packed_sgemm.cc 222.9 KB
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// 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.

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#include "lite/backends/arm/math/packed_sgemm.h"
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#include <arm_neon.h>
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#include "lite/backends/arm/math/conv_block_utils.h"
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namespace paddle {
namespace lite {
namespace arm {
namespace math {

#ifdef __aarch64__
void prepackA_8x12(float *out,
                   const float *in,
                   float alpha,
                   int ldin,
                   int m0,
                   int mmax,
                   int k0,
                   int kmax);

void prepackA_trans_8x12(float *out,
                         const float *in,
                         float alpha,
                         int ldin,
                         int m0,
                         int mmax,
                         int k0,
                         int kmax);

void sgemm_prepacked_8x12(bool is_transB,
                          int M,
                          int N,
                          int K,
                          const float *A_packed,
                          const float *B,
                          int ldb,
                          float beta,
                          float *C,
                          int ldc,
                          const float *bias,
                          bool has_bias,
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                          const operators::ActivationParam act_param,
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                          ARMContext *ctx);
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void pack_m4(float *out,
             const float *in,
             float alpha,
             int ldin,
             int m0,
             int mmax,
             int k0,
             int kmax);

void pack_trans_m4(float *out,
                   const float *in,
                   float alpha,
                   int ldin,
                   int m0,
                   int mmax,
                   int k0,
                   int kmax);
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void sgemm_prepacked_4x4(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float *A_packed,
                         const float *B,
                         int ldb,
                         float beta,
                         float *C,
                         int ldc,
                         const float *bias,
                         bool has_bias,
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                         const operators::ActivationParam act_param,
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                         ARMContext *ctx);
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#else
// for kA72
void prepackA_6x8(float *out,
                  const float *in,
                  float alpha,
                  int ldin,
                  int m0,
                  int mmax,
                  int k0,
                  int kmax);

void prepackA_trans_6x8(float *out,
                        const float *in,
                        float alpha,
                        int ldin,
                        int m0,
                        int mmax,
                        int k0,
                        int kmax);
// for kA73
void prepackA_4x8(float *out,
                  const float *in,
                  float alpha,
                  int ldin,
                  int m0,
                  int mmax,
                  int k0,
                  int kmax);

void prepackA_trans_4x8(float *out,
                        const float *in,
                        float alpha,
                        int ldin,
                        int m0,
                        int mmax,
                        int k0,
                        int kmax);

// for kA72, 6x8
void sgemm_prepacked_6x8(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float *A_packed,
                         const float *B,
                         int ldb,
                         float beta,
                         float *C,
                         int ldc,
                         const float *bias,
                         bool has_bias,
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                         const operators::ActivationParam act_param,
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                         ARMContext *ctx);
// for kA73, 4x8
void sgemm_prepacked_4x8(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float *A_packed,
                         const float *B,
                         int ldb,
                         float beta,
                         float *C,
                         int ldc,
                         const float *bias,
                         bool has_bias,
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                         const operators::ActivationParam act_param,
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                         ARMContext *ctx);
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// for kA53
void sgemm_prepacked_6x8_a53(bool is_transB,
                             int M,
                             int N,
                             int K,
                             const float *A_packed,
                             const float *B,
                             int ldb,
                             float *C,
                             int ldc,
                             const float *bias,
                             bool has_bias,
                             int is_relu,
                             ARMContext *ctx);
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#endif  // __aarch64__

/**
 * \brief input data is not transpose
 * for arm-v7a, transform data to block x k x 6 layout
 * for arm-v8a, transform data to block x k x 8 layout
 */
void prepackA(float *out,
              const float *in,
              float alpha,
              int ldin,
              int m0,
              int mmax,
              int k0,
              int kmax,
              bool is_trans,
              ARMContext *ctx) {
#ifdef __aarch64__
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  if (mmax <= 4) {
    if (is_trans) {
      pack_trans_m4(out, in, alpha, ldin, m0, mmax, k0, kmax);
    } else {
      pack_m4(out, in, alpha, ldin, m0, mmax, k0, kmax);
    }
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  } else {
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    if (is_trans) {
      prepackA_trans_8x12(out, in, alpha, ldin, m0, mmax, k0, kmax);
    } else {
      prepackA_8x12(out, in, alpha, ldin, m0, mmax, k0, kmax);
    }
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  }
#else
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  if (ctx->arch() == kA73 || mmax <= 4) {
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    if (is_trans) {
      prepackA_trans_4x8(out, in, alpha, ldin, m0, mmax, k0, kmax);
    } else {
      prepackA_4x8(out, in, alpha, ldin, m0, mmax, k0, kmax);
    }
  } else {
    if (is_trans) {
      prepackA_trans_6x8(out, in, alpha, ldin, m0, mmax, k0, kmax);
    } else {
      prepackA_6x8(out, in, alpha, ldin, m0, mmax, k0, kmax);
    }
  }
#endif
}

void prepackA(TensorLite *tout,
              const TensorLite &tin,
              float alpha,
              int m,
              int k,
              int group,
              bool is_trans,
              ARMContext *ctx) {
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  int hblock = get_hblock(ctx);
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  int m_roundup = hblock * ((m + hblock - 1) / hblock);
  int group_size_round_up = ((m_roundup * k + 15) / 16) * 16;
  if (tout->numel() < group_size_round_up * group) {
    tout->Resize({group_size_round_up * group});
  }
  int lda = k;
  if (is_trans) {
    lda = m;
  }
  for (int g = 0; g < group; ++g) {
    const float *weights_group = tin.data<float>() + g * m * k;
    float *weights_trans_ptr =
        tout->mutable_data<float>() + g * group_size_round_up;
    prepackA(weights_trans_ptr,
             weights_group,
             alpha,
             lda,
             0,
             m,
             0,
             k,
             is_trans,
             ctx);
  }
}

/// a: m*k  b: k*n  c: m*n
void sgemm_prepack(bool is_transB,
                   int M,
                   int N,
                   int K,
                   const float *A_packed,
                   const float *B,
                   int ldb,
                   float beta,
                   float *C,
                   int ldc,
                   const float *bias,
                   bool has_bias,
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                   const operators::ActivationParam act_param,
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                   ARMContext *ctx) {
#ifdef __aarch64__
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  if (M <= 4) {
    sgemm_prepacked_4x4(is_transB,
                        M,
                        N,
                        K,
                        A_packed,
                        B,
                        ldb,
                        beta,
                        C,
                        ldc,
                        bias,
                        has_bias,
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                        act_param,
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                        ctx);
  } else {
    sgemm_prepacked_8x12(is_transB,
                         M,
                         N,
                         K,
                         A_packed,
                         B,
                         ldb,
                         beta,
                         C,
                         ldc,
                         bias,
                         has_bias,
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                         act_param,
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                         ctx);
  }
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#else   // armv7
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  if (ctx->arch() == kA73 || M <= 4) {
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    sgemm_prepacked_4x8(is_transB,
                        M,
                        N,
                        K,
                        A_packed,
                        B,
                        ldb,
                        beta,
                        C,
                        ldc,
                        bias,
                        has_bias,
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                        act_param,
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                        ctx);
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  } else if (ctx->arch() == kA53) {
    auto act_type = act_param.active_type;
    bool has_act = act_param.has_active;
    bool act_flag =
        (has_act == false) ||
        (has_act == true && act_type == lite_api::ActivationType::kRelu);
    bool has_beta = fabsf(beta) > 1e-8f ? true : false;
    bool a53_sgemm = act_flag && !has_beta;
    if (a53_sgemm) {
      sgemm_prepacked_6x8_a53(is_transB,
                              M,
                              N,
                              K,
                              A_packed,
                              B,
                              ldb,
                              C,
                              ldc,
                              bias,
                              has_bias,
                              static_cast<int>(has_act),
                              ctx);
    } else {
      sgemm_prepacked_6x8(is_transB,
                          M,
                          N,
                          K,
                          A_packed,
                          B,
                          ldb,
                          beta,
                          C,
                          ldc,
                          bias,
                          has_bias,
                          act_param,
                          ctx);
    }
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  } else {
    sgemm_prepacked_6x8(is_transB,
                        M,
                        N,
                        K,
                        A_packed,
                        B,
                        ldb,
                        beta,
                        C,
                        ldc,
                        bias,
                        has_bias,
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                        act_param,
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                        ctx);
  }
#endif  // arm64
}

#ifdef __aarch64__
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/*
 * The following function prepackA_8x12 is base on
 * https://github.com/ARM-software/ComputeLibrary/
 *
 * Copyright (c) 2017-2019 ARM Limited.
 *
 * SPDX-License-Identifier: MIT
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to
 * deal in the Software without restriction, including without limitation the
 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
 * sell copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all
 * copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */
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void prepackA_8x12(float *dout,
                   const float *inptr,
                   float alpha,
                   int ldin,
                   int m0,
                   int mmax,
                   int k0,
                   int kmax) {
  int x_len = kmax - k0;
  int stride = x_len * 8;
  float zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(float) * x_len);
  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;

#pragma omp parallel for
  for (int y = m0; y < mmax; y += 8) {
    float *outptr = dout + stride * (y - m0) / 8;

    const float *inptr0 = inptr + y * ldin + k0;
    const float *inptr1 = inptr0 + ldin;
    const float *inptr2 = inptr1 + ldin;
    const float *inptr3 = inptr2 + ldin;
    const float *inptr4 = inptr3 + ldin;
    const float *inptr5 = inptr4 + ldin;
    const float *inptr6 = inptr5 + ldin;
    const float *inptr7 = inptr6 + ldin;

    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]        \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        "prfm   pldl1keep, [%[ptr4]]        \n"
        "prfm   pldl1keep, [%[ptr4], #64]   \n"
        "prfm   pldl1keep, [%[ptr5]]        \n"
        "prfm   pldl1keep, [%[ptr5], #64]   \n"
        "prfm   pldl1keep, [%[ptr6]]        \n"
        "prfm   pldl1keep, [%[ptr6], #64]   \n"
        "prfm   pldl1keep, [%[ptr7]]        \n"
        "prfm   pldl1keep, [%[ptr7], #64]   \n"
        :
        : [ptr0] "r"(inptr0),
          [ptr1] "r"(inptr1),
          [ptr2] "r"(inptr2),
          [ptr3] "r"(inptr3),
          [ptr4] "r"(inptr4),
          [ptr5] "r"(inptr5),
          [ptr6] "r"(inptr6),
          [ptr7] "r"(inptr7)
        : "memory");

    int x = x_len;
    //! cope with row index exceed real size, set to zero buffer
    if ((y + 7) >= mmax) {
      switch ((y + 7) - mmax) {
        case 6:
          inptr1 = zerobuff;
        case 5:
          inptr2 = zerobuff;
        case 4:
          inptr3 = zerobuff;
        case 3:
          inptr4 = zerobuff;
        case 2:
          inptr5 = zerobuff;
        case 1:
          inptr6 = zerobuff;
        case 0:
          inptr7 = zerobuff;
        default:
          break;
      }
    }
    for (; x > 7; x -= 8) {
      asm volatile(
          "cbz    %w[has_alpha], 0f\n"            /* check alpha == 1.f? */
          "dup    v31.4s, %w[alpha]\n"            /* alpha to vector */
          "ldp    q0, q1,     [%[inptr0]], #32\n" /* load r0, a0~a7 */
          "ldp    q2, q3,     [%[inptr1]], #32\n" /* load r1, b0~b7 */
          "fmul   v0.4s,  v31.4s, v0.4s\n"        /* mul alpha */
          "fmul   v1.4s,  v31.4s, v1.4s\n"        /* mul alpha */
          "ldp    q4, q5,     [%[inptr2]], #32\n" /* load r2, c0~c7 */
          "fmul   v2.4s,  v31.4s, v2.4s\n"        /* mul alpha */
          "fmul   v3.4s,  v31.4s, v3.4s\n"        /* mul alpha */
          "ldp    q6, q7,     [%[inptr3]], #32\n" /* load r3, d0~d7 */
          "fmul   v4.4s,  v31.4s, v4.4s\n"        /* mul alpha */
          "fmul   v5.4s,  v31.4s, v5.4s\n"        /* mul alpha */
          "ldp    q8, q9,     [%[inptr4]], #32\n" /* load r4, e0~e7 */
          "fmul   v6.4s,  v31.4s, v6.4s\n"        /* mul alpha */
          "fmul   v7.4s,  v31.4s, v7.4s\n"        /* mul alpha */
          "ldp    q10, q11,   [%[inptr5]], #32\n" /* load r5, f0~f7 */
          "fmul   v8.4s,  v31.4s, v8.4s\n"        /* mul alpha */
          "fmul   v9.4s,  v31.4s, v9.4s\n"        /* mul alpha */
          "ldp    q12, q13,   [%[inptr6]], #32\n" /* load r6, g0~g7 */
          "fmul   v10.4s,  v31.4s, v10.4s\n"      /* mul alpha */
          "fmul   v11.4s,  v31.4s, v11.4s\n"      /* mul alpha */
          "ldp    q14, q15,   [%[inptr7]], #32\n" /* load r7, h0~h7 */
          "fmul   v12.4s,  v31.4s, v12.4s\n"      /* mul alpha */
          "fmul   v13.4s,  v31.4s, v13.4s\n"      /* mul alpha */
          "fmul   v14.4s,  v31.4s, v14.4s\n"      /* mul alpha */
          "fmul   v15.4s,  v31.4s, v15.4s\n"      /* mul alpha */
          "b 1f\n"                                /* to main process */
          "0: \n"                                 /* alpha == 1 */
          "ldp    q0, q1,     [%[inptr0]], #32\n" /* load r0, a0~a7 */
          "ldp    q2, q3,     [%[inptr1]], #32\n" /* load r1, b0~b7 */
          "ldp    q4, q5,     [%[inptr2]], #32\n" /* load r2, c0~c7 */
          "ldp    q6, q7,     [%[inptr3]], #32\n" /* load r3, d0~d7 */
          "ldp    q8, q9,     [%[inptr4]], #32\n" /* load r4, e0~e7 */
          "ldp    q10, q11,   [%[inptr5]], #32\n" /* load r5, f0~f7 */
          "ldp    q12, q13,   [%[inptr6]], #32\n" /* load r6, g0~g7 */
          "ldp    q14, q15,   [%[inptr7]], #32\n" /* load r7, h0~h7 */
          "1: \n"                                 /* main process */
          "trn1   v16.4s, v0.4s, v2.4s\n"         /* a0b0a2b2*/
          "trn2   v17.4s, v0.4s, v2.4s\n"         /* a1b1a3b3*/
          "trn1   v18.4s, v1.4s, v3.4s\n"         /* a4b4a6b6*/
          "trn2   v19.4s, v1.4s, v3.4s\n"         /* a5b5a7b7*/

          "trn1   v20.4s, v4.4s, v6.4s\n" /* c0d0c2d2*/
          "trn2   v21.4s, v4.4s, v6.4s\n" /* c1d1c3d3*/
          "trn1   v22.4s, v5.4s, v7.4s\n" /* c4d4c6d6*/
          "trn2   v23.4s, v5.4s, v7.4s\n" /* c5d5c7d7*/

          "trn1   v24.4s, v8.4s, v10.4s\n" /* e0f0e2f2*/
          "trn2   v25.4s, v8.4s, v10.4s\n" /* e1f1e3f3*/
          "trn1   v26.4s, v9.4s, v11.4s\n" /* e4f4e6f6*/
          "trn2   v27.4s, v9.4s, v11.4s\n" /* e5f5e7f7*/

          "trn1   v28.4s, v12.4s, v14.4s\n" /* g0h0g2h2*/
          "trn2   v29.4s, v12.4s, v14.4s\n" /* g1h1g3h3*/
          "trn1   v30.4s, v13.4s, v15.4s\n" /* g4h4g6h6*/
          "trn2   v31.4s, v13.4s, v15.4s\n" /* g5h5g7h7*/

          "trn1   v0.2d, v16.2d, v20.2d\n" /* a0b0c0d0 */
          "trn1   v1.2d, v24.2d, v28.2d\n" /* e0f0g0h0 */
          "trn1   v2.2d, v17.2d, v21.2d\n" /* a1b1c1d1 */
          "trn1   v3.2d, v25.2d, v29.2d\n" /* e1b1c1d1 */

          "trn2   v4.2d, v16.2d, v20.2d\n"    /* a2b2c2d2 */
          "trn2   v5.2d, v24.2d, v28.2d\n"    /* e2f2g2h2 */
          "stp    q0, q1, [%[outptr]], #32\n" /* save q0, q1, a0~h0*/
          "trn2   v6.2d, v17.2d, v21.2d\n"    /* a3b3c3d3 */
          "trn2   v7.2d, v25.2d, v29.2d\n"    /* e3f3g3h3 */
          "stp    q2, q3, [%[outptr]], #32\n" /* save q2, q3, a1~h1*/

          "trn1   v8.2d, v18.2d, v22.2d\n"    /* a4b4c4d4 */
          "trn1   v9.2d, v26.2d, v30.2d\n"    /* e4f4g4h4 */
          "stp    q4, q5, [%[outptr]], #32\n" /* save q4, q5, a2~h2*/
          "trn1   v10.2d, v19.2d, v23.2d\n"   /* a5b5c5d5 */
          "trn1   v11.2d, v27.2d, v31.2d\n"   /* e5f5g5h5 */
          "stp    q6, q7, [%[outptr]], #32\n" /* save q6, q7, a3~h3*/

          "trn2   v12.2d, v18.2d, v22.2d\n"     /* a6b6c6d6 */
          "trn2   v13.2d, v26.2d, v30.2d\n"     /* e6f6g6h6 */
          "stp    q8, q9, [%[outptr]], #32\n"   /* save q8, q9, a4~h4*/
          "trn2   v14.2d, v19.2d, v23.2d\n"     /* a7b7c7d7 */
          "trn2   v15.2d, v27.2d, v31.2d\n"     /* e7f7g7h7 */
          "stp    q10, q11, [%[outptr]], #32\n" /* save q10, q11, a5~h5*/

          "stp    q12, q13, [%[outptr]], #32\n" /* save q12, q13, a6~h6*/
          "stp    q14, q15, [%[outptr]], #32\n" /* save q14, q15, a7~h7*/
          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [inptr4] "+r"(inptr4),
            [inptr5] "+r"(inptr5),
            [inptr6] "+r"(inptr6),
            [inptr7] "+r"(inptr7),
            [outptr] "+r"(outptr)
          : [alpha] "r"(alpha), [has_alpha] "r"(has_alpha)
          : "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",
            "v30",
            "v31",
            "cc",
            "memory");
    }

    for (; x > 0; x--) {
      if (has_alpha) {
        *outptr++ = *inptr0++ * alpha;
        *outptr++ = *inptr1++ * alpha;
        *outptr++ = *inptr2++ * alpha;
        *outptr++ = *inptr3++ * alpha;
        *outptr++ = *inptr4++ * alpha;
        *outptr++ = *inptr5++ * alpha;
        *outptr++ = *inptr6++ * alpha;
        *outptr++ = *inptr7++ * alpha;
      } else {
        *outptr++ = *inptr0++;
        *outptr++ = *inptr1++;
        *outptr++ = *inptr2++;
        *outptr++ = *inptr3++;
        *outptr++ = *inptr4++;
        *outptr++ = *inptr5++;
        *outptr++ = *inptr6++;
        *outptr++ = *inptr7++;
      }
    }
  }
}
T
TianXiaogang 已提交
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void pack_m4(float *dout,
             const float *inptr,
             float alpha,
             int ldin,
             int m0,
             int mmax,
             int k0,
             int kmax) {
  int x_len = kmax - k0;
  int stride = x_len * 4;
  float zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(float) * x_len);
  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;

#pragma omp parallel for
  for (int y = m0; y < mmax; y += 4) {
    float *outptr = dout + stride * (y - m0) / 4;

    const float *inptr0 = inptr + y * ldin + k0;
    const float *inptr1 = inptr0 + ldin;
    const float *inptr2 = inptr1 + ldin;
    const float *inptr3 = inptr2 + ldin;

    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]        \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        :
        : [ptr0] "r"(inptr0),
          [ptr1] "r"(inptr1),
          [ptr2] "r"(inptr2),
          [ptr3] "r"(inptr3)
        : "memory");

    int x = x_len;
    //! cope with row index exceed real size, set to zero buffer
    if ((y + 3) >= mmax) {
      switch ((y + 3) - mmax) {
        case 2:
          inptr1 = zerobuff;
        case 1:
          inptr2 = zerobuff;
        case 0:
          inptr3 = zerobuff;
        default:
          break;
      }
    }
    for (; x > 7; x -= 8) {
      asm volatile(
          "cbz    %w[has_alpha], 0f\n"            /* check alpha == 1.f? */
          "dup    v31.4s, %w[alpha]\n"            /* alpha to vector */
          "ldp    q0, q1,     [%[inptr0]], #32\n" /* load r0, a0~a7 */
          "ldp    q2, q3,     [%[inptr1]], #32\n" /* load r1, b0~b7 */
          "fmul   v0.4s,  v31.4s, v0.4s\n"        /* mul alpha */
          "fmul   v1.4s,  v31.4s, v1.4s\n"        /* mul alpha */
          "ldp    q4, q5,     [%[inptr2]], #32\n" /* load r2, c0~c7 */
          "fmul   v2.4s,  v31.4s, v2.4s\n"        /* mul alpha */
          "fmul   v3.4s,  v31.4s, v3.4s\n"        /* mul alpha */
          "ldp    q6, q7,     [%[inptr3]], #32\n" /* load r3, d0~d7 */
          "fmul   v4.4s,  v31.4s, v4.4s\n"        /* mul alpha */
          "fmul   v5.4s,  v31.4s, v5.4s\n"        /* mul alpha */
          "fmul   v6.4s,  v31.4s, v6.4s\n"        /* mul alpha */
          "fmul   v7.4s,  v31.4s, v7.4s\n"        /* mul alpha */
          "b 1f\n"                                /* to main process */
          "0: \n"                                 /* alpha == 1 */
          "ldp    q0, q1,     [%[inptr0]], #32\n" /* load r0, a0~a7 */
          "ldp    q2, q3,     [%[inptr1]], #32\n" /* load r1, b0~b7 */
          "ldp    q4, q5,     [%[inptr2]], #32\n" /* load r2, c0~c7 */
          "ldp    q6, q7,     [%[inptr3]], #32\n" /* load r3, d0~d7 */
          "1: \n"                                 /* main process */
          "trn1   v8.4s, v0.4s, v2.4s\n"          /* a0b0a2b2*/
          "trn2   v9.4s, v0.4s, v2.4s\n"          /* a1b1a3b3*/
          "trn1   v10.4s, v1.4s, v3.4s\n"         /* a4b4a6b6*/
          "trn2   v11.4s, v1.4s, v3.4s\n"         /* a5b5a7b7*/

          "trn1   v12.4s, v4.4s, v6.4s\n" /* c0d0c2d2*/
          "trn2   v13.4s, v4.4s, v6.4s\n" /* c1d1c3d3*/
          "trn1   v14.4s, v5.4s, v7.4s\n" /* c4d4c6d6*/
          "trn2   v15.4s, v5.4s, v7.4s\n" /* c5d5c7d7*/

          "trn1   v0.2d, v8.2d, v12.2d\n"  /* a0b0c0d0 */
          "trn1   v1.2d, v9.2d, v13.2d\n"  /* a1b1c1d1 */
          "trn1   v2.2d, v10.2d, v14.2d\n" /* a4b4c4d4 */
          "trn1   v3.2d, v11.2d, v15.2d\n" /* a5b5c5d5 */

          "trn2   v4.2d, v8.2d, v12.2d\n"     /* a2b2c2d2 */
          "trn2   v5.2d, v9.2d, v13.2d\n"     /* a3b3c3d3 */
          "stp    q0, q1, [%[outptr]], #32\n" /* save q0, q1, a0~h0*/
          "trn2   v6.2d, v10.2d, v14.2d\n"    /* a6b6c6d6 */
          "trn2   v7.2d, v11.2d, v15.2d\n"    /* a7b7c7d7 */
          "stp    q4, q5, [%[outptr]], #32\n" /* save q2, q3, a1~h1*/
          "stp    q2, q3, [%[outptr]], #32\n" /* save q4, q5, a2~h2*/
          "stp    q6, q7, [%[outptr]], #32\n" /* save q6, q7, a3~h3*/

          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [outptr] "+r"(outptr)
          : [alpha] "r"(alpha), [has_alpha] "r"(has_alpha)
          : "v0",
            "v1",
            "v2",
            "v3",
            "v4",
            "v5",
            "v6",
            "v7",
            "v8",
            "v9",
            "v10",
            "v11",
            "v12",
            "v13",
            "v14",
            "v15",
            "cc",
            "memory");
    }

    for (; x > 0; x--) {
      if (has_alpha) {
        *outptr++ = *inptr0++ * alpha;
        *outptr++ = *inptr1++ * alpha;
        *outptr++ = *inptr2++ * alpha;
        *outptr++ = *inptr3++ * alpha;
      } else {
        *outptr++ = *inptr0++;
        *outptr++ = *inptr1++;
        *outptr++ = *inptr2++;
        *outptr++ = *inptr3++;
      }
    }
  }
}
Y
Yan Chunwei 已提交
777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936

void prepackA_trans_8x12(float *outptr,
                         const float *in,
                         float alpha,
                         int ldin,
                         int m0,
                         int mmax,
                         int k0,
                         int kmax) {
  auto inptr = in + k0 * ldin + m0;
  uint32_t mask_buffer[8] = {0, 1, 2, 3, 4, 5, 6, 7};
  int x_len = mmax - m0;
  int y_len = kmax - k0;
  int right_remain = x_len - 8 * (x_len / 8);
  int stride_out = 8 * y_len;

  float32x4_t vzero = vdupq_n_f32(0.f);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));
  uint32x4_t vmask2 =
      vcltq_u32(vld1q_u32(mask_buffer + 4), vdupq_n_u32(right_remain));

  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const float *ptr0 = inptr + y * ldin;
    const float *ptr1 = ptr0 + ldin;
    const float *ptr2 = ptr1 + ldin;
    const float *ptr3 = ptr2 + ldin;

    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]        \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        :
        : [ptr0] "r"(ptr0), [ptr1] "r"(ptr1), [ptr2] "r"(ptr2), [ptr3] "r"(ptr3)
        : "memory");

    float *outptr_row_col = outptr + y * 8;
    int i = 0;
    for (; i < x_len - 7; i += 8) {
      float32x4_t vr00 = vld1q_f32(ptr0);
      float32x4_t vr01 = vld1q_f32(ptr0 + 4);
      float32x4_t vr10 = vld1q_f32(ptr1);
      float32x4_t vr11 = vld1q_f32(ptr1 + 4);
      float32x4_t vr20 = vld1q_f32(ptr2);
      float32x4_t vr21 = vld1q_f32(ptr2 + 4);
      float32x4_t vr30 = vld1q_f32(ptr3);
      float32x4_t vr31 = vld1q_f32(ptr3 + 4);
      if (has_alpha) {
        vr00 = vmulq_f32(vr00, valpha);
        vr01 = vmulq_f32(vr01, valpha);
        vr10 = vmulq_f32(vr10, valpha);
        vr11 = vmulq_f32(vr11, valpha);
        vr20 = vmulq_f32(vr20, valpha);
        vr21 = vmulq_f32(vr21, valpha);
        vr30 = vmulq_f32(vr30, valpha);
        vr31 = vmulq_f32(vr31, valpha);
      }

      vst1q_f32(outptr_row_col, vr00);
      vst1q_f32(outptr_row_col + 4, vr01);
      vst1q_f32(outptr_row_col + 8, vr10);
      vst1q_f32(outptr_row_col + 12, vr11);
      vst1q_f32(outptr_row_col + 16, vr20);
      vst1q_f32(outptr_row_col + 20, vr21);
      vst1q_f32(outptr_row_col + 24, vr30);
      vst1q_f32(outptr_row_col + 28, vr31);

      ptr0 += 8;
      ptr1 += 8;
      ptr2 += 8;
      ptr3 += 8;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      float32x4_t vr00 = vld1q_f32(ptr0);
      float32x4_t vr01 = vld1q_f32(ptr0 + 4);
      float32x4_t vr10 = vld1q_f32(ptr1);
      float32x4_t vr11 = vld1q_f32(ptr1 + 4);
      float32x4_t vr20 = vld1q_f32(ptr2);
      float32x4_t vr21 = vld1q_f32(ptr2 + 4);
      float32x4_t vr30 = vld1q_f32(ptr3);
      float32x4_t vr31 = vld1q_f32(ptr3 + 4);

      if (has_alpha) {
        vr00 = vmulq_f32(vr00, valpha);
        vr01 = vmulq_f32(vr01, valpha);
        vr10 = vmulq_f32(vr10, valpha);
        vr11 = vmulq_f32(vr11, valpha);
        vr20 = vmulq_f32(vr20, valpha);
        vr21 = vmulq_f32(vr21, valpha);
        vr30 = vmulq_f32(vr30, valpha);
        vr31 = vmulq_f32(vr31, valpha);
      }

      float32x4_t vr00_1 = vbslq_f32(vmask1, vr00, vzero);
      float32x4_t vr01_1 = vbslq_f32(vmask2, vr01, vzero);
      float32x4_t vr10_1 = vbslq_f32(vmask1, vr10, vzero);
      float32x4_t vr11_1 = vbslq_f32(vmask2, vr11, vzero);
      float32x4_t vr20_1 = vbslq_f32(vmask1, vr20, vzero);
      float32x4_t vr21_1 = vbslq_f32(vmask2, vr21, vzero);
      float32x4_t vr30_1 = vbslq_f32(vmask1, vr30, vzero);
      float32x4_t vr31_1 = vbslq_f32(vmask2, vr31, vzero);

      vst1q_f32(outptr_row_col, vr00_1);
      vst1q_f32(outptr_row_col + 4, vr01_1);
      vst1q_f32(outptr_row_col + 8, vr10_1);
      vst1q_f32(outptr_row_col + 12, vr11_1);
      vst1q_f32(outptr_row_col + 16, vr20_1);
      vst1q_f32(outptr_row_col + 20, vr21_1);
      vst1q_f32(outptr_row_col + 24, vr30_1);
      vst1q_f32(outptr_row_col + 28, vr31_1);
    }
  }

#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const float *ptr0 = inptr + y * ldin;
    float *outptr_row_col = outptr + y * 8;
    int i = 0;
    for (; i < x_len - 7; i += 8) {
      float32x4_t vr0 = vld1q_f32(ptr0);
      float32x4_t vr1 = vld1q_f32(ptr0 + 4);
      if (has_alpha) {
        vr0 = vmulq_f32(vr0, valpha);
        vr1 = vmulq_f32(vr1, valpha);
      }
      vst1q_f32(outptr_row_col, vr0);
      vst1q_f32(outptr_row_col + 4, vr1);

      ptr0 += 8;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      float32x4_t vr0 = vld1q_f32(ptr0);
      float32x4_t vr1 = vld1q_f32(ptr0 + 4);

      if (has_alpha) {
        vr0 = vmulq_f32(vr0, valpha);
        vr1 = vmulq_f32(vr1, valpha);
      }

      float32x4_t vr0_1 = vbslq_f32(vmask1, vr0, vzero);
      float32x4_t vr1_1 = vbslq_f32(vmask2, vr1, vzero);

      vst1q_f32(outptr_row_col, vr0_1);
      vst1q_f32(outptr_row_col + 4, vr1_1);
    }
  }
}
T
TianXiaogang 已提交
937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058
void pack_trans_m4(float *outptr,
                   const float *in,
                   float alpha,
                   int ldin,
                   int m0,
                   int mmax,
                   int k0,
                   int kmax) {
  auto inptr = in + k0 * ldin + m0;
  uint32_t mask_buffer[4] = {0, 1, 2, 3};
  int x_len = mmax - m0;
  int y_len = kmax - k0;
  int right_remain = x_len - 4 * (x_len / 4);
  int stride_out = 4 * y_len;

  float32x4_t vzero = vdupq_n_f32(0.f);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));

  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const float *ptr0 = inptr + y * ldin;
    const float *ptr1 = ptr0 + ldin;
    const float *ptr2 = ptr1 + ldin;
    const float *ptr3 = ptr2 + ldin;

    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]        \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        :
        : [ptr0] "r"(ptr0), [ptr1] "r"(ptr1), [ptr2] "r"(ptr2), [ptr3] "r"(ptr3)
        : "memory");

    float *outptr_row_col = outptr + y * 4;
    int i = 0;
    for (; i < x_len - 3; i += 4) {
      float32x4_t vr00 = vld1q_f32(ptr0);
      float32x4_t vr10 = vld1q_f32(ptr1);
      float32x4_t vr20 = vld1q_f32(ptr2);
      float32x4_t vr30 = vld1q_f32(ptr3);
      if (has_alpha) {
        vr00 = vmulq_f32(vr00, valpha);
        vr10 = vmulq_f32(vr10, valpha);
        vr20 = vmulq_f32(vr20, valpha);
        vr30 = vmulq_f32(vr30, valpha);
      }

      vst1q_f32(outptr_row_col, vr00);
      vst1q_f32(outptr_row_col + 4, vr10);
      vst1q_f32(outptr_row_col + 8, vr20);
      vst1q_f32(outptr_row_col + 12, vr30);

      ptr0 += 4;
      ptr1 += 4;
      ptr2 += 4;
      ptr3 += 4;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      float32x4_t vr00 = vld1q_f32(ptr0);
      float32x4_t vr10 = vld1q_f32(ptr1);
      float32x4_t vr20 = vld1q_f32(ptr2);
      float32x4_t vr30 = vld1q_f32(ptr3);

      if (has_alpha) {
        vr00 = vmulq_f32(vr00, valpha);
        vr10 = vmulq_f32(vr10, valpha);
        vr20 = vmulq_f32(vr20, valpha);
        vr30 = vmulq_f32(vr30, valpha);
      }

      float32x4_t vr00_1 = vbslq_f32(vmask1, vr00, vzero);
      float32x4_t vr10_1 = vbslq_f32(vmask1, vr10, vzero);
      float32x4_t vr20_1 = vbslq_f32(vmask1, vr20, vzero);
      float32x4_t vr30_1 = vbslq_f32(vmask1, vr30, vzero);

      vst1q_f32(outptr_row_col, vr00_1);
      vst1q_f32(outptr_row_col + 4, vr10_1);
      vst1q_f32(outptr_row_col + 8, vr20_1);
      vst1q_f32(outptr_row_col + 12, vr30_1);
    }
  }

#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const float *ptr0 = inptr + y * ldin;
    float *outptr_row_col = outptr + y * 4;
    int i = 0;
    for (; i < x_len - 3; i += 4) {
      float32x4_t vr0 = vld1q_f32(ptr0);
      if (has_alpha) {
        vr0 = vmulq_f32(vr0, valpha);
      }
      vst1q_f32(outptr_row_col, vr0);

      ptr0 += 4;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      float32x4_t vr0 = vld1q_f32(ptr0);

      if (has_alpha) {
        vr0 = vmulq_f32(vr0, valpha);
      }

      float32x4_t vr0_1 = vbslq_f32(vmask1, vr0, vzero);

      vst1q_f32(outptr_row_col, vr0_1);
    }
  }
}
Y
Yan Chunwei 已提交
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#else  // __aarch64__
void prepackA_6x8(float* outptr,
                  const float* inptr,
                  float alpha,
                  int ldin,
                  int m0,
                  int mmax,
                  int k0,
                  int kmax) {
  int x_len = kmax - k0;
  float zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(float) * x_len);

  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

  for (int y = m0; y < mmax; y += 6) {
    const float* inptr0 = inptr + y * ldin + k0;
    const float* inptr1 = inptr0 + ldin;
    const float* inptr2 = inptr1 + ldin;
    const float* inptr3 = inptr2 + ldin;
    const float* inptr4 = inptr3 + ldin;
    const float* inptr5 = inptr4 + ldin;

    int x = x_len;
    if ((y + 5) >= mmax) {
      switch ((y + 5) - mmax) {
        case 4:
          inptr1 = zerobuff;
        case 3:
          inptr2 = zerobuff;
        case 2:
          inptr3 = zerobuff;
        case 1:
          inptr4 = zerobuff;
        case 0:
          inptr5 = zerobuff;
        default:
          break;
      }
    }

    for (; x > 7; x -= 8) {
      asm volatile(
          "vld4.32  {d0-d3}, [%[inptr0]]!   @ zip load r0, "
          "q0,q1=r00,r04,r01,r05,r02,r06,r03,r07\n"
          "vld4.32  {d4-d7}, [%[inptr1]]!   @ zip load r1, "
          "q2,q3=r10,r14,r11,r15,r12,r16,r13,r17\n"
          "vld4.32  {d8-d11}, [%[inptr2]]!  @ zip load r2, "
          "q4,q5=r20,r24,r21,r25,r22,r26,r23,r27\n"
          "vld4.32  {d12-d15}, [%[inptr3]]! @ zip load r3, "
          "q6,q7=r30,r34,r31,r35,r32,r36,r33,r37\n"
          "vld4.32  {d16-d19}, [%[inptr4]]! @ zip load r4, "
          "q8,q9=r40,r44,r41,r45,r42,r46,r43,r47\n"
          "vld4.32  {d20-d23}, [%[inptr5]]! @ zip load r5, "
          "q10,q11=r50,r54,r51,r55,r52,r56,r53,r57\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                        /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q1, q1, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q3, q3, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q4, q4, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q5, q5, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q6, q6, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q7, q7, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q8, q8, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q9, q9, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   q10, q10, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q11, q11, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vtrn.32  q0, q2                  @ trans data: q0=r00,r10,r01,r11; "
          "q2=r04,r14,r05,r15\n"
          "vtrn.32  q4, q6                  @ trans data: q4=r20,r30,r21,r31; "
          "q6=r24,r34,r25,r35\n"
          "vtrn.32  q8, q10                 @ trans data: q8=r40,r50,r41,r51; "
          "q10=r44,r54,r45,r55\n"

          "vswp     d1, d8                  @ swap d1, d8, q0=r00,r10,r20,r30; "
          "q4=r01,r11,r21,r31\n"
          "vst1.32  {d0-d1},  [%[outptr]]!  @ write q0:r00,r10,r20,r30\n"
          "vst1.32  {d16},    [%[outptr]]!  @ write d16(q8,low),r40,r50\n"
          "vst1.32  {d8-d9},  [%[outptr]]!  @ write q4:r01,r11,r21,r31\n"
          "vst1.32  {d17},    [%[outptr]]!  @ write d16(q8,high),r41,r51\n"

          "vtrn.32  q1, q3                  @ trans data: q1=r02,r12,r03,r13; "
          "q3=r06,r16,r07,r17\n"
          "vtrn.32  q5, q7                  @ trans data: q5=r22,r32,r23,r33; "
          "q7=r26,r36,r27,r37\n"
          "vtrn.32  q9, q11                 @ trans data: q9=r42,r52,r43,r53; "
          "q11=r46,r56,r47,r57\n"

          "vswp     d3, d10                 @ swap d3, d10, "
          "q1=r02,r12,r22,r32; q5=r03,r13,r23,r33\n"
          "vst1.32  {d2-d3},  [%[outptr]]!  @ write q1:r02,r12,r22,r32\n"
          "vst1.32  {d18},    [%[outptr]]!  @ write d18(q9,low),r42,r52\n"
          "vst1.32  {d10-d11},[%[outptr]]!  @ write q5:r03,r13,r23,r33\n"
          "vst1.32  {d19},    [%[outptr]]!  @ write d19(q9,high),r43,r53\n"

          "vswp     d5, d12                 @ swap d5, d12,q2=r04,r14,r24,r34; "
          "q6=r05,r15,r25,r35\n"
          "vst1.32  {d4-d5},  [%[outptr]]!  @ write q2:r04,r14,r24,r34\n"
          "vst1.32  {d20},    [%[outptr]]!  @ write d20(q10,low),r44,r54\n"
          "vst1.32  {d12-d13},[%[outptr]]!  @ write q6:r05,r15,r25,r35\n"
          "vst1.32  {d21},    [%[outptr]]!  @ write d21(q10,high),r45,r55\n"

          "vswp     d7, d14                 @ swap d7, d14, "
          "q3=r06,r16,r26,r36; q7=r07,r17,r27,r37\n"
          "vst1.32  {d6-d7},  [%[outptr]]!  @ write q3:r06,r16,r26,r36\n"
          "vst1.32  {d22},    [%[outptr]]!  @ write d22(q11,low),r46,r56\n"
          "vst1.32  {d14-d15},[%[outptr]]!  @ write q7:r07,r17,r27,r37\n"
          "vst1.32  {d23},    [%[outptr]]!  @ write d23(q11,high),r47,r57\n"
          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [inptr4] "+r"(inptr4),
            [inptr5] "+r"(inptr5),
            [outptr] "+r"(outptr)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0",
            "q1",
            "q2",
            "q3",
            "q4",
            "q5",
            "q6",
            "q7",
            "q8",
            "q9",
            "q10",
            "q11",
            "q15",
            "cc",
            "memory");
    }

    for (; x > 0; x--) {
      if (has_alpha) {
        *outptr++ = *inptr0++ * alpha;
        *outptr++ = *inptr1++ * alpha;
        *outptr++ = *inptr2++ * alpha;
        *outptr++ = *inptr3++ * alpha;
        *outptr++ = *inptr4++ * alpha;
        *outptr++ = *inptr5++ * alpha;
      } else {
        *outptr++ = *inptr0++;
        *outptr++ = *inptr1++;
        *outptr++ = *inptr2++;
        *outptr++ = *inptr3++;
        *outptr++ = *inptr4++;
        *outptr++ = *inptr5++;
      }
    }
  }
}

void prepackA_trans_6x8(float* outptr,
                        const float* in,
                        float alpha,
                        int ldin,
                        int m0,
                        int mmax,
                        int k0,
                        int kmax) {
  auto inptr = in + k0 * ldin + m0;

  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

  uint32_t mask_buffer[8] = {0, 1, 2, 3, 4, 5, 6, 7};
  int x_len = mmax - m0;
  int y_len = kmax - k0;
  int right_remain = x_len - 6 * (x_len / 6);
  int right_pad = 6 - right_remain;
  if (right_remain == 0) {
    right_pad = 0;
  }

  float* outptr_row = outptr;
  int stride_out = 6 * y_len;

  float32x4_t vzero = vdupq_n_f32(0.f);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));
  uint32x4_t vmask2 =
      vcltq_u32(vld1q_u32(mask_buffer + 4), vdupq_n_u32(right_remain));

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const float* ptr0 = inptr + y * ldin;
    const float* ptr1 = ptr0 + ldin;
    const float* ptr2 = ptr1 + ldin;
    const float* ptr3 = ptr2 + ldin;

    float* outptr_row_col = outptr_row + y * 6;
    int i = 0;
    for (; i < x_len - 5; i += 6) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d2}, [%[ptr0]]!        @ load r0, 6 elements\n"
          "vld1.32 {d4-d6}, [%[ptr1]]!        @ load r1, 6 elements\n"
          "vld1.32 {d8-d10}, [%[ptr2]]!       @ load r2, 6 elements\n"
          "vld1.32 {d12-d14}, [%[ptr3]]!      @ load r3, 6 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                        /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d2, d2, %e[alpha]\n"   /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d6, d6, %e[alpha]\n"   /* mul alpha */
          "vmul.f32   q4, q4, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d10, d10, %e[alpha]\n" /* mul alpha */
          "vmul.f32   q6, q6, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d14, d14, %e[alpha]\n" /* mul alpha */
          "0: \n"
          "vst1.32 {d0-d2}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d6}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d8-d10}, [%[outptr]]!     @ write to output ptr\n"
          "vst1.32 {d12-d14}, [%[outptr]]!    @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_pad > 0) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d2}, [%[ptr0]]!        @ load r0, 6 elements\n"
          "vld1.32 {d4-d6}, [%[ptr1]]!        @ load r1, 6 elements\n"
          "vld1.32 {d8-d10}, [%[ptr2]]!       @ load r2, 8 elements\n"
          "vld1.32 {d12-d14}, [%[ptr3]]!      @ load r3, 8 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                        /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d2, d2, %e[alpha]\n"   /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d6, d6, %e[alpha]\n"   /* mul alpha */
          "vmul.f32   q4, q4, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d10, d10, %e[alpha]\n" /* mul alpha */
          "vmul.f32   q6, q6, %q[alpha]\n"   /* mul alpha */
          "vmul.f32   d14, d14, %e[alpha]\n" /* mul alpha */
          "0: \n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   d2, %e[vzero], %e[vmask2]   @ bit select, pad zero\n"
          "vbif   q2, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   d6, %e[vzero], %e[vmask2]   @ bit select, pad zero\n"
          "vst1.32 {d0-d2}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d6}, [%[outptr]]!      @ write to output ptr\n"
          "vbif   q4, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   d10, %e[vzero], %e[vmask2]  @ bit select, pad zero\n"
          "vbif   q6, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   d14, %e[vzero], %e[vmask2]  @ bit select, pad zero\n"
          "vst1.32 {d8-d10}, [%[outptr]]!     @ write to output ptr\n"
          "vst1.32 {d12-d14}, [%[outptr]]!    @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          : [vmask1] "w"(vmask1),
            [vmask2] "w"(vmask2),
            [vzero] "w"(vzero),
            [has_alpha] "r"(has_alpha),
            [alpha] "w"(valpha)
          : "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "cc", "memory");
    }
  }

#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const float* ptr0 = inptr + y * ldin;
    float* outptr_row_col = outptr_row + y * 6;
    int i = 0;
    for (; i < x_len - 5; i += 6) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d2}, [%[ptr0]]!        @ load r0, 6 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "vmul.f32   d2, d2, %e[alpha]\n" /* mul alpha */
          "0: \n"
          "vst1.32 {d0-d2}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0", "q1", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_pad > 0) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d2}, [%[ptr0]]!        @ load r0, 6 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "vmul.f32   d2, d2, %e[alpha]\n" /* mul alpha */
          "0: \n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   d2, %e[vzero], %e[vmask2]   @ bit select, pad zero\n"
          "vst1.32 {d0-d2}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          : [vmask1] "w"(vmask1),
            [vmask2] "w"(vmask2),
            [vzero] "w"(vzero),
            [has_alpha] "r"(has_alpha),
            [alpha] "w"(valpha)
          : "q0", "q1", "cc", "memory");
    }
  }
}

void prepackA_4x8(float* outptr,
                  const float* inptr,
                  float alpha,
                  int ldin,
                  int m0,
                  int mmax,
                  int k0,
                  int kmax) {
  int x_len = kmax - k0;
  float zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(float) * x_len);

  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

  for (int y = m0; y < mmax; y += 4) {
    const float* inptr0 = inptr + y * ldin + k0;
    const float* inptr1 = inptr0 + ldin;
    const float* inptr2 = inptr1 + ldin;
    const float* inptr3 = inptr2 + ldin;

    int x = x_len;
    if ((y + 3) >= mmax) {
      switch ((y + 3) - mmax) {
        case 2:
          inptr1 = zerobuff;
        case 1:
          inptr2 = zerobuff;
        case 0:
          inptr3 = zerobuff;
        default:
          break;
      }
    }

    for (; x > 7; x -= 8) {
      asm volatile(
          "vld4.32  {d0-d3}, [%[inptr0]]!   @ zip load r0, "
          "q0,q1=r00,r04,r01,r05,r02,r06,r03,r07\n"
          "vld4.32  {d4-d7}, [%[inptr1]]!   @ zip load r1, "
          "q2,q3=r10,r14,r11,r15,r12,r16,r13,r17\n"
          "vld4.32  {d8-d11}, [%[inptr2]]!  @ zip load r2, "
          "q4,q5=r20,r24,r21,r25,r22,r26,r23,r27\n"
          "vld4.32  {d12-d15}, [%[inptr3]]! @ zip load r3, "
          "q6,q7=r30,r34,r31,r35,r32,r36,r33,r37\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q1, q1, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q3, q3, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q4, q4, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q5, q5, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q6, q6, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q7, q7, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vtrn.32  q0, q2                  @ trans data: q0=r00,r10,r01,r11; "
          "q2=r04,r14,r05,r15\n"
          "vtrn.32  q4, q6                  @ trans data: q4=r20,r30,r21,r31; "
          "q6=r24,r34,r25,r35\n"

          "vswp     d1, d8                  @ swap d1, d8, q0=r00,r10,r20,r30; "
          "q4=r01,r11,r21,r31\n"
          "vst1.32  {d0-d1},  [%[outptr]]!  @ write q0:r00,r10,r20,r30\n"
          "vst1.32  {d8-d9},  [%[outptr]]!  @ write q4:r01,r11,r21,r31\n"

          "vtrn.32  q1, q3                  @ trans data: q1=r02,r12,r03,r13; "
          "q3=r06,r16,r07,r17\n"
          "vtrn.32  q5, q7                  @ trans data: q5=r22,r32,r23,r33; "
          "q7=r26,r36,r27,r37\n"

          "vswp     d3, d10                 @ swap d3, d10, "
          "q1=r02,r12,r22,r32; q5=r03,r13,r23,r33\n"
          "vst1.32  {d2-d3},  [%[outptr]]!  @ write q1:r02,r12,r22,r32\n"
          "vst1.32  {d10-d11},[%[outptr]]!  @ write q5:r03,r13,r23,r33\n"

          "vswp     d5, d12                 @ swap d5, d12,q2=r04,r14,r24,r34; "
          "q6=r05,r15,r25,r35\n"
          "vst1.32  {d4-d5},  [%[outptr]]!  @ write q2:r04,r14,r24,r34\n"
          "vst1.32  {d12-d13},[%[outptr]]!  @ write q6:r05,r15,r25,r35\n"

          "vswp     d7, d14                 @ swap d7, d14, "
          "q3=r06,r16,r26,r36; q7=r07,r17,r27,r37\n"
          "vst1.32  {d6-d7},  [%[outptr]]!  @ write q3:r06,r16,r26,r36\n"
          "vst1.32  {d14-d15},[%[outptr]]!  @ write q7:r07,r17,r27,r37\n"
          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [outptr] "+r"(outptr)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "cc", "memory");
    }

    for (; x > 0; x--) {
      if (has_alpha) {
        *outptr++ = *inptr0++ * alpha;
        *outptr++ = *inptr1++ * alpha;
        *outptr++ = *inptr2++ * alpha;
        *outptr++ = *inptr3++ * alpha;
      } else {
        *outptr++ = *inptr0++;
        *outptr++ = *inptr1++;
        *outptr++ = *inptr2++;
        *outptr++ = *inptr3++;
      }
    }
  }
}

void prepackA_trans_4x8(float* outptr,
                        const float* in,
                        float alpha,
                        int ldin,
                        int m0,
                        int mmax,
                        int k0,
                        int kmax) {
  auto inptr = in + k0 * ldin + m0;
  bool has_alpha = fabsf(alpha - 1.f) > 1e-8f;
  float32x4_t valpha = vdupq_n_f32(alpha);

  uint32_t mask_buffer[8] = {0, 1, 2, 3, 4, 5, 6, 7};
  int x_len = mmax - m0;
  int y_len = kmax - k0;
  int right_remain = x_len - 4 * (x_len / 4);
  int right_pad = 4 - right_remain;
  if (right_remain == 0) {
    right_pad = 0;
  }

  int stride_out = 4 * y_len;

  float32x4_t vzero = vdupq_n_f32(0.f);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const float* ptr0 = inptr + y * ldin;
    const float* ptr1 = ptr0 + ldin;
    const float* ptr2 = ptr1 + ldin;
    const float* ptr3 = ptr2 + ldin;

    float* outptr_row_col = outptr + y * 4;
    int i = 0;
    for (; i < x_len - 3; i += 4) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d1}, [%[ptr0]]!        @ load r0, 4 elements\n"
          "vld1.32 {d2-d3}, [%[ptr1]]!        @ load r1, 4 elements\n"
          "vld1.32 {d4-d5}, [%[ptr2]]!        @ load r2, 4 elements\n"
          "vld1.32 {d6-d7}, [%[ptr3]]!        @ load r3, 4 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q1, q1, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q3, q3, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vst1.32 {d0-d1}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d2-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d5}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d6-d7}, [%[outptr]]!      @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0", "q1", "q2", "q3", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_pad > 0) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d1}, [%[ptr0]]!        @ load r0, 4 elements\n"
          "vld1.32 {d2-d3}, [%[ptr1]]!        @ load r1, 4 elements\n"
          "vld1.32 {d4-d5}, [%[ptr2]]!        @ load r2, 4 elements\n"
          "vld1.32 {d6-d7}, [%[ptr3]]!        @ load r3, 4 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q1, q1, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q2, q2, %q[alpha]\n" /* mul alpha */
          "vmul.f32   q3, q3, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q1, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q2, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q3, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vst1.32 {d0-d1}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d2-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d5}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d6-d7}, [%[outptr]]!      @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          : [vmask1] "w"(vmask1),
            [vzero] "w"(vzero),
            [has_alpha] "r"(has_alpha),
            [alpha] "w"(valpha)
          : "q0", "q1", "q2", "q3", "cc", "memory");
    }
  }

#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const float* ptr0 = inptr + y * ldin;
    float* outptr_row_col = outptr + y * 4;
    int i = 0;
    for (; i < x_len - 3; i += 4) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d1}, [%[ptr0]]!        @ load r0, 4 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vst1.32 {d0-d1}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          : [has_alpha] "r"(has_alpha), [alpha] "w"(valpha)
          : "q0", "q1", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_pad > 0) {
      float* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d1}, [%[ptr0]]!        @ load r0, 4 elements\n"
          "cmp %[has_alpha], #0\n"
          "beq  0f\n"                      /* check whether alpha == 1? */
          "vmul.f32   q0, q0, %q[alpha]\n" /* mul alpha */
          "0: \n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vst1.32 {d0-d1}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          : [vmask1] "w"(vmask1),
            [vzero] "w"(vzero),
            [has_alpha] "r"(has_alpha),
            [alpha] "w"(valpha)
          : "q0", "q1", "cc", "memory");
    }
  }
}

#endif  // __aarch64__

/**
* \brief input data is transpose
* for arm-v7a, transform data to block x k x 8 layout
* for arm-v8a, transform data to block x k x 12 layout
*/
#ifdef __aarch64__
void loadb(
    float *out, const float *in, int ldin, int k0, int kmax, int n0, int nmax) {
  auto outptr = reinterpret_cast<uint32_t *>(out);
  auto inptr = reinterpret_cast<const uint32_t *>(in) + k0 * ldin + n0;
  uint32_t mask_buffer[12] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11};
  int x_len = nmax - n0;
  int y_len = kmax - k0;
  int right_remain = x_len - 12 * (x_len / 12);
  int right_pad = 12 - right_remain;

  uint32_t *outptr_row = outptr;
  int stride_out = 12 * y_len;

  uint32x4_t vzero = vdupq_n_u32(0);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));
  uint32x4_t vmask2 =
      vcltq_u32(vld1q_u32(mask_buffer + 4), vdupq_n_u32(right_remain));
  uint32x4_t vmask3 =
      vcltq_u32(vld1q_u32(mask_buffer + 8), vdupq_n_u32(right_remain));

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const uint32_t *ptr0 = inptr + y * ldin;
    const uint32_t *ptr1 = ptr0 + ldin;
    const uint32_t *ptr2 = ptr1 + ldin;
    const uint32_t *ptr3 = ptr2 + ldin;
    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]                \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        :
        : [ptr0] "r"(ptr0), [ptr1] "r"(ptr1), [ptr2] "r"(ptr2), [ptr3] "r"(ptr3)
        : "memory");

    uint32_t *outptr_row_col = outptr_row + y * 12;

    int i = 0;
    for (; i < x_len - 11; i += 12) {
      uint32x4_t vr00 = vld1q_u32(ptr0);
      uint32x4_t vr01 = vld1q_u32(ptr0 + 4);
      uint32x4_t vr02 = vld1q_u32(ptr0 + 8);

      uint32x4_t vr10 = vld1q_u32(ptr1);
      uint32x4_t vr11 = vld1q_u32(ptr1 + 4);
      uint32x4_t vr12 = vld1q_u32(ptr1 + 8);

      vst1q_u32(outptr_row_col, vr00);
      vst1q_u32(outptr_row_col + 4, vr01);
      vst1q_u32(outptr_row_col + 8, vr02);

      uint32x4_t vr20 = vld1q_u32(ptr2);
      uint32x4_t vr21 = vld1q_u32(ptr2 + 4);
      uint32x4_t vr22 = vld1q_u32(ptr2 + 8);

      vst1q_u32(outptr_row_col + 12, vr10);
      vst1q_u32(outptr_row_col + 16, vr11);
      vst1q_u32(outptr_row_col + 20, vr12);

      uint32x4_t vr30 = vld1q_u32(ptr3);
      uint32x4_t vr31 = vld1q_u32(ptr3 + 4);
      uint32x4_t vr32 = vld1q_u32(ptr3 + 8);

      vst1q_u32(outptr_row_col + 24, vr20);
      vst1q_u32(outptr_row_col + 28, vr21);
      vst1q_u32(outptr_row_col + 32, vr22);

      vst1q_u32(outptr_row_col + 36, vr30);
      vst1q_u32(outptr_row_col + 40, vr31);
      vst1q_u32(outptr_row_col + 44, vr32);

      ptr0 += 12;
      ptr1 += 12;
      ptr2 += 12;
      ptr3 += 12;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      uint32x4_t vr00 = vld1q_u32(ptr0);
      uint32x4_t vr01 = vld1q_u32(ptr0 + 4);
      uint32x4_t vr02 = vld1q_u32(ptr0 + 8);

      uint32x4_t vr10 = vld1q_u32(ptr1);
      uint32x4_t vr11 = vld1q_u32(ptr1 + 4);
      uint32x4_t vr12 = vld1q_u32(ptr1 + 8);

      uint32x4_t vr00_1 = vbslq_u32(vmask1, vr00, vzero);
      uint32x4_t vr01_1 = vbslq_u32(vmask2, vr01, vzero);
      uint32x4_t vr02_1 = vbslq_u32(vmask3, vr02, vzero);

      uint32x4_t vr20 = vld1q_u32(ptr2);
      uint32x4_t vr21 = vld1q_u32(ptr2 + 4);
      uint32x4_t vr22 = vld1q_u32(ptr2 + 8);

      vst1q_u32(outptr_row_col, vr00_1);
      vst1q_u32(outptr_row_col + 4, vr01_1);
      vst1q_u32(outptr_row_col + 8, vr02_1);

      uint32x4_t vr10_1 = vbslq_u32(vmask1, vr10, vzero);
      uint32x4_t vr11_1 = vbslq_u32(vmask2, vr11, vzero);
      uint32x4_t vr12_1 = vbslq_u32(vmask3, vr12, vzero);

      uint32x4_t vr30 = vld1q_u32(ptr3);
      uint32x4_t vr31 = vld1q_u32(ptr3 + 4);
      uint32x4_t vr32 = vld1q_u32(ptr3 + 8);

      vst1q_u32(outptr_row_col + 12, vr10_1);
      vst1q_u32(outptr_row_col + 16, vr11_1);
      vst1q_u32(outptr_row_col + 20, vr12_1);

      uint32x4_t vr20_1 = vbslq_u32(vmask1, vr20, vzero);
      uint32x4_t vr21_1 = vbslq_u32(vmask2, vr21, vzero);
      uint32x4_t vr22_1 = vbslq_u32(vmask3, vr22, vzero);

      uint32x4_t vr30_1 = vbslq_u32(vmask1, vr30, vzero);
      uint32x4_t vr31_1 = vbslq_u32(vmask2, vr31, vzero);
      uint32x4_t vr32_1 = vbslq_u32(vmask3, vr32, vzero);

      vst1q_u32(outptr_row_col + 24, vr20_1);
      vst1q_u32(outptr_row_col + 28, vr21_1);
      vst1q_u32(outptr_row_col + 32, vr22_1);

      vst1q_u32(outptr_row_col + 36, vr30_1);
      vst1q_u32(outptr_row_col + 40, vr31_1);
      vst1q_u32(outptr_row_col + 44, vr32_1);
    }
  }

#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const uint32_t *ptr0 = inptr + y * ldin;
    uint32_t *outptr_row_col = outptr_row + y * 12;

    int i = 0;
    for (; i < x_len - 11; i += 12) {
      uint32x4_t vr0 = vld1q_u32(ptr0);
      uint32x4_t vr1 = vld1q_u32(ptr0 + 4);
      uint32x4_t vr2 = vld1q_u32(ptr0 + 8);
      vst1q_u32(outptr_row_col, vr0);
      vst1q_u32(outptr_row_col + 4, vr1);
      vst1q_u32(outptr_row_col + 8, vr2);

      ptr0 += 12;

      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      uint32x4_t vr0 = vld1q_u32(ptr0);
      uint32x4_t vr1 = vld1q_u32(ptr0 + 4);
      uint32x4_t vr2 = vld1q_u32(ptr0 + 8);

      uint32x4_t vr0_1 = vbslq_u32(vmask1, vr0, vzero);
      uint32x4_t vr1_1 = vbslq_u32(vmask2, vr1, vzero);
      uint32x4_t vr2_1 = vbslq_u32(vmask3, vr2, vzero);

      vst1q_u32(outptr_row_col, vr0_1);
      vst1q_u32(outptr_row_col + 4, vr1_1);
      vst1q_u32(outptr_row_col + 8, vr2_1);
    }
  }
}

void loadb_trans(
    float *out, const float *in, int ldin, int k0, int kmax, int n0, int nmax) {
  int x_len = kmax - k0;
  uint32_t zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(uint32_t) * x_len);
  auto outptr = reinterpret_cast<uint32_t *>(out);
  auto inptr = reinterpret_cast<const uint32_t *>(in);

  //! data B is not transposed, transpose B to k * 12
  for (int y = n0; y < nmax; y += 12) {
    const uint32_t *inptr0 = inptr + y * ldin + k0;
    const uint32_t *inptr1 = inptr0 + ldin;
    const uint32_t *inptr2 = inptr1 + ldin;
    const uint32_t *inptr3 = inptr2 + ldin;
    const uint32_t *inptr4 = inptr3 + ldin;
    const uint32_t *inptr5 = inptr4 + ldin;
    const uint32_t *inptr6 = inptr5 + ldin;
    const uint32_t *inptr7 = inptr6 + ldin;
    const uint32_t *inptr8 = inptr7 + ldin;
    const uint32_t *inptr9 = inptr8 + ldin;
    const uint32_t *inptr10 = inptr9 + ldin;
    const uint32_t *inptr11 = inptr10 + ldin;

    asm volatile(
        "prfm   pldl1keep, [%[ptr0]]        \n"
        "prfm   pldl1keep, [%[ptr0], #64]   \n"
        "prfm   pldl1keep, [%[ptr1]]        \n"
        "prfm   pldl1keep, [%[ptr1], #64]   \n"
        "prfm   pldl1keep, [%[ptr2]]        \n"
        "prfm   pldl1keep, [%[ptr2], #64]   \n"
        "prfm   pldl1keep, [%[ptr3]]        \n"
        "prfm   pldl1keep, [%[ptr3], #64]   \n"
        "prfm   pldl1keep, [%[ptr4]]        \n"
        "prfm   pldl1keep, [%[ptr4], #64]   \n"
        "prfm   pldl1keep, [%[ptr5]]        \n"
        "prfm   pldl1keep, [%[ptr5], #64]   \n"
        "prfm   pldl1keep, [%[ptr6]]        \n"
        "prfm   pldl1keep, [%[ptr6], #64]   \n"
        "prfm   pldl1keep, [%[ptr7]]        \n"
        "prfm   pldl1keep, [%[ptr7], #64]   \n"
        "prfm   pldl1keep, [%[ptr8]]        \n"
        "prfm   pldl1keep, [%[ptr8], #64]   \n"
        "prfm   pldl1keep, [%[ptr9]]        \n"
        "prfm   pldl1keep, [%[ptr9], #64]   \n"
        "prfm   pldl1keep, [%[ptr10]]        \n"
        "prfm   pldl1keep, [%[ptr10], #64]   \n"
        "prfm   pldl1keep, [%[ptr11]]        \n"
        "prfm   pldl1keep, [%[ptr11], #64]   \n"
        :
        : [ptr0] "r"(inptr0),
          [ptr1] "r"(inptr1),
          [ptr2] "r"(inptr2),
          [ptr3] "r"(inptr3),
          [ptr4] "r"(inptr4),
          [ptr5] "r"(inptr5),
          [ptr6] "r"(inptr6),
          [ptr7] "r"(inptr7),
          [ptr8] "r"(inptr8),
          [ptr9] "r"(inptr9),
          [ptr10] "r"(inptr10),
          [ptr11] "r"(inptr11)
        : "memory");

    int x = x_len;

    //! cope with row index exceed real size, set to zero buffer
    if ((y + 11) >= nmax) {
      switch ((y + 11) - nmax) {
        case 10:
          inptr1 = zerobuff;
        case 9:
          inptr2 = zerobuff;
        case 8:
          inptr3 = zerobuff;
        case 7:
          inptr4 = zerobuff;
        case 6:
          inptr5 = zerobuff;
        case 5:
          inptr6 = zerobuff;
        case 4:
          inptr7 = zerobuff;
        case 3:
          inptr8 = zerobuff;
        case 2:
          inptr9 = zerobuff;
        case 1:
          inptr10 = zerobuff;
        case 0:
          inptr11 = zerobuff;
        default:
          break;
      }
    }
    for (; x > 7; x -= 8) {
1893
      // clang-format off
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Yan Chunwei 已提交
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      asm volatile(
          "ldp    q0, q1, [%[inptr0]], #32\n" /* r0, a0~a7 */
          "ldp    q2, q3, [%[inptr1]], #32\n" /* r1, b0~b7 */
          "ldp    q4, q5, [%[inptr2]], #32\n" /* r2, c0~c7 */
          "ldp    q6, q7, [%[inptr3]], #32\n" /* r3, d0~d7 */

          "zip1   v16.4s, v0.4s, v4.4s\n" /* a0c0a1c1 */
          "zip1   v17.4s, v2.4s, v6.4s\n" /* b0d0b1d1 */
          "prfm   pldl1keep, [%[inptr0], #128] \n"

          "ldp    q8, q9, [%[inptr4]], #32\n"   /* r4, e0~e7 */
          "ldp    q10, q11, [%[inptr5]], #32\n" /* r5, f0~f7 */
          "ldp    q12, q13, [%[inptr6]], #32\n" /* r6, g0~g7 */
          "ldp    q14, q15, [%[inptr7]], #32\n" /* r7, h0~h7 */

          "zip1   v18.4s, v8.4s, v12.4s\n"  /* e0g0e1g1 */
          "zip1   v19.4s, v10.4s, v14.4s\n" /* f0h0f1h1 */
          "prfm   pldl1keep, [%[inptr1], #128]\n"
          "zip1   v20.4s, v16.4s, v17.4s\n" /* a0b0c0d0 */
          "zip1   v21.4s, v18.4s, v19.4s\n" /* e0f0g0h0 */
          "prfm   pldl1keep, [%[inptr2], #128]\n"
          "zip2   v22.4s, v16.4s, v17.4s\n" /* a1b1c1d1 */
          "zip2   v23.4s, v18.4s, v19.4s\n" /* e1f1g1h1 */

          "ldp    q24, q25, [%[inptr8]], #32\n"  /* r8, i0~i7 */
          "ldp    q26, q27, [%[inptr9]], #32\n"  /* r9, j0~j7 */
          "ldp    q28, q29, [%[inptr10]], #32\n" /* r10, k0~k7 */
          "ldp    q30, q31, [%[inptr11]], #32\n" /* r11, l0~l7 */

          "stp    q20, q21, [%[outptr]], #32\n" /* save a0~h0 */
          "prfm   pldl1keep, [%[inptr3], #128]\n"

          "zip1   v16.4s, v24.4s, v28.4s\n" /* i0k0i1k1 */
          "zip1   v17.4s, v26.4s, v30.4s\n" /* j0l0j1l1 */
          "prfm   pldl1keep, [%[inptr4], #128]\n"
          "zip1   v18.4s, v16.4s, v17.4s\n" /* i0j0k0l0 */
          "zip2   v19.4s, v16.4s, v17.4s\n" /* i1j1k1l1 */
          "prfm   pldl1keep, [%[inptr5], #128]\n"
          "zip2   v16.4s, v0.4s, v4.4s\n" /* a2c2a3c3 */
          "zip2   v17.4s, v2.4s, v6.4s\n" /* b2d2b3d3 */

          "str    q18, [%[outptr]], #16\n"      /* save j0~l0 */
          "stp    q22, q23, [%[outptr]], #32\n" /* save a1~h1 */
          "str    q19, [%[outptr]], #16\n"      /* save j1~l1 */

          "zip2   v18.4s, v8.4s, v12.4s\n"  /* e2g2e3g3 */
          "zip2   v19.4s, v10.4s, v14.4s\n" /* f2h2f3h3 */
          "prfm   pldl1keep, [%[inptr6], #128]\n"
          "zip1   v20.4s, v16.4s, v17.4s\n" /* a2b2c2d2 */
          "zip1   v21.4s, v18.4s, v19.4s\n" /* e2f2g2h2 */
          "prfm   pldl1keep, [%[inptr7], #128]\n"
          "zip2   v22.4s, v16.4s, v17.4s\n" /* a3b3c3d3 */
          "zip2   v23.4s, v18.4s, v19.4s\n" /* e3f3g3h3 */
          "prfm   pldl1keep, [%[inptr8], #128]\n"
          "zip2   v16.4s, v24.4s, v28.4s\n" /* i2k2i3k3 */
          "zip2   v17.4s, v26.4s, v30.4s\n" /* j2l2j3l3 */

          "stp    q20, q21, [%[outptr]], #32\n" /* save a2~h2 */

          "zip1   v18.4s, v16.4s, v17.4s\n" /* i2j2k2l2 */
          "zip2   v19.4s, v16.4s, v17.4s\n" /* i3j3k3l3 */
          "prfm   pldl1keep, [%[inptr9], #128]\n"
          "zip1   v16.4s, v1.4s, v5.4s\n" /* a4c4a5c5 */
          "zip1   v17.4s, v3.4s, v7.4s\n" /* b4d4b5d5 */

          "str    q18, [%[outptr]], #16\n"      /* save i2~l2 */
          "stp    q22, q23, [%[outptr]], #32\n" /* save a3~h3 */
          "str    q19, [%[outptr]], #16\n"      /* save i3~l3 */

          "zip1   v18.4s, v9.4s, v13.4s\n"  /* e4g4e5g5 */
          "zip1   v19.4s, v11.4s, v15.4s\n" /* f4h4f5h5 */
          "prfm   pldl1keep, [%[inptr10], #128]\n"
          "zip1   v20.4s, v16.4s, v17.4s\n" /* a4b4c4d4 */
          "zip1   v21.4s, v18.4s, v19.4s\n" /* e4f4g4h4 */
          "prfm   pldl1keep, [%[inptr11], #128]\n"
          "zip2   v22.4s, v16.4s, v17.4s\n" /* a5b5c5d5 */
          "zip2   v23.4s, v18.4s, v19.4s\n" /* e5f5g5h5 */
          "zip1   v16.4s, v25.4s, v29.4s\n" /* i4k4i5k5 */
          "zip1   v17.4s, v27.4s, v31.4s\n" /* j4l4j5l5 */

          "stp    q20, q21, [%[outptr]], #32\n" /* save a4~h4 */

          "zip1   v18.4s, v16.4s, v17.4s\n" /* i4j4k4l4 */
          "zip2   v19.4s, v16.4s, v17.4s\n" /* i5j5k5l5 */
          "zip2   v16.4s, v1.4s, v5.4s\n"   /* a6c6a7c7 */
          "zip2   v17.4s, v3.4s, v7.4s\n"   /* b6d6b7d7 */

          "str    q18, [%[outptr]], #16\n"      /* save i4~l4 */
          "stp    q22, q23, [%[outptr]], #32\n" /* save a5~h5 */
          "str    q19, [%[outptr]], #16\n"      /* save i5~l5 */

          "zip2   v18.4s, v9.4s, v13.4s\n"  /* e6g6e7g7 */
          "zip2   v19.4s, v11.4s, v15.4s\n" /* f6h6f7h7 */
          "zip1   v20.4s, v16.4s, v17.4s\n" /* a6b6c6d6 */
          "zip1   v21.4s, v18.4s, v19.4s\n" /* e6f6g6h6 */
          "zip2   v22.4s, v16.4s, v17.4s\n" /* a7b7c7d7 */
          "zip2   v23.4s, v18.4s, v19.4s\n" /* e7f7g7h7 */
          "zip2   v16.4s, v25.4s, v29.4s\n" /* i6k6i7k7 */
          "zip2   v17.4s, v27.4s, v31.4s\n" /* j6l6j7l7 */

          "stp    q20, q21, [%[outptr]], #32\n" /* save a6~h6 */

          "zip1   v18.4s, v16.4s, v17.4s\n" /* i6j6k6l6 */
          "zip2   v19.4s, v16.4s, v17.4s\n" /* i7j7k7l7 */

          "str    q18, [%[outptr]], #16\n"      /* save i6~l6 */
          "stp    q22, q23, [%[outptr]], #32\n" /* save a7~h7 */
          "str    q19, [%[outptr]], #16\n"      /* save i7~l7 */
          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [inptr4] "+r"(inptr4),
            [inptr5] "+r"(inptr5),
            [inptr6] "+r"(inptr6),
            [inptr7] "+r"(inptr7),
            [inptr8] "+r"(inptr8),
            [inptr9] "+r"(inptr9),
            [inptr10] "+r"(inptr10),
            [inptr11] "+r"(inptr11),
            [outptr] "+r"(outptr)
          :
2016 2017 2018 2019 2020 2021
          : "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","v30","v31","cc","memory");
      // clang-format on
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Yan Chunwei 已提交
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    }

    for (; x > 0; x--) {
      *outptr++ = *inptr0++;
      *outptr++ = *inptr1++;
      *outptr++ = *inptr2++;
      *outptr++ = *inptr3++;
      *outptr++ = *inptr4++;
      *outptr++ = *inptr5++;
      *outptr++ = *inptr6++;
      *outptr++ = *inptr7++;
      *outptr++ = *inptr8++;
      *outptr++ = *inptr9++;
      *outptr++ = *inptr10++;
      *outptr++ = *inptr11++;
    }
  }
}

#else  // __aarch64__
void loadb(
    float* out, const float* in, int ldin, int k0, int kmax, int n0, int nmax) {
  auto outptr = reinterpret_cast<uint32_t*>(out);
  auto inptr = reinterpret_cast<const uint32_t*>(in) + k0 * ldin + n0;
  uint32_t mask_buffer[8] = {0, 1, 2, 3, 4, 5, 6, 7};
  int x_len = nmax - n0;
  int y_len = kmax - k0;
  int right_remain = x_len - 8 * (x_len / 8);
  int right_pad = 8 - right_remain;

  uint32_t* outptr_row = outptr;
  int stride_out = 8 * y_len;

  uint32x4_t vzero = vdupq_n_u32(0);
  uint32x4_t vmask1 =
      vcltq_u32(vld1q_u32(mask_buffer), vdupq_n_u32(right_remain));
  uint32x4_t vmask2 =
      vcltq_u32(vld1q_u32(mask_buffer + 4), vdupq_n_u32(right_remain));

#pragma omp parallel for
  for (int y = 0; y < y_len - 3; y += 4) {
    const uint32_t* ptr0 = inptr + y * ldin;
    const uint32_t* ptr1 = ptr0 + ldin;
    const uint32_t* ptr2 = ptr1 + ldin;
    const uint32_t* ptr3 = ptr2 + ldin;
    uint32_t* outptr_row_col = outptr_row + y * 8;
    int i = 0;
    for (; i < x_len - 7; i += 8) {
      uint32_t* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d3}, [%[ptr0]]!        @ load r0, 8 elements\n"
          "vld1.32 {d4-d7}, [%[ptr1]]!        @ load r1, 8 elements\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d7}, [%[outptr]]!      @ write to output ptr\n"

          "vld1.32 {d0-d3}, [%[ptr2]]!        @ load r2, 8 elements\n"
          "vld1.32 {d4-d7}, [%[ptr3]]!        @ load r3, 8 elements\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d7}, [%[outptr]]!      @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          :
          : "q0", "q1", "q2", "q3", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      uint32_t* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d3}, [%[ptr0]]!        @ load r0, 8 elements\n"
          "vld1.32 {d4-d7}, [%[ptr1]]!        @ load r1, 8 elements\n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q1, %q[vzero], %q[vmask2]   @ bit select, pad zero\n"
          //"vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vbif   q2, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q3, %q[vzero], %q[vmask2]   @ bit select, pad zero\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d7}, [%[outptr]]!      @ write to output ptr\n"

          "vld1.32 {d0-d3}, [%[ptr2]]!        @ load r2, 8 elements\n"
          "vld1.32 {d4-d7}, [%[ptr3]]!        @ load r3, 8 elements\n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q1, %q[vzero], %q[vmask2]   @ bit select, pad zero\n"
          //"vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vbif   q2, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q3, %q[vzero], %q[vmask2]   @ bit select, pad zero\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          "vst1.32 {d4-d7}, [%[outptr]]!      @ write to output ptr\n"
          : [outptr] "+r"(ptr_out),
            [ptr0] "+r"(ptr0),
            [ptr1] "+r"(ptr1),
            [ptr2] "+r"(ptr2),
            [ptr3] "+r"(ptr3)
          : [vmask1] "w"(vmask1), [vmask2] "w"(vmask2), [vzero] "w"(vzero)
          : "q0", "q1", "q2", "q3", "cc", "memory");
    }
  }
#pragma omp parallel for
  for (int y = 4 * (y_len / 4); y < y_len; ++y) {
    const uint32_t* ptr0 = inptr + y * ldin;
    uint32_t* outptr_row_col = outptr_row + y * 8;
    int i = 0;
    for (; i < x_len - 7; i += 8) {
      uint32_t* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d3}, [%[ptr0]]!        @ load r0, 8 elements\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          :
          : "q0", "q1", "cc", "memory");
      outptr_row_col += stride_out;
    }
    if (right_remain > 0) {
      uint32_t* ptr_out = outptr_row_col;
      asm volatile(
          "vld1.32 {d0-d3}, [%[ptr0]]!        @ load r0, 8 elements\n"
          "vbif   q0, %q[vzero], %q[vmask1]   @ bit select, pad zero\n"
          "vbif   q1, %q[vzero], %q[vmask2]   @ bit select, pad zero\n"
          "vst1.32 {d0-d3}, [%[outptr]]!      @ write to output ptr\n"
          : [ptr0] "+r"(ptr0), [outptr] "+r"(ptr_out)
          : [vmask1] "w"(vmask1), [vmask2] "w"(vmask2), [vzero] "w"(vzero)
          : "q0", "q1", "cc", "memory");
    }
  }
}

void loadb_trans(
    float* out, const float* in, int ldin, int k0, int kmax, int n0, int nmax) {
  int x_len = kmax - k0;
  uint32_t zerobuff[x_len];  // NOLINT
  memset(zerobuff, 0, sizeof(uint32_t) * x_len);

  auto outptr = reinterpret_cast<uint32_t*>(out);
  auto inptr = reinterpret_cast<const uint32_t*>(in);
  //! data B is not transposed, transpose B to k * 8
  for (int y = n0; y < nmax; y += 8) {
    const uint32_t* inptr0 = inptr + y * ldin + k0;
    const uint32_t* inptr1 = inptr0 + ldin;
    const uint32_t* inptr2 = inptr1 + ldin;
    const uint32_t* inptr3 = inptr2 + ldin;
    const uint32_t* inptr4 = inptr3 + ldin;
    const uint32_t* inptr5 = inptr4 + ldin;
    const uint32_t* inptr6 = inptr5 + ldin;
    const uint32_t* inptr7 = inptr6 + ldin;

    int x = x_len;

    //! cope with row index exceed real size, set to zero buffer
    if ((y + 7) >= nmax) {
      switch ((y + 7) - nmax) {
        case 6:
          inptr1 = zerobuff;
        case 5:
          inptr2 = zerobuff;
        case 4:
          inptr3 = zerobuff;
        case 3:
          inptr4 = zerobuff;
        case 2:
          inptr5 = zerobuff;
        case 1:
          inptr6 = zerobuff;
        case 0:
          inptr7 = zerobuff;
        default:
          break;
      }
    }

    for (; x > 7; x -= 8) {
      //! zip load 8 elements (2 neon Q registers) from each of 8 rows
      asm volatile(
          "vld4.32  {d0-d3}, [%[inptr0]]!   @ zip load r0, "
          "q0,q1=r00,r04,r01,r05,r02,r06,r03,r07\n"
          "vld4.32  {d4-d7}, [%[inptr1]]!   @ zip load r1, "
          "q2,q3=r10,r14,r11,r15,r12,r16,r13,r17\n"
          "vtrn.32  q0, q2                  @ trans data: q0=r00,r10,r01,r11; "
          "q2=r04,r14,r05,r15\n"
          "vst1.32  {d0},    [%[outptr]]!   @ write d0(q0,low),r00,r10\n"

          "vld4.32  {d8-d11}, [%[inptr2]]!  @ zip load r2, "
          "q4,q5=r20,r24,r21,r25,r22,r26,r23,r27\n"
          "vld4.32  {d12-d15}, [%[inptr3]]! @ zip load r3, "
          "q6,q7=r30,r34,r31,r35,r32,r36,r33,r37\n"
          "vtrn.32  q4, q6                  @ trans data: q4=r20,r30,r21,r31; "
          "q6=r24,r34,r25,r35\n"
          "vst1.32  {d8},    [%[outptr]]!   @ write d8(q4,low),r20,r30\n"

          "vld4.32  {d16-d19}, [%[inptr4]]! @ zip load r4, "
          "q8,q9=r40,r44,r41,r45,r42,r46,r43,r47\n"
          "vld4.32  {d20-d23}, [%[inptr5]]! @ zip load r5, "
          "q10,q11=r50,r54,r51,r55,r52,r56,r53,r57\n"
          "vtrn.32  q8, q10                 @ trans data: q8=r40,r50,r41,r51; "
          "q10=r44,r54,r45,r55\n"
          "vst1.32  {d16},    [%[outptr]]!  @ write d16(q8,low),r40,r50\n"

          "vld4.32  {d24-d27}, [%[inptr6]]! @ zip load r6, "
          "q12,q13=r60,r64,r61,r65,r62,r66,r63,r67\n"
          "vld4.32  {d28-d31}, [%[inptr7]]! @ zip load r7, "
          "q14,q15=r70,r74,r71,r75,r72,r76,r73,r77\n"
          "vtrn.32  q12, q14                @ trans data:q12=r60,r70,r61,r71; "
          "q14=r64,r74,r65,r75\n"
          "vst1.32  {d24},    [%[outptr]]!  @ write d24(q8,low),r60,r70\n"

          //"pld      [%[inptr0], #128]       @ preload r0 data to cache, fill
          // pipeline\n"
          "vst1.32  {d1},     [%[outptr]]!  @ write d1(q0,high),r01,r11\n"
          "vst1.32  {d9},     [%[outptr]]!  @ write d9(q4,high),r21,r31\n"
          "vst1.32  {d17},    [%[outptr]]!  @ write d17(q8,high),r41,r51\n"
          "vst1.32  {d25},    [%[outptr]]!  @ write d25(q12,high),r61,r71\n"

          "vtrn.32  q1, q3                  @ trans data: q1=r02,r12,r03,r13; "
          "q3=r06,r16,r07,r17\n"
          "vst1.32  {d2},     [%[outptr]]!  @ write d2(q1,low),r02,r12\n"
          "vtrn.32  q5, q7                  @ trans data: q5=r22,r32,r23,r33; "
          "q7=r26,r36,r27,r37\n"
          "vst1.32  {d10},    [%[outptr]]!  @ write d10(q5,low),r22,r32\n"
          "vtrn.32  q9, q11                 @ trans data: q9=r42,r52,r43,r53; "
          "q11=r46,r56,r47,r57\n"
          "vst1.32  {d18},    [%[outptr]]!  @ write d18(q9,low),r42,r52\n"
          "vtrn.32  q13, q15                @ trans data:q13=r62,r72,r63,r73; "
          "q15=r66,r76,r67,r77\n"
          "vst1.32  {d26},    [%[outptr]]!  @ write d18(q9,low),r62,r72\n"

          //"pld      [%[inptr1], #128]       @ preload r1 data to cache, fill
          // pipeline\n"
          "vst1.32  {d3},     [%[outptr]]!  @ write d3(q1,high),r03,r13\n"
          "vst1.32  {d11},    [%[outptr]]!  @ write d11(q5,high),r23,r33\n"
          "vst1.32  {d19},    [%[outptr]]!  @ write d19(q9,high),r43,r53\n"
          "vst1.32  {d27},    [%[outptr]]!  @ write d27(q13,high),r63,r73\n"

          //"pld      [%[inptr2], #128]       @ preload r2 data to cache, fill
          // pipeline\n"
          "vst1.32  {d4},     [%[outptr]]!  @ write d4(q2,low),r04,r14\n"
          "vst1.32  {d12},    [%[outptr]]!  @ write d12(q6,low),r24,r34\n"
          "vst1.32  {d20},    [%[outptr]]!  @ write d20(q10,low),r44,r54\n"
          "vst1.32  {d28},    [%[outptr]]!  @ write d28(q14,low),r64,r74\n"

          //"pld      [%[inptr3], #128]       @ preload r3 data to cache, fill
          // pipeline\n"
          "vst1.32  {d5},     [%[outptr]]!  @ write d5(q2,high),r05,r15\n"
          "vst1.32  {d13},    [%[outptr]]!  @ write d13(q6,high),r25,r35\n"
          "vst1.32  {d21},    [%[outptr]]!  @ write d21(q10,high),r45,r55\n"
          "vst1.32  {d29},    [%[outptr]]!  @ write d29(q14,high),r65,r75\n"

          //"pld      [%[inptr4], #128]       @ preload r4 data to cache, fill
          // pipeline\n"
          "vst1.32  {d6},     [%[outptr]]!  @ write d6(q3,low),r06,r16\n"
          "vst1.32  {d14},    [%[outptr]]!  @ write d14(q7,low),r26,r36\n"
          "vst1.32  {d22},    [%[outptr]]!  @ write d22(q11,low),r46,r56\n"
          "vst1.32  {d30},    [%[outptr]]!  @ write d30(q15,low),r66,r76\n"

          //"pld      [%[inptr5], #128]       @ preload r5 data to cache, fill
          // pipeline\n"
          "vst1.32  {d7},     [%[outptr]]!  @ write d7(q3,high),r07,r17\n"
          "vst1.32  {d15},    [%[outptr]]!  @ write d15(q7,high),r27,r37\n"
          "vst1.32  {d23},    [%[outptr]]!  @ write d23(q11,high),r47,r57\n"
          "vst1.32  {d31},    [%[outptr]]!  @ write d31(q15,high),r67,r77\n"
          : [inptr0] "+r"(inptr0),
            [inptr1] "+r"(inptr1),
            [inptr2] "+r"(inptr2),
            [inptr3] "+r"(inptr3),
            [inptr4] "+r"(inptr4),
            [inptr5] "+r"(inptr5),
            [inptr6] "+r"(inptr6),
            [inptr7] "+r"(inptr7),
            [outptr] "+r"(outptr)
          :
          : "q0",
            "q1",
            "q2",
            "q3",
            "q4",
            "q5",
            "q6",
            "q7",
            "q8",
            "q9",
            "q10",
            "q11",
            "q12",
            "q13",
            "q14",
            "q15",
            "cc",
            "memory");
    }

    for (; x > 0; x--) {
      *outptr++ = *inptr0++;
      *outptr++ = *inptr1++;
      *outptr++ = *inptr2++;
      *outptr++ = *inptr3++;
      *outptr++ = *inptr4++;
      *outptr++ = *inptr5++;
      *outptr++ = *inptr6++;
      *outptr++ = *inptr7++;
    }
  }
}

#endif  // __aarch64__

#ifdef __aarch64__
void sgemm_prepacked_8x12(bool is_transB,
                          int M,
                          int N,
                          int K,
                          const float *A_packed,
                          const float *B,
                          int ldb,
                          float beta,
                          float *C,
                          int ldc,
                          const float *bias,
                          bool has_bias,
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                          const operators::ActivationParam act_param,
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                          ARMContext *ctx) {
  size_t l2_cache = ctx->llc_size() > 0 ? ctx->llc_size() : 512 * 1024;
  auto workspace = ctx->workspace_data<float>();
  int threads = ctx->threads();
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  auto act_type = act_param.active_type;
  float alpha[4] = {0.f, 0.f, 0.f, 0.f};
  int flag_act = 0x00;  // relu: 1, relu6: 2, leakey: 3
  if (act_param.has_active) {
    if (act_type == lite_api::ActivationType::kRelu) {
      flag_act = 0x01;
    } else if (act_type == lite_api::ActivationType::kRelu6) {
      flag_act = 0x02;
      float local_alpha = act_param.Relu_clipped_coef;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    } else if (act_type == lite_api::ActivationType::kLeakyRelu) {
      flag_act = 0x03;
      float local_alpha = act_param.Leaky_relu_alpha;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    }
  }
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  //! MBLOCK * x (result) + MBLOCK * k (A) + x * k (B) = l2
  int x_block = (l2_cache - (MBLOCK * K)) / (sizeof(float) * (K + MBLOCK));
  x_block /= NBLOCK;
  x_block *= NBLOCK;
  int x_num = (N + (x_block - 1)) / x_block;
  x_block = (N + x_num - 1) / x_num;
  x_block = (x_block + NBLOCK - 1) / NBLOCK;
  x_block *= NBLOCK;
  x_block = x_block < NBLOCK ? NBLOCK : x_block;

  // unroll 2 loop
  int tail_pre = (K & (KBLOCK - 1));
  int k_pre = ((K + KBLOCK - 1) / KBLOCK) - 1;

  bool flag_p_remain = false;
  int remain = 0;

  int has_beta = fabsf(beta) > 1e-8f ? 1 : 0;

  //! apanel is pre_compute outside gemm
  for (unsigned int x0 = 0; x0 < N; x0 += x_block) {
    unsigned int xmax = x0 + x_block;
    if (xmax > N) {
      xmax = N;
    }
    int bblocks = (xmax - x0 + NBLOCK - 1) / NBLOCK;
    remain = xmax - x0 - (bblocks - 1) * NBLOCK;
    if (remain > 0) {
      flag_p_remain = true;
    }
    //! load bpanel
    float *b_pannel = workspace;
    if (is_transB) {
      loadb_trans(b_pannel, B, ldb, 0, K, x0, xmax);
    } else {
      loadb(b_pannel, B, ldb, 0, K, x0, xmax);
    }
#pragma omp parallel for num_threads(threads)
    for (unsigned int y = 0; y < M; y += MBLOCK) {
      unsigned int ymax = y + MBLOCK;
      if (ymax > M) {
        ymax = M;
      }

      float bias_local[8] = {0};
      if (has_bias) {
        bias_local[0] = bias[y];
        bias_local[1] = bias[y + 1];
        bias_local[2] = bias[y + 2];
        bias_local[3] = bias[y + 3];
        bias_local[4] = bias[y + 4];
        bias_local[5] = bias[y + 5];
        bias_local[6] = bias[y + 6];
        bias_local[7] = bias[y + 7];
      }

      float cout0[NBLOCK];
      float cout1[NBLOCK];
      float cout2[NBLOCK];
      float cout3[NBLOCK];
      float cout4[NBLOCK];
      float cout5[NBLOCK];
      float cout6[NBLOCK];
      float cout7[NBLOCK];

      float *c_ptr0 = C + y * ldc + x0;
      float *c_ptr1 = c_ptr0 + ldc;
      float *c_ptr2 = c_ptr1 + ldc;
      float *c_ptr3 = c_ptr2 + ldc;
      float *c_ptr4 = c_ptr3 + ldc;
      float *c_ptr5 = c_ptr4 + ldc;
      float *c_ptr6 = c_ptr5 + ldc;
      float *c_ptr7 = c_ptr6 + ldc;

      float *pout0 = c_ptr0;
      float *pout1 = c_ptr1;
      float *pout2 = c_ptr2;
      float *pout3 = c_ptr3;
      float *pout4 = c_ptr4;
      float *pout5 = c_ptr5;
      float *pout6 = c_ptr6;
      float *pout7 = c_ptr7;

      const float *a_ptr_l = A_packed + y * K;
      const float *b_ptr = b_pannel;
      for (int xb = 0; xb < bblocks; xb++) {
        if ((y + 7) >= ymax) {
          switch ((y + 7) - ymax) {
            case 6:
              c_ptr1 = cout1;
            case 5:
              c_ptr2 = cout2;
            case 4:
              c_ptr3 = cout3;
            case 3:
              c_ptr4 = cout4;
            case 2:
              c_ptr5 = cout5;
            case 1:
              c_ptr6 = cout6;
            case 0:
              c_ptr7 = cout7;
            default:
              break;
          }
        }
        if (flag_p_remain && (xb == bblocks - 1)) {
          pout0 = c_ptr0;
          pout1 = c_ptr1;
          pout2 = c_ptr2;
          pout3 = c_ptr3;
          pout4 = c_ptr4;
          pout5 = c_ptr5;
          pout6 = c_ptr6;
          pout7 = c_ptr7;

          c_ptr0 = cout0;
          c_ptr1 = cout1;
          c_ptr2 = cout2;
          c_ptr3 = cout3;
          c_ptr4 = cout4;
          c_ptr5 = cout5;
          c_ptr6 = cout6;
          c_ptr7 = cout7;
          if (has_beta) {
            for (int i = 0; i < remain; ++i) {
              cout0[i] = pout0[i];
              cout1[i] = pout1[i];
              cout2[i] = pout2[i];
              cout3[i] = pout3[i];
              cout4[i] = pout4[i];
              cout5[i] = pout5[i];
              cout6[i] = pout6[i];
              cout7[i] = pout7[i];
            }
          }
        }
        const float *a_ptr = a_ptr_l;
        int tail = tail_pre;
        int k = k_pre;
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        // clang-format off
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        asm volatile(
            "prfm   pldl1keep, [%[a_ptr]]\n"       /* preload a*/
            "ldp	q2, q3, [%[bias_ptr]]\n"         /* load bias to q2, q3*/
            "dup	v8.4s,  v2.s[0]\n"               /* out0 = 0 */
            "dup	v9.4s,  v2.s[0]\n"               /* out1 = 0*/
            "dup	v10.4s, v2.s[0]\n"               /* out2 = 0*/
            "prfm   pldl1keep, [%[b_ptr]]\n"       /* preload b*/
            "dup	v11.4s, v2.s[1]\n"               /* out3 = 0*/
            "dup	v12.4s, v2.s[1]\n"               /* out4 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #64]\n"  /* preload b*/
            "dup	v13.4s, v2.s[1]\n"               /* out5 = 0*/
            "prfm   pldl1keep, [%[a_ptr], #64]\n"  /* preload a*/
            "dup	v14.4s, v2.s[2]\n"               /* out6 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #128]\n" /* preload b*/
            "dup	v15.4s, v2.s[2]\n"               /* out7 = 0*/
            "prfm   pldl1keep, [%[a_ptr], #128]\n" /* preload a*/
            "dup	v16.4s, v2.s[2]\n"               /* out8 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #192]\n" /* preload b*/
            "dup	v17.4s, v2.s[3]\n"               /* out9 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #256]\n" /* preload b*/
            "dup	v18.4s, v2.s[3]\n"               /* out10 = 0*/
            "prfm   pldl1keep, [%[a_ptr], #192]\n" /* preload a*/
            "dup	v19.4s, v2.s[3]\n"               /* out11 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #320]\n" /* preload b*/
            "dup	v20.4s, v3.s[0]\n"               /* out12 = 0*/
            "prfm   pldl1keep, [%[a_ptr], #256]\n" /* preload a*/
            "dup	v21.4s, v3.s[0]\n"               /* out13 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #384]\n" /* preload b*/
            "dup	v22.4s, v3.s[0]\n"               /* out14 = 0*/
            "dup	v23.4s, v3.s[1]\n"               /* out15 = 0*/
            "dup	v24.4s, v3.s[1]\n"               /* out16 = 0*/
            "dup	v25.4s, v3.s[1]\n"               /* out17 = 0*/
            "dup	v26.4s, v3.s[2]\n"               /* out18 = 0*/
            "dup	v27.4s, v3.s[2]\n"               /* out19 = 0*/
            "dup	v28.4s, v3.s[2]\n"               /* out20 = 0*/
            "dup	v29.4s, v3.s[3]\n"               /* out21 = 0*/
            "dup	v30.4s, v3.s[3]\n"               /* out22 = 0*/
            "dup	v31.4s, v3.s[3]\n"               /* out23 = 0*/
            "cbz    %w[has_beta], 0f\n"            /* check beta == 0? */
            /* process beta */
            "dup    v7.4s, %w[beta]\n"                    /* beta to vector */
            "ld1    {v0.4s, v1.4s, v2.4s}, [%[c_ptr0]]\n" /* load output r0 */
            "ld1    {v3.4s, v4.4s, v5.4s}, [%[c_ptr1]]\n" /* load output r1 */
            "fmla   v8.4s, v0.4s, v7.4s\n"  /* cr00 += beta * c_r00*/
            "fmla   v9.4s, v1.4s, v7.4s\n"  /* cr01 += beta * c_r01*/
            "fmla   v10.4s, v2.4s, v7.4s\n" /* cr02 += beta * c_r02*/
            "ld1    {v0.4s, v1.4s, v2.4s}, [%[c_ptr2]]\n" /* load output r2*/
            "fmla   v11.4s, v3.4s, v7.4s\n" /* cr10 += beta * c_r10*/
            "fmla   v12.4s, v4.4s, v7.4s\n" /* cr11 += beta * c_r11*/
            "fmla   v13.4s, v5.4s, v7.4s\n" /* cr12 += beta * c_r12*/
            "ld1    {v3.4s, v4.4s, v5.4s}, [%[c_ptr3]]\n" /* load output r3*/
            "fmla   v14.4s, v0.4s, v7.4s\n" /* cr20 += beta * c_r20*/
            "fmla   v15.4s, v1.4s, v7.4s\n" /* cr21 += beta * c_r21*/
            "fmla   v16.4s, v2.4s, v7.4s\n" /* cr22 += beta * c_r22*/
            "ld1    {v0.4s, v1.4s, v2.4s}, [%[c_ptr4]]\n" /* load output r4*/
            "fmla   v17.4s, v3.4s, v7.4s\n" /* cr30 += beta * c_r30*/
            "fmla   v18.4s, v4.4s, v7.4s\n" /* cr31 += beta * c_r31*/
            "fmla   v19.4s, v5.4s, v7.4s\n" /* cr32 += beta * c_r32*/
            "ld1    {v3.4s, v4.4s, v5.4s}, [%[c_ptr5]]\n" /* load output r5*/
            "fmla   v20.4s, v0.4s, v7.4s\n" /* cr40 += beta * c_r40*/
            "fmla   v21.4s, v1.4s, v7.4s\n" /* cr41 += beta * c_r41*/
            "fmla   v22.4s, v2.4s, v7.4s\n" /* cr42 += beta * c_r42*/
            "ld1    {v0.4s, v1.4s, v2.4s}, [%[c_ptr6]]\n" /* load output r6*/
            "fmla   v23.4s, v3.4s, v7.4s\n" /* cr50 += beta * c_r50*/
            "fmla   v24.4s, v4.4s, v7.4s\n" /* cr51 += beta * c_r51*/
            "fmla   v25.4s, v5.4s, v7.4s\n" /* cr52 += beta * c_r52*/
            "ld1    {v3.4s, v4.4s, v5.4s}, [%[c_ptr7]]\n" /* load output r7*/
            "fmla   v26.4s, v0.4s, v7.4s\n"  /* cr60 += beta * c_r60*/
            "fmla   v27.4s, v1.4s, v7.4s\n"  /* cr61 += beta * c_r61*/
            "fmla   v28.4s, v2.4s, v7.4s\n"  /* cr62 += beta * c_r62*/
            "fmla   v29.4s, v3.4s, v7.4s\n"  /* cr70 += beta * c_r70*/
            "fmla   v30.4s, v4.4s, v7.4s\n"  /* cr71 += beta * c_r71*/
            "fmla   v31.4s, v5.4s, v7.4s\n"  /* cr72 += beta * c_r72*/
            "0: \n"                          /* check loop count */
            "ldp	q0, q1, [%[a_ptr]], #32\n" /* load a00,a01 to q0, q1*/
            "ldp	q4, q5, [%[b_ptr]], #32\n" /* load b0, b1 to q4, q5*/
            "cbz	%w[k], 2f\n"               /* check loop count > 0 */
            /* main loop */
            /* unrool 0*/
            "1:\n"                              /* main loop */
            "fmla 	v8.4s ,  v4.4s,  v0.s[0]\n" /* out0 = b0 * a00[0], b0 =q4 */
            "fmla  	v11.4s ,  v4.4s,  v0.s[1]\n" /* out1 = b0 * a00[1], b0 =q4
                                                    */
            "ldp	q6, q7, [%[b_ptr]], #32\n"     /* load b2, b0 to q6, q7 */
            "fmla	v14.4s,  v4.4s,  v0.s[2]\n"   /* out2 = b0 * a00[2], b0 =q4 */
            "fmla	v17.4s,  v4.4s,  v0.s[3]\n"   /* out3 = b0 * a00[3], b0 =q4 */
            "ldp	q2, q3, [%[a_ptr]], #32\n"    /* load a10, a11 to q3, q4 */
            "fmla 	v20.4s,  v4.4s,  v1.s[0]\n" /* out4 = b0 * a01[0], b0 =q4 */
            "fmla	v23.4s,  v4.4s,  v1.s[1]\n"   /* out5 = b0 * a01[1], b0 =q4 */
            "fmla	v26.4s,  v4.4s,  v1.s[2]\n"   /* out6 = b0 * a01[2], b0 =q4 */
            "fmla	v29.4s,  v4.4s,  v1.s[3]\n"   /* out7 = b0 * a01[3], b0 =q4 */

            "fmla	v9.4s,  v5.4s,  v0.s[0]\n"  /* out8 = b1 * a00[0], b1 =q5 */
            "fmla	v12.4s,  v5.4s,  v0.s[1]\n" /* out9 = b1 * a00[1], b1 =q5 */
            "fmla	v15.4s,  v5.4s,  v0.s[2]\n" /* out10 = b1 * a00[2], b1 =q5*/
            "fmla	v18.4s,  v5.4s,  v0.s[3]\n" /* out11 = b1 * a00[3], b1 =q5*/
            "fmla	v21.4s,  v5.4s,  v1.s[0]\n" /* out12 = b1 * a01[0], b1 =q5*/
            "fmla	v24.4s,  v5.4s,  v1.s[1]\n" /* out13 = b1 * a01[1], b1 =q5*/
            "fmla	v27.4s,  v5.4s,  v1.s[2]\n" /* out14 = b1 * a01[2], b1 =q5*/
            "fmla	v30.4s,  v5.4s,  v1.s[3]\n" /* out15 = b1 * a01[3], b1 =q5*/

            "ldp	q4, q5, [%[b_ptr]], #32\n" /* load b1, b2 to q4, q5 */

            "fmla	v10.4s,  v6.4s,  v0.s[0]\n" /* out16 = b2 * a00[0], b2 =q6*/
            "fmla	v13.4s,  v6.4s,  v0.s[1]\n" /* out17 = b2 * a00[1], b2 =q6*/
            "prfm   pldl1keep, [%[b_ptr], #384]\n"
            "fmla	v16.4s,  v6.4s,  v0.s[2]\n" /* out18 = b2 * a00[2], b2 =q6*/
            "fmla	v19.4s,  v6.4s,  v0.s[3]\n" /* out19 = b2 * a00[3], b2 =q6*/
            "fmla	v22.4s,  v6.4s,  v1.s[0]\n" /* out20 = b2 * a00[0], b2 =q6*/
            "fmla	v25.4s,  v6.4s,  v1.s[1]\n" /* out21 = b2 * a00[1], b2 =q6*/
            "fmla	v28.4s,  v6.4s,  v1.s[2]\n" /* out22 = b2 * a00[2], b2 =q6*/
            "fmla	v31.4s,  v6.4s,  v1.s[3]\n" /* out23 = b2 * a00[3], b2 =q6*/

            "ldp	q0, q1, [%[a_ptr]], #32\n" /* load a00, a01 to q0, q1 */

            /* unrool 1 */
            "fmla 	v8.4s ,  v7.4s,  v2.s[0]\n" /* out0 = b0 * a10[0], b0 =q7 */
            "fmla	v11.4s ,  v7.4s,  v2.s[1]\n"  /* out1 = b0 * a10[1], b0 =q7 */
            "fmla	v14.4s,  v7.4s,  v2.s[2]\n"   /* out2 = b0 * a10[2], b0 =q7 */
            "prfm   pldl1keep, [%[a_ptr], #256]\n"
            "fmla	v17.4s,  v7.4s,  v2.s[3]\n"   /* out3 = b0 * a10[3], b0 =q7 */
            "fmla 	v20.4s,  v7.4s,  v3.s[0]\n" /* out4 = b0 * a11[0], b0 =q7 */
            "fmla   v23.4s,  v7.4s,  v3.s[1]\n" /* out5 = b0 * a11[1], b0 = q7*/
            "fmla	v26.4s,  v7.4s,  v3.s[2]\n"   /* out6 = b0 * a11[2], b0 =q7 */
            "fmla	v29.4s,  v7.4s,  v3.s[3]\n"   /* out7 = b0 * a11[3], b0 =q7 */

            "ldp	q6, q7, [%[b_ptr]], #32\n" /* load b0, b1 to q6, q7 */

            "fmla	v9.4s,  v4.4s,  v2.s[0]\n"  /* out8 = b0 * a10[0], b1 =q4 */
            "fmla	v12.4s,  v4.4s,  v2.s[1]\n" /* out9 = b0 * a10[1], b1 =q4 */
            "fmla	v15.4s,  v4.4s,  v2.s[2]\n" /* out10 = b1 * a10[2], b1 =q4*/
            "fmla	v18.4s,  v4.4s,  v2.s[3]\n" /* out11 = b1 * a10[3], b1 =q4*/
            "fmla	v21.4s,  v4.4s,  v3.s[0]\n" /* out12 = b1 * a10[0], b1 =q4*/
            "fmla	v24.4s,  v4.4s,  v3.s[1]\n" /* out13 = b1 * a10[1], b1 =q4*/
            "fmla	v27.4s,  v4.4s,  v3.s[2]\n" /* out14 = b1 * a10[2], b1 =q4*/
            "fmla	v30.4s,  v4.4s,  v3.s[3]\n" /* out15 = b1 * a10[3], b1 =q4*/

            "fmla	v10.4s,  v5.4s,  v2.s[0]\n" /* out16 = b2 * a10[0], b2 =q5*/
            "fmla	v13.4s,  v5.4s,  v2.s[1]\n" /* out17 = b2 * a10[0], b2 =q5*/
            "fmla	v16.4s,  v5.4s,  v2.s[2]\n" /* out18 = b2 * a10[0], b2 =q5*/
            "fmla	v19.4s,  v5.4s,  v2.s[3]\n" /* out19 = b2 * a10[0], b2 =q5*/
            "fmla	v22.4s,  v5.4s,  v3.s[0]\n" /* out20 = b2 * a10[0], b2 =q5*/
            "fmla	v25.4s,  v5.4s,  v3.s[1]\n" /* out21 = b2 * a10[0], b2 =q5*/
            "fmla	v28.4s,  v5.4s,  v3.s[2]\n" /* out22 = b2 * a10[0], b2 =q5*/
            "fmla	v31.4s,  v5.4s,  v3.s[3]\n" /* out23 = b2 * a10[0], b2 =q5*/
            "ldp	q4, q5, [%[b_ptr]], #32\n"  /* load b2, b0 to q4, q5 */
            /* unrool 2*/
            "fmla 	v8.4s ,  v6.4s,  v0.s[0]\n" /* out0 = b0 * a00[0], b0 =q6 */
            "fmla  	v11.4s ,  v6.4s,  v0.s[1]\n" /* out1 = b0 * a00[1], b0 =q6
                                                    */
            "ldp	q2, q3, [%[a_ptr]], #32\n"     /* load a10, a11 to q3, q4*/
            "fmla	v14.4s,  v6.4s,  v0.s[2]\n"    /* out2 = b0 * a00[2], b0 =q6*/
            "fmla	v17.4s,  v6.4s,  v0.s[3]\n"    /* out3 = b0 * a00[3], b0 =q6*/
            "fmla 	v20.4s,  v6.4s,  v1.s[0]\n"  /* out4 = b0 * a01[0], b0 =q6*/
            "fmla	v23.4s,  v6.4s,  v1.s[1]\n"    /* out5 = b0 * a01[1], b0 =q6*/
            "fmla	v26.4s,  v6.4s,  v1.s[2]\n"    /* out6 = b0 * a01[2], b0 =q6*/
            "fmla	v29.4s,  v6.4s,  v1.s[3]\n"    /* out7 = b0 * a01[3], b0 =q6*/
            "fmla	v9.4s,  v7.4s,  v0.s[0]\n"     /* out8 = b1 * a00[0], b1 =q7*/
            "fmla	v12.4s,  v7.4s,  v0.s[1]\n"    /* out9 = b1 * a00[1], b1 =q7*/
            "prfm   pldl1keep, [%[b_ptr], #384]\n"
            "fmla	v15.4s,  v7.4s,  v0.s[2]\n" /* out10 = b1 * a00[2], b1 =q7*/
            "fmla	v18.4s,  v7.4s,  v0.s[3]\n" /* out11 = b1 * a00[3], b1 =q7*/
            "fmla	v21.4s,  v7.4s,  v1.s[0]\n" /* out12 = b1 * a01[0], b1 =q7*/
            "fmla	v24.4s,  v7.4s,  v1.s[1]\n" /* out13 = b1 * a01[1], b1 =q7*/
            "fmla	v27.4s,  v7.4s,  v1.s[2]\n" /* out14 = b1 * a01[2], b1 =q7*/
            "fmla	v30.4s,  v7.4s,  v1.s[3]\n" /* out15 = b1 * a01[3], b1 =q7*/

            "ldp	q6, q7, [%[b_ptr]], #32\n" /* load b1, b2 to q6, q7*/

            "fmla	v10.4s,  v4.4s,  v0.s[0]\n" /* out16 = b2 * a00[0], b2 =q4*/
            "fmla	v13.4s,  v4.4s,  v0.s[1]\n" /* out17 = b2 * a00[1], b2 =q4*/
            "fmla	v16.4s,  v4.4s,  v0.s[2]\n" /* out18 = b2 * a00[2], b2 =q4*/
            "fmla	v19.4s,  v4.4s,  v0.s[3]\n" /* out19 = b2 * a00[3], b2 =q4*/
            "fmla	v22.4s,  v4.4s,  v1.s[0]\n" /* out20 = b2 * a00[0], b2 =q4*/
            "fmla	v25.4s,  v4.4s,  v1.s[1]\n" /* out21 = b2 * a00[1], b2 =q4*/
            "fmla	v28.4s,  v4.4s,  v1.s[2]\n" /* out22 = b2 * a00[2], b2 =q4*/
            "fmla	v31.4s,  v4.4s,  v1.s[3]\n" /* out23 = b2 * a00[3], b2 =q4*/
            "ldp	q0, q1, [%[a_ptr]], #32\n"  /* load a00, a01 to q0, q1*/
            /* unrool 3*/
            "fmla 	v8.4s ,  v5.4s,  v2.s[0]\n" /* out0 = b0 * a10[0], b0 =q5*/
            "fmla	v11.4s ,  v5.4s,  v2.s[1]\n"  /* out1 = b0 * a10[1], b0 =q5*/
            "fmla	v14.4s,  v5.4s,  v2.s[2]\n"   /* out2 = b0 * a10[2], b0 =q5*/
            "fmla	v17.4s,  v5.4s,  v2.s[3]\n"   /* out3 = b0 * a10[3], b0 =q5*/
            "fmla 	v20.4s,  v5.4s,  v3.s[0]\n" /* out4 = b0 * a11[0], b0 =q5*/
            "fmla   v23.4s,  v5.4s,  v3.s[1]\n" /* out5 = b0 * a11[1], b0 =q5*/
            "fmla	v26.4s,  v5.4s,  v3.s[2]\n"   /* out6 = b0 * a11[2], b0 =q5*/
            "fmla	v29.4s,  v5.4s,  v3.s[3]\n"   /* out7 = b0 * a11[3], b0 =q5*/
            "ldp	q4, q5, [%[b_ptr]], #32\n"    /* load b0, b1 to q4, q5*/
            "fmla	v9.4s,  v6.4s,  v2.s[0]\n"    /* out8 = b0 * a10[0], b1 =q6*/
            "fmla	v12.4s,  v6.4s,  v2.s[1]\n"   /* out9 = b0 * a10[1], b1 =q6*/
            "prfm   pldl1keep, [%[a_ptr], #256]\n"
            "fmla	v15.4s,  v6.4s,  v2.s[2]\n" /* out10 = b1 * a10[2], b1 =q6*/
            "fmla	v18.4s,  v6.4s,  v2.s[3]\n" /* out11 = b1 * a10[3], b1 =q6*/
            "fmla	v21.4s,  v6.4s,  v3.s[0]\n" /* out12 = b1 * a10[0], b1 =q6*/
            "fmla	v24.4s,  v6.4s,  v3.s[1]\n" /* out13 = b1 * a10[1], b1 =q6*/
            "fmla	v27.4s,  v6.4s,  v3.s[2]\n" /* out14 = b1 * a10[2], b1 =q6*/
            "prfm   pldl1keep, [%[b_ptr], #384]\n"
            "fmla	v30.4s,  v6.4s,  v3.s[3]\n" /* out15 = b1 * a10[3], b1 =q6*/
            "fmla	v10.4s,  v7.4s,  v2.s[0]\n" /* out16 = b2 * a10[0], b2 =q7*/
            "fmla	v13.4s,  v7.4s,  v2.s[1]\n" /* out17 = b2 * a10[0], b2 =q7*/
            "fmla	v16.4s,  v7.4s,  v2.s[2]\n" /* out18 = b2 * a10[0], b2 =q7*/
            "fmla	v19.4s,  v7.4s,  v2.s[3]\n" /* out19 = b2 * a10[0], b2 =q7*/
            "fmla	v22.4s,  v7.4s,  v3.s[0]\n" /* out20 = b2 * a10[0], b2 =q7*/
            "fmla	v25.4s,  v7.4s,  v3.s[1]\n" /* out21 = b2 * a10[0], b2 =q7*/
            "subs	%w[k], %w[k], #1\n"         /* loop count - 1*/
            "fmla	v28.4s,  v7.4s,  v3.s[2]\n" /* out22 = b2 * a10[0], b2 =q7*/
            "fmla	v31.4s,  v7.4s,  v3.s[3]\n" /* out23 = b2 * a10[0], b2 =q7*/
            "bne	1b\n"
            "2:\n"                            /* process tail*/
            "subs		%w[tail], %w[tail], #1\n" /* tail--*/
            "beq		3f\n"                     /*jump to tail = 1*/
            /* final unrool 0*/
            /* unrool 0, tail > 1*/
            "fmla 	v8.4s ,  v4.4s,  v0.s[0]\n"  /* out0 = b0 * a00[0], b0 =q4*/
            "fmla  	v11.4s ,  v4.4s,  v0.s[1]\n" /* out1 = b0 * a00[1], b0 =q4*/
            "ldp	q6, q7, [%[b_ptr]], #32\n"     /* load b2, b0 to q6, q7*/
            "fmla	v14.4s,  v4.4s,  v0.s[2]\n"    /* out2 = b0 * a00[2], b0 =q4*/
            "fmla	v17.4s,  v4.4s,  v0.s[3]\n"    /* out3 = b0 * a00[3], b0 =q4*/
            "ldp	q2, q3, [%[a_ptr]], #32\n"     /* load a10, a11 to q2, q3*/
            "fmla 	v20.4s,  v4.4s,  v1.s[0]\n"  /* out4 = b0 * a01[0], b0 =q4*/
            "fmla	v23.4s,  v4.4s,  v1.s[1]\n"    /* out5 = b0 * a01[1], b0 =q4*/
            "fmla	v26.4s,  v4.4s,  v1.s[2]\n"    /* out6 = b0 * a01[2], b0 =q4*/
            "fmla	v29.4s,  v4.4s,  v1.s[3]\n"    /* out7 = b0 * a01[3], b0 =q4*/
            "subs	%w[tail], %w[tail], #1\n"      /* tail--*/
            "fmla	v9.4s,  v5.4s,  v0.s[0]\n"     /* out8 = b1 * a00[0], b1 =q5*/
            "fmla	v12.4s,  v5.4s,  v0.s[1]\n"    /* out9 = b1 * a00[1], b1 =q5*/
            "fmla	v15.4s,  v5.4s,  v0.s[2]\n" /* out10 = b1 * a00[2], b1 =q5*/
            "fmla	v18.4s,  v5.4s,  v0.s[3]\n" /* out11 = b1 * a00[3], b1 =q5*/
            "fmla	v21.4s,  v5.4s,  v1.s[0]\n" /* out12 = b1 * a01[0], b1 =q5*/
            "fmla	v24.4s,  v5.4s,  v1.s[1]\n" /* out13 = b1 * a01[1], b1 =q5*/
            "fmla	v27.4s,  v5.4s,  v1.s[2]\n" /* out14 = b1 * a01[2], b1 =q5*/
            "fmla	v30.4s,  v5.4s,  v1.s[3]\n" /* out15 = b1 * a01[3], b1 =q5*/
            "ldp	q4, q5, [%[b_ptr]], #32\n"  /* load b1, b2 to q4, q5*/
            "fmla	v10.4s,  v6.4s,  v0.s[0]\n" /* out16 = b2 * a00[0], b2 =q6*/
            "fmla	v13.4s,  v6.4s,  v0.s[1]\n" /* out17 = b2 * a00[1], b2 =q6*/
            "fmla	v16.4s,  v6.4s,  v0.s[2]\n" /* out18 = b2 * a00[2], b2 =q6*/
            "fmla	v19.4s,  v6.4s,  v0.s[3]\n" /* out19 = b2 * a00[3], b2 =q6*/
            "fmla	v22.4s,  v6.4s,  v1.s[0]\n" /* out20 = b2 * a00[0], b2 =q6*/
            "fmla	v25.4s,  v6.4s,  v1.s[1]\n" /* out21 = b2 * a00[1], b2 =q6*/
            "fmla	v28.4s,  v6.4s,  v1.s[2]\n" /* out22 = b2 * a00[2], b2 =q6*/
            "fmla	v31.4s,  v6.4s,  v1.s[3]\n" /* out23 = b2 * a00[3], b2 =q6*/
            "beq		4f\n"                     /*jump to tail = 2*/
            /* unrool 1, tail > 2*/
            "ldp	q0, q1, [%[a_ptr]], #32\n"    /* load a00, a01 to q0, q1*/
            "fmla 	v8.4s ,  v7.4s,  v2.s[0]\n" /* out0 = b0 * a10[0], b0 =q7*/
            "fmla	v11.4s ,  v7.4s,  v2.s[1]\n"  /* out1 = b0 * a10[1], b0 =q7*/
            "fmla	v14.4s,  v7.4s,  v2.s[2]\n"   /* out2 = b0 * a10[2], b0 =q7*/
            "fmla	v17.4s,  v7.4s,  v2.s[3]\n"   /* out3 = b0 * a10[3], b0 =q7*/
            "fmla 	v20.4s,  v7.4s,  v3.s[0]\n" /* out4 = b0 * a11[0], b0 =q7*/
            "fmla   v23.4s,  v7.4s,  v3.s[1]\n" /* out5 = b0 * a11[1], b0 =q7*/
            "fmla	v26.4s,  v7.4s,  v3.s[2]\n"   /* out6 = b0 * a11[2], b0 =q7*/
            "fmla	v29.4s,  v7.4s,  v3.s[3]\n"   /* out7 = b0 * a11[3], b0 =q7*/
            "ldp	q6, q7, [%[b_ptr]], #32\n"    /* load b0, b1 to q6, q7*/
            "fmla	v9.4s,  v4.4s,  v2.s[0]\n"    /* out8 = b0 * a10[0], b1 =q4*/
            "fmla	v12.4s,  v4.4s,  v2.s[1]\n"   /* out9 = b0 * a10[1], b1 =q4*/
            "fmla	v15.4s,  v4.4s,  v2.s[2]\n"   /* out10 = b1 * a10[2], b1 =q4*/
            "fmla	v18.4s,  v4.4s,  v2.s[3]\n"   /* out11 = b1 * a10[3], b1 =q4*/
            "fmla	v21.4s,  v4.4s,  v3.s[0]\n"   /* out12 = b1 * a10[0], b1 =q4*/
            "fmla	v24.4s,  v4.4s,  v3.s[1]\n"   /* out13 = b1 * a10[1], b1 =q4*/
            "fmla	v27.4s,  v4.4s,  v3.s[2]\n"   /* out14 = b1 * a10[2], b1 =q4*/
            "fmla	v30.4s,  v4.4s,  v3.s[3]\n"   /* out15 = b1 * a10[3], b1 =q4*/
            "subs	%w[tail], %w[tail], #1\n"     /* tail--*/
            "fmla	v10.4s,  v5.4s,  v2.s[0]\n"   /* out16 = b2 * a10[0], b2 =q5*/
            "fmla	v13.4s,  v5.4s,  v2.s[1]\n"   /* out17 = b2 * a10[0], b2 =q5*/
            "fmla	v16.4s,  v5.4s,  v2.s[2]\n"   /* out18 = b2 * a10[0], b2 =q5*/
            "fmla	v19.4s,  v5.4s,  v2.s[3]\n"   /* out19 = b2 * a10[0], b2 =q5*/
            "fmla	v22.4s,  v5.4s,  v3.s[0]\n"   /* out20 = b2 * a10[0], b2 =q5*/
            "fmla	v25.4s,  v5.4s,  v3.s[1]\n"   /* out21 = b2 * a10[0], b2 =q5*/
            "fmla	v28.4s,  v5.4s,  v3.s[2]\n"   /* out22 = b2 * a10[0], b2 =q5*/
            "fmla	v31.4s,  v5.4s,  v3.s[3]\n"   /* out23 = b2 * a10[0], b2 =q5*/
            "beq		5f\n"                       /*jump to tail = 3*/
            /* unrool 2, tail = 4*/
            "ldp	q4, q5, [%[b_ptr]], #32\n"     /* load b2, b0 to q4, q5*/
            "fmla 	v8.4s ,  v6.4s,  v0.s[0]\n"  /* out0 = b0 * a00[0], b0 =q6*/
            "fmla  	v11.4s ,  v6.4s,  v0.s[1]\n" /* out1 = b0 * a00[1], b0 =q6*/
            "ldp	q2, q3, [%[a_ptr]], #32\n"     /* load a10, a11 to q3, q4*/
            "fmla	v14.4s,  v6.4s,  v0.s[2]\n"    /* out2 = b0 * a00[2], b0 =q6*/
            "fmla	v17.4s,  v6.4s,  v0.s[3]\n"    /* out3 = b0 * a00[3], b0 =q6*/
            "fmla 	v20.4s,  v6.4s,  v1.s[0]\n"  /* out4 = b0 * a01[0], b0 =q6*/
            "fmla	v23.4s,  v6.4s,  v1.s[1]\n"    /* out5 = b0 * a01[1], b0 =q6*/
            "fmla	v26.4s,  v6.4s,  v1.s[2]\n"    /* out6 = b0 * a01[2], b0 =q6*/
            "fmla	v29.4s,  v6.4s,  v1.s[3]\n"    /* out7 = b0 * a01[3], b0 =q6*/
            "fmla	v9.4s,  v7.4s,  v0.s[0]\n"     /* out8 = b1 * a00[0], b1 =q7*/
            "fmla	v12.4s,  v7.4s,  v0.s[1]\n"    /* out9 = b1 * a00[1], b1 =q7*/
            "fmla	v15.4s,  v7.4s,  v0.s[2]\n" /* out10 = b1 * a00[2], b1 =q7*/
            "fmla	v18.4s,  v7.4s,  v0.s[3]\n" /* out11 = b1 * a00[3], b1 =q7*/
            "fmla	v21.4s,  v7.4s,  v1.s[0]\n" /* out12 = b1 * a01[0], b1 =q7*/
            "fmla	v24.4s,  v7.4s,  v1.s[1]\n" /* out13 = b1 * a01[1], b1 =q7*/
            "fmla	v27.4s,  v7.4s,  v1.s[2]\n" /* out14 = b1 * a01[2], b1 =q7*/
            "fmla	v30.4s,  v7.4s,  v1.s[3]\n" /* out15 = b1 * a01[3], b1 =q7*/
            "ldp	q6, q7, [%[b_ptr]], #32\n"  /* load b1, b2 to q6, q7*/
            "fmla	v10.4s,  v4.4s,  v0.s[0]\n" /* out16 = b2 * a00[0], b2 =q4*/
            "fmla	v13.4s,  v4.4s,  v0.s[1]\n" /* out17 = b2 * a00[1], b2 =q4*/
            "fmla	v16.4s,  v4.4s,  v0.s[2]\n" /* out18 = b2 * a00[2], b2 =q4*/
            "fmla	v19.4s,  v4.4s,  v0.s[3]\n" /* out19 = b2 * a00[3], b2 =q4*/
            "fmla	v22.4s,  v4.4s,  v1.s[0]\n" /* out20 = b2 * a00[0], b2 =q4*/
            "fmla	v25.4s,  v4.4s,  v1.s[1]\n" /* out21 = b2 * a00[1], b2 =q4*/
            "fmla	v28.4s,  v4.4s,  v1.s[2]\n" /* out22 = b2 * a00[2], b2 =q4*/
            "fmla	v31.4s,  v4.4s,  v1.s[3]\n" /* out23 = b2 * a00[3], b2 =q4*/
            /* unrool 3, tail = 4*/
            "fmla 	v8.4s ,  v5.4s,  v2.s[0]\n" /* out0 = b0 * a10[0], b0 =q5*/
            "fmla	v11.4s ,  v5.4s,  v2.s[1]\n"  /* out1 = b0 * a10[1], b0 =q5*/
            "fmla	v14.4s,  v5.4s,  v2.s[2]\n"   /* out2 = b0 * a10[2], b0 =q5*/
            "fmla	v17.4s,  v5.4s,  v2.s[3]\n"   /* out3 = b0 * a10[3], b0 =q5*/
            "fmla 	v20.4s,  v5.4s,  v3.s[0]\n" /* out4 = b0 * a11[0], b0 =q5*/
            "fmla   v23.4s,  v5.4s,  v3.s[1]\n" /* out5 = b0 * a11[1], b0 =q5*/
            "fmla	v26.4s,  v5.4s,  v3.s[2]\n"   /* out6 = b0 * a11[2], b0 =q5*/
            "fmla	v29.4s,  v5.4s,  v3.s[3]\n"   /* out7 = b0 * a11[3], b0 =q5*/
            "fmla	v9.4s,  v6.4s,  v2.s[0]\n"    /* out8 = b0 * a10[0], b1 =q6*/
            "fmla	v12.4s,  v6.4s,  v2.s[1]\n"   /* out9 = b1 * a10[1], b1 =q6*/
            "fmla	v15.4s,  v6.4s,  v2.s[2]\n"   /* out10 = b1 * a10[2], b1 =q6*/
            "fmla	v18.4s,  v6.4s,  v2.s[3]\n"   /* out11 = b1 * a10[3], b1 =q6*/
            "fmla	v21.4s,  v6.4s,  v3.s[0]\n"   /* out12 = b1 * a10[0], b1 =q6*/
            "fmla	v24.4s,  v6.4s,  v3.s[1]\n"   /* out13 = b1 * a10[1], b1 =q6*/
            "fmla	v27.4s,  v6.4s,  v3.s[2]\n"   /* out14 = b1 * a10[2], b1 =q6*/
            "fmla	v30.4s,  v6.4s,  v3.s[3]\n"   /* out15 = b1 * a10[3], b1 =q6*/
            "fmla	v10.4s,  v7.4s,  v2.s[0]\n"   /* out16 = b2 * a10[0], b2 =q7*/
            "fmla	v13.4s,  v7.4s,  v2.s[1]\n"   /* out17 = b2 * a10[0], b2 =q7*/
            "fmla	v16.4s,  v7.4s,  v2.s[2]\n"   /* out18 = b2 * a10[0], b2 =q7*/
            "fmla	v19.4s,  v7.4s,  v2.s[3]\n"   /* out19 = b2 * a10[0], b2 =q7*/
            "fmla	v22.4s,  v7.4s,  v3.s[0]\n"   /* out20 = b2 * a10[0], b2 =q7*/
            "fmla	v25.4s,  v7.4s,  v3.s[1]\n"   /* out21 = b2 * a10[0], b2 =q7*/
            "fmla	v28.4s,  v7.4s,  v3.s[2]\n"   /* out22 = b2 * a10[0], b2 =q7*/
            "fmla	v31.4s,  v7.4s,  v3.s[3]\n"   /* out23 = b2 * a10[0], b2 =q7*/
            "b		11f\n"
            /* tails==1 final tail*/
            "3: \n"                            /* tail=1*/
            "ldr	q6, [%[b_ptr]], #16\n"       /* load b2 to q6*/
            "fmla v8.4s ,  v4.4s,  v0.s[0]\n"  /* out0 = b0 * a10[0], b0 =q5*/
            "fmla	v11.4s ,  v4.4s,  v0.s[1]\n" /* out1 = b0 * a10[1], b0 =q5*/
            "fmla	v14.4s,  v4.4s,  v0.s[2]\n"  /* out2 = b0 * a10[2], b0 =q5*/
            "fmla	v17.4s,  v4.4s,  v0.s[3]\n"  /* out3 = b0 * a10[3], b0 =q5*/
            "fmla v20.4s,  v4.4s,  v1.s[0]\n"  /* out4 = b0 * a11[0], b0 =q5*/
            "fmla v23.4s,  v4.4s,  v1.s[1]\n"  /* out5 = b0 * a11[1], b0 = q5*/
            "fmla	v26.4s,  v4.4s,  v1.s[2]\n"  /* out6 = b0 * a11[2], b0 =q5*/
            "fmla	v29.4s,  v4.4s,  v1.s[3]\n"  /* out7 = b0 * a11[3], b0 =q5*/
            "fmla	v9.4s,  v5.4s,  v0.s[0]\n"   /* out8 = b0 * a10[0], b1 =q6*/
            "fmla	v12.4s,  v5.4s,  v0.s[1]\n"  /* out9 = b1 * a10[1], b1 =q6*/
            "fmla	v15.4s,  v5.4s,  v0.s[2]\n"  /* out10 = b1 * a10[2], b1 =q6*/
            "fmla	v18.4s,  v5.4s,  v0.s[3]\n"  /* out11 = b1 * a10[3], b1 =q6*/
            "fmla	v21.4s,  v5.4s,  v1.s[0]\n"  /* out12 = b1 * a10[0], b1 =q6*/
            "fmla	v24.4s,  v5.4s,  v1.s[1]\n"  /* out13 = b1 * a10[1], b1 =q6*/
            "fmla	v27.4s,  v5.4s,  v1.s[2]\n"  /* out14 = b1 * a10[2], b1 =q6*/
            "fmla	v30.4s,  v5.4s,  v1.s[3]\n"  /* out15 = b1 * a10[3], b1 =q6*/
            "fmla	v10.4s,  v6.4s,  v0.s[0]\n"  /* out16 = b2 * a10[0], b2 =q7*/
            "fmla	v13.4s,  v6.4s,  v0.s[1]\n"  /* out17 = b2 * a10[0], b2 =q7*/
            "fmla	v16.4s,  v6.4s,  v0.s[2]\n"  /* out18 = b2 * a10[0], b2 =q7*/
            "fmla	v19.4s,  v6.4s,  v0.s[3]\n"  /* out19 = b2 * a10[0], b2 =q7*/
            "fmla	v22.4s,  v6.4s,  v1.s[0]\n"  /* out20 = b2 * a10[0], b2 =q7*/
            "fmla	v25.4s,  v6.4s,  v1.s[1]\n"  /* out21 = b2 * a10[0], b2 =q7*/
            "fmla	v28.4s,  v6.4s,  v1.s[2]\n"  /* out22 = b2 * a10[0], b2 =q7*/
            "fmla	v31.4s,  v6.4s,  v1.s[3]\n"  /* out23 = b2 * a10[0], b2 =q7*/
            "b		11f\n"
            /* tails==2 final tail*/
            "4:\n"                              /* tail = 2*/
            "fmla 	v8.4s ,  v7.4s,  v2.s[0]\n" /* out0 = b0 * a10[0], b0 =q5*/
            "fmla	v11.4s ,  v7.4s,  v2.s[1]\n"  /* out1 = b0 * a10[1], b0 =q5*/
            "fmla	v14.4s,  v7.4s,  v2.s[2]\n"   /* out2 = b0 * a10[2], b0 =q5*/
            "fmla	v17.4s,  v7.4s,  v2.s[3]\n"   /* out3 = b0 * a10[3], b0 =q5*/
            "fmla 	v20.4s,  v7.4s,  v3.s[0]\n" /* out4 = b0 * a11[0], b0 =q5*/
            "fmla   v23.4s,  v7.4s,  v3.s[1]\n" /* out5 = b0 * a11[1], b0 = q5*/
            "fmla	v26.4s,  v7.4s,  v3.s[2]\n"   /* out6 = b0 * a11[2], b0 =q5*/
            "fmla	v29.4s,  v7.4s,  v3.s[3]\n"   /* out7 = b0 * a11[3], b0 =q5*/
            "fmla	v9.4s,  v4.4s,  v2.s[0]\n"    /* out8 = b0 * a10[0], b1 =q6*/
            "fmla	v12.4s,  v4.4s,  v2.s[1]\n"   /* out9 = b1 * a10[1], b1 =q6*/
            "fmla	v15.4s,  v4.4s,  v2.s[2]\n"   /* out10 = b1 * a10[2], b1 =q6*/
            "fmla	v18.4s,  v4.4s,  v2.s[3]\n"   /* out11 = b1 * a10[3], b1 =q6*/
            "fmla	v21.4s,  v4.4s,  v3.s[0]\n"   /* out12 = b1 * a10[0], b1 =q6*/
            "fmla	v24.4s,  v4.4s,  v3.s[1]\n"   /* out13 = b1 * a10[1], b1 =q6*/
            "fmla	v27.4s,  v4.4s,  v3.s[2]\n"   /* out14 = b1 * a10[2], b1 =q6*/
            "fmla	v30.4s,  v4.4s,  v3.s[3]\n"   /* out15 = b1 * a10[3], b1 =q6*/
            "fmla	v10.4s,  v5.4s,  v2.s[0]\n"   /* out16 = b2 * a10[0], b2 =q7*/
            "fmla	v13.4s,  v5.4s,  v2.s[1]\n"   /* out17 = b2 * a10[0], b2 =q7*/
            "fmla	v16.4s,  v5.4s,  v2.s[2]\n"   /* out18 = b2 * a10[0], b2 =q7*/
            "fmla	v19.4s,  v5.4s,  v2.s[3]\n"   /* out19 = b2 * a10[0], b2 =q7*/
            "fmla	v22.4s,  v5.4s,  v3.s[0]\n"   /* out20 = b2 * a10[0], b2 =q7*/
            "fmla	v25.4s,  v5.4s,  v3.s[1]\n"   /* out21 = b2 * a10[0], b2 =q7*/
            "fmla	v28.4s,  v5.4s,  v3.s[2]\n"   /* out22 = b2 * a10[0], b2 =q7*/
            "fmla	v31.4s,  v5.4s,  v3.s[3]\n"   /* out23 = b2 * a10[0], b2 =q7*/
            "b		11f\n"
            /* tails==3 final tail*/
            "5:\n"                              /* tail = 3*/
            "ldr	q4, [%[b_ptr]], #16\n"        /* load b2, b0 to q4*/
            "fmla 	v8.4s ,  v6.4s,  v0.s[0]\n" /* out0 = b0 * a10[0], b0 =q5*/
            "fmla	v11.4s ,  v6.4s,  v0.s[1]\n"  /* out1 = b0 * a10[1], b0 =q5*/
            "fmla	v14.4s,  v6.4s,  v0.s[2]\n"   /* out2 = b0 * a10[2], b0 =q5*/
            "fmla	v17.4s,  v6.4s,  v0.s[3]\n"   /* out3 = b0 * a10[3], b0 =q5*/
            "fmla 	v20.4s,  v6.4s,  v1.s[0]\n" /* out4 = b0 * a11[0], b0 =q5*/
            "fmla   v23.4s,  v6.4s,  v1.s[1]\n" /* out5 = b0 * a11[1], b0 = q5*/
            "fmla	v26.4s,  v6.4s,  v1.s[2]\n"   /* out6 = b0 * a11[2], b0 =q5*/
            "fmla	v29.4s,  v6.4s,  v1.s[3]\n"   /* out7 = b0 * a11[3], b0 =q5*/
            "fmla	v9.4s,  v7.4s,  v0.s[0]\n"    /* out8 = b0 * a10[0], b1 =q6*/
            "fmla	v12.4s,  v7.4s,  v0.s[1]\n"   /* out9 = b1 * a10[1], b1 =q6*/
            "fmla	v15.4s,  v7.4s,  v0.s[2]\n"   /* out10 = b1 * a10[2], b1 =q6*/
            "fmla	v18.4s,  v7.4s,  v0.s[3]\n"   /* out11 = b1 * a10[3], b1 =q6*/
            "fmla	v21.4s,  v7.4s,  v1.s[0]\n"   /* out12 = b1 * a10[0], b1 =q6*/
            "fmla	v24.4s,  v7.4s,  v1.s[1]\n"   /* out13 = b1 * a10[1], b1 =q6*/
            "fmla	v27.4s,  v7.4s,  v1.s[2]\n"   /* out14 = b1 * a10[2], b1 =q6*/
            "fmla	v30.4s,  v7.4s,  v1.s[3]\n"   /* out15 = b1 * a10[3], b1 =q6*/
            "fmla	v10.4s,  v4.4s,  v0.s[0]\n"   /* out16 = b2 * a10[0], b2 =q7*/
            "fmla	v13.4s,  v4.4s,  v0.s[1]\n"   /* out17 = b2 * a10[0], b2 =q7*/
            "fmla	v16.4s,  v4.4s,  v0.s[2]\n"   /* out18 = b2 * a10[0], b2 =q7*/
            "fmla	v19.4s,  v4.4s,  v0.s[3]\n"   /* out19 = b2 * a10[0], b2 =q7*/
            "fmla	v22.4s,  v4.4s,  v1.s[0]\n"   /* out20 = b2 * a10[0], b2 =q7*/
            "fmla	v25.4s,  v4.4s,  v1.s[1]\n"   /* out21 = b2 * a10[0], b2 =q7*/
            "fmla	v28.4s,  v4.4s,  v1.s[2]\n"   /* out22 = b2 * a10[0], b2 =q7*/
            "fmla	v31.4s,  v4.4s,  v1.s[3]\n"   /* out23 = b2 * a10[0], b2 =q7*/
2916 2917 2918 2919 2920 2921 2922 2923 2924 2925 2926 2927 2928 2929 2930 2931 2932 2933 2934 2935 2936 2937 2938 2939 2940 2941 2942 2943 2944 2945 2946 2947 2948 2949 2950 2951 2952 2953 2954 2955 2956 2957 2958 2959 2960 2961 2962 2963 2964 2965 2966 2967 2968 2969 2970 2971 2972 2973 2974 2975 2976 2977 2978 2979 2980 2981 2982 2983 2984 2985 2986 2987 2988 2989 2990 2991 2992 2993 2994 2995 2996 2997 2998 2999 3000 3001 3002 3003 3004 3005 3006 3007 3008 3009 3010 3011 3012 3013 3014 3015 3016 3017 3018 3019 3020 3021 3022 3023 3024 3025 3026 3027 3028 3029 3030 3031 3032 3033 3034 3035 3036 3037 3038 3039 3040 3041 3042 3043 3044 3045 3046 3047 3048 3049 3050 3051 3052 3053 3054 3055 3056 3057 3058 3059 3060 3061 3062 3063 3064 3065 3066 3067 3068 3069 3070 3071 3072 3073 3074 3075 3076 3077 3078 3079 3080 3081

            "11:                           \n"   /* check activation */
            "cmp    %w[flag_act],   #1     \n"   /* check if has relu */
            "bne    12f                    \n"   /* jump if no relu */
            "movi   v0.4s,  #0             \n"   /* for relu*/
            "fmax   v8.4s,  v8.4s,  v0.4s  \n"   /* relu*/
            "fmax   v9.4s,  v9.4s,  v0.4s  \n"   /* relu*/
            "fmax   v10.4s, v10.4s, v0.4s  \n"   /* relu*/
            "fmax   v11.4s, v11.4s, v0.4s  \n"   /* relu*/
            "fmax   v12.4s, v12.4s, v0.4s  \n"   /* relu*/
            "fmax   v13.4s, v13.4s, v0.4s  \n"   /* relu*/
            "fmax   v14.4s, v14.4s, v0.4s  \n"   /* relu*/
            "fmax   v15.4s, v15.4s, v0.4s  \n"   /* relu*/
            "fmax   v16.4s, v16.4s, v0.4s  \n"   /* relu*/
            "fmax   v17.4s, v17.4s, v0.4s  \n"   /* relu*/
            "fmax   v18.4s, v18.4s, v0.4s  \n"   /* relu*/
            "fmax   v19.4s, v19.4s, v0.4s  \n"   /* relu*/
            "fmax   v20.4s, v20.4s, v0.4s  \n"   /* relu*/
            "fmax   v21.4s, v21.4s, v0.4s  \n"   /* relu*/
            "fmax   v22.4s, v22.4s, v0.4s  \n"   /* relu*/
            "fmax   v23.4s, v23.4s, v0.4s  \n"   /* relu*/
            "fmax   v24.4s, v24.4s, v0.4s  \n"   /* relu*/
            "fmax   v25.4s, v25.4s, v0.4s  \n"   /* relu*/
            "fmax   v26.4s, v26.4s, v0.4s  \n"   /* relu*/
            "fmax   v27.4s, v27.4s, v0.4s  \n"   /* relu*/
            "fmax   v28.4s, v28.4s, v0.4s  \n"   /* relu*/
            "fmax   v29.4s, v29.4s, v0.4s  \n"   /* relu*/
            "fmax   v30.4s, v30.4s, v0.4s  \n"   /* relu*/
            "fmax   v31.4s, v31.4s, v0.4s  \n"   /* relu*/
            "b      20f                    \n"   /* relu end */
            //! no act 
            "12:                           \n"   /* no relu */
            "cmp   %w[flag_act],  #0       \n"   /* check no act */
            "beq   20f                     \n"   /* no act end */ 
            //! relu6 
            "cmp    %w[flag_act],  #2      \n"    /* check if has relu6 */
            "bne    13f                    \n"    /* jump if no relu6 */
            "movi   v0.4s, #0              \n"    /* for relu6 */
            "ld1    {v1.4s}, [%[alpha]]    \n"    /* relu6 alpha */
            "fmax   v8.4s,  v8.4s,  v0.4s  \n"    /* relu6 */
            "fmax   v9.4s,  v9.4s,  v0.4s  \n"    /* relu6 */
            "fmax   v10.4s, v10.4s, v0.4s  \n"    /* relu6 */
            "fmax   v11.4s, v11.4s, v0.4s  \n"    /* relu6 */
            "fmax   v12.4s, v12.4s, v0.4s  \n"    /* relu6 */
            "fmax   v13.4s, v13.4s, v0.4s  \n"    /* relu6 */
            "fmax   v14.4s, v14.4s, v0.4s  \n"    /* relu6 */
            "fmax   v15.4s, v15.4s, v0.4s  \n"    /* relu6 */
            "fmax   v16.4s, v16.4s, v0.4s  \n"    /* relu6 */
            "fmax   v17.4s, v17.4s, v0.4s  \n"    /* relu6 */
            "fmax   v18.4s, v18.4s, v0.4s  \n"    /* relu6 */
            "fmax   v19.4s, v19.4s, v0.4s  \n"    /* relu6 */
            "fmax   v20.4s, v20.4s, v0.4s  \n"    /* relu6 */
            "fmax   v21.4s, v21.4s, v0.4s  \n"    /* relu6 */
            "fmax   v22.4s, v22.4s, v0.4s  \n"    /* relu6 */
            "fmax   v23.4s, v23.4s, v0.4s  \n"    /* relu6 */
            "fmax   v24.4s, v24.4s, v0.4s  \n"    /* relu6 */
            "fmax   v25.4s, v25.4s, v0.4s  \n"    /* relu6 */
            "fmax   v26.4s, v26.4s, v0.4s  \n"    /* relu6 */
            "fmax   v27.4s, v27.4s, v0.4s  \n"    /* relu6 */
            "fmax   v28.4s, v28.4s, v0.4s  \n"    /* relu6 */
            "fmax   v29.4s, v29.4s, v0.4s  \n"    /* relu6 */
            "fmax   v30.4s, v30.4s, v0.4s  \n"    /* relu6 */
            "fmax   v31.4s, v31.4s, v0.4s  \n"    /* relu6 */
            "fmin   v8.4s,  v8.4s,  v1.4s  \n"    /* relu6 */
            "fmin   v9.4s,  v9.4s,  v1.4s  \n"    /* relu6 */
            "fmin   v10.4s, v10.4s, v1.4s  \n"    /* relu6 */
            "fmin   v11.4s, v11.4s, v1.4s  \n"    /* relu6 */
            "fmin   v12.4s, v12.4s, v1.4s  \n"    /* relu6 */
            "fmin   v13.4s, v13.4s, v1.4s  \n"    /* relu6 */
            "fmin   v14.4s, v14.4s, v1.4s  \n"    /* relu6 */
            "fmin   v15.4s, v15.4s, v1.4s  \n"    /* relu6 */
            "fmin   v16.4s, v16.4s, v1.4s  \n"    /* relu6 */
            "fmin   v17.4s, v17.4s, v1.4s  \n"    /* relu6 */
            "fmin   v18.4s, v18.4s, v1.4s  \n"    /* relu6 */
            "fmin   v19.4s, v19.4s, v1.4s  \n"    /* relu6 */
            "fmin   v20.4s, v20.4s, v1.4s  \n"    /* relu6 */
            "fmin   v21.4s, v21.4s, v1.4s  \n"    /* relu6 */
            "fmin   v22.4s, v22.4s, v1.4s  \n"    /* relu6 */
            "fmin   v23.4s, v23.4s, v1.4s  \n"    /* relu6 */
            "fmin   v24.4s, v24.4s, v1.4s  \n"    /* relu6 */
            "fmin   v25.4s, v25.4s, v1.4s  \n"    /* relu6 */
            "fmin   v26.4s, v26.4s, v1.4s  \n"    /* relu6 */
            "fmin   v27.4s, v27.4s, v1.4s  \n"    /* relu6 */
            "fmin   v28.4s, v28.4s, v1.4s  \n"    /* relu6 */
            "fmin   v29.4s, v29.4s, v1.4s  \n"    /* relu6 */
            "fmin   v30.4s, v30.4s, v1.4s  \n"    /* relu6 */
            "fmin   v31.4s, v31.4s, v1.4s  \n"    /* relu6 */
            "b      20f                    \n"    /* relu6 end */
            //! leakey relu
            "13:                                \n" /* otherwise is leakey relu */
            "movi   v0.4s,    #0                \n" /* for leakey relu */
            "ld1    {v1.4s},  [%[alpha]]        \n" /* leakey relu alpha */
            "fcmge  v2.4s,    v8.4s,    v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v8.4s,    v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v9.4s,    v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v9.4s,    v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v10.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v10.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v8.16b,   v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v9.16b,   v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v10.16b,  v7.16b,   v6.16b  \n" /* choose*/
            "fcmge  v2.4s,    v11.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v11.4s,   v1.4s   \n" /* vmulq_f32 */      
            "bif    v11.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "fcmge  v2.4s,    v12.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v12.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v13.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v13.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v14.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v14.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v12.16b,  v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v13.16b,  v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v14.16b,  v7.16b,   v6.16b  \n" /* choose*/
            "fcmge  v2.4s,    v15.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v15.4s,   v1.4s   \n" /* vmulq_f32 */      
            "bif    v15.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "fcmge  v2.4s,    v16.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v16.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v17.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v17.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v18.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v18.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v16.16b,  v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v17.16b,  v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v18.16b,  v7.16b,   v6.16b  \n" /* choose*/
            "fcmge  v2.4s,    v19.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v19.4s,   v1.4s   \n" /* vmulq_f32 */      
            "bif    v19.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "fcmge  v2.4s,    v20.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v20.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v21.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v21.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v22.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v22.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v20.16b,  v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v21.16b,  v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v22.16b,  v7.16b,   v6.16b  \n" /* choose*/  
            "fcmge  v2.4s,    v23.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v23.4s,   v1.4s   \n" /* vmulq_f32 */    
            "bif    v23.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "fcmge  v2.4s,    v24.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v24.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v25.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v25.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v26.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v26.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v24.16b,  v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v25.16b,  v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v26.16b,  v7.16b,   v6.16b  \n" /* choose*/
            "fcmge  v2.4s,    v27.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v27.4s,   v1.4s   \n" /* vmulq_f32 */      
            "bif    v27.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "fcmge  v2.4s,    v28.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v28.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v29.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v29.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v30.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v30.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v28.16b,  v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v29.16b,  v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v30.16b,  v7.16b,   v6.16b  \n" /* choose*/
            "fcmge  v2.4s,    v31.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v31.4s,   v1.4s   \n" /* vmulq_f32 */      
            "bif    v31.16b,  v3.16b,   v2.16b  \n" /* choose*/
            "20:                                \n" /* act end */

Y
Yan Chunwei 已提交
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            "st1 {v8.4s, v9.4s, v10.4s},[%[c_ptr0]], #48\n"   /* store r0 */
            "st1 {v11.4s, v12.4s, v13.4s},[%[c_ptr1]], #48\n" /* store r1 */
            "st1 {v14.4s, v15.4s, v16.4s},[%[c_ptr2]], #48\n" /* store r2 */
            "st1 {v17.4s, v18.4s, v19.4s},[%[c_ptr3]], #48\n" /* store r3 */
            "st1 {v20.4s, v21.4s, v22.4s},[%[c_ptr4]], #48\n" /* store r4 */
            "st1 {v23.4s, v24.4s, v25.4s},[%[c_ptr5]], #48\n" /* store r5 */
            "st1 {v26.4s, v27.4s, v28.4s},[%[c_ptr6]], #48\n" /* store r6 */
            "st1 {v29.4s, v30.4s, v31.4s},[%[c_ptr7]], #48\n" /* store r7 */

            : [a_ptr] "+r"(a_ptr),
              [b_ptr] "+r"(b_ptr),
              [k] "+r"(k),
              [tail] "+r"(tail),
              [c_ptr0] "+r"(c_ptr0),
              [c_ptr1] "+r"(c_ptr1),
              [c_ptr2] "+r"(c_ptr2),
              [c_ptr3] "+r"(c_ptr3),
              [c_ptr4] "+r"(c_ptr4),
              [c_ptr5] "+r"(c_ptr5),
              [c_ptr6] "+r"(c_ptr6),
              [c_ptr7] "+r"(c_ptr7)
            : [bias_ptr] "r"(bias_local),
              [has_beta] "r"(has_beta),
3105 3106 3107
              [beta] "r"(beta),
              [alpha] "r"(alpha), 
              [flag_act] "r"(flag_act)
3108 3109 3110 3111 3112 3113 3114
            : "cc","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","v30","v31");
        // clang-format on
Y
Yan Chunwei 已提交
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        if (flag_p_remain && (xb == bblocks - 1)) {
          for (int i = 0; i < remain; ++i) {
            *pout0++ = cout0[i];
            *pout1++ = cout1[i];
            *pout2++ = cout2[i];
            *pout3++ = cout3[i];
            *pout4++ = cout4[i];
            *pout5++ = cout5[i];
            *pout6++ = cout6[i];
            *pout7++ = cout7[i];
          }
        }
      }
    }
  }
}
T
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void sgemm_prepacked_4x4(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float *A_packed,
                         const float *B,
                         int ldb,
                         float beta,
                         float *C,
                         int ldc,
                         const float *bias,
                         bool has_bias,
3144
                         const operators::ActivationParam act_param,
T
TianXiaogang 已提交
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                         ARMContext *ctx) {
  size_t l2_cache = ctx->llc_size() > 0 ? ctx->llc_size() : 512 * 1024;
  auto workspace = ctx->workspace_data<float>();
  int threads = ctx->threads();

3150 3151 3152 3153 3154 3155 3156 3157 3158 3159 3160 3161 3162 3163 3164 3165 3166 3167 3168 3169 3170 3171
  auto act_type = act_param.active_type;
  float alpha[4] = {0.f, 0.f, 0.f, 0.f};
  int flag_act = 0x00;  // relu: 1, relu6: 2, leakey: 3
  if (act_param.has_active) {
    if (act_type == lite_api::ActivationType::kRelu) {
      flag_act = 0x01;
    } else if (act_type == lite_api::ActivationType::kRelu6) {
      flag_act = 0x02;
      float local_alpha = act_param.Relu_clipped_coef;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    } else if (act_type == lite_api::ActivationType::kLeakyRelu) {
      flag_act = 0x03;
      float local_alpha = act_param.Leaky_relu_alpha;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    }
  }
T
TianXiaogang 已提交
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  const int n_block = 4;
  const int m_block = 4;
  //! MBLOCK * x (result) + MBLOCK * k (A) + x * k (B) = l2
  int x_block = (l2_cache - (m_block * K)) / (sizeof(float) * (K + m_block));
  x_block /= n_block;
  x_block *= n_block;
  int x_num = (N + (x_block - 1)) / x_block;
  x_block = (N + x_num - 1) / x_num;
  x_block = (x_block + n_block - 1) / n_block;
  x_block *= n_block;
  x_block = x_block < n_block ? n_block : x_block;

  // unroll 2 loop
  int tail_pre = (K & (KBLOCK - 1));
  int k_pre = ((K + KBLOCK - 1) / KBLOCK) - 1;
  if (tail_pre == 0) {
    tail_pre = KBLOCK;
  }

  bool flag_p_remain = false;
  int remain = 0;

  int has_beta = fabsf(beta) > 1e-8f ? 1 : 0;
  //! apanel is pre_compute outside gemm
  for (unsigned int x0 = 0; x0 < N; x0 += x_block) {
    unsigned int xmax = x0 + x_block;
    if (xmax > N) {
      xmax = N;
    }
    int bblocks = (xmax - x0 + n_block - 1) / n_block;
    remain = xmax - x0 - (bblocks - 1) * n_block;
    if (remain > 0) {
      flag_p_remain = true;
    }
    //! load bpanel
    float *b_pannel = workspace;
    if (is_transB) {
      pack_m4(b_pannel, B, 1.0f, ldb, x0, xmax, 0, K);
    } else {
      pack_trans_m4(b_pannel, B, 1.0f, ldb, x0, xmax, 0, K);
    }
#pragma omp parallel for num_threads(threads)
    for (unsigned int y = 0; y < M; y += m_block) {
      unsigned int ymax = y + m_block;
      if (ymax > M) {
        ymax = M;
      }

      float bias_local[4] = {0};
      if (has_bias) {
        bias_local[0] = bias[y];
        bias_local[1] = bias[y + 1];
        bias_local[2] = bias[y + 2];
        bias_local[3] = bias[y + 3];
      }

      float cout0[n_block];  // NOLINT
      float cout1[n_block];  // NOLINT
      float cout2[n_block];  // NOLINT
      float cout3[n_block];  // NOLINT

      float *c_ptr0 = C + y * ldc + x0;
      float *c_ptr1 = c_ptr0 + ldc;
      float *c_ptr2 = c_ptr1 + ldc;
      float *c_ptr3 = c_ptr2 + ldc;

      float *pout0 = c_ptr0;
      float *pout1 = c_ptr1;
      float *pout2 = c_ptr2;
      float *pout3 = c_ptr3;

      const float *a_ptr_l = A_packed + y * K;
      const float *b_ptr_l = b_pannel;
      for (int xb = 0; xb < bblocks; xb++) {
        if ((y + 3) >= ymax) {
          switch ((y + 3) - ymax) {
            case 2:
              c_ptr1 = cout1;
            case 1:
              c_ptr2 = cout2;
            case 0:
              c_ptr3 = cout3;
            default:
              break;
          }
        }
        if (flag_p_remain && (xb == bblocks - 1)) {
          pout0 = c_ptr0;
          pout1 = c_ptr1;
          pout2 = c_ptr2;
          pout3 = c_ptr3;

          c_ptr0 = cout0;
          c_ptr1 = cout1;
          c_ptr2 = cout2;
          c_ptr3 = cout3;
          if (has_beta) {
            for (int i = 0; i < remain; ++i) {
              cout0[i] = pout0[i];
              cout1[i] = pout1[i];
              cout2[i] = pout2[i];
              cout3[i] = pout3[i];
            }
          }
        }
        const float *a_ptr = a_ptr_l;
        const float *b_ptr = b_ptr_l + xb * K * 4;
        int tail = tail_pre;
        int k = k_pre;
        // clang-format off
        asm volatile(
            "prfm   pldl1keep, [%[a_ptr]]\n"       /* preload a*/
            "ld1    {v2.4s}, [%[bias_ptr]]\n"         /* load bias to q2, q3*/
            "dup    v8.4s,  v2.s[0]\n"               /* out0 = 0 */
            "prfm   pldl1keep, [%[b_ptr]]\n"       /* preload b*/
            "dup    v9.4s,  v2.s[1]\n"               /* out1 = 0*/
            "prfm   pldl1keep, [%[a_ptr], #64]\n"  /* preload a*/
            "dup    v10.4s, v2.s[2]\n"               /* out2 = 0*/
            "prfm   pldl1keep, [%[b_ptr], #64]\n"  /* preload b*/
            "dup    v11.4s, v2.s[3]\n"               /* out3 = 0*/
            "cbz    %w[has_beta], 0f\n"            /* check beta == 0? */
            /* process beta */
            "dup    v7.4s, %w[beta]\n"                    /* beta to vector */
            "ld1    {v0.4s}, [%[c_ptr0]]\n" /* load output r0 */
            "ld1    {v1.4s}, [%[c_ptr1]]\n" /* load output r1 */
            "fmla   v8.4s, v0.4s, v7.4s\n"  /* cr00 += beta * c_r00*/
            "fmla   v9.4s, v1.4s, v7.4s\n"  /* cr10 += beta * c_r10*/
            "ld1    {v2.4s}, [%[c_ptr2]]\n"
            "ld1    {v3.4s}, [%[c_ptr3]]\n"
            "fmla   v10.4s, v2.4s, v7.4s\n" /* cr20 += beta * c_r20*/
            "fmla   v11.4s, v3.4s, v7.4s\n" /* cr30 += beta * c_r30*/

            "0: \n"                          /* check loop count */
            "ldp	q0, q1, [%[a_ptr]], #32\n" /* load a00,a10 to q0, q1*/
            "ldp	q4, q5, [%[b_ptr]], #32\n" /* load b0, b1 to q4, q5*/
            "cbz	%w[k], 2f\n"               /* check loop count > 0 */
            /* main loop */
            /* unrool 0*/
            "1:\n"                              /* main loop */
            "fmla 	v8.4s,   v4.4s,  v0.s[0]\n"   /* out0 = b0 * a00[0], b0 =q4 */
            "fmla  	v9.4s,   v4.4s,  v0.s[1]\n"   /* out1 = b0 * a00[1], b0 =q4 */
            "ldp	q6, q7, [%[b_ptr]], #32\n"    /* load b2, b3 to q6, q7 */
            "fmla	v10.4s,  v4.4s,  v0.s[2]\n"   /* out2 = b0 * a00[2], b0 =q4 */
            "fmla	v11.4s,  v4.4s,  v0.s[3]\n"   /* out3 = b0 * a00[3], b0 =q4 */
            
            "ldp	q2, q3, [%[a_ptr]], #32\n"    /* load a20, a30 to q2, q3 */
            "fmla 	v8.4s,   v5.4s,  v1.s[0]\n"   /* out0 = b1 * a10[0], b1 =q5 */
            "fmla	v9.4s,   v5.4s,  v1.s[1]\n"   /* out1 = b1 * a10[1], b1 =q5 */
            "fmla	v10.4s,  v5.4s,  v1.s[2]\n"   /* out2 = b1 * a10[2], b1 =q5 */
            "fmla	v11.4s,  v5.4s,  v1.s[3]\n"   /* out3 = b1 * a10[3], b1 =q5 */
            "ldp	q4, q5, [%[b_ptr]], #32\n"    /* load b0, b1 to q4, q5*/

            "fmla	v8.4s,   v6.4s,  v2.s[0]\n"   /* out0 = b2 * a20[0], b2 =q6 */
            "fmla	v9.4s,   v6.4s,  v2.s[1]\n"   /* out1 = b2 * a20[1], b2 =q6 */
            "fmla	v10.4s,  v6.4s,  v2.s[2]\n"   /* out2 = b2 * a20[2], b2 =q6*/
            "fmla	v11.4s,  v6.4s,  v2.s[3]\n"   /* out3 = b2 * a20[3], b2 =q6*/
            "ldp	q0, q1, [%[a_ptr]], #32\n"    /* load a00, a10 to q0, q1 */

            "fmla	v8.4s,   v7.4s,  v3.s[0]\n"   /* out0 = b3 * a30[0], b3 =q7*/
            "fmla	v9.4s,   v7.4s,  v3.s[1]\n"   /* out1 = b3 * a30[1], b3 =q7*/
            "subs	%w[k], %w[k], #1\n"         /* loop count - 1*/
            "fmla	v10.4s,  v7.4s,  v3.s[2]\n"   /* out2 = b3 * a30[2], b3 =q7*/
            "fmla	v11.4s,  v7.4s,  v3.s[3]\n"   /* out3 = b3 * a30[3], b3 =q7*/

            "bne	1b\n"
            "2:\n"                            /* process tail*/
            "subs		%w[tail], %w[tail], #1\n" /* tail--*/
            "beq		3f\n"                     /*jump to tail = 1*/
            /* final unrool 0*/
            /* unrool 0, tail > 1*/
            "fmla 	v8.4s,   v4.4s,  v0.s[0]\n"   /* out0 = b0 * a00[0], b0 =q4 */
            "fmla	v9.4s,   v4.4s,  v0.s[1]\n"   /* out1 = b0 * a00[1], b0 =q4 */
            "subs	%w[tail], %w[tail], #1\n"      /* tail--*/
            "fmla	v10.4s,  v4.4s,  v0.s[2]\n"   /* out2 = b0 * a00[2], b0 =q4 */
            "fmla	v11.4s,  v4.4s,  v0.s[3]\n"   /* out3 = b0 * a00[3], b0 =q4 */

            "beq		4f\n"                     /*jump to tail = 2*/
            /* unrool 1, tail > 2*/
            "ldp	q6, q7, [%[b_ptr]], #32\n"    /* load b2, b3 to q6, q7 */

            "fmla 	v8.4s,   v5.4s,  v1.s[0]\n"   /* out0 = b1 * a10[0], b1 =q5 */
            "fmla       v9.4s,   v5.4s,  v1.s[1]\n"   /* out1 = b1 * a10[1], b1 =q5*/
            "subs	%w[tail], %w[tail], #1\n"      /* tail--*/
            "fmla	v10.4s,  v5.4s,  v1.s[2]\n"   /* out2 = b1 * a10[2], b1 =q5 */
            "fmla	v11.4s,  v5.4s,  v1.s[3]\n"   /* out3 = b1 * a10[3], b1 =q5 */
            "ldp	q2, q3, [%[a_ptr]], #32\n"    /* load a20, a30 to q2, q3 */

            "beq		5f\n"                       /*jump to tail = 3*/
            /* unrool 2, tail = 4*/
            "fmla	v8.4s,   v6.4s,  v2.s[0]\n"   /* out0 = b2 * a20[0], b1 =q6 */
            "fmla	v9.4s,   v6.4s,  v2.s[1]\n"   /* out1 = b2 * a20[1], b1 =q6 */
            "fmla	v10.4s,  v6.4s,  v2.s[2]\n"   /* out2 = b2 * a20[2], b1 =q6*/
            "fmla	v11.4s,  v6.4s,  v2.s[3]\n"   /* out3 = b2 * a20[3], b1 =q6*/

            /* unrool 3, tail = 4*/

            "fmla	v8.4s,   v7.4s,  v3.s[0]\n"   /* out0 = b3 * a30[0], b3 =q7*/
            "fmla	v9.4s,   v7.4s,  v3.s[1]\n"   /* out1 = b3 * a30[1], b3 =q7*/
            "fmla	v10.4s,  v7.4s,  v3.s[2]\n"   /* out2 = b3 * a30[2], b3 =q7*/
            "fmla	v11.4s,  v7.4s,  v3.s[3]\n"   /* out3 = b3 * a30[3], b3 =q7*/

            "b		11f\n"
            /* tails==1 final tail*/
            "3: \n"                            /* tail=1*/
            "fmla 	v8.4s,   v4.4s,  v0.s[0]\n"   /* out0 = b0 * a00[0], b0 =q4 */
            "fmla	v9.4s,   v4.4s,  v0.s[1]\n"   /* out1 = b0 * a00[1], b0 =q4 */
            "fmla	v10.4s,  v4.4s,  v0.s[2]\n"   /* out2 = b0 * a00[2], b0 =q4 */
            "fmla	v11.4s,  v4.4s,  v0.s[3]\n"   /* out3 = b0 * a00[3], b0 =q4 */

            "b		11f\n"
            /* tails==2 final tail*/
            "4:\n"                              /* tail = 2*/

            "fmla 	v8.4s,   v5.4s,  v1.s[0]\n"   /* out0 = b1 * a10[0], b1 =q5 */
            "fmla       v9.4s,   v5.4s,  v1.s[1]\n"   /* out1 = b1 * a10[1], b1 =q5*/
            "fmla	v10.4s,  v5.4s,  v1.s[2]\n"   /* out2 = b1 * a10[2], b1 =q5 */
            "fmla	v11.4s,  v5.4s,  v1.s[3]\n"   /* out3 = b1 * a10[3], b1 =q5 */

            "b		11f\n"
            /* tails==3 final tail*/
            "5:\n"                              /* tail = 3*/
            "fmla	v8.4s,   v6.4s,  v2.s[0]\n"   /* out0 = b2 * a20[0], b1 =q6 */
            "fmla	v9.4s,   v6.4s,  v2.s[1]\n"   /* out1 = b2 * a20[1], b1 =q6 */
            "fmla	v10.4s,  v6.4s,  v2.s[2]\n"   /* out2 = b2 * a20[2], b1 =q6*/
            "fmla	v11.4s,  v6.4s,  v2.s[3]\n"   /* out3 = b2 * a20[3], b1 =q6*/

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            "11:                           \n"   /* check activation */
            "cmp    %w[flag_act],   #1     \n"   /* check if has relu */
            "bne    12f                    \n"   /* jump if no relu */
            "movi   v0.4s,  #0             \n"   /* for relu*/
            "fmax   v8.4s,  v8.4s,  v0.4s  \n"   /* relu*/
            "fmax   v9.4s,  v9.4s,  v0.4s  \n"   /* relu*/
            "fmax   v10.4s, v10.4s, v0.4s  \n"   /* relu*/
            "fmax   v11.4s, v11.4s, v0.4s  \n"   /* relu*/
            "b      20f                    \n"   /* relu end */
            //! no act 
            "12:                           \n"   /* no relu */
            "cmp   %w[flag_act],  #0       \n"   /* check no act */
            "beq   20f                     \n"   /* no act end */ 
            //! relu6 
            "cmp    %w[flag_act],  #2      \n"    /* check if has relu6 */
            "bne    13f                    \n"    /* jump if no relu6 */
            "movi   v0.4s, #0              \n"    /* for relu6 */
            "ld1    {v1.4s}, [%[alpha]]    \n"    /* relu6 alpha */
            "fmax   v8.4s,  v8.4s,  v0.4s  \n"    /* relu6 */
            "fmax   v9.4s,  v9.4s,  v0.4s  \n"    /* relu6 */
            "fmax   v10.4s, v10.4s, v0.4s  \n"    /* relu6 */
            "fmax   v11.4s, v11.4s, v0.4s  \n"    /* relu6 */

            "fmin   v8.4s,  v8.4s,  v1.4s  \n"    /* relu6*/
            "fmin   v9.4s,  v9.4s,  v1.4s  \n"    /* relu6*/
            "fmin   v10.4s, v10.4s, v1.4s  \n"    /* relu6*/
            "fmin   v11.4s, v11.4s, v1.4s  \n"    /* relu6*/
            "b      20f                    \n"    /* relu6 end */
            //! leakey relu
            "13:                                \n" /* otherwise is leakey relu */
            "movi   v0.4s,    #0                \n" /* for leakey relu */
            "ld1    {v1.4s},  [%[alpha]]        \n" /* leakey relu alpha */
            "fcmge  v2.4s,    v8.4s,    v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v3.4s,    v8.4s,    v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v4.4s,    v9.4s,    v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v5.4s,    v9.4s,    v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v6.4s,    v10.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v7.4s,    v10.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "fcmge  v12.4s,   v11.4s,   v0.4s   \n" /* vcgeq_f32 */ 
            "fmul   v13.4s,   v11.4s,   v1.4s   \n" /* vmulq_f32 */ 
            "bif    v8.16b,   v3.16b,   v2.16b  \n" /* choose*/     
            "bif    v9.16b,   v5.16b,   v4.16b  \n" /* choose*/     
            "bif    v10.16b,  v7.16b,   v6.16b  \n" /* choose*/     
            "bif    v11.16b,  v13.16b,  v12.16b \n" /* choose*/
            "20:                                \n" /* act end */
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            "st1 {v8.4s}, [%[c_ptr0]], #16\n"   /* store r0 */
            "st1 {v9.4s}, [%[c_ptr1]], #16\n" /* store r1 */
            "st1 {v10.4s}, [%[c_ptr2]], #16\n" /* store r2 */
            "st1 {v11.4s}, [%[c_ptr3]], #16\n" /* store r3 */

            : [a_ptr] "+r"(a_ptr),
              [b_ptr] "+r"(b_ptr),
              [k] "+r"(k),
              [tail] "+r"(tail),
              [c_ptr0] "+r"(c_ptr0),
              [c_ptr1] "+r"(c_ptr1),
              [c_ptr2] "+r"(c_ptr2),
              [c_ptr3] "+r"(c_ptr3)
            : [bias_ptr] "r"(bias_local),
              [has_beta] "r"(has_beta),
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              [beta] "r"(beta), 
              [alpha] "r"(alpha),
              [flag_act] "r"(flag_act)
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            : "cc","memory",
              "v0","v1","v2","v3","v4","v5","v6","v7",
              "v8","v9","v10","v11");
        // clang-format on
        if (flag_p_remain && (xb == bblocks - 1)) {
          for (int i = 0; i < remain; ++i) {
            *pout0++ = cout0[i];
            *pout1++ = cout1[i];
            *pout2++ = cout2[i];
            *pout3++ = cout3[i];
          }
        }
      }
    }
  }
}
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#else  // __aarch64__
/**
 * \brief gemm with ablock = 6, bblock = 8, output 6x8
 * @param A
 * @param B
 * @param C
 * @param M
 * @param N
 * @param K
 * @param threads
 * @param workspace
 */
void sgemm_prepacked_6x8(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float* A_packed,
                         const float* B,
                         int ldb,
                         float beta,
                         float* C,
                         int ldc,
                         const float* bias,
                         bool has_bias,
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                         const operators::ActivationParam act_param,
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                         ARMContext* ctx) {
  size_t l2_cache = ctx->llc_size() > 0 ? ctx->llc_size() : 512 * 1024;
  auto* workspace = ctx->workspace_data<float>();
  int threads = ctx->threads();
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  auto act_type = act_param.active_type;
  float alpha[4] = {0.f, 0.f, 0.f, 0.f};
  int flag_act = 0x00;  // relu: 1, relu6: 2, leakey: 3
  if (act_param.has_active) {
    if (act_type == lite_api::ActivationType::kRelu) {
      flag_act = 0x01;
    } else if (act_type == lite_api::ActivationType::kRelu6) {
      flag_act = 0x02;
      float local_alpha = act_param.Relu_clipped_coef;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    } else if (act_type == lite_api::ActivationType::kLeakyRelu) {
      flag_act = 0x03;
      float local_alpha = act_param.Leaky_relu_alpha;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    }
  }
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  //! MBLOCK * x (result) + MBLOCK * k (A) + x * k (B) = l2
  int x_block =
      (l2_cache - (MBLOCK_OTH * K)) / (sizeof(float) * (K + MBLOCK_OTH));
  x_block /= NBLOCK;
  x_block *= NBLOCK;
  int x_num = (N + (x_block - 1)) / x_block;
  x_block = (N + x_num - 1) / x_num;
  x_block = (x_block + NBLOCK - 1) / NBLOCK;
  x_block *= NBLOCK;
  x_block = x_block < NBLOCK ? NBLOCK : x_block;

  int k_pre = ((K + KBLOCK - 1) / KBLOCK) - 1;
  int tail_pre = (K & (KBLOCK - 1));
  if (tail_pre == 0) {
    tail_pre = KBLOCK;
  }

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  //! merge tail_pre and flag_act
  tail_pre = (tail_pre << 2 | flag_act);
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  bool flag_p_remain = false;
  int remain = 0;

  int has_beta = fabsf(beta) > 1e-8f ? 1 : 0;

  //! apanel is pre_compute outside gemm
  for (unsigned int x0 = 0; x0 < N; x0 += x_block) {
    unsigned int xmax = x0 + x_block;
    if (xmax > N) {
      xmax = N;
    }
    int bblocks = (xmax - x0 + NBLOCK - 1) / NBLOCK;
    remain = xmax - x0 - (bblocks - 1) * NBLOCK;
    if (remain > 0) {
      flag_p_remain = true;
    }
    //! load bpanel
    auto b_pannel = static_cast<float*>(workspace);
    if (is_transB) {
      loadb_trans(b_pannel, B, ldb, 0, K, x0, xmax);
    } else {
      loadb(b_pannel, B, ldb, 0, K, x0, xmax);
    }
#pragma omp parallel for num_threads(threads)
    for (unsigned int y = 0; y < M; y += MBLOCK_OTH) {
      unsigned int ymax = y + MBLOCK_OTH;
      if (ymax > M) {
        ymax = M;
      }
      float* c_ptr0 = C + y * ldc + x0;
      float* c_ptr1 = c_ptr0 + ldc;
      float* c_ptr2 = c_ptr1 + ldc;
      float* c_ptr3 = c_ptr2 + ldc;
      float* c_ptr4 = c_ptr3 + ldc;
      float* c_ptr5 = c_ptr4 + ldc;

      float* pout0 = c_ptr0;
      float* pout1 = c_ptr1;
      float* pout2 = c_ptr2;
      float* pout3 = c_ptr3;
      float* pout4 = c_ptr4;
      float* pout5 = c_ptr5;

      float bias_local[6] = {0};
      if (has_bias) {
        bias_local[0] = bias[y];
        bias_local[1] = bias[y + 1];
        bias_local[2] = bias[y + 2];
        bias_local[3] = bias[y + 3];
        bias_local[4] = bias[y + 4];
        bias_local[5] = bias[y + 5];
      }

      float cout0[NBLOCK];
      float cout1[NBLOCK];
      float cout2[NBLOCK];
      float cout3[NBLOCK];
      float cout4[NBLOCK];
      float cout5[NBLOCK];

      const float* a_ptr_l = A_packed + y * K;
      const float* b_ptr = b_pannel;
      for (int xb = 0; xb < bblocks; xb++) {
        if ((y + 5) >= ymax) {
          switch ((y + 5) - ymax) {
            case 4:
              c_ptr1 = cout1;
            case 3:
              c_ptr2 = cout2;
            case 2:
              c_ptr3 = cout3;
            case 1:
              c_ptr4 = cout4;
            case 0:
              c_ptr5 = cout5;
            default:
              break;
          }
        }
        if (flag_p_remain && (xb == bblocks - 1)) {
          pout0 = c_ptr0;
          pout1 = c_ptr1;
          pout2 = c_ptr2;
          pout3 = c_ptr3;
          pout4 = c_ptr4;
          pout5 = c_ptr5;

          c_ptr0 = cout0;
          c_ptr1 = cout1;
          c_ptr2 = cout2;
          c_ptr3 = cout3;
          c_ptr4 = cout4;
          c_ptr5 = cout5;
          if (has_beta) {
            for (int i = 0; i < remain; ++i) {
              cout0[i] = pout0[i];
              cout1[i] = pout1[i];
              cout2[i] = pout2[i];
              cout3[i] = pout3[i];
              cout4[i] = pout4[i];
              cout5[i] = pout5[i];
            }
          }
        }
        const float* a_ptr = a_ptr_l;
        int tails = tail_pre;
        int k = k_pre;
3654
        // clang-format off
Y
Yan Chunwei 已提交
3655 3656 3657 3658 3659 3660 3661 3662 3663 3664 3665 3666 3667 3668 3669 3670 3671 3672 3673 3674 3675 3676 3677 3678 3679 3680 3681
        asm volatile(
            // sgemm 6x8
            "vld1.32	{d2-d4}, [%[bias_ptr]]      @ load bias 6 elements\n"
            "pld [%[a_ptr]]                         @ preload a\n"
            "vdup.i32	q12,d4[0]                   @ out40=0\n"
            "pld [%[b_ptr]]                         @ preload b\n"
            "vdup.i32	q13,d4[0]                   @ out41=0\n"
            "pld [%[a_ptr], #64]                    @ preload a\n"
            "vdup.i32	q14,d4[1]                   @ out50=0\n"
            "pld [%[b_ptr], #64]                    @ preload b\n"
            "vdup.i32	q15,d4[1]                   @ out51=0\n"
            "pld [%[a_ptr], #128]                   @ preload a\n"
            "vdup.i32	q4, d2[0]                   @ out00=0\n"
            "pld [%[b_ptr], #128]                   @ preload b\n"
            "vdup.i32	q5, d2[0]                   @ out01=0\n"
            "vdup.i32	q6, d2[1]                   @ out10=0\n"
            "pld [%[a_ptr], #192]                   @ preload a\n"
            "vdup.i32	q7, d2[1]                   @ out11=0\n"
            "pld [%[b_ptr], #192]                   @ preload a\n"
            "vdup.i32	q8, d3[0]                   @ out20=0\n"
            "pld [%[a_ptr], #256]                   @ preload a\n"
            "vdup.i32	q9, d3[0]                   @ out21=0\n"
            "pld [%[b_ptr], #256]                   @ preload a\n"
            "vdup.i32	q10,d3[1]                   @ out30=0\n"
            "pld [%[b_ptr], #320]                   @ preload b\n"
            "vdup.i32	q11,d3[1]                   @ out31=0\n"
            "pld [%[b_ptr], #384]                   @ preload b\n"
3682
            "cmp %[beta], #0\n"
Y
Yan Chunwei 已提交
3683 3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704 3705 3706 3707 3708 3709 3710 3711 3712 3713 3714 3715 3716 3717 3718 3719 3720 3721 3722 3723 3724 3725 3726 3727 3728 3729 3730 3731 3732 3733 3734 3735 3736 3737 3738 3739 3740 3741 3742 3743 3744 3745 3746 3747 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757 3758 3759 3760 3761 3762 3763 3764 3765 3766 3767 3768 3769 3770 3771 3772 3773 3774 3775 3776 3777 3778 3779
            "beq    11f\n" /* check beta == 0? */
            /* process beta */
            "vdup.32    q3, %[beta]\n"          /* beta to vector */
            "vld1.32    {d0-d3}, [%[c_ptr0]]\n" /* load output r0 */
            "vmla.f32   q4, q0, q3\n"           /* cr00 += beta * c_r00 */
            "vmla.f32   q5, q1, q3\n"           /* cr01 += beta * c_r01 */
            "vld1.32    {d0-d3}, [%[c_ptr1]]\n" /* load output r1 */
            "vmla.f32   q6, q0, q3\n"           /* cr10 += beta * c_r10 */
            "vmla.f32   q7, q1, q3\n"           /* cr11 += beta * c_r11 */
            "vld1.32    {d0-d3}, [%[c_ptr2]]\n" /* load output r2 */
            "vmla.f32   q8, q0, q3\n"           /* cr20 += beta * c_r20 */
            "vmla.f32   q9, q1, q3\n"           /* cr21 += beta * c_r21 */
            "vld1.32    {d0-d3}, [%[c_ptr3]]\n" /* load output r3 */
            "vmla.f32   q10, q0, q3\n"          /* cr30 += beta * c_r30 */
            "vmla.f32   q11, q1, q3\n"          /* cr31 += beta * c_r31 */
            "vld1.32    {d0-d3}, [%[c_ptr4]]\n" /* load output r4 */
            "vmla.f32   q12, q0, q3\n"          /* cr40 += beta * c_r40 */
            "vmla.f32   q13, q1, q3\n"          /* cr41 += beta * c_r41 */
            "vld1.32    {d0-d3}, [%[c_ptr5]]\n" /* load output r5 */
            "vmla.f32   q14, q0, q3\n"          /* cr50 += beta * c_r50 */
            "vmla.f32   q15, q1, q3\n"          /* cr51 += beta * c_r51 */
            "11: \n"                            /* check loop count */
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a0~a3\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "cmp %[k], #0                     @ check weather k is bigger than "
            "0\n"
            "beq 0f                                 @ jump to tail\n"
            "1:                                     @ main loop for k\n"
            /* Unroll 0*/
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a4, a5, and next a0, "
            "a1\n"
            "vmla.f32	q4, q2, d0[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            "vmla.f32	q6, q2, d0[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d1[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d2[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d2[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "vmla.f32	q5, q3, d0[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d0[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d1[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d1[1]              @ out9 += b2 * a3\n"
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a2~a5\n"
            "vmla.f32	q13, q3, d2[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d2[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            /* Unroll 1 */
            "vmla.f32	q4, q2, d3[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d3[1]               @ out1 += b1 * a1\n"
            /*"pld [%[a_ptr], #64]                    @ preload a\n"*/
            "vmla.f32	q8, q2, d0[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d0[1]              @ out3 += b1 * a3\n"
            /*"pld [%[b_ptr], #192]\n"*/
            "vmla.f32	q12, q2, d1[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d1[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "vmla.f32	q5, q3, d3[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d3[1]               @ out7 += b2 * a1\n"
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a0~a3\n"
            "vmla.f32	q9, q3, d0[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d0[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d1[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d1[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a4, a5, a0, a1\n"
            /* Unroll 2 */
            "vmla.f32	q4, q2, d2[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            "vmla.f32	q6, q2, d2[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d3[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d3[1]              @ out3 += b1 * a3\n"
            /*"pld [%[a_ptr], #240]                   @ preload\n"*/
            "vmla.f32	q12, q2, d0[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d0[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "vmla.f32	q5, q3, d2[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d2[1]               @ out7 += b2 * a1\n"
            /*"pld [%[b_ptr], #208]\n"*/
            "vmla.f32	q9, q3, d3[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d3[1]              @ out9 += b2 * a3\n"
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a2~a5\n"
            "vmla.f32	q13, q3, d0[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d0[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            /* Unroll 3 */
            "vmla.f32	q4, q2, d1[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d1[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d2[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d2[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d3[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d3[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "vmla.f32	q5, q3, d1[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d1[1]               @ out7 += b2 * a1\n"
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a0~a3\n"
            "vmla.f32	q9, q3, d2[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d2[1]              @ out9 += b2 * a3\n"
3780
            "subs		%[k], %[k], #1                @ k--\n"
Y
Yan Chunwei 已提交
3781 3782
            "vmla.f32	q13, q3, d3[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d3[1]              @ out11 += b2 * a5\n"
3783 3784 3785 3786 3787
            "bne		1b                            @ jump to main loop\n"
            "0:                                   @ process tail\n"
            "sub		%[tails], %[tails], #4        @ tail--\n"
            "cmp    %[tails], #4                  @ cmp with act bits\n"
            "blt		3f                            @ jump to tail = 1\n"
Y
Yan Chunwei 已提交
3788 3789 3790 3791 3792 3793 3794 3795
            /* Unroll 0*/
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            "vmla.f32	q4, q2, d0[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a4,5, a0, a1\n"
            "vmla.f32	q6, q2, d0[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d1[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d2[0]              @ out4 += b1 * a4\n"
3796
            "sub		%[tails], %[tails], #4        @ tail--\n"
Y
Yan Chunwei 已提交
3797 3798
            "vmla.f32	q14, q2, d2[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
3799
            "cmp    %[tails], #4                  @ cmp with act bits\n"
Y
Yan Chunwei 已提交
3800 3801 3802 3803 3804 3805 3806 3807
            "vmla.f32	q5, q3, d0[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d0[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d1[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d1[1]              @ out9 += b2 * a3\n"
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a2~a5\n"
            "vmla.f32	q13, q3, d2[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d2[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
3808
            "blt		4f                            @ jump to tail==2\n"
Y
Yan Chunwei 已提交
3809 3810 3811
            /* Unroll 1*/
            "vmla.f32	q4, q2, d3[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d3[1]               @ out1 += b1 * a1\n"
3812
            "sub		%[tails], %[tails], #4        @ tail--\n"
Y
Yan Chunwei 已提交
3813 3814 3815 3816 3817
            "vmla.f32	q8, q2, d0[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d0[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d1[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d1[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
3818
            "cmp    %[tails],  #4                 @ cmp with act bits\n"
Y
Yan Chunwei 已提交
3819 3820 3821 3822 3823 3824 3825 3826
            "vmla.f32	q5, q3, d3[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d3[1]               @ out7 += b2 * a1\n"
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a0~a3\n"
            "vmla.f32	q9, q3, d0[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d0[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d1[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d1[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
3827
            "blt		5f                            @ jump to tail==3\n"
Y
Yan Chunwei 已提交
3828
            /* Unroll 2 */
3829
            "sub		%[tails], %[tails], #4        @ tail--\n"
Y
Yan Chunwei 已提交
3830 3831 3832 3833 3834 3835 3836 3837 3838 3839 3840 3841 3842 3843 3844 3845 3846 3847 3848 3849 3850 3851 3852 3853 3854 3855 3856 3857 3858 3859 3860 3861 3862 3863 3864 3865 3866 3867 3868 3869 3870 3871 3872 3873 3874 3875 3876 3877 3878 3879 3880 3881 3882 3883 3884 3885 3886 3887 3888 3889 3890 3891 3892 3893 3894 3895 3896 3897 3898 3899 3900 3901 3902 3903 3904 3905 3906
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!    @ load a4,a5, a0,a1\n"
            "vmla.f32	q4, q2, d2[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d2[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d3[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d3[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d0[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d0[1]              @ out5 += b1 * a5\n"
            "vld1.32	{d4-d5}, [%[b_ptr] :128]!   @ load b1\n"
            "vmla.f32	q5, q3, d2[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d2[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d3[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d3[1]              @ out9 += b2 * a3\n"
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!    @ load a2~a5\n"
            "vmla.f32	q13, q3, d0[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d0[1]              @ out11 += b2 * a5\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            /* Unroll 3*/
            "vmla.f32	q4, q2, d1[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d1[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d2[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d2[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d3[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d3[1]              @ out5  += b1 * a5\n"
            "vmla.f32	q5, q3, d1[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d1[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d2[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d2[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d3[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d3[1]              @ out11 += b2 * a5\n"
            "b		2f\n"
            /* tails==1 final tail*/
            "3:                                     @ tail=1\n"
            "vmla.f32	q4, q2, d0[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d2}, [%[a_ptr] :64]!       @ load a4,a5\n"
            "vmla.f32	q6, q2, d0[1]               @ out1 += b1 * a1\n"
            "vld1.32	{d6-d7}, [%[b_ptr] :128]!   @ load b2\n"
            "vmla.f32	q8, q2, d1[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d2[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d2[1]              @ out5 += b1 * a5\n"
            "vmla.f32	q5, q3, d0[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d0[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d1[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d1[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d2[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d2[1]              @ out11 += b2 * a5\n"
            "b		2f                              @ jump to end\n"
            /* tails==2 final tail*/
            "4:                                     @ tail == 2\n"
            "vmla.f32	q4, q2, d3[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q6, q2, d3[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d0[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d0[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d1[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d1[1]              @ out5 += b1 * a5\n"
            "vmla.f32	q5, q3, d3[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d3[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d0[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d0[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d1[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d1[1]              @ out11 += b2 * a5\n"
            "b		2f                              @ jump to end\n"
            /* tails==3 final tail*/
            "5:                                     @ tail=3\n"
            "vmla.f32	q4, q2, d2[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d0}, [%[a_ptr] :64]!       @ load a4,a5\n"
            "vmla.f32	q6, q2, d2[1]               @ out1 += b1 * a1\n"
            "vmla.f32	q8, q2, d3[0]               @ out2 += b1 * a2\n"
            "vmla.f32	q10, q2, d3[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q12, q2, d0[0]              @ out4 += b1 * a4\n"
            "vmla.f32	q14, q2, d0[1]              @ out5 += b1 * a5\n"
            "vmla.f32	q5, q3, d2[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q7, q3, d2[1]               @ out7 += b2 * a1\n"
            "vmla.f32	q9, q3, d3[0]               @ out8 += b2 * a2\n"
            "vmla.f32	q11, q3, d3[1]              @ out9 += b2 * a3\n"
            "vmla.f32	q13, q3, d0[0]              @ out10 += b2 * a4\n"
            "vmla.f32	q15, q3, d0[1]              @ out11 += b2 * a5\n"
3907 3908 3909 3910 3911 3912 3913 3914 3915 3916 3917 3918 3919 3920 3921 3922 3923 3924 3925 3926 3927 3928 3929 3930 3931 3932 3933 3934 3935 3936 3937 3938 3939 3940 3941 3942 3943 3944 3945 3946 3947 3948 3949 3950 3951 3952 3953 3954 3955 3956 3957 3958 3959 3960 3961 3962 3963 3964 3965 3966 3967 3968 3969 3970 3971 3972 3973 3974 3975 3976 3977 3978 3979 3980 3981 3982 3983 3984 3985 3986 3987 3988 3989 3990 3991 3992 3993 3994 3995 3996 3997 3998 3999
            "2:                                   @ check activation\n"
            //!   relu
            "cmp        %[tails], #1              @ check if has relu\n"
            "bne        6f                        @ jump if not relu \n"
            "vmov.u32   q0, #0                    @ for relu\n"
            "vmax.f32   q4, q4, q0                @ for relu\n"
            "vmax.f32   q5, q5, q0                @ for relu\n"
            "vmax.f32   q6, q6, q0                @ for relu\n"
            "vmax.f32   q7, q7, q0                @ for relu\n"
            "vmax.f32   q8, q8, q0                @ for relu\n"
            "vmax.f32   q9, q9, q0                @ for relu\n"
            "vmax.f32   q10, q10, q0              @ for relu\n"
            "vmax.f32   q11, q11, q0              @ for relu\n"
            "vmax.f32   q12, q12, q0              @ for relu\n"
            "vmax.f32   q13, q13, q0              @ for relu\n"
            "vmax.f32   q14, q14, q0              @ for relu\n"
            "vmax.f32   q15, q15, q0              @ for relu\n"
            "b          10f                       @ relu end\n"
            "6:                                   @ no relu \n"
            "cmp        %[tails], #0              @ check no act\n"
            "beq        10f                       @ no act end  \n"
            //!   relu6
            "cmp        %[tails], #2              @ check if has relu6\n"  
            "bne        7f                        @ jump if no relu6 \n"
            "vmov.u32   q0, #0                    @ for relu6\n"
            "vmax.f32   q4, q4, q0                @ for relu6\n"
            "vmax.f32   q5, q5, q0                @ for relu6\n"
            "vmax.f32   q6, q6, q0                @ for relu6\n"
            "vmax.f32   q7, q7, q0                @ for relu6\n"
            "vmax.f32   q8, q8, q0                @ for relu6\n"
            "vmax.f32   q9, q9, q0                @ for relu6\n"
            "vld1.f32   {d2-d3}, [%[alpha]]       @ load relu6 alpha\n"
            "vmax.f32   q10, q10, q0              @ for relu6\n"
            "vmax.f32   q11, q11, q0              @ for relu6\n"
            "vmax.f32   q12, q12, q0              @ for relu6\n"
            "vmax.f32   q13, q13, q0              @ for relu6\n"
            "vmax.f32   q14, q14, q0              @ for relu6\n"
            "vmax.f32   q15, q15, q0              @ for relu6\n"

            "vmin.f32   q4, q4, q1                @ for relu6\n"
            "vmin.f32   q5, q5, q1                @ for relu6\n"
            "vmin.f32   q6, q6, q1                @ for relu6\n"
            "vmin.f32   q7, q7, q1                @ for relu6\n"
            "vmin.f32   q8, q8, q1                @ for relu6\n"
            "vmin.f32   q9, q9, q1                @ for relu6\n"
            "vmin.f32   q10, q10, q1              @ for relu6\n"
            "vmin.f32   q11, q11, q1              @ for relu6\n"
            "vmin.f32   q12, q12, q1              @ for relu6\n"
            "vmin.f32   q13, q13, q1              @ for relu6\n"
            "vmin.f32   q14, q14, q1              @ for relu6\n"
            "vmin.f32   q15, q15, q1              @ for relu6\n"
            "b          10f                       @ relu6 end \n"
            //! leakey relu
            "7:                                   @ otherwise is leakey relu\n" 
            "vmov.u32   q0,   #0                  @ for leakey relu \n"
            "vld1.f32   {d2-d3}, [%[alpha]]       @ load leakey relu alpha\n"
            "vcge.f32   q2, q4, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q4, q1                @ vmulq_f32 \n"  
            "vbif       q4, q3, q2                @ choose    \n" 
            "vcge.f32   q2, q5, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q5, q1                @ vmulq_f32 \n"  
            "vbif       q5, q3, q2                @ choose    \n"
            "vcge.f32   q2, q6, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q6, q1                @ vmulq_f32 \n"  
            "vbif       q6, q3, q2                @ choose    \n" 
            "vcge.f32   q2, q7, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q7, q1                @ vmulq_f32 \n"  
            "vbif       q7, q3, q2                @ choose    \n" 
            "vcge.f32   q2, q8, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q8, q1                @ vmulq_f32 \n"  
            "vbif       q8, q3, q2                @ choose    \n"     
            "vcge.f32   q2, q9, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q9, q1                @ vmulq_f32 \n"  
            "vbif       q9, q3, q2                @ choose    \n"
            "vcge.f32   q2, q10, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q10, q1               @ vmulq_f32 \n"  
            "vbif       q10, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q11, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q11, q1               @ vmulq_f32 \n"  
            "vbif       q11, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q12, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q12, q1               @ vmulq_f32 \n"  
            "vbif       q12, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q13, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q13, q1               @ vmulq_f32 \n"  
            "vbif       q13, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q14, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q14, q1               @ vmulq_f32 \n"  
            "vbif       q14, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q15, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q15, q1               @ vmulq_f32 \n"  
            "vbif       q15, q3, q2               @ choose    \n" 
            "10:                                  @ act end  \n"
Y
Yan Chunwei 已提交
4000 4001 4002 4003 4004 4005 4006 4007 4008 4009 4010 4011 4012 4013 4014 4015 4016
            "vst1.32    {d8-d11},   [%[c_ptr0]]!    @ store r0\n"
            "vst1.32    {d12-d15},  [%[c_ptr1]]!    @ store r1\n"
            "vst1.32    {d16-d19},  [%[c_ptr2]]!    @ store r2\n"
            "vst1.32    {d20-d23},  [%[c_ptr3]]!    @ store r3\n"
            "vst1.32    {d24-d27},  [%[c_ptr4]]!    @ store r4\n"
            "vst1.32    {d28-d31},  [%[c_ptr5]]!    @ store r5\n"
            : [a_ptr] "+r"(a_ptr),
              [b_ptr] "+r"(b_ptr),
              [c_ptr0] "+r"(c_ptr0),
              [c_ptr1] "+r"(c_ptr1),
              [c_ptr2] "+r"(c_ptr2),
              [c_ptr3] "+r"(c_ptr3),
              [c_ptr4] "+r"(c_ptr4),
              [c_ptr5] "+r"(c_ptr5),
              [k] "+r"(k),
              [tails] "+r"(tails)
            : [bias_ptr] "r"(bias_local),
4017 4018
              [beta] "r"(beta), 
              [alpha] "r" (alpha)
4019 4020 4021 4022
            : "q0","q1","q2","q3","q4",
              "q5","q6","q7","q8","q9","q10","q11",
              "q12","q13","q14","q15","cc","memory");
        // clang-format on
Y
Yan Chunwei 已提交
4023 4024 4025 4026 4027 4028

        if (flag_p_remain && (xb == bblocks - 1)) {
          for (int i = 0; i < remain; ++i) {
            *pout0++ = cout0[i];
            *pout1++ = cout1[i];
            *pout2++ = cout2[i];
4029 4030 4031 4032 4033 4034 4035 4036 4037 4038 4039 4040 4041 4042 4043 4044 4045 4046 4047 4048 4049 4050 4051 4052 4053 4054 4055 4056 4057 4058 4059 4060 4061 4062 4063 4064 4065 4066 4067 4068 4069 4070 4071 4072 4073 4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088 4089 4090 4091 4092 4093 4094 4095 4096 4097 4098 4099 4100 4101 4102 4103 4104 4105 4106 4107 4108 4109 4110 4111 4112 4113 4114 4115 4116 4117 4118 4119 4120 4121 4122 4123 4124 4125 4126 4127 4128 4129 4130 4131 4132 4133 4134 4135 4136 4137 4138 4139 4140 4141 4142 4143 4144 4145 4146 4147 4148 4149 4150 4151 4152 4153 4154 4155 4156 4157 4158 4159 4160 4161 4162 4163 4164 4165 4166 4167 4168 4169 4170 4171 4172 4173 4174 4175 4176 4177 4178 4179 4180 4181 4182 4183 4184 4185 4186 4187 4188 4189 4190 4191 4192 4193 4194 4195 4196 4197 4198 4199 4200 4201 4202 4203 4204 4205 4206 4207 4208 4209 4210 4211 4212 4213 4214 4215 4216 4217 4218 4219 4220 4221 4222 4223 4224 4225 4226 4227 4228 4229 4230 4231 4232 4233 4234 4235 4236 4237 4238 4239 4240 4241 4242 4243 4244 4245 4246 4247 4248 4249 4250 4251 4252 4253 4254 4255 4256 4257 4258 4259 4260 4261 4262 4263 4264 4265 4266 4267 4268 4269 4270 4271 4272 4273 4274 4275 4276 4277 4278 4279 4280 4281 4282 4283 4284 4285 4286 4287 4288 4289 4290 4291 4292 4293 4294 4295 4296 4297 4298 4299 4300 4301 4302 4303 4304 4305 4306 4307 4308 4309 4310 4311 4312 4313 4314 4315 4316 4317 4318 4319 4320 4321 4322 4323 4324 4325 4326 4327 4328 4329 4330 4331 4332 4333 4334 4335 4336 4337 4338 4339 4340 4341 4342 4343 4344 4345 4346 4347 4348 4349 4350 4351 4352 4353 4354 4355 4356 4357 4358 4359 4360 4361 4362 4363 4364 4365 4366 4367 4368 4369 4370 4371 4372 4373 4374 4375 4376 4377 4378 4379 4380 4381 4382 4383 4384 4385 4386 4387 4388 4389 4390 4391 4392 4393 4394 4395 4396 4397 4398 4399 4400 4401 4402 4403 4404 4405 4406 4407 4408 4409 4410 4411 4412 4413 4414 4415 4416 4417 4418 4419 4420 4421 4422 4423 4424 4425 4426 4427 4428 4429 4430 4431 4432 4433 4434 4435 4436 4437 4438 4439 4440 4441 4442 4443 4444 4445 4446 4447 4448 4449 4450 4451 4452 4453 4454 4455 4456 4457 4458 4459 4460 4461 4462 4463 4464 4465 4466 4467 4468 4469 4470 4471 4472 4473 4474 4475 4476 4477 4478 4479 4480 4481 4482 4483 4484 4485 4486 4487 4488 4489 4490 4491 4492 4493 4494
            *pout3++ = cout3[i];
            *pout4++ = cout4[i];
            *pout5++ = cout5[i];
          }
        }
      }
    }
  }
}

/**
 * \brief gemm with ablock = 6, bblock = 8, output 6x8, optimize for a53 arch
 * @param A
 * @param B
 * @param C
 * @param M
 * @param N
 * @param K
 * @param threads
 * @param workspace
 */
void sgemm_prepacked_6x8_a53(bool is_transB,
                             int M,
                             int N,
                             int K,
                             const float* A_packed,
                             const float* B,
                             int ldb,
                             float* C,
                             int ldc,
                             const float* bias,
                             bool has_bias,
                             int is_relu,
                             ARMContext* ctx) {
  size_t l2_cache = ctx->llc_size() > 0 ? ctx->llc_size() : 512 * 1024;
  auto* workspace = ctx->workspace_data<float>();
  int threads = ctx->threads();
  //! MBLOCK * x (result) + MBLOCK * k (A) + x * k (B) = l2
  int x_block =
      (l2_cache - (MBLOCK_OTH * K)) / (sizeof(float) * (K + MBLOCK_OTH));
  x_block /= NBLOCK;
  x_block *= NBLOCK;
  int x_num = (N + (x_block - 1)) / x_block;
  x_block = (N + x_num - 1) / x_num;
  x_block = (x_block + NBLOCK - 1) / NBLOCK;
  x_block *= NBLOCK;
  x_block = x_block < NBLOCK ? NBLOCK : x_block;

  int k_pre = ((K + KBLOCK - 1) / KBLOCK) - 1;
  int tail_pre = (K & (KBLOCK - 1));
  if (tail_pre == 0) {
    tail_pre = KBLOCK;
  }

  //! merge tail_pre and flag_act
  tail_pre = (tail_pre << 2 | is_relu);
  bool flag_p_remain = false;
  int remain = 0;

  //! apanel is pre_compute outside gemm
  for (unsigned int x0 = 0; x0 < N; x0 += x_block) {
    unsigned int xmax = x0 + x_block;
    if (xmax > N) {
      xmax = N;
    }
    int bblocks = (xmax - x0 + NBLOCK - 1) / NBLOCK;
    remain = xmax - x0 - (bblocks - 1) * NBLOCK;
    if (remain > 0) {
      flag_p_remain = true;
    }
    //! load bpanel
    auto b_pannel = static_cast<float*>(workspace);
    if (is_transB) {
      loadb_trans(b_pannel, B, ldb, 0, K, x0, xmax);
    } else {
      loadb(b_pannel, B, ldb, 0, K, x0, xmax);
    }
#pragma omp parallel for num_threads(threads)
    for (unsigned int y = 0; y < M; y += MBLOCK_OTH) {
      unsigned int ymax = y + MBLOCK_OTH;
      if (ymax > M) {
        ymax = M;
      }
      float* c_ptr0 = C + y * ldc + x0;
      float* c_ptr1 = c_ptr0 + ldc;
      float* c_ptr2 = c_ptr1 + ldc;
      float* c_ptr3 = c_ptr2 + ldc;
      float* c_ptr4 = c_ptr3 + ldc;
      float* c_ptr5 = c_ptr4 + ldc;

      float* pout0 = c_ptr0;
      float* pout1 = c_ptr1;
      float* pout2 = c_ptr2;
      float* pout3 = c_ptr3;
      float* pout4 = c_ptr4;
      float* pout5 = c_ptr5;

      float bias_local[6] = {0};
      if (has_bias) {
        bias_local[0] = bias[y];
        bias_local[1] = bias[y + 1];
        bias_local[2] = bias[y + 2];
        bias_local[3] = bias[y + 3];
        bias_local[4] = bias[y + 4];
        bias_local[5] = bias[y + 5];
      }

      float cout0[NBLOCK];
      float cout1[NBLOCK];
      float cout2[NBLOCK];
      float cout3[NBLOCK];
      float cout4[NBLOCK];
      float cout5[NBLOCK];

      const float* a_ptr_l = A_packed + y * K;
      const float* b_ptr = b_pannel;
      for (int xb = 0; xb < bblocks; xb++) {
        if ((y + 5) >= ymax) {
          switch ((y + 5) - ymax) {
            case 4:
              c_ptr1 = cout1;
            case 3:
              c_ptr2 = cout2;
            case 2:
              c_ptr3 = cout3;
            case 1:
              c_ptr4 = cout4;
            case 0:
              c_ptr5 = cout5;
            default:
              break;
          }
        }
        if (flag_p_remain && (xb == bblocks - 1)) {
          pout0 = c_ptr0;
          pout1 = c_ptr1;
          pout2 = c_ptr2;
          pout3 = c_ptr3;
          pout4 = c_ptr4;
          pout5 = c_ptr5;

          c_ptr0 = cout0;
          c_ptr1 = cout1;
          c_ptr2 = cout2;
          c_ptr3 = cout3;
          c_ptr4 = cout4;
          c_ptr5 = cout5;
        }
        const float* a_ptr = a_ptr_l;
        int tails = tail_pre;
        int k = k_pre;

        // clang-format off
        asm volatile(
            // sgemm 6x8 for a53
            "vld1.32  {d2-d3},  [%[bias_ptr]]   \n"   /* load bias0-3 to d2,d3 */
            "vdup.i32 q4, d2[0]                 \n"   /*  set out00 to bias0   */
            "vld1.32	{d0-d1},  [%[a_ptr] :64]  \n"   /* load a00-a30 to d0,d1 */
            "vdup.i32	q5, d2[0]                 \n"   /*  set out01 to bias0   */
            "vld1.32	{d4-d5},  [%[b_ptr] :128] \n"   /* load b00-b03 to d4,d5 */
            "vdup.i32	q6, d2[1]                 \n"   /*  set out10 to bias1   */
            "ldr  r0, [%[a_ptr], #0x10]         \n"   /*    load a40 to r0     */
            "vdup.i32	q7, d2[1]                 \n"   /*  set out11 to bias1   */
            "ldr  r1, [%[a_ptr], #0x14]         \n"   /*    load a50 to r1     */
            "vdup.i32	q8, d3[0]                 \n"   /*  set out20 to bias2   */
            "vldr d6, [%[bias_ptr], #0x10]      \n"   /*  load bias 4,5 to d6  */
            "pld [%[a_ptr], #0x40]              \n"   /*    pre load apanel    */
            "vdup.i32	q9, d3[0]                 \n"   /*  set out21 to bias2   */
            "pld [%[b_ptr], #0x40]              \n"   /*    pre load bpanel    */
            "vdup.i32	q10, d3[1]                \n"   /*  set out30 to bias3   */
            "pld [%[a_ptr], #0x80]              \n"   /*    pre load apanel    */
            "vdup.i32	q11, d3[1]                \n"   /*  set out31 to bias3   */
            "pld [%[b_ptr], #0x80]              \n"   /*    pre load bpanel    */
            "vdup.i32	q12, d6[0]                \n"   /*  set out40 to bias4   */
            "vdup.i32	q13, d6[0]                \n"   /*  set out41 to bias4   */
            "pld [%[a_ptr], #0xC0]              \n"   /*    pre load apanel    */
            "vdup.i32	q14, d6[1]                \n"   /*  set out50 to bias5   */
            "pld [%[b_ptr], #0XC0]              \n"   /*    pre load bpanel    */
            "vdup.i32	q15, d6[1]                \n"   /*  set out51 to bias5   */
            "cmp  %[k], #0                      \n"   /*      check k loop     */
            "beq  6f                            \n"   /*   k==0, branch to 6   */
            "1:\n"
            /* Unroll 0 */
            "vldr d6, [%[b_ptr], #0x10]         \n"   /*  load b04, b05 to d6  */
            "vmov d2, r0, r1                    \n"   /*   mov a40, a50 to d2  */
            "vmla.f32	q4, q2, d0[0]             \n"   /*   out00 += a00 * b0l  */
            "ldr  r0, [%[b_ptr], #0x18]         \n"   /*    load b06 to r0     */
            "vmla.f32	q6, q2, d0[1]             \n"   /*   out10 += a10 * b0l  */
            "ldr  r1, [%[b_ptr], #0x1C]         \n"   /*    load b07 to r1     */
            "vmla.f32	q8, q2, d1[0]             \n"   /*   out20 += a20 * b0l  */
            "vldr d3, [%[a_ptr], #0x18]         \n"   /*  load a01, a11 to d3  */
            "vmov d7, r0, r1                    \n"   /*   mov b06, b07 to d7  */
            "vmla.f32	q10, q2, d1[1]            \n"   /*   out30 += a30 * b0l  */
            "pld [%[a_ptr], #0x100]             \n"   /*    pre load apanel    */
            "vmla.f32	q12, q2, d2[0]            \n"   /*   out40 += a40 * b0l  */
            "vmla.f32	q14, q2, d2[1]            \n"   /*   out50 += a50 * b0l  */
            "vldr d4, [%[b_ptr], #0x20]         \n"   /*  load b10, b11 to d4  */
            "vmla.f32	q5, q3, d0[0]             \n"   /*   out01 += a00 * b0h  */
            "ldr  r0, [%[b_ptr], #0x28]         \n"   /*    load b12 to r0     */
            "vmla.f32	q7, q3, d0[1]             \n"   /*   out11 += a10 * b0h  */
            "ldr  r1, [%[b_ptr], #0x2C]         \n"   /*    load b13 to r1     */
            "vmla.f32	q9, q3, d1[0]             \n"   /*   out21 += a20 * b0h  */
            "vldr d0, [%[a_ptr], #0x20]         \n"   /*  load a21, a31 to d0  */
            "vmov d5, r0, r1                    \n"   /*   mov b12, b13 to d5  */
            "vmla.f32	q11, q3, d1[1]            \n"   /*   out31 += a30 * b0h  */
            "ldr  r0, [%[a_ptr], #0x28]         \n"   /*    load a41 to r0     */
            "vmla.f32	q13, q3, d2[0]            \n"   /*   out41 += a40 * b0h  */
            "ldr  r1, [%[a_ptr], #0x2C]         \n"   /*    load a51 to r1     */
            "vmla.f32	q15, q3, d2[1]            \n"   /*   out51 += a50 * b0h  */
            /* Unroll 1 */
            "vldr d6, [%[b_ptr], #0x30]         \n"   /*  load b14, b15 to d6  */
            "vmov d1, r0, r1                    \n"   /*   mov a41, a51 to d1  */
            "vmla.f32	q4, q2, d3[0]             \n"   /*   out00 += a01 * b1l  */
            "ldr  r0, [%[b_ptr], #0x38]         \n"   /*    load b16 to r0     */
            "vmla.f32	q6, q2, d3[1]             \n"   /*   out10 += a11 * b1l  */
            "ldr  r1, [%[b_ptr], #0x3C]         \n"   /*    load b17 to r1     */
            "vmla.f32	q8, q2, d0[0]             \n"   /*   out20 += a21 * b1l  */
            "vldr d2, [%[a_ptr], #0x30]         \n"   /*  load a02, a12 to d0  */
            "vmov d7, r0, r1                    \n"   /*   mov b16, b17 to d7  */
            "vmla.f32	q10, q2, d0[1]            \n"   /*   out30 += a31 * b1l  */
            "pld [%[b_ptr], #0x100]             \n"   /*    pre load apanel    */
            "vmla.f32	q12, q2, d1[0]            \n"   /*   out40 += a41 * b1l  */
            "vmla.f32	q14, q2, d1[1]            \n"   /*   out50 += a51 * b1l  */
            "vldr d4, [%[b_ptr], #0x40]         \n"   /*  load b20, b21 to d4  */
            "vmla.f32	q5, q3, d3[0]             \n"   /*   out01 += a01 * b1h  */
            "ldr  r0, [%[b_ptr], #0x48]         \n"   /*    load b22 to r0     */
            "vmla.f32	q7, q3, d3[1]             \n"   /*   out11 += a11 * b1h  */
            "ldr  r1, [%[b_ptr], #0x4C]         \n"   /*    load b23 to r1     */
            "vmla.f32	q9, q3, d0[0]             \n"   /*   out21 += a21 * b1h  */
            "vldr d3, [%[a_ptr], #0x38]         \n"   /*  load a22, a32 to d3  */
            "vmov d5, r0, r1                    \n"   /*   mov b22, b23 to d5  */
            "vmla.f32	q11, q3, d0[1]            \n"   /*   out31 += a31 * b1h  */
            "ldr  r0, [%[a_ptr], #0x40]         \n"   /*    load a42 to r0     */
            "vmla.f32	q13, q3, d1[0]            \n"   /*   out41 += a41 * b1h  */
            "ldr  r1, [%[a_ptr], #0x44]         \n"   /*    load a52 to r1     */
            "vmla.f32	q15, q3, d1[1]            \n"   /*   out51 += a51 * b1h  */
            /* Unroll 2 */
            "vldr d6, [%[b_ptr], #0x50]         \n"   /*  load b24, b25 to d6  */
            "vmov d0, r0, r1                    \n"   /*   mov a42, a52 to d0  */
            "vmla.f32	q4, q2, d2[0]             \n"   /*   out00 += a02 * b2l  */
            "ldr  r0, [%[b_ptr], #0x58]         \n"   /*    load b26 to r0     */
            "vmla.f32	q6, q2, d2[1]             \n"   /*   out10 += a12 * b2l  */
            "ldr  r1, [%[b_ptr], #0x5C]         \n"   /*    load b27 to r1     */
            "vmla.f32	q8, q2, d3[0]             \n"   /*   out20 += a22 * b2l  */
            "vldr d1, [%[a_ptr], #0x48]         \n"   /*  load a03, a13 to d1  */
            "vmov d7, r0, r1                    \n"   /*   mov b26, b27 to d7  */
            "vmla.f32	q10, q2, d3[1]            \n"   /*   out30 += a32 * b2l  */
            "pld [%[a_ptr], #0x140]             \n"   /*    pre load apanel    */
            "vmla.f32	q12, q2, d0[0]            \n"   /*   out40 += a42 * b2l  */
            "vmla.f32	q14, q2, d0[1]            \n"   /*   out50 += a52 * b2l  */
            "vldr d4, [%[b_ptr], #0x60]         \n"   /*  load b30, b31 to d4  */
            "vmla.f32	q5, q3, d2[0]             \n"   /*   out01 += a02 * b2h  */
            "ldr  r0, [%[b_ptr], #0x68]         \n"   /*    load b32 to r0     */
            "vmla.f32	q7, q3, d2[1]             \n"   /*   out11 += a12 * b2h  */
            "ldr  r1, [%[b_ptr], #0x6C]         \n"   /*    load b33 to r1     */
            "vmla.f32	q9, q3, d3[0]             \n"   /*   out21 += a22 * b2h  */
            "vldr d2, [%[a_ptr], #0x50]         \n"   /*  load a23, a33 to d2  */
            "vmov d5, r0, r1                    \n"   /*   mov b32, b33 to d5  */
            "vmla.f32	q11, q3, d3[1]            \n"   /*   out31 += a32 * b2h  */
            "ldr  r0, [%[a_ptr], #0x58]         \n"   /*    load a43 to r0     */
            "vmla.f32	q13, q3, d0[0]            \n"   /*   out41 += a42 * b2h  */
            "ldr  r1, [%[a_ptr], #0x5C]         \n"   /*    load a53 to r1     */
            "vmla.f32	q15, q3, d0[1]            \n"   /*   out51 += a52 * b2h  */
            "add  %[a_ptr], %[a_ptr], #0x60     \n"   /*      aptr += 96       */
            /* Unroll 3 */
            "vldr d6, [%[b_ptr], #0x70]         \n"   /*  load b34, b35 to d6  */
            "vmov d3, r0, r1                    \n"   /*   mov a43, a53 to d3  */
            "vmla.f32	q4, q2, d1[0]             \n"   /*   out00 += a03 * b3l  */
            "ldr  r0, [%[b_ptr], #0x78]         \n"   /*    load b36 to r0     */
            "vmla.f32	q6, q2, d1[1]             \n"   /*   out10 += a13 * b3l  */
            "ldr  r1, [%[b_ptr], #0x7C]         \n"   /*    load b37 to r1     */
            "vmla.f32	q8, q2, d2[0]             \n"   /*   out20 += a23 * b3l  */
            "add  %[b_ptr], %[b_ptr], #0x80     \n"   /*      bptr += 108      */
            "vldr d0, [%[a_ptr], #0x00]         \n"   /*  load a00, a10 to d0  */
            "vmov d7, r0, r1                    \n"   /*   mov b36, b37 to d7  */
            "vmla.f32	q10, q2, d2[1]            \n"   /*   out30 += a33 * b3l  */
            "pld [%[b_ptr], #0xC0]              \n"   /*    pre load bpanel    */
            "vmla.f32	q12, q2, d3[0]            \n"   /*   out40 += a43 * b3l  */
            "vmla.f32	q14, q2, d3[1]            \n"   /*   out50 += a53 * b3l  */
            "vldr d4, [%[b_ptr], #0x00]         \n"   /*  load b00, b01 to d4  */
            "vmla.f32	q5, q3, d1[0]             \n"   /*   out01 += a03 * b3h  */
            "ldr  r0, [%[b_ptr], #0x08]         \n"   /*    load b02 to r0     */
            "vmla.f32	q7, q3, d1[1]             \n"   /*   out11 += a13 * b3h  */
            "ldr  r1, [%[b_ptr], #0x0C]         \n"   /*    load b03 to r1     */
            "vmla.f32	q9, q3, d2[0]             \n"   /*   out21 += a23 * b3h  */
            "subs %[k], %[k], #1                \n"   /*      loop k -= 1      */ 
            "vldr d1, [%[a_ptr], #0x08]         \n"   /*  load a20, a30 to d1  */
            "vmov d5, r0, r1                    \n"   /*   mov b02, b03 to d5  */
            "vmla.f32	q11, q3, d2[1]            \n"   /*   out31 += a33 * b3h  */
            "ldr  r0, [%[a_ptr], #0x10]         \n"   /*    load a40 to r0     */
            "vmla.f32	q13, q3, d3[0]            \n"   /*   out41 += a43 * b3h  */
            "ldr  r1, [%[a_ptr], #0x14]         \n"   /*    load a50 to r1     */
            "vmla.f32	q15, q3, d3[1]            \n"   /*   out51 += a53 * b3h  */
            "bne  1b                            \n"   /*    branch to k loop   */
            "6:\n"
            "sub  %[tails], %[tails], #4        \n"   /*       tail -= 4       */
            "cmp  %[tails], #4                  \n"   /*     cmp tail with 4   */ 
            "blt  3f                            \n"   /*   branch to tail == 1 */ 
            /* Tail Unroll 0 */
            "vmov d2, r0, r1                    \n"   /*   mov b02, b03 to d2  */
            "add  %[a_ptr], %[a_ptr], #0x18     \n"   /*      aptr +=  24      */
            "vmla.f32	q4, q2, d0[0]             \n"   /*   out00 += a00 * b0l  */    
            "vld1.32  {d3}, [%[a_ptr] :64]!     \n"   /*  load a01, a11 to d3  */
            "vmla.f32	q6, q2, d0[1]             \n"   /*   out10 += a10 * b0l  */   
            "add  %[b_ptr], %[b_ptr], #0x10     \n"   /*      bptr +=  16      */
            "vmla.f32	q8, q2, d1[0]             \n"   /*   out20 += a20 * b0l  */    
            "vld1.32	{d6-d7}, [%[b_ptr] :128]! \n"   /* load b04-b07 to d6,d7 */
            "vmla.f32	q10, q2, d1[1]            \n"   /*   out30 += a30 * b0l  */ 
            "vmla.f32	q12, q2, d2[0]            \n"   /*   out40 += a40 * b0l  */ 
            "sub  %[tails], %[tails], #4        \n"   /*       tail -= 4       */
            "vmla.f32	q14, q2, d2[1]            \n"   /*   out50 += a50 * b0l  */ 
            "vld1.32	{d4-d5}, [%[b_ptr] :128]! \n"   /* load b10-b13 to d4,d5 */
            "vmla.f32	q5, q3, d0[0]             \n"   /*   out01 += a00 * b0h  */   
            "vmla.f32	q7, q3, d0[1]             \n"   /*   out11 += a10 * b0h  */   
            "vmla.f32	q9, q3, d1[0]             \n"   /*   out21 += a20 * b0h  */   
            "vmla.f32	q11, q3, d1[1]            \n"   /*   out31 += a30 * b0h  */   
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!  \n"   /* load a21-a51 to d0,d1 */
            "cmp  %[tails], #4                  \n"   /*    cmp tail with 4    */
            "vmla.f32	q13, q3, d2[0]            \n"   /*   out41 += a40 * b0h  */   
            "vmla.f32	q15, q3, d2[1]            \n"   /*   out51 += a50 * b0h  */   
            "vld1.32	{d6-d7}, [%[b_ptr] :128]! \n"   /* load b14-b17 to d6,d7 */   
            "blt  4f                            \n"   /*   branch to tail == 2 */ 
            /* Tail Unroll 1 */
            "vmla.f32	q4, q2, d3[0]             \n"   /*   out00 += a01 * b1l  */    
            "vmla.f32	q6, q2, d3[1]             \n"   /*   out10 += a11 * b1l  */    
            "sub  %[tails], %[tails], #4        \n"   /*       tail -= 4       */
            "vmla.f32	q8, q2, d0[0]             \n"   /*   out20 += a21 * b1l  */  
            "vmla.f32	q10, q2, d0[1]            \n"   /*   out30 += a31 * b1l  */  
            "vmla.f32	q12, q2, d1[0]            \n"   /*   out40 += a41 * b1l  */  
            "vmla.f32	q14, q2, d1[1]            \n"   /*   out50 += a51 * b1l  */  
            "vld1.32	{d4-d5}, [%[b_ptr] :128]! \n"   /* load b20-b23 to d4,d5 */  
            "vmla.f32	q5, q3, d3[0]             \n"   /*   out01 += a01 * b1h  */    
            "vmla.f32	q7, q3, d3[1]             \n"   /*   out11 += a11 * b1h  */   
            "cmp  %[tails], #4                  \n"   /*    cmp tail with 4    */
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!  \n"   /* load a02-a32 to d2,d3 */
            "vmla.f32	q9, q3, d0[0]             \n"   /*   out21 += a21 * b1h  */ 
            "vmla.f32	q11, q3, d0[1]            \n"   /*   out31 += a31 * b1h  */ 
            "vmla.f32	q13, q3, d1[0]            \n"   /*   out41 += a41 * b1h  */ 
            "vmla.f32	q15, q3, d1[1]            \n"   /*   out51 += a51 * b1h  */ 
            "vld1.32	{d6-d7}, [%[b_ptr] :128]! \n"   /* load b24-b27 to d6,d7 */  
            "blt  5f                            \n"   /*   branch to tail == 3 */ 
            /* Tail Unroll 2 */
            "sub  %[tails], %[tails], #4        \n"   /*       tail -= 4       */
            "vld1.32	{d0-d1}, [%[a_ptr] :64]!  \n"   /* a42a52a03a13 to d0,d1 */
            "vmla.f32	q4, q2, d2[0]             \n"   /*   out00 += a02 * b2l  */    
            "vmla.f32	q6, q2, d2[1]             \n"   /*   out10 += a12 * b2l  */    
            "vmla.f32	q8, q2, d3[0]             \n"   /*   out20 += a22 * b2l  */
            "vmla.f32	q10, q2, d3[1]            \n"   /*   out30 += a32 * b2l  */
            "vmla.f32	q12, q2, d0[0]            \n"   /*   out40 += a42 * b2l  */
            "vmla.f32	q14, q2, d0[1]            \n"   /*   out50 += a52 * b2l  */
            "vld1.32	{d4-d5}, [%[b_ptr] :128]! \n"   /* load b30-b33 to d4,d5 */
            "vmla.f32	q5, q3, d2[0]             \n"   /*   out01 += a02 * b2h  */  
            "vmla.f32	q7, q3, d2[1]             \n"   /*   out11 += a12 * b2h  */  
            "vmla.f32	q9, q3, d3[0]             \n"   /*   out21 += a22 * b2h  */  
            "vmla.f32	q11, q3, d3[1]            \n"   /*   out31 += a32 * b2h  */  
            "vld1.32	{d2-d3}, [%[a_ptr] :64]!  \n"   /* load a23-a53 to d2,d3 */
            "vmla.f32	q13, q3, d0[0]            \n"   /*   out41 += a42 * b2h  */  
            "vmla.f32	q15, q3, d0[1]            \n"   /*   out51 += a52 * b2h  */  
            "vld1.32	{d6-d7}, [%[b_ptr] :128]! \n"   /* load b34-b37 to d6,d7 */
            /* Tail Unroll 3 */
            "vmla.f32	q4,  q2, d1[0]            \n"   /*   out00 += a03 * b3l  */    
            "vmla.f32	q5,  q3, d1[0]            \n"   /*   out01 += a03 * b3h  */    
            "vmla.f32	q6,  q2, d1[1]            \n"   /*   out10 += a13 * b3l  */    
            "vmla.f32	q7,  q3, d1[1]            \n"   /*   out11 += a13 * b3h  */    
            "vmla.f32	q8,  q2, d2[0]            \n"   /*   out20 += a23 * b3l  */    
            "vmla.f32	q9,  q3, d2[0]            \n"   /*   out21 += a23 * b3h  */    
            "vmla.f32	q10, q2, d2[1]            \n"   /*   out30 += a33 * b3l  */    
            "vmla.f32	q11, q3, d2[1]            \n"   /*   out31 += a33 * b3h  */    
            "vmla.f32	q12, q2, d3[0]            \n"   /*   out40 += a43 * b3l  */    
            "vmla.f32	q13, q3, d3[0]            \n"   /*   out41 += a43 * b3h  */    
            "vmla.f32	q14, q2, d3[1]            \n"   /*   out50 += a53 * b3l  */    
            "vmla.f32	q15, q3, d3[1]            \n"   /*   out51 += a53 * b3h  */    
            "b  2f                              \n"   /*  branch to check relu */
            /* tails==1 final tail */
            "3:\n"
            "vmov d2, r0, r1                    \n"   /*   mov b02, b03 to d2  */
            "add  %[b_ptr], %[b_ptr], #0x10     \n"   /*      bptr +=  16      */
            "vmla.f32	q4, q2, d0[0]             \n"   /*   out00 += a00 * b0l  */  
            "add  %[a_ptr], %[a_ptr], #0x18     \n"   /*      aptr +=  24      */
            "vmla.f32	q6, q2, d0[1]             \n"   /*   out10 += a10 * b0l  */  
            "vld1.32	{d6-d7}, [%[b_ptr] :128]! \n"   /* load b04-b07 to d6,d7 */
            "vmla.f32	q8,  q2, d1[0]            \n"   /*   out20 += a20 * b0l  */   
            "vmla.f32	q10, q2, d1[1]            \n"   /*   out30 += a30 * b0l  */   
            "vmla.f32	q12, q2, d2[0]            \n"   /*   out40 += a40 * b0l  */
            "vmla.f32	q14, q2, d2[1]            \n"   /*   out50 += a50 * b0l  */
            "vmla.f32	q5,  q3, d0[0]            \n"   /*   out01 += a00 * b0h  */ 
            "vmla.f32	q7,  q3, d0[1]            \n"   /*   out11 += a10 * b0h  */ 
            "vmla.f32	q9,  q3, d1[0]            \n"   /*   out21 += a20 * b0h  */ 
            "vmla.f32	q11, q3, d1[1]            \n"   /*   out31 += a30 * b0h  */   
            "vmla.f32	q13, q3, d2[0]            \n"   /*   out41 += a40 * b0h  */ 
            "vmla.f32	q15, q3, d2[1]            \n"   /*   out51 += a50 * b0h  */ 
            "b  2f                              \n"   /*  branch to check relu */
            /* tails==2 final tail */
            "4:\n"
            "vmla.f32	q4,  q2, d3[0]            \n"   /*   out00 += a01 * b1l  */ 
            "vmla.f32	q5,  q3, d3[0]            \n"   /*   out01 += a01 * b1h  */ 
            "vmla.f32	q6,  q2, d3[1]            \n"   /*   out10 += a11 * b1l  */ 
            "vmla.f32	q7,  q3, d3[1]            \n"   /*   out11 += a11 * b1h  */ 
            "vmla.f32	q8,  q2, d0[0]            \n"   /*   out20 += a21 * b1l  */ 
            "vmla.f32	q9,  q3, d0[0]            \n"   /*   out21 += a21 * b1h  */ 
            "vmla.f32	q10, q2, d0[1]            \n"   /*   out30 += a31 * b1l  */ 
            "vmla.f32	q11, q3, d0[1]            \n"   /*   out31 += a31 * b1h  */ 
            "vmla.f32	q12, q2, d1[0]            \n"   /*   out40 += a41 * b1l  */ 
            "vmla.f32	q13, q3, d1[0]            \n"   /*   out41 += a41 * b1h  */ 
            "vmla.f32	q14, q2, d1[1]            \n"   /*   out50 += a51 * b1l  */ 
            "vmla.f32	q15, q3, d1[1]            \n"   /*   out51 += a51 * b1h  */ 
            "b  2f                              \n"   /*  branch to check relu */
            /* tails==3 final tail */
            "5:\n"
            "vmla.f32	q4,  q2, d2[0]            \n"   /*   out00 += a02 * b2l  */ 
            "vld1.32	{d0}, [%[a_ptr] :64]!     \n"   /*  load a42, a52 to d0  */
            "vmla.f32	q6,  q2, d2[1]            \n"   /*   out10 += a12 * b2l  */ 
            "vmla.f32	q8,  q2, d3[0]            \n"   /*   out20 += a22 * b2l  */ 
            "vmla.f32	q5,  q3, d2[0]            \n"   /*   out01 += a02 * b2h  */ 
            "vmla.f32	q7,  q3, d2[1]            \n"   /*   out11 += a12 * b2h  */
            "vmla.f32	q9,  q3, d3[0]            \n"   /*   out21 += a22 * b2h  */
            "vmla.f32	q10, q2, d3[1]            \n"   /*   out30 += a32 * b2l  */ 
            "vmla.f32	q11, q3, d3[1]            \n"   /*   out31 += a32 * b2h  */
            "vmla.f32	q12, q2, d0[0]            \n"   /*   out40 += a42 * b2l  */ 
            "vmla.f32	q13, q3, d0[0]            \n"   /*   out41 += a42 * b2h  */
            "vmla.f32	q14, q2, d0[1]            \n"   /*   out50 += a52 * b2l  */ 
            "vmla.f32	q15, q3, d0[1]            \n"   /*   out51 += a52 * b2h  */
            /* relu */
            "2:\n"
            "cmp %[tails], #1                   \n"   /*    cmp tail is relu   */
            "bne 0f                             \n"   /* no relu branch to end */
            "vmov.i32 q0,  #0                   \n"   /*     mov 0.f to q0     */
            "vmax.f32 q4,  q4,  q0              \n"   /*      out00 relu       */
            "vmax.f32 q5,  q5,  q0              \n"   /*      out01 relu       */
            "vmax.f32 q6,  q6,  q0              \n"   /*      out10 relu       */
            "vmax.f32 q7,  q7,  q0              \n"   /*      out11 relu       */
            "vmax.f32 q8,  q8,  q0              \n"   /*      out20 relu       */
            "vmax.f32 q9,  q9,  q0              \n"   /*      out21 relu       */
            "vmax.f32 q10, q10, q0              \n"   /*      out30 relu       */
            "vmax.f32 q11, q11, q0              \n"   /*      out31 relu       */
            "vmax.f32 q12, q12, q0              \n"   /*      out40 relu       */
            "vmax.f32 q13, q13, q0              \n"   /*      out41 relu       */
            "vmax.f32 q14, q14, q0              \n"   /*      out50 relu       */
            "vmax.f32 q15, q15, q0              \n"   /*      out51 relu       */
            "0:\n"
            "vst1.32  {d8-d11},   [%[c_ptr0]]!  \n"   /*  store out0 to cptr0  */
            "vst1.32  {d12-d15},  [%[c_ptr1]]!  \n"   /*  store out1 to cptr1  */
            "vst1.32  {d16-d19},  [%[c_ptr2]]!  \n"   /*  store out2 to cptr2  */
            "vst1.32  {d20-d23},  [%[c_ptr3]]!  \n"   /*  store out3 to cptr3  */
            "vst1.32  {d24-d27},  [%[c_ptr4]]!  \n"   /*  store out4 to cptr4  */
            "vst1.32  {d28-d31},  [%[c_ptr5]]!  \n"   /*  store out5 to cptr5  */
            : [a_ptr] "+r"(a_ptr),
              [b_ptr] "+r"(b_ptr),
              [c_ptr0] "+r"(c_ptr0),
              [c_ptr1] "+r"(c_ptr1),
              [c_ptr2] "+r"(c_ptr2),
              [c_ptr3] "+r"(c_ptr3),
              [c_ptr4] "+r"(c_ptr4),
              [c_ptr5] "+r"(c_ptr5),
              [k] "+r"(k),
              [tails] "+r"(tails)
            : [bias_ptr] "r"(bias_local)
            : "r0", "r1", "q0","q1","q2","q3","q4",
              "q5","q6","q7","q8","q9","q10","q11",
              "q12","q13","q14","q15","cc","memory");
        // clang-format on
        if (flag_p_remain && (xb == bblocks - 1)) {
          for (int i = 0; i < remain; ++i) {
            *pout0++ = cout0[i];
            *pout1++ = cout1[i];
            *pout2++ = cout2[i];
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            *pout3++ = cout3[i];
            *pout4++ = cout4[i];
            *pout5++ = cout5[i];
          }
        }
      }
    }
  }
}

void sgemm_prepacked_4x8(bool is_transB,
                         int M,
                         int N,
                         int K,
                         const float* A_packed,
                         const float* B,
                         int ldb,
                         float beta,
                         float* C,
                         int ldc,
                         const float* bias,
                         bool has_bias,
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                         const operators::ActivationParam act_param,
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                         ARMContext* ctx) {
  size_t l2_cache = ctx->llc_size() > 0 ? ctx->llc_size() : 512 * 1024;
  auto* workspace = ctx->workspace_data<float>();
  int threads = ctx->threads();
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  auto act_type = act_param.active_type;
  float alpha[4] = {0.f, 0.f, 0.f, 0.f};
  int flag_act = 0x00;  // relu: 1, relu6: 2, leakey: 3
  if (act_param.has_active) {
    if (act_type == lite_api::ActivationType::kRelu) {
      flag_act = 0x01;
    } else if (act_type == lite_api::ActivationType::kRelu6) {
      flag_act = 0x02;
      float local_alpha = act_param.Relu_clipped_coef;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    } else if (act_type == lite_api::ActivationType::kLeakyRelu) {
      flag_act = 0x03;
      float local_alpha = act_param.Leaky_relu_alpha;
      alpha[0] = local_alpha;
      alpha[1] = local_alpha;
      alpha[2] = local_alpha;
      alpha[3] = local_alpha;
    }
  }
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  //! MBLOCK * x (result) + MBLOCK * k (A) + x * k (B) = l2
  int x_block =
      (l2_cache - (MBLOCK_A73 * K)) / (sizeof(float) * (K + MBLOCK_A73));
  x_block /= NBLOCK;
  x_block *= NBLOCK;
  int x_num = (N + (x_block - 1)) / x_block;
  x_block = (N + x_num - 1) / x_num;
  x_block = (x_block + NBLOCK - 1) / NBLOCK;
  x_block *= NBLOCK;
  x_block = x_block < NBLOCK ? NBLOCK : x_block;

  int k_pre = ((K + KBLOCK - 1) / KBLOCK) - 1;
  int tail_pre = (K & (KBLOCK - 1));
  if (tail_pre == 0) {
    tail_pre = KBLOCK;
  }

  bool flag_p_remain = false;
  int remain = 0;

  int has_beta = fabsf(beta) > 1e-8f ? 1 : 0;

  //! apanel is pre_compute outside gemm
  for (unsigned int x0 = 0; x0 < N; x0 += x_block) {
    unsigned int xmax = x0 + x_block;
    if (xmax > N) {
      xmax = N;
    }
    int bblocks = (xmax - x0 + NBLOCK - 1) / NBLOCK;
    remain = xmax - x0 - (bblocks - 1) * NBLOCK;
    if (remain > 0) {
      flag_p_remain = true;
    }
    //! load bpanel
    auto b_pannel = static_cast<float*>(workspace);
    if (is_transB) {
      loadb_trans(b_pannel, B, ldb, 0, K, x0, xmax);
    } else {
      loadb(b_pannel, B, ldb, 0, K, x0, xmax);
    }
#pragma omp parallel for num_threads(threads)
    for (unsigned int y = 0; y < M; y += MBLOCK_A73) {
      unsigned int ymax = y + MBLOCK_A73;
      if (ymax > M) {
        ymax = M;
      }

      float cout0[NBLOCK];
      float cout1[NBLOCK];
      float cout2[NBLOCK];
      float cout3[NBLOCK];

      float bias_local[4] = {0};
      if (has_bias) {
        bias_local[0] = bias[y];
        bias_local[1] = bias[y + 1];
        bias_local[2] = bias[y + 2];
        bias_local[3] = bias[y + 3];
      }

      float* c_ptr0 = C + y * ldc + x0;
      float* c_ptr1 = c_ptr0 + ldc;
      float* c_ptr2 = c_ptr1 + ldc;
      float* c_ptr3 = c_ptr2 + ldc;

      float* pout0 = c_ptr0;
      float* pout1 = c_ptr1;
      float* pout2 = c_ptr2;
      float* pout3 = c_ptr3;

      const float* a_ptr_l = A_packed + y * K;
      const float* b_ptr = b_pannel;
      for (int xb = 0; xb < bblocks; xb++) {
        if ((y + 3) >= ymax) {
          switch ((y + 3) - ymax) {
            case 2:
              c_ptr1 = cout1;
            case 1:
              c_ptr2 = cout1;
            case 0:
              c_ptr3 = cout1;
            default:
              break;
          }
        }
        if (flag_p_remain && (xb == bblocks - 1)) {
          pout0 = c_ptr0;
          pout1 = c_ptr1;
          pout2 = c_ptr2;
          pout3 = c_ptr3;

          c_ptr0 = cout0;
          c_ptr1 = cout1;
          c_ptr2 = cout2;
          c_ptr3 = cout3;

          if (has_beta) {
            for (int i = 0; i < remain; ++i) {
              cout0[i] = pout0[i];
              cout1[i] = pout1[i];
              cout2[i] = pout2[i];
              cout3[i] = pout3[i];
            }
          }
        }
        const float* a_ptr = a_ptr_l;
        int tails = tail_pre;
        int k = k_pre;
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        // clang-format off
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        asm volatile(
            "vld1.32    {d4-d5}, [%[bias_ptr]]      @ load bias\n"
            "vdup.32    q8, d4[0]                   @ add bias to out00\n"
            "pld [%[a_ptr]]                         @ preload a, 64byte\n"
            "vdup.32    q9, d4[0]                   @ add bias to out01\n"
            "pld [%[b_ptr]]                         @ preload b\n"
            "vdup.32    q10, d4[1]                  @ add bias to out10\n"
            "pld [%[a_ptr], #64]                    @ preload a\n"
            "vdup.32    q11, d4[1]                  @ add bias to out11\n"
            "vdup.32    q12, d5[0]                  @ add bias to out20\n"
            "pld [%[b_ptr], #64]                    @ preload b\n"
            "vdup.32    q13, d5[0]                  @ add bias to out21\n"
            "pld [%[a_ptr], #128]                   @ preload a\n"
            "vdup.32    q14, d5[1]                  @ add bias to out30\n"
            "pld [%[b_ptr], #128]                   @ preload b\n"
            "vdup.32    q15, d5[1]                  @ add bias to out31\n"
            "pld [%[b_ptr], #192]                   @ preload b\n"
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            "cmp %[beta], #0\n"
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            "beq    11f\n" /* check beta == 0? */
            /* process beta */
            "vdup.32    q4, %[beta]\n"          /* beta to vector */
            "vld1.32    {d0-d3}, [%[c_ptr0]]\n" /* load output r0 */
            "vld1.32    {d4-d7}, [%[c_ptr1]]\n" /* load output r1 */
            "vmla.f32   q8, q0, q4\n"           /* cr00 += beta * c_r00 */
            "vmla.f32   q9, q1, q4\n"           /* cr01 += beta * c_r01 */
            "vld1.32    {d0-d3}, [%[c_ptr2]]\n" /* load output r2 */
            "vmla.f32   q10, q2, q4\n"          /* cr10 += beta * c_r10 */
            "vmla.f32   q11, q3, q4\n"          /* cr11 += beta * c_r11 */
            "vld1.32    {d4-d7}, [%[c_ptr3]]\n" /* load output r3 */
            "vmla.f32   q12, q0, q4\n"          /* cr20 += beta * c_r20 */
            "vmla.f32   q13, q1, q4\n"          /* cr21 += beta * c_r21 */
            "vmla.f32   q14, q2, q4\n"          /* cr30 += beta * c_r30 */
            "vmla.f32   q15, q3, q4\n"          /* cr31 += beta * c_r31 */
            "11: \n"                            /* check loop count */
            "vld1.32	{d0-d3}, [%[a_ptr] :128]!   @ load a0~a3\n"
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            "vld1.32   {d8-d11}, [%[b_ptr] :128]! @ load b1\n"
            "cmp %[k], #0                         @ check weather k is bigger than "
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            "0\n"
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            "beq 0f                               @ jump to tail\n"
            "1:                                   @ main loop for k\n"
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            /* Unroll 0*/
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            "vld1.32  {d12-d15}, [%[b_ptr] :128]! @ load next b1, b2\n"
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            "vmla.f32	q8, q4, d0[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d4-d7}, [%[a_ptr] :128]!   @ load next 2xa0~a3\n"
            "vmla.f32	q10, q4, d0[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q4, d1[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d0[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d0[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d1[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d1[1]              @ out7 += b2 * a3\n"
            "vld1.32	{d8-d11}, [%[b_ptr] :128]!  @ load next b1, b2\n"
            /* Unroll 1 */
            "vmla.f32	q8, q6, d2[0]               @ out0 += b1 * a0\n"
            "pld [%[b_ptr], #64]                    @ preload b\n"
            "vmla.f32	q10, q6, d2[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q6, d3[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q6, d3[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q7, d2[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q11, q7, d2[1]              @ out7 += b2 * a1\n"
            "vmla.f32	q13, q7, d3[0]              @ out8 += b2 * a2\n"
            "vmla.f32	q15, q7, d3[1]              @ out9 += b2 * a3\n"
            "vld1.32	{d12-d15}, [%[b_ptr] :128]! @ load next b1,b2\n"
            /* Unroll 2 */
            "vmla.f32	q8, q4, d4[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d0-d3}, [%[a_ptr] :128]!   @ load next a0~a3\n"
            "vmla.f32	q10, q4, d4[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q4, d5[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d5[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d4[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d4[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d5[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d5[1]              @ out7 += b2 * a3\n"
            "vld1.32	{d8-d11}, [%[b_ptr] :128]!  @ load next b1, b2\n"
            /* Unroll 3 */
            "vmla.f32	q8, q6, d6[0]               @ out0 += b1 * a0\n"
            "pld [%[a_ptr], #64]                    @ preload a\n"
            "vmla.f32	q10, q6, d6[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q6, d7[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q6, d7[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q7, d6[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q7, d6[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q7, d7[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q7, d7[1]              @ out7 += b2 * a3\n"
            "subs		%[k], %[k], #1              @ k--\n"
            "bne		1b                          @ jump to main loop\n"
            "0:                                     @ process tail\n"
            "subs		%[tails], %[tails], #1      @ tail--\n"
            "beq		3f                          @ jump to tail = 1\n"
            /* Unroll 0*/
            "vld1.32  {d12-d15}, [%[b_ptr] :128]!   @ load next b1, b2\n"
            "vmla.f32	q8, q4, d0[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q4, d0[1]              @ out1 += b1 * a1\n"
            "subs		%[tails], %[tails], #1      @ tail--\n"
            "vmla.f32	q12, q4, d1[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d0[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d0[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d1[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d1[1]              @ out7 += b2 * a3\n"
            "beq		4f                          @ jump to tail==2\n"
            /* Unroll 1 */
            "vld1.32	{d8-d11}, [%[b_ptr] :128]!  @ load next b1, b2\n"
            "vmla.f32	q8, q6, d2[0]               @ out0 += b1 * a0\n"
            "vld1.32	{d4-d7}, [%[a_ptr] :128]!   @ load next 2xa0~a3\n"
            "vmla.f32	q10, q6, d2[1]              @ out1 += b1 * a1\n"
            "subs		%[tails], %[tails], #1      @ tail--\n"
            "vmla.f32	q12, q6, d3[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q6, d3[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q7, d2[0]               @ out6 += b2 * a0\n"
            "vmla.f32	q11, q7, d2[1]              @ out7 += b2 * a1\n"
            "vmla.f32	q13, q7, d3[0]              @ out8 += b2 * a2\n"
            "vmla.f32	q15, q7, d3[1]              @ out9 += b2 * a3\n"
            "beq		5f                          @ jump to tail==3\n"
            /* Unroll 2 */
            "vld1.32	{d12-d15}, [%[b_ptr] :128]! @ load next b1,b2\n"
            "vmla.f32	q8, q4, d4[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q4, d4[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q4, d5[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d5[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d4[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d4[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d5[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d5[1]              @ out7 += b2 * a3\n"
            /* Unroll 3 */
            "vmla.f32	q8, q6, d6[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q6, d6[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q6, d7[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q6, d7[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q7, d6[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q7, d6[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q7, d7[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q7, d7[1]              @ out7 += b2 * a3\n"
            "b		2f\n"
            /* tails==1 final tail */
            "3:                                     @ tail=1\n"
            "vmla.f32	q8, q4, d0[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q4, d0[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q4, d1[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d1[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d0[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d0[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d1[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d1[1]              @ out7 += b2 * a3\n"
            /*aptr - 16 */
            "sub		%[a_ptr], %[a_ptr], #16     @ tail--\n"
            "b		2f                              @ jump to end\n"
            /* tails==2 final tail*/
            "4:                                     @ tail == 2\n"
            "vmla.f32	q8, q6, d2[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q6, d2[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q6, d3[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q6, d3[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q7, d2[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q7, d2[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q7, d3[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q7, d3[1]              @ out7 += b2 * a3\n"
            "b		2f                              @ jump to end\n"
            /* tails==3 final tail*/
            "5:                                     @ tail=3\n"
            "vmla.f32	q8, q4, d4[0]               @ out0 += b1 * a0\n"
            "vmla.f32	q10, q4, d4[1]              @ out1 += b1 * a1\n"
            "vmla.f32	q12, q4, d5[0]              @ out2 += b1 * a2\n"
            "vmla.f32	q14, q4, d5[1]              @ out3 += b1 * a3\n"
            "vmla.f32	q9, q5, d4[0]               @ out4 += b2 * a0\n"
            "vmla.f32	q11, q5, d4[1]              @ out5 += b2 * a1\n"
            "vmla.f32	q13, q5, d5[0]              @ out6 += b2 * a2\n"
            "vmla.f32	q15, q5, d5[1]              @ out7 += b2 * a3\n"
            /*aptr - 16*/
4822 4823 4824 4825 4826 4827 4828 4829 4830 4831 4832 4833 4834 4835 4836 4837 4838 4839 4840 4841 4842 4843 4844 4845 4846 4847 4848 4849 4850 4851 4852 4853 4854 4855 4856 4857 4858 4859 4860 4861 4862 4863 4864 4865 4866 4867 4868 4869 4870 4871 4872 4873 4874 4875 4876 4877 4878 4879 4880 4881 4882 4883 4884 4885 4886 4887 4888 4889 4890 4891
            "sub		%[a_ptr], %[a_ptr], #16       @ tail--\n"
            "2:                                   @ check relu\n"
            //!   relu
            "cmp        %[flag_act], #1           @ check if has relu\n"
            "bne        6f                        @ jump if not relu \n"
            "vmov.u32   q0, #0                    @ for relu\n"
            "vmax.f32   q8, q8, q0                @ for relu\n"
            "vmax.f32   q9, q9, q0                @ for relu\n"
            "vmax.f32   q10, q10, q0              @ for relu\n"
            "vmax.f32   q11, q11, q0              @ for relu\n"
            "vmax.f32   q12, q12, q0              @ for relu\n"
            "vmax.f32   q13, q13, q0              @ for relu\n"
            "vmax.f32   q14, q14, q0              @ for relu\n"
            "vmax.f32   q15, q15, q0              @ for relu\n"
            "b          10f                       @ relu end\n"
            "6:                                   @ no relu \n"
            "cmp        %[flag_act], #0           @ check no act\n"
            "beq        10f                       @ no act end  \n"
            //!   relu6
            "cmp        %[flag_act], #2           @ check if has relu6\n"  
            "bne        7f                        @ jump if no relu6 \n"
            "vmov.u32   q0, #0                    @ for relu6\n"
            "vld1.f32   {d2-d3}, [%[alpha]]       @ load relu6 alpha\n"
            "vmax.f32   q8, q8, q0                @ for relu6\n"
            "vmax.f32   q9, q9, q0                @ for relu6\n"
            "vmax.f32   q10, q10, q0              @ for relu6\n"
            "vmax.f32   q11, q11, q0              @ for relu6\n"
            "vmax.f32   q12, q12, q0              @ for relu6\n"
            "vmax.f32   q13, q13, q0              @ for relu6\n"
            "vmax.f32   q14, q14, q0              @ for relu6\n"
            "vmax.f32   q15, q15, q0              @ for relu6\n"

            "vmin.f32   q8, q8, q1                @ for relu6\n"
            "vmin.f32   q9, q9, q1                @ for relu6\n"
            "vmin.f32   q10, q10, q1              @ for relu6\n"
            "vmin.f32   q11, q11, q1              @ for relu6\n"
            "vmin.f32   q12, q12, q1              @ for relu6\n"
            "vmin.f32   q13, q13, q1              @ for relu6\n"
            "vmin.f32   q14, q14, q1              @ for relu6\n"
            "vmin.f32   q15, q15, q1              @ for relu6\n"
            "b          10f                       @ relu6 end \n"
            //! leakey relu
            "7:                                   @ otherwise is leakey relu\n" 
            "vmov.u32   q0,   #0                  @ for leakey relu \n"
            "vld1.f32   {d2-d3}, [%[alpha]]       @ load leakey relu alpha\n"
            "vcge.f32   q2, q8, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q8, q1                @ vmulq_f32 \n"  
            "vbif       q8, q3, q2                @ choose    \n"     
            "vcge.f32   q2, q9, q0                @ vcgeq_u32 \n"  
            "vmul.f32   q3, q9, q1                @ vmulq_f32 \n"  
            "vbif       q9, q3, q2                @ choose    \n"
            "vcge.f32   q2, q10, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q10, q1               @ vmulq_f32 \n"  
            "vbif       q10, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q11, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q11, q1               @ vmulq_f32 \n"  
            "vbif       q11, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q12, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q12, q1               @ vmulq_f32 \n"  
            "vbif       q12, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q13, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q13, q1               @ vmulq_f32 \n"  
            "vbif       q13, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q14, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q14, q1               @ vmulq_f32 \n"  
            "vbif       q14, q3, q2               @ choose    \n" 
            "vcge.f32   q2, q15, q0               @ vcgeq_u32 \n"  
            "vmul.f32   q3, q15, q1               @ vmulq_f32 \n"  
            "vbif       q15, q3, q2               @ choose    \n" 
            "10:                                  @ act end  \n"
Y
Yan Chunwei 已提交
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            "vst1.32    {d16-d19},  [%[c_ptr0]]!    @ store r0\n"
            "vst1.32    {d20-d23},  [%[c_ptr1]]!    @ store r1\n"
            "vst1.32    {d24-d27},  [%[c_ptr2]]!    @ store r2\n"
            "vst1.32    {d28-d31},  [%[c_ptr3]]!    @ store r3\n"
            : [a_ptr] "+r"(a_ptr),
              [b_ptr] "+r"(b_ptr),
              [c_ptr0] "+r"(c_ptr0),
              [c_ptr1] "+r"(c_ptr1),
              [c_ptr2] "+r"(c_ptr2),
              [c_ptr3] "+r"(c_ptr3),
              [k] "+r"(k),
              [tails] "+r"(tails)
            : [bias_ptr] "r"(bias_local),
4905 4906 4907
              [beta] "r"(beta),
              [alpha] "r"(alpha),
              [flag_act] "r"(flag_act)
4908 4909 4910 4911
            : "q0","q1","q2","q3",
              "q4","q5","q6","q7","q8","q9","q10",
              "q11","q12","q13","q14","q15","cc","memory");
        // clang-format on
Y
Yan Chunwei 已提交
4912 4913 4914 4915 4916 4917 4918 4919 4920 4921 4922 4923 4924 4925 4926 4927 4928 4929
        if (flag_p_remain && (xb == bblocks - 1)) {
          for (int i = 0; i < remain; ++i) {
            *pout0++ = cout0[i];
            *pout1++ = cout1[i];
            *pout2++ = cout2[i];
            *pout3++ = cout3[i];
          }
        }
      }
    }
  }
}
#endif  // __aarch64__

}  // namespace math
}  // namespace arm
}  // namespace lite
}  // namespace paddle