/* Copyright (c) 2019 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #pragma once #if defined(__ARM_NEON__) || defined(__ARM_NEON) #include #include "operators/math/math.h" namespace paddle_mobile { namespace operators { namespace math { #if __aarch64__ void sgemm_6x16(const float *lhs, const float *rhs, const int k, float *output, const int ldc) { int kc1 = k; int step = 4 * ldc; int step1 = 4 * 6; asm volatile( "dup v6.4s, wzr \n\t" "dup v7.4s, wzr \n\t" "dup v8.4s, wzr \n\t" "dup v9.4s, wzr \n\t" "dup v10.4s, wzr \n\t" "dup v11.4s, wzr \n\t" "dup v12.4s, wzr \n\t" "dup v13.4s, wzr \n\t" "dup v14.4s, wzr \n\t" "dup v15.4s, wzr \n\t" "dup v16.4s, wzr \n\t" "dup v17.4s, wzr \n\t" "dup v18.4s, wzr \n\t" "dup v19.4s, wzr \n\t" "dup v20.4s, wzr \n\t" "dup v21.4s, wzr \n\t" "dup v22.4s, wzr \n\t" "dup v23.4s, wzr \n\t" "dup v24.4s, wzr \n\t" "dup v25.4s, wzr \n\t" "dup v26.4s, wzr \n\t" "dup v27.4s, wzr \n\t" "dup v28.4s, wzr \n\t" "dup v29.4s, wzr \n\t" "subs %[kc1], %[kc1], #1 \n\t" "blt 2f \n\t" "1: \n\t" "prfm pldl1keep, [%[lhs], #24] \n\t" "prfm pldl1keep, [%[rhs], #64] \n\t" "ld1 {v0.4s, v1.4s}, [%[lhs]], %[step1] \n\t" "ld1 {v2.4s, v3.4s, v4.4s, v5.4s}, [%[rhs]], #64 \n\t" "fmla v6.4s, v2.4s, v0.s[0] \n\t" "fmla v7.4s, v3.4s, v0.s[0] \n\t" "fmla v8.4s, v4.4s, v0.s[0] \n\t" "fmla v9.4s, v5.4s, v0.s[0] \n\t" "fmla v10.4s, v2.4s, v0.s[1] \n\t" "fmla v11.4s, v3.4s, v0.s[1] \n\t" "fmla v12.4s, v4.4s, v0.s[1] \n\t" "fmla v13.4s, v5.4s, v0.s[1] \n\t" "fmla v14.4s, v2.4s, v0.s[2] \n\t" "fmla v15.4s, v3.4s, v0.s[2] \n\t" "fmla v16.4s, v4.4s, v0.s[2] \n\t" "fmla v17.4s, v5.4s, v0.s[2] \n\t" "fmla v18.4s, v2.4s, v0.s[3] \n\t" "fmla v19.4s, v3.4s, v0.s[3] \n\t" "fmla v20.4s, v4.4s, v0.s[3] \n\t" "fmla v21.4s, v5.4s, v0.s[3] \n\t" "fmla v22.4s, v2.4s, v1.s[0] \n\t" "fmla v23.4s, v3.4s, v1.s[0] \n\t" "fmla v24.4s, v4.4s, v1.s[0] \n\t" "fmla v25.4s, v5.4s, v1.s[0] \n\t" "fmla v26.4s, v2.4s, v1.s[1] \n\t" "fmla v27.4s, v3.4s, v1.s[1] \n\t" "fmla v28.4s, v4.4s, v1.s[1] \n\t" "fmla v29.4s, v5.4s, v1.s[1] \n\t" "subs %[kc1], %[kc1], #1 \n\t" "bge 1b \n\t" "2: \n\t" "st1 {v6.4s, v7.4s, v8.4s, v9.4s}, [%[c]], %[step] \n\t" "st1 {v10.4s, v11.4s, v12.4s, v13.4s}, [%[c]], %[step] \n\t" "st1 {v14.4s, v15.4s, v16.4s, v17.4s}, [%[c]], %[step] \n\t" "st1 {v18.4s, v19.4s, v20.4s, v21.4s}, [%[c]], %[step] \n\t" "st1 {v22.4s, v23.4s, v24.4s, v25.4s}, [%[c]], %[step] \n\t" "st1 {v26.4s, v27.4s, v28.4s, v29.4s}, [%[c]], %[step] \n\t" : [lhs] "+r"(lhs), [rhs] "+r"(rhs), [c] "+r"(output), [kc1] "+r"(kc1) : [step] "r"(step), [step1] "r"(step1) : "memory", "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9", "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18", "v19", "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27", "v28", "v29"); } #else void sgemm_6x8(const float *lhs, const float *rhs, const int k, float *output, const int ldc) { int kc1 = k >> 3; // k / 8 int kc2 = k & 0x7; // k % 8 int step = sizeof(float) * ldc; asm volatile( "pld [%[lhs]] \n\t" "pld [%[lhs], #64] \n\t" "pld [%[rhs]] \n\t" "pld [%[rhs], #64] \n\t" "vmov.f32 q4, #0.0 \n\t" "vmov.f32 q5, #0.0 \n\t" "vmov.f32 q6, #0.0 \n\t" "vmov.f32 q7, #0.0 \n\t" "vmov.f32 q8, #0.0 \n\t" "vmov.f32 q9, #0.0 \n\t" "vmov.f32 q10, #0.0 \n\t" "vmov.f32 q11, #0.0 \n\t" "vmov.f32 q12, #0.0 \n\t" "vmov.f32 q13, #0.0 \n\t" "vmov.f32 q14, #0.0 \n\t" "vmov.f32 q15, #0.0 \n\t" "subs %[kc1], %[kc1], #1 \n\t" "blt 2f \n\t" "1: \n\t" "pld [%[lhs], #128] \n\t" "pld [%[rhs], #128] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "pld [%[lhs], #128] \n\t" "pld [%[rhs], #128] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "pld [%[lhs], #128] \n\t" "pld [%[rhs], #128] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "pld [%[lhs], #128] \n\t" "pld [%[rhs], #128] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "subs %[kc1], %[kc1], #1 \n\t" "bge 1b \n\t" "2: \n\t" "subs %[kc2], %[kc2], #1 \n\t" "blt 4f \n\t" "3: \n\t" "vld1.32 {d0-d2}, [%[lhs]]! \n\t" "vld1.32 {q2, q3}, [%[rhs]]! \n\t" "vmla.f32 q4, q2, d0[0] \n\t" "vmla.f32 q5, q3, d0[0] \n\t" "vmla.f32 q6, q2, d0[1] \n\t" "vmla.f32 q7, q3, d0[1] \n\t" "vmla.f32 q8, q2, d1[0] \n\t" "vmla.f32 q9, q3, d1[0] \n\t" "vmla.f32 q10, q2, d1[1] \n\t" "vmla.f32 q11, q3, d1[1] \n\t" "vmla.f32 q12, q2, d2[0] \n\t" "vmla.f32 q13, q3, d2[0] \n\t" "vmla.f32 q14, q2, d2[1] \n\t" "vmla.f32 q15, q3, d2[1] \n\t" "subs %[kc2], %[kc2], #1 \n\t" "bge 3b \n\t" "4: \n\t" "mov r5, %[c] \n\t" "mov r6, %[step] \n\t" "vst1.32 {q4, q5}, [r5], r6 \n\t" "vst1.32 {q6, q7}, [r5], r6 \n\t" "vst1.32 {q8, q9}, [r5], r6 \n\t" "vst1.32 {q10, q11}, [r5], r6 \n\t" "vst1.32 {q12, q13}, [r5], r6 \n\t" "vst1.32 {q14, q15}, [r5] \n\t" : : [lhs] "r"(lhs), [rhs] "r"(rhs), [c] "r"(output), [kc1] "r"(kc1), [kc2] "r"(kc2), [step] "r"(step) : "cc", "memory", "r5", "r6", "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "q8", "q9", "q10", "q11", "q12", "q13", "q14", "q15"); } #endif // __aarch64__ void sgemv_notrans_mx1(const int M, const int N, const float alpha, const float *A, const int lda, const float *B, const float beta, float *C) { uint32_t mask[4] = {0, 1, 2, 3}; int remain_n = N & 0x3; uint32x4_t vmask = vcltq_u32(vld1q_u32(mask), vdupq_n_u32(remain_n)); float32x4_t _sum0, _sum1, _sum2, _sum3; float32x4_t _valpha = vdupq_n_f32(alpha); #pragma omp parallel for for (int m = 0; m < M - 3; m += 4) { const float *in0 = A + m * lda; const float *in1 = in0 + lda; const float *in2 = in1 + lda; const float *in3 = in2 + lda; float *output = C + m; _sum0 = vdupq_n_f32(0.f); _sum1 = vdupq_n_f32(0.f); _sum2 = vdupq_n_f32(0.f); _sum3 = vdupq_n_f32(0.f); int n = 0; for (; n < N - 3; n += 4) { float32x4_t _r0 = vld1q_f32(in0 + n); float32x4_t _r1 = vld1q_f32(in1 + n); float32x4_t _r2 = vld1q_f32(in2 + n); float32x4_t _r3 = vld1q_f32(in3 + n); float32x4_t _b = vld1q_f32(B + n); _sum0 = vmlaq_f32(_sum0, _r0, _b); _sum1 = vmlaq_f32(_sum1, _r1, _b); _sum2 = vmlaq_f32(_sum2, _r2, _b); _sum3 = vmlaq_f32(_sum3, _r3, _b); } if (n < N) { float32x4_t _r0 = vld1q_f32(in0 + n); float32x4_t _r1 = vld1q_f32(in1 + n); float32x4_t _r2 = vld1q_f32(in2 + n); float32x4_t _r3 = vld1q_f32(in3 + n); float32x4_t _b = vld1q_f32(B + n); _r0 = vandq_f32_u32(_r0, vmask); _r1 = vandq_f32_u32(_r1, vmask); _r2 = vandq_f32_u32(_r2, vmask); _r3 = vandq_f32_u32(_r3, vmask); _b = vandq_f32_u32(_b, vmask); _sum0 = vmlaq_f32(_sum0, _r0, _b); _sum1 = vmlaq_f32(_sum1, _r1, _b); _sum2 = vmlaq_f32(_sum2, _r2, _b); _sum3 = vmlaq_f32(_sum3, _r3, _b); } _sum0 = vpaddq_f32(_sum0, _sum1); _sum2 = vpaddq_f32(_sum2, _sum3); _sum0 = vpaddq_f32(_sum0, _sum2); _sum0 = vmulq_f32(_sum0, _valpha); if (beta != 0.f) { _sum2 = vmulq_n_f32(vld1q_f32(output), beta); _sum0 = vaddq_f32(_sum0, _sum2); } // restore vst1q_f32(output, _sum0); } // remain m for (int m = (M & 0xfffc); m < M; ++m) { const float *in0 = A + m * lda; float *output = C + m; _sum0 = vdupq_n_f32(0.f); int n = 0; for (; n < N - 3; n += 4) { float32x4_t _r0 = vld1q_f32(in0 + n); float32x4_t _b = vld1q_f32(B + n); _sum0 = vmlaq_f32(_sum0, _r0, _b); } if (n < N) { float32x4_t _r0 = vld1q_f32(in0 + n); float32x4_t _b = vld1q_f32(B + n); _r0 = vandq_f32_u32(_r0, vmask); _b = vandq_f32_u32(_b, vmask); _sum0 = vmlaq_f32(_sum0, _r0, _b); } _sum0 = vpaddq_f32(_sum0, _sum0); _sum0 = vmulq_f32(_sum0, _valpha); if (beta != 0.f) { _sum2 = vmulq_n_f32(vld1q_f32(output), beta); _sum0 = vpaddq_f32(_sum0, _sum2); } // restore *output = vgetq_lane_f32(_sum0, 0) + vgetq_lane_f32(_sum0, 1); } } void sgemv_trans_mx1(const int M, const int N, const float alpha, const float *A, const int lda, const float *B, const float beta, float *C) { float32x4_t _valpha = vdupq_n_f32(alpha); if (beta == 0.f) { float32x4_t vzero = vdupq_n_f32(0.f); for (int m = 0; m < M - 3; m += 4) { vst1q_f32(C + m, vzero); } for (int m = (M & 0xfffc); m < M; ++m) { C[m] = 0.f; } } else { float32x4_t vbeta = vdupq_n_f32(beta); for (int m = 0; m < M - 3; m += 4) { float32x4_t _vc = vld1q_f32(C + m); _vc = vmulq_f32(_vc, vbeta); vst1q_f32(C + m, _vc); } for (int m = (M & 0xfffc); m < M; ++m) { C[m] *= beta; } } #pragma omp parallel for for (int n = 0; n < N - 3; n += 4) { const float *in0 = A + n * lda; const float *in1 = in0 + lda; const float *in2 = in1 + lda; const float *in3 = in2 + lda; float32x4_t _b = vld1q_f32(B + n); float32x4_t _sum0; int m = 0; for (; m < M - 3; m += 4) { float32x4_t _r0 = vld1q_f32(in0 + m); float32x4_t _r1 = vld1q_f32(in1 + m); float32x4_t _r2 = vld1q_f32(in2 + m); float32x4_t _r3 = vld1q_f32(in3 + m); float32x4_t _vc = vld1q_f32(C + m); _sum0 = vmulq_lane_f32(_r0, vget_low_f32(_b), 0); _sum0 = vmlaq_lane_f32(_sum0, _r1, vget_low_f32(_b), 1); _sum0 = vmlaq_lane_f32(_sum0, _r2, vget_high_f32(_b), 0); _sum0 = vmlaq_lane_f32(_sum0, _r3, vget_high_f32(_b), 1); _sum0 = vmulq_f32(_sum0, _valpha); _sum0 = vaddq_f32(_sum0, _vc); vst1q_f32(C + m, _sum0); } if (m < M) { float32x4_t _r0 = vld1q_f32(in0 + m); float32x4_t _r1 = vld1q_f32(in1 + m); float32x4_t _r2 = vld1q_f32(in2 + m); float32x4_t _r3 = vld1q_f32(in3 + m); float32x4_t _vc = vld1q_f32(C + m); _sum0 = vmulq_lane_f32(_r0, vget_low_f32(_b), 0); _sum0 = vmlaq_lane_f32(_sum0, _r1, vget_low_f32(_b), 1); _sum0 = vmlaq_lane_f32(_sum0, _r2, vget_high_f32(_b), 0); _sum0 = vmlaq_lane_f32(_sum0, _r3, vget_high_f32(_b), 1); _sum0 = vmulq_f32(_sum0, _valpha); _sum0 = vaddq_f32(_sum0, _vc); switch (M - m) { case 3: vst1q_lane_f32(C + m + 2, _sum0, 2); case 2: vst1_f32(C + m, vget_low_f32(_sum0)); break; case 1: vst1q_lane_f32(C + m, _sum0, 0); break; } } } // remain n for (int n = (N & 0xfffc); n < N; ++n) { const float *in0 = A + n * lda; float32x4_t _b = vld1q_dup_f32(B + n); float32x4_t _sum0; int m = 0; for (; m < M - 3; m += 4) { float32x4_t _r0 = vld1q_f32(in0 + m); _sum0 = vld1q_f32(C + m); _r0 = vmulq_f32(_r0, _b); _r0 = vmulq_f32(_valpha, _r0); _sum0 = vaddq_f32(_sum0, _r0); vst1q_f32(C + m, _sum0); } for (; m < M; ++m) { C[m] += alpha * (in0[m] * B[n]); } } } void sgemv_mx1(const bool trans, const int M, const int N, const float alpha, const float *A, const int lda, const float *B, const float beta, float *C) { if (trans) { sgemv_trans_mx1(M, N, alpha, A, lda, B, beta, C); } else { sgemv_notrans_mx1(M, N, alpha, A, lda, B, beta, C); } } } // namespace math } // namespace operators } // namespace paddle_mobile #endif // __ARM_NEON__