOAT(b_offset + 32, v3, vl); | |||
| VSEV_FLOAT(b_offset + 40, v11, vl); | |||
| VSEV_FLOAT(b_offset + 48, v4, vl); | |||
| VSEV_FLOAT(b_offset + 56, v12, vl); | |||
| VSEV_FLOAT(b_offset + 64, v5, vl); | |||
| VSEV_FLOAT(b_offset + 72, v13, vl); | |||
| VSEV_FLOAT(b_offset + 80, v6, vl); | |||
| VSEV_FLOAT(b_offset + 88, v14, vl); | |||
| VSEV_FLOAT(b_offset + 96, v7, vl); | |||
| VSEV_FLOAT(b_offset + 104, v15, vl); | |||
| VSEV_FLOAT(b_offset + 112, v8, vl); | |||
| VSEV_FLOAT(b_offset + 120, v16, vl); | |||
| a_offset1 += 8; | |||
| a_offset2 += 8; | |||
| b_offset += 128; | |||
| } while (--i); | |||
| } | |||
| if (m & 4) { | |||
| vx4 = VLSSEG4_FLOAT(a_offset1, lda * sizeof(FLOAT), vl); | |||
| vx41 = VLSSEG4_FLOAT(a_offset2, lda * sizeof(FLOAT), vl); | |||
| v1 = VGET_VX4(vx4, 0); | |||
| v2 = VGET_VX4(vx4, 1); | |||
| v3 = VGET_VX4(vx4, 2); | |||
| v4 = VGET_VX4(vx4, 3); | |||
| v5 = VGET_VX4(vx41, 0); | |||
| v6 = VGET_VX4(vx41, 1); | |||
| v7 = VGET_VX4(vx41, 2); | |||
| v8 = VGET_VX4(vx41, 3); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| VSEV_FLOAT(b_offset + 8, v5, vl); | |||
| VSEV_FLOAT(b_offset + 16, v2, vl); | |||
| VSEV_FLOAT(b_offset + 24, v6, vl); | |||
| VSEV_FLOAT(b_offset + 32, v3, vl); | |||
| VSEV_FLOAT(b_offset + 40, v7, vl); | |||
| VSEV_FLOAT(b_offset + 48, v4, vl); | |||
| VSEV_FLOAT(b_offset + 56, v8, vl); | |||
| a_offset1 += 4; | |||
| a_offset2 += 4; | |||
| b_offset += 64; | |||
| } | |||
| if (m & 2) { | |||
| vx2 = VLSSEG2_FLOAT(a_offset1, lda * sizeof(FLOAT), vl); | |||
| vx21 = VLSSEG2_FLOAT(a_offset2, lda * sizeof(FLOAT), vl); | |||
| v1 = VGET_VX2(vx2, 0); | |||
| v2 = VGET_VX2(vx2, 1); | |||
| v3 = VGET_VX2(vx21, 0); | |||
| v4 = VGET_VX2(vx21, 1); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| VSEV_FLOAT(b_offset + 8, v3, vl); | |||
| VSEV_FLOAT(b_offset + 16, v2, vl); | |||
| VSEV_FLOAT(b_offset + 24, v4, vl); | |||
| a_offset1 += 2; | |||
| a_offset2 += 2; | |||
| b_offset += 32; | |||
| } | |||
| if (m & 1) { | |||
| v1 = VLSEG_FLOAT(a_offset1, lda * sizeof(FLOAT), vl); | |||
| v2 = VLSEG_FLOAT(a_offset2, lda * sizeof(FLOAT), vl); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| VSEV_FLOAT(b_offset + 8, v2, vl); | |||
| b_offset += 16; | |||
| } | |||
| } while (--j); | |||
| } | |||
| if (n & 8) { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda; | |||
| a_offset3 = a_offset2 + lda; | |||
| a_offset4 = a_offset3 + lda; | |||
| a_offset5 = a_offset4 + lda; | |||
| a_offset6 = a_offset5 + lda; | |||
| a_offset7 = a_offset6 + lda; | |||
| a_offset8 = a_offset7 + lda; | |||
| a_offset += 8 * lda; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| v2 = VLEV_FLOAT(a_offset2, vl); | |||
| v3 = VLEV_FLOAT(a_offset3, vl); | |||
| v4 = VLEV_FLOAT(a_offset4, vl); | |||
| v5 = VLEV_FLOAT(a_offset5, vl); | |||
| v6 = VLEV_FLOAT(a_offset6, vl); | |||
| v7 = VLEV_FLOAT(a_offset7, vl); | |||
| v8 = VLEV_FLOAT(a_offset8, vl); | |||
| vx8 = VSET_VX8(vx8, 0, v1); | |||
| vx8 = VSET_VX8(vx8, 1, v2); | |||
| vx8 = VSET_VX8(vx8, 2, v3); | |||
| vx8 = VSET_VX8(vx8, 3, v4); | |||
| vx8 = VSET_VX8(vx8, 4, v5); | |||
| vx8 = VSET_VX8(vx8, 5, v6); | |||
| vx8 = VSET_VX8(vx8, 6, v7); | |||
| vx8 = VSET_VX8(vx8, 7, v8); | |||
| VSSEG8_FLOAT(b_offset, vx8, vl); | |||
| a_offset1 += vl; | |||
| a_offset2 += vl; | |||
| a_offset3 += vl; | |||
| a_offset4 += vl; | |||
| a_offset5 += vl; | |||
| a_offset6 += vl; | |||
| a_offset7 += vl; | |||
| a_offset8 += vl; | |||
| b_offset += vl*8; | |||
| } | |||
| } | |||
| if (n & 4) { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda; | |||
| a_offset3 = a_offset2 + lda; | |||
| a_offset4 = a_offset3 + lda; | |||
| a_offset += 4 * lda; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| v2 = VLEV_FLOAT(a_offset2, vl); | |||
| v3 = VLEV_FLOAT(a_offset3, vl); | |||
| v4 = VLEV_FLOAT(a_offset4, vl); | |||
| vx4 = VSET_VX4(vx4, 0, v1); | |||
| vx4 = VSET_VX4(vx4, 1, v2); | |||
| vx4 = VSET_VX4(vx4, 2, v3); | |||
| vx4 = VSET_VX4(vx4, 3, v4); | |||
| VSSEG4_FLOAT(b_offset, vx4, vl); | |||
| a_offset1 += vl; | |||
| a_offset2 += vl; | |||
| a_offset3 += vl; | |||
| a_offset4 += vl; | |||
| b_offset += vl*4; | |||
| } | |||
| } | |||
| if (n & 2) { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda; | |||
| a_offset += 2 * lda; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| v2 = VLEV_FLOAT(a_offset2, vl); | |||
| vx2 = VSET_VX2(vx2, 0, v1); | |||
| vx2 = VSET_VX2(vx2, 1, v2); | |||
| VSSEG2_FLOAT(b_offset, vx2, vl); | |||
| a_offset1 += vl; | |||
| a_offset2 += vl; | |||
| b_offset += vl*2; | |||
| } | |||
| } | |||
| if (n & 1) { | |||
| a_offset1 = a_offset; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| a_offset1 += vl; | |||
| b_offset += vl; | |||
| } | |||
| } | |||
| return 0; | |||
| } | |||
| @@ -0,0 +1,143 @@ | |||
| /*************************************************************************** | |||
| Copyright (c) 2025, 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" | |||
| #if !defined(DOUBLE) | |||
| #define VSETVL(n) __riscv_vsetvl_e32m1(n) | |||
| #define FLOAT_V_T vfloat32m1_t | |||
| #define FLOAT_VX2_T vfloat32m1x2_t | |||
| #define FLOAT_VX4_T vfloat32m1x4_t | |||
| #define VSET_VX2 __riscv_vset_v_f32m1_f32m1x2 | |||
| #define VSET_VX4 __riscv_vset_v_f32m1_f32m1x4 | |||
| #define VLEV_FLOAT __riscv_vle32_v_f32m1 | |||
| #define VSEV_FLOAT __riscv_vse32_v_f32m1 | |||
| #define VSSEG2_FLOAT __riscv_vsseg2e32_v_f32m1x2 | |||
| #define VSSEG4_FLOAT __riscv_vsseg4e32_v_f32m1x4 | |||
| #else | |||
| #define VSETVL(n) __riscv_vsetvl_e64m1(n) | |||
| #define FLOAT_V_T vfloat64m1_t | |||
| #define FLOAT_VX2_T vfloat64m1x2_t | |||
| #define FLOAT_VX4_T vfloat64m1x4_t | |||
| #define VSET_VX2 __riscv_vset_v_f64m1_f64m1x2 | |||
| #define VSET_VX4 __riscv_vset_v_f64m1_f64m1x4 | |||
| #define VLEV_FLOAT __riscv_vle64_v_f64m1 | |||
| #define VSEV_FLOAT __riscv_vse64_v_f64m1 | |||
| #define VSSEG2_FLOAT __riscv_vsseg2e64_v_f64m1x2 | |||
| #define VSSEG4_FLOAT __riscv_vsseg4e64_v_f64m1x4 | |||
| #endif | |||
| // Optimizes the implementation in ../generic/gemm_ncopy_4.c | |||
| int CNAME(BLASLONG m, BLASLONG n, FLOAT *a, BLASLONG lda, FLOAT *b) | |||
| { | |||
| BLASLONG i, j; | |||
| FLOAT *a_offset; | |||
| FLOAT *a_offset1, *a_offset2, *a_offset3, *a_offset4; | |||
| FLOAT *b_offset; | |||
| FLOAT_V_T v1, v2, v3, v4; | |||
| FLOAT_VX2_T vx2; | |||
| FLOAT_VX4_T vx4; | |||
| size_t vl; | |||
| //fprintf(stderr, "gemm_ncopy_4 m=%ld n=%ld lda=%ld\n", m, n, lda); | |||
| a_offset = a; | |||
| b_offset = b; | |||
| for(j = (n >> 2); j > 0; j--) { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda; | |||
| a_offset3 = a_offset2 + lda; | |||
| a_offset4 = a_offset3 + lda; | |||
| a_offset += 4 * lda; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| v2 = VLEV_FLOAT(a_offset2, vl); | |||
| v3 = VLEV_FLOAT(a_offset3, vl); | |||
| v4 = VLEV_FLOAT(a_offset4, vl); | |||
| vx4 = VSET_VX4(vx4, 0, v1); | |||
| vx4 = VSET_VX4(vx4, 1, v2); | |||
| vx4 = VSET_VX4(vx4, 2, v3); | |||
| vx4 = VSET_VX4(vx4, 3, v4); | |||
| VSSEG4_FLOAT(b_offset, vx4, vl); | |||
| a_offset1 += vl; | |||
| a_offset2 += vl; | |||
| a_offset3 += vl; | |||
| a_offset4 += vl; | |||
| b_offset += vl*4; | |||
| } | |||
| } | |||
| if (n & 2) { | |||
| a_offset1 = a_offset; | |||
| a_offset2 = a_offset1 + lda; | |||
| a_offset += 2 * lda; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| v2 = VLEV_FLOAT(a_offset2, vl); | |||
| vx2 = VSET_VX2(vx2, 0, v1); | |||
| vx2 = VSET_VX2(vx2, 1, v2); | |||
| VSSEG2_FLOAT(b_offset, vx2, vl); | |||
| a_offset1 += vl; | |||
| a_offset2 += vl; | |||
| b_offset += vl*2; | |||
| } | |||
| } | |||
| if (n & 1) { | |||
| a_offset1 = a_offset; | |||
| for(i = m; i > 0; i -= vl) { | |||
| vl = VSETVL(i); | |||
| v1 = VLEV_FLOAT(a_offset1, vl); | |||
| VSEV_FLOAT(b_offset, v1, vl); | |||
| a_offset1 += vl; | |||
| b_offset += vl; | |||
| } | |||
| } | |||
| return 0; | |||
| } | |||
| @@ -0,0 +1,129 @@ | |||
| /*************************************************************************** | |||
| Copyright (c) 2025, 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" | |||
| #if !defined(DOUBLE) | |||
| #define FLOAT_V_T vfloat32m4_t | |||
| #define FLOAT_V_T_HALF vfloat32m2_t | |||
| #define FLOAT_V_T_QUARTER vfloat32m1_t | |||
| #define VLEV_FLOAT __riscv_vle32_v_f32m4 | |||
| #define VLEV_FLOAT_HALF __riscv_vle32_v_f32m2 | |||
| #define VLEV_FLOAT_QUARTER __riscv_vle32_v_f32m1 | |||
| #define VSEV_FLOAT __riscv_vse32_v_f32m4 | |||
| #define VSEV_FLOAT_HALF __riscv_vse32_v_f32m2 | |||
| #define VSEV_FLOAT_QUARTER __riscv_vse32_v_f32m1 | |||
| #else | |||
| #define FLOAT_V_T vfloat64m8_t | |||
| #define FLOAT_V_T_HALF vfloat64m4_t | |||
| #define FLOAT_V_T_QUARTER vfloat64m2_t | |||
| #define VLEV_FLOAT __riscv_vle64_v_f64m8 | |||
| #define VLEV_FLOAT_HALF __riscv_vle64_v_f64m4 | |||
| #define VLEV_FLOAT_QUARTER __riscv_vle64_v_f64m2 | |||
| #define VSEV_FLOAT __riscv_vse64_v_f64m8 | |||
| #define VSEV_FLOAT_HALF __riscv_vse64_v_f64m4 | |||
| #define VSEV_FLOAT_QUARTER __riscv_vse64_v_f64m2 | |||
| #endif | |||
| // Optimizes the implementation in ../generic/gemm_tcopy_16.c | |||
| int CNAME(BLASLONG m, BLASLONG n, IFLOAT *a, BLASLONG lda, IFLOAT *b) | |||
| { | |||
| BLASLONG i, j; | |||
| IFLOAT *aoffset; | |||
| IFLOAT *aoffset1; | |||
| IFLOAT *boffset, *boffset1, *boffset2, *boffset3, *boffset4, *boffset5; | |||
| FLOAT_V_T v0; | |||
| FLOAT_V_T_HALF v1; | |||
| FLOAT_V_T_QUARTER v2; | |||
| // fprintf(stderr, "gemm_tcopy_16 m=%ld n=%ld lda=%ld\n", m, n, lda); | |||
| aoffset = a; | |||
| boffset = b; | |||
| boffset2 = b + m * (n & ~15); | |||
| boffset3 = b + m * (n & ~7); | |||
| boffset4 = b + m * (n & ~3); | |||
| boffset5 = b + m * (n & ~1); | |||
| for(j = m; j > 0; j--) { | |||
| aoffset1 = aoffset; | |||
| boffset1 = boffset; | |||
| aoffset += lda; | |||
| boffset += 16; | |||
| for(i = (n >> 4); i > 0; i--) { | |||
| size_t vl = 16; | |||
| v0 = VLEV_FLOAT(aoffset1, vl); | |||
| VSEV_FLOAT(boffset1, v0, vl); | |||
| aoffset1 += 16; | |||
| boffset1 += 16 * m; | |||
| } | |||
| if (n & 8) { | |||
| size_t vl = 8; | |||
| v1 = VLEV_FLOAT_HALF(aoffset1, vl); | |||
| VSEV_FLOAT_HALF(boffset2, v1, vl); | |||
| aoffset1 += 8; | |||
| boffset2 += 8; | |||
| } | |||
| if (n & 4) { | |||
| size_t vl = 4; | |||
| v2 = VLEV_FLOAT_QUARTER(aoffset1, vl); | |||
| VSEV_FLOAT_QUARTER(boffset3, v2, vl); | |||
| aoffset1 += 4; | |||
| boffset3 += 4; | |||
| } | |||
| if (n & 2) { | |||
| *(boffset4) = *(aoffset1); | |||
| *(boffset4 + 1) = *(aoffset1 + 1); | |||
| aoffset1 += 2; | |||
| boffset4 += 2; | |||
| } | |||
| if (n & 1) { | |||
| *(boffset5) = *(aoffset1); | |||
| aoffset1 ++; | |||
| boffset5 ++; | |||
| } | |||
| } | |||
| return 0; | |||
| } | |||
| @@ -0,0 +1,91 @@ | |||
| /*************************************************************************** | |||
| Copyright (c) 2025, 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" | |||
| #if !defined(DOUBLE) | |||
| #define FLOAT_V_T vfloat32m1_t | |||
| #define VLEV_FLOAT __riscv_vle32_v_f32m1 | |||
| #define VSEV_FLOAT __riscv_vse32_v_f32m1 | |||
| #else | |||
| #define FLOAT_V_T vfloat64m2_t | |||
| #define VLEV_FLOAT __riscv_vle64_v_f64m2 | |||
| #define VSEV_FLOAT __riscv_vse64_v_f64m2 | |||
| #endif | |||
| int CNAME(BLASLONG m, BLASLONG n, IFLOAT *a, BLASLONG lda, IFLOAT *b) | |||
| { | |||
| BLASLONG i, j; | |||
| IFLOAT *aoffset; | |||
| IFLOAT *aoffset1; | |||
| IFLOAT *boffset, *boffset1, *boffset2, *boffset3; | |||
| FLOAT_V_T v0; | |||
| // fprintf(stderr, "gemm_tcopy_4 m=%ld n=%ld lda=%ld\n", m, n, lda); | |||
| aoffset = a; | |||
| boffset = b; | |||
| boffset2 = b + m * (n & ~3); | |||
| boffset3 = b + m * (n & ~1); | |||
| for(j = m; j > 0; j--) { | |||
| aoffset1 = aoffset; | |||
| boffset1 = boffset; | |||
| aoffset += lda; | |||
| boffset += 4; | |||
| for(i = (n >> 2); i > 0; i--) { | |||
| size_t vl = 4; | |||
| v0 = VLEV_FLOAT(aoffset1, vl); | |||
| VSEV_FLOAT(boffset1, v0, vl); | |||
| aoffset1 += 4; | |||
| boffset1 += 4 * m; | |||
| } | |||
| if (n & 2) { | |||
| *(boffset2) = *(aoffset1); | |||
| *(boffset2 + 1) = *(aoffset1 + 1); | |||
| aoffset1 += 2; | |||
| boffset2 += 2; | |||
| } | |||
| if (n & 1) { | |||
| *(boffset3) = *(aoffset1); | |||
| aoffset1 ++; | |||
| boffset3 ++; | |||
| } | |||
| } | |||
| return 0; | |||
| } | |||