src/core/NEON/kernels/arm_gemm/kernels/sme2_interleaved_nomerge_s8q_mopa_1VLx4VL/generic.cpp - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2022-2023 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
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 #ifdef __ARM_FEATURE_SVE
 #ifdef ARM_COMPUTE_ENABLE_SME2

 #include "arm_gemm.hpp"

 #include <cstdint>
 #include "../../asmlib.hpp"
 #include "../../utils.hpp"

 namespace arm_gemm {

 void sme2_interleaved_nomerge_s8q_mopa_1VLx4VL(const int8_t *const A, const int8_t *const B, int8_t *const C, int ldc, const int M, const int N, const int K, const int32_t *const bias, const Requantize32 &rq, const int n_0, bool accumulate, int32_t *const accumulator_buffer)
 {
   struct KernelArgs
   {
     KernelArgs(
       const int8_t *const A,
       const int8_t *const B,
       int8_t *const C, const int ldc,
       const int M, const int N, const int K,
       const int32_t *const bias,
       const Requantize32 &rq,
       const int n_0,
       bool accumulate,
       int32_t *const accumulator_buffer
     ) : A(A),
         B(B), kstride_bytes(roundup(K, 4) * sizeof(int8_t)),
         C(C), ldcb(ldc * sizeof(int8_t)),
         M(M), N(N), K(K),
         n_loops(((K / 4) - 1) / 2), n_tail_iters(((K / 4) - 1) % 2),

         bias(bias), n_0(n_0),
         accumulator_buffer(accumulator_buffer),
         flags(0x0)
     {
       if (accumulate)
       {
         flags |= 1 << 0;  // FILL_ACCUMULATORS_FROM_BUFFER
       }
       if (C == nullptr)
       {
         flags |= 1 << 1;  // STORE_ACCUMULATORS_TO_BUFFER
       }
       if (rq.per_channel_requant)
       {
         flags |= 1 << 2;  // PER_CHANNEL_QUANTISATION
       }
       }

     const int8_t *const A;
     const int8_t *const B;
     const long kstride_bytes;
     int8_t *const C;
     const long ldcb;
     const long M, N, K, n_loops, n_tail_iters;
     int32_t min = std::numeric_limits<int8_t>::min();
     int32_t max = std::numeric_limits<int8_t>::max();

     const int32_t *const bias;
     const int n_0;

     int32_t *const accumulator_buffer;
     uint64_t flags;
   };

   // Construct arguments for this kernel
   KernelArgs args(A, B, C, ldc, M, N, K, bias, rq, n_0, accumulate, accumulator_buffer);

   __asm__ __volatile__(
       "ldr x14, [%x[args], %[offsetof_flags]]\n"
       ".inst 0xd503477f  // SMSTART ZA\n"
       "ptrue p1.b\n"
       ".inst 0x25207811  // ptrue pn9.b\n"
       "ldr x13, [%x[args], %[offsetof_accumulator_buffer]]\n"
       "ldr x11, [%x[args], %[offsetof_accumulator_buffer]]\n"
       "tbz x14, #0, 2f\n"
       "mov x12, #0x0\n"
       "cntw x20\n"
       "1:"  // Initial accumulator load from buffer: Loop
       ".inst 0xa040c5ac  // ld1w { z12.s-z15.s }, pn9.b/Z, [x13]\n"
       ".inst 0xc0840580  // mova za0h.s[x12], { z12.s-z15.s }\n"
       ".inst 0xa041c5bc  // ld1w { z28.s-z31.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
       ".inst 0xc0840781  // mova za1h.s[x12], { z28.s-z31.s }\n"
       ".inst 0xa042c5bc  // ld1w { z28.s-z31.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
       ".inst 0xc0840782  // mova za2h.s[x12], { z28.s-z31.s }\n"
       ".inst 0xa043c5a4  // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
       ".inst 0xc0840483  // mova za3h.s[x12], { z4.s-z7.s }\n"
       "add x12, x12, #0x4\n"
       "cmp x12, x20\n"
       "addvl x13, x13, #16\n"
       "blt 1b\n"
       "2:"  // Initial accumulator load from buffer: End
       "ldr w10, [%x[args], %[offsetof_M]]\n"
       "mov x9, #0x0\n"
       "mov x28, #0x0\n"
       "ldr w27, [%x[args], %[offsetof_N]]\n"
       "ldr x26, [%x[args], %[offsetof_A]]\n"
       "3:"  // M and N loop
       "mov x25, x26\n"
       ".inst 0x25bb6790  // whilelt pn8.s, x28, x27, VLx4\n"
       "tbnz x14, #0, 4f\n"
       "ldr x20, [%x[args], %[offsetof_bias]]\n"
       ".inst 0xc00800ff  // zero { zad0, zad1, zad2, zad3, zad4, zad5, zad6, zad7 }\n"
       "cbz x20, 5f\n"
       ".inst 0xa01cc299  // ldnt1w { z24.s-z27.s }, p8/Z, [x20, x28, LSL #2]\n"
       ".inst 0xc0902700  // addha za0.s, p1/M, p1/M, z24.s\n"
       ".inst 0xc0902721  // addha za1.s, p1/M, p1/M, z25.s\n"
       ".inst 0xc0902742  // addha za2.s, p1/M, p1/M, z26.s\n"
       ".inst 0xc0902763  // addha za3.s, p1/M, p1/M, z27.s\n"
       "4:"  // Prepare accumulators: Test for last block
       "mov x20, x28\n"
       "mov x21, x9\n"
       "incw x20, ALL, MUL #4\n"
       "incw x21\n"
       "cmp x20, x27\n"
       "csel x21, x9, x21, LT\n"
       "mov x20, x14\n"
       "bfm x14, XZR, #0x0, #0x0  // bfc x14, #0x0, #0x1\n"
       "cmp x21, x10\n"
       "csel x14, x20, x14, LT\n"
       "5:"  // Prepare accumulators: End
       "ldr x20, [%x[args], %[offsetof_K]]\n"
       "add x20, x20, #0x3\n"
       "lsr x20, x20, #0x2\n"
       "ldr x23, [%x[args], %[offsetof_B]]\n"
       "lsr x22, x20, #0x2\n"
       "and x21, x20, #0x3\n"
       "ldr x20, [%x[args], %[offsetof_kstride_bytes]]\n"
       "madd x23, x28, x20, x23\n"  // bptr = B + n * kstride_bytes
       "cbz x22, 8f\n"
       "subs x22, x22, #0x1\n"
       "ld1b { z10.b }, p1/Z, [x25]\n"
       ".inst 0xa04086fd  // ldnt1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
       "ld1b { z16.b }, p1/Z, [x25, #1, MUL VL]\n"
       ".inst 0xa04186ed  // ldnt1b { z12.b-z15.b }, pn9.b/Z, [x23, #0x4, MUL VL]\n"
       "ld1b { z21.b }, p1/Z, [x25, #2, MUL VL]\n"
       ".inst 0xa04286f9  // ldnt1b { z24.b-z27.b }, pn9.b/Z, [x23, #0x8, MUL VL]\n"
       "ld1b { z19.b }, p1/Z, [x25, #3, MUL VL]\n"
       "addvl x25, x25, #4\n"
       ".inst 0xa04386e1  // ldnt1b { z0.b-z3.b }, pn9.b/Z, [x23, #0xc, MUL VL]\n"
       "addvl x23, x23, #16\n"
       "ble 7f\n"
       "6:"  // K loop
       ".inst 0xa09c2540  // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
       "subs x22, x22, #0x1\n"
       ".inst 0xa09d2541  // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
       ".inst 0xa09e2542  // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
       ".inst 0xa09f2543  // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
       "ld1b { z10.b }, p1/Z, [x25]\n"
       ".inst 0xa08c2600  // smopa za0.s, p1/M, p1/M, z16.b, z12.b\n"
       ".inst 0xa04086fd  // ldnt1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
       ".inst 0xa08d2601  // smopa za1.s, p1/M, p1/M, z16.b, z13.b\n"
       ".inst 0xa08e2602  // smopa za2.s, p1/M, p1/M, z16.b, z14.b\n"
       ".inst 0xa08f2603  // smopa za3.s, p1/M, p1/M, z16.b, z15.b\n"
       "ld1b { z16.b }, p1/Z, [x25, #1, MUL VL]\n"
       ".inst 0xa09826a0  // smopa za0.s, p1/M, p1/M, z21.b, z24.b\n"
       ".inst 0xa04186ed  // ldnt1b { z12.b-z15.b }, pn9.b/Z, [x23, #0x4, MUL VL]\n"
       ".inst 0xa09926a1  // smopa za1.s, p1/M, p1/M, z21.b, z25.b\n"
       ".inst 0xa09a26a2  // smopa za2.s, p1/M, p1/M, z21.b, z26.b\n"
       ".inst 0xa09b26a3  // smopa za3.s, p1/M, p1/M, z21.b, z27.b\n"
       "ld1b { z21.b }, p1/Z, [x25, #2, MUL VL]\n"
       ".inst 0xa04286f9  // ldnt1b { z24.b-z27.b }, pn9.b/Z, [x23, #0x8, MUL VL]\n"
       ".inst 0xa0802660  // smopa za0.s, p1/M, p1/M, z19.b, z0.b\n"
       ".inst 0xa0812661  // smopa za1.s, p1/M, p1/M, z19.b, z1.b\n"
       ".inst 0xa0822662  // smopa za2.s, p1/M, p1/M, z19.b, z2.b\n"
       ".inst 0xa0832663  // smopa za3.s, p1/M, p1/M, z19.b, z3.b\n"
       "ld1b { z19.b }, p1/Z, [x25, #3, MUL VL]\n"
       "addvl x25, x25, #4\n"
       ".inst 0xa04386e1  // ldnt1b { z0.b-z3.b }, pn9.b/Z, [x23, #0xc, MUL VL]\n"
       "addvl x23, x23, #16\n"
       "bgt 6b\n"
       "7:"  // K loop tail
       ".inst 0xa09c2540  // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
       ".inst 0xa09d2541  // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
       ".inst 0xa09e2542  // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
       ".inst 0xa09f2543  // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
       ".inst 0xa08c2600  // smopa za0.s, p1/M, p1/M, z16.b, z12.b\n"
       ".inst 0xa08d2601  // smopa za1.s, p1/M, p1/M, z16.b, z13.b\n"
       ".inst 0xa08e2602  // smopa za2.s, p1/M, p1/M, z16.b, z14.b\n"
       ".inst 0xa08f2603  // smopa za3.s, p1/M, p1/M, z16.b, z15.b\n"
       ".inst 0xa09826a0  // smopa za0.s, p1/M, p1/M, z21.b, z24.b\n"
       ".inst 0xa09926a1  // smopa za1.s, p1/M, p1/M, z21.b, z25.b\n"
       ".inst 0xa09a26a2  // smopa za2.s, p1/M, p1/M, z21.b, z26.b\n"
       ".inst 0xa09b26a3  // smopa za3.s, p1/M, p1/M, z21.b, z27.b\n"
       ".inst 0xa0802660  // smopa za0.s, p1/M, p1/M, z19.b, z0.b\n"
       ".inst 0xa0812661  // smopa za1.s, p1/M, p1/M, z19.b, z1.b\n"
       ".inst 0xa0822662  // smopa za2.s, p1/M, p1/M, z19.b, z2.b\n"
       ".inst 0xa0832663  // smopa za3.s, p1/M, p1/M, z19.b, z3.b\n"
       "8:"  // K oddments
       "cbz x21, 10f\n"
       "9:"  // K oddments: Loop
       "ld1b { z10.b }, p1/Z, [x25]\n"
       "subs x21, x21, #0x1\n"
       "addvl x25, x25, #1\n"
       ".inst 0xa04086fc  // ld1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
       "addvl x23, x23, #4\n"
       ".inst 0xa09c2540  // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
       ".inst 0xa09d2541  // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
       ".inst 0xa09e2542  // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
       ".inst 0xa09f2543  // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
       "bgt 9b\n"
       "10:"  // K oddments: End
       "ld1w { z14.s }, p1/Z, [x25]\n"
       "addvl x25, x25, #1\n"
       ".inst 0xc09125c0  // addva za0.s, p1/M, p1/M, z14.s\n"
       ".inst 0xc09125c1  // addva za1.s, p1/M, p1/M, z14.s\n"
       ".inst 0xc09125c2  // addva za2.s, p1/M, p1/M, z14.s\n"
       ".inst 0xc09125c3  // addva za3.s, p1/M, p1/M, z14.s\n"
       "tbz x14, #1, 14f\n"
       "tbz x14, #0, 12f\n"
       "mov x12, #0x0\n"
       "cntw x20\n"
       "11:"  // Store to partial result buffer: Store and refill: Loop
       ".inst 0xa040c5b8  // ld1w { z24.s-z27.s }, pn9.b/Z, [x13]\n"
       ".inst 0xc086041c  // mova { z28.s-z31.s }, za0h.s[x12]\n"
       ".inst 0xc0840700  // mova za0h.s[x12], { z24.s-z27.s }\n"
       ".inst 0xc0860428  // mova { z8.s-z11.s }, za1h.s[x12]\n"
       ".inst 0xa041c5b0  // ld1w { z16.s-z19.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
       ".inst 0xc0840601  // mova za1h.s[x12], { z16.s-z19.s }\n"
       ".inst 0xc0860458  // mova { z24.s-z27.s }, za2h.s[x12]\n"
       ".inst 0xc086046c  // mova { z12.s-z15.s }, za3h.s[x12]\n"
       ".inst 0xa042c5a4  // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
       ".inst 0xc0840482  // mova za2h.s[x12], { z4.s-z7.s }\n"
       ".inst 0xa043c5a4  // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
       ".inst 0xc0840483  // mova za3h.s[x12], { z4.s-z7.s }\n"
       "add x12, x12, #0x4\n"
       "cmp x12, x20\n"
       ".inst 0xa060c57c  // st1w { z28.s-z31.s }, pn9.b, [x11]\n"
       "addvl x13, x13, #16\n"
       ".inst 0xa061c568  // st1w { z8.s-z11.s }, pn9.b, [x11, #0x4, MUL VL]\n"
       ".inst 0xa062c578  // st1w { z24.s-z27.s }, pn9.b, [x11, #0x8, MUL VL]\n"
       ".inst 0xa063c56c  // st1w { z12.s-z15.s }, pn9.b, [x11, #0xc, MUL VL]\n"
       "addvl x11, x11, #16\n"
       "blt 11b\n"
       "b 21f\n"
       "12:"  // Store to partial result buffer: Store only
       "mov x12, #0x0\n"
       "cntw x20\n"
       "13:"  // Store to partial result buffer: Store only: Loop
       ".inst 0xc086041c  // mova { z28.s-z31.s }, za0h.s[x12]\n"
       ".inst 0xc0860420  // mova { z0.s-z3.s }, za1h.s[x12]\n"
       ".inst 0xa060c57c  // st1w { z28.s-z31.s }, pn9.b, [x11]\n"
       ".inst 0xc0860448  // mova { z8.s-z11.s }, za2h.s[x12]\n"
       ".inst 0xc0860470  // mova { z16.s-z19.s }, za3h.s[x12]\n"
       ".inst 0xa061c560  // st1w { z0.s-z3.s }, pn9.b, [x11, #0x4, MUL VL]\n"
       "add x12, x12, #0x4\n"
       "cmp x12, x20\n"
       ".inst 0xa062c568  // st1w { z8.s-z11.s }, pn9.b, [x11, #0x8, MUL VL]\n"
       ".inst 0xa063c570  // st1w { z16.s-z19.s }, pn9.b, [x11, #0xc, MUL VL]\n"
       "addvl x11, x11, #16\n"
       "blt 13b\n"
       "b 21f\n"
       "14:"  // Store to output array
       "ldr x24, [%x[args], %[offsetof_C]]\n"
       "add x24, x24, x28\n"  // C += n
       "sub x23, x10, x9\n"
       "ld1rw { z12.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
       "ldr x22, [%x[args], %[offsetof_ldcb]]\n"
       "madd x24, x9, x22, x24\n"  // C += m * ldc
       "ld1rw { z13.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
       "ld1rw { z14.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
       "ld1rw { z15.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
       "ld1rw { z4.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
       "ld1rw { z5.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
       "ld1rw { z6.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
       "ld1rw { z7.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
       "ld1rw { z1.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_c_offset]]\n"
       "ld1rw { z21.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_minval]]\n"
       "ld1rw { z20.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_maxval]]\n"
       "tbz x14, #2, 15f\n"
       "ldr w21, [%x[args], %[offsetof_n_0]]\n"
       "add x21, x21, x28\n"
       "ldr x20, [%x[rq], %[offsetof_Requantize32_per_channel_muls]]\n"
       "add x20, x20, x21, LSL #2\n"
       ".inst 0xa040c28c  // ld1w { z12.s-z15.s }, p8/Z, [x20]\n"
       "ldr x20, [%x[rq], %[offsetof_Requantize32_per_channel_right_shifts]]\n"
       "add x20, x20, x21, LSL #2\n"
       ".inst 0xa040c284  // ld1w { z4.s-z7.s }, p8/Z, [x20]\n"
       "15:"  // Store to output array: Load per-channel parameters: End
       "cntw x20\n"
       "whilelt p0.b, x28, x27\n"
       "cmp x23, x20\n"
       "csel x20, x23, x20, LT\n"
       "lsr x21, x20, #0x1\n"
       "mov x12, #0x0\n"
       "and x20, x20, #0x1\n"
       "cbz x21, 17f\n"
       "16:"  // Store to output array: Accumulator row 0 loop
       ".inst 0xc086001a  // mova { z26.s-z27.s }, za0h.s[x12, 0:1]\n"
       ".inst 0xc086005c  // mova { z28.s-z29.s }, za1h.s[x12, 0:1]\n"
       ".inst 0xc1aca41a  // sqdmulh { z26.s-z27.s }, { z26.s-z27.s }, z12.s\n"
       ".inst 0xc0860096  // mova { z22.s-z23.s }, za2h.s[x12, 0:1]\n"
       ".inst 0xc08600d0  // mova { z16.s-z17.s }, za3h.s[x12, 0:1]\n"
       ".inst 0xc1ada41c  // sqdmulh { z28.s-z29.s }, { z28.s-z29.s }, z13.s\n"
       ".inst 0xc1aea416  // sqdmulh { z22.s-z23.s }, { z22.s-z23.s }, z14.s\n"
       "add x12, x12, #0x2\n"
       "cmp x12, x21, LSL #1\n"
       ".inst 0xc1afa410  // sqdmulh { z16.s-z17.s }, { z16.s-z17.s }, z15.s\n"
       ".inst 0xc1a4a23a  // srshl { z26.s-z27.s }, { z26.s-z27.s }, z4.s\n"
       ".inst 0xc1a5a23c  // srshl { z28.s-z29.s }, { z28.s-z29.s }, z5.s\n"
       ".inst 0xc1a6a236  // srshl { z22.s-z23.s }, { z22.s-z23.s }, z6.s\n"
       ".inst 0xc1a7a230  // srshl { z16.s-z17.s }, { z16.s-z17.s }, z7.s\n"
       ".inst 0xc1a1a31a  // add { z26.s-z27.s }, { z26.s-z27.s }, z1.s\n"
       ".inst 0xc1a1a31c  // add { z28.s-z29.s }, { z28.s-z29.s }, z1.s\n"
       ".inst 0xc1a1a316  // add { z22.s-z23.s }, { z22.s-z23.s }, z1.s\n"
       ".inst 0xc1a1a310  // add { z16.s-z17.s }, { z16.s-z17.s }, z1.s\n"
       ".inst 0xc1b4c6ba  // sclamp { z26.s-z27.s }, z21.s, z20.s\n"
       ".inst 0xc1b4c6bc  // sclamp { z28.s-z29.s }, z21.s, z20.s\n"
       "uzp1 z19.b, z26.b, z28.b\n"
       ".inst 0xc1b4c6b6  // sclamp { z22.s-z23.s }, z21.s, z20.s\n"
       ".inst 0xc1b4c6b0  // sclamp { z16.s-z17.s }, z21.s, z20.s\n"
       "uzp1 z16.b, z22.b, z16.b\n"
       "uzp1 z18.b, z27.b, z29.b\n"
       "uzp1 z17.b, z23.b, z17.b\n"
       "uzp1 z16.b, z19.b, z16.b\n"
       "st1b { z16.b }, p0, [x24]\n"
       "add x24, x24, x22\n"
       "uzp1 z16.b, z18.b, z17.b\n"
       "st1b { z16.b }, p0, [x24]\n"
       "add x24, x24, x22\n"
       "blt 16b\n"
       "17:"  // Store to output array: Accumulator row 0 oddments
       "cbz x20, 18f\n"
       ".inst 0xc0860002  // mova { z2.s-z3.s }, za0h.s[x12, 0:1]\n"
       ".inst 0xc0860058  // mova { z24.s-z25.s }, za1h.s[x12, 0:1]\n"
       ".inst 0xc1aca402  // sqdmulh { z2.s-z3.s }, { z2.s-z3.s }, z12.s\n"
       ".inst 0xc0860090  // mova { z16.s-z17.s }, za2h.s[x12, 0:1]\n"
       ".inst 0xc08600ca  // mova { z10.s-z11.s }, za3h.s[x12, 0:1]\n"
       ".inst 0xc1ada418  // sqdmulh { z24.s-z25.s }, { z24.s-z25.s }, z13.s\n"
       ".inst 0xc1aea410  // sqdmulh { z16.s-z17.s }, { z16.s-z17.s }, z14.s\n"
       ".inst 0xc1afa40a  // sqdmulh { z10.s-z11.s }, { z10.s-z11.s }, z15.s\n"
       ".inst 0xc1a4a222  // srshl { z2.s-z3.s }, { z2.s-z3.s }, z4.s\n"
       ".inst 0xc1a5a238  // srshl { z24.s-z25.s }, { z24.s-z25.s }, z5.s\n"
       ".inst 0xc1a6a230  // srshl { z16.s-z17.s }, { z16.s-z17.s }, z6.s\n"
       ".inst 0xc1a7a22a  // srshl { z10.s-z11.s }, { z10.s-z11.s }, z7.s\n"
       ".inst 0xc1a1a302  // add { z2.s-z3.s }, { z2.s-z3.s }, z1.s\n"
       ".inst 0xc1a1a318  // add { z24.s-z25.s }, { z24.s-z25.s }, z1.s\n"
       ".inst 0xc1a1a310  // add { z16.s-z17.s }, { z16.s-z17.s }, z1.s\n"
       ".inst 0xc1a1a30a  // add { z10.s-z11.s }, { z10.s-z11.s }, z1.s\n"
       ".inst 0xc1b4c6a2  // sclamp { z2.s-z3.s }, z21.s, z20.s\n"
       ".inst 0xc1b4c6b8  // sclamp { z24.s-z25.s }, z21.s, z20.s\n"
       "uzp1 z23.b, z2.b, z24.b\n"
       ".inst 0xc1b4c6b0  // sclamp { z16.s-z17.s }, z21.s, z20.s\n"
       ".inst 0xc1b4c6aa  // sclamp { z10.s-z11.s }, z21.s, z20.s\n"
       "uzp1 z16.b, z16.b, z10.b\n"
       "uzp1 z16.b, z23.b, z16.b\n"
       "st1b { z16.b }, p0, [x24]\n"
       "18:"  // Store to output array: Accumulator row 0 oddments: End
       "19:"  // Store to output array: End
       "tbz x14, #0, 21f\n"
       "mov x12, #0x0\n"
       "cntw x20\n"
       "20:"  // Store to output array: Refill accumulators: Loop
       ".inst 0xa040c5b0  // ld1w { z16.s-z19.s }, pn9.b/Z, [x13]\n"
       ".inst 0xc0840600  // mova za0h.s[x12], { z16.s-z19.s }\n"
       ".inst 0xa041c5ac  // ld1w { z12.s-z15.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
       ".inst 0xc0840581  // mova za1h.s[x12], { z12.s-z15.s }\n"
       ".inst 0xa042c5b0  // ld1w { z16.s-z19.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
       ".inst 0xc0840602  // mova za2h.s[x12], { z16.s-z19.s }\n"
       ".inst 0xa043c5ac  // ld1w { z12.s-z15.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
       ".inst 0xc0840583  // mova za3h.s[x12], { z12.s-z15.s }\n"
       "add x12, x12, #0x4\n"
       "cmp x12, x20\n"
       "addvl x13, x13, #16\n"
       "blt 20b\n"
       "21:"  // End block
       "incw x28, ALL, MUL #4\n"
       "cmp x28, x27\n"
       "blt 3b\n"
       "incw x9\n"
       "cmp x9, x10\n"
       "mov x28, #0x0\n"
       "mov x26, x25\n"
       "blt 3b\n"
       ".inst 0xd503467f  // SMSTOP\n"
       :
       : [args] "r" (&args), [offsetof_A] "I" (offsetof(KernelArgs, A)), [offsetof_B] "I" (offsetof(KernelArgs, B)), [offsetof_C] "I" (offsetof(KernelArgs, C)), [offsetof_K] "I" (offsetof(KernelArgs, K)), [offsetof_M] "I" (offsetof(KernelArgs, M)), [offsetof_N] "I" (offsetof(KernelArgs, N)), [offsetof_Requantize32_c_offset] "I" (offsetof(Requantize32, c_offset)), [offsetof_Requantize32_maxval] "I" (offsetof(Requantize32, maxval)), [offsetof_Requantize32_minval] "I" (offsetof(Requantize32, minval)), [offsetof_Requantize32_per_channel_muls] "I" (offsetof(Requantize32, per_channel_muls)), [offsetof_Requantize32_per_channel_right_shifts] "I" (offsetof(Requantize32, per_channel_right_shifts)), [offsetof_Requantize32_per_layer_mul] "I" (offsetof(Requantize32, per_layer_mul)), [offsetof_Requantize32_per_layer_right_shift] "I" (offsetof(Requantize32, per_layer_right_shift)), [offsetof_accumulator_buffer] "I" (offsetof(KernelArgs, accumulator_buffer)), [offsetof_bias] "I" (offsetof(KernelArgs, bias)), [offsetof_flags] "I" (offsetof(KernelArgs, flags)), [offsetof_kstride_bytes] "I" (offsetof(KernelArgs, kstride_bytes)), [offsetof_ldcb] "I" (offsetof(KernelArgs, ldcb)), [offsetof_n_0] "I" (offsetof(KernelArgs, n_0)), [rq] "r" (&rq)
       : "cc", "memory", "p0", "p1", "p2", "p3", "p4", "p5", "p6", "p7", "p8", "p9", "p10", "p11", "p12", "p13", "p14", "p15", "x9", "x10", "x11", "x12", "x13", "x14", "x20", "x21", "x22", "x23", "x24", "x25", "x26", "x27", "x28", "z0", "z1", "z2", "z3", "z4", "z5", "z6", "z7", "z8", "z9", "z10", "z11", "z12", "z13", "z14", "z15", "z16", "z17", "z18", "z19", "z20", "z21", "z22", "z23", "z24", "z25", "z26", "z27", "z28", "z29", "z30", "z31"
     );
 }

 }  // namespace arm_gemm

 #endif  // ARM_COMPUTE_ENABLE_SME2
 #endif  // __ARM_FEATURE_SVE
	/*
	* Copyright (c) 2022-2023 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.
	*/
	#ifdef __ARM_FEATURE_SVE
	#ifdef ARM_COMPUTE_ENABLE_SME2

	#include "arm_gemm.hpp"

	#include <cstdint>
	#include "../../asmlib.hpp"
	#include "../../utils.hpp"

	namespace arm_gemm {

	void sme2_interleaved_nomerge_s8q_mopa_1VLx4VL(const int8_t const A, const int8_t const B, int8_t const C, int ldc, const int M, const int N, const int K, const int32_t const bias, const Requantize32 &rq, const int n_0, bool accumulate, int32_t *const accumulator_buffer)
	{
	struct KernelArgs
	{
	KernelArgs(
	const int8_t *const A,
	const int8_t *const B,
	int8_t *const C, const int ldc,
	const int M, const int N, const int K,
	const int32_t *const bias,
	const Requantize32 &rq,
	const int n_0,
	bool accumulate,
	int32_t *const accumulator_buffer
	) : A(A),
	B(B), kstride_bytes(roundup(K, 4) * sizeof(int8_t)),
	C(C), ldcb(ldc * sizeof(int8_t)),
	M(M), N(N), K(K),
	n_loops(((K / 4) - 1) / 2), n_tail_iters(((K / 4) - 1) % 2),

	bias(bias), n_0(n_0),
	accumulator_buffer(accumulator_buffer),
	flags(0x0)
	{
	if (accumulate)
	{
	flags \|= 1 << 0; // FILL_ACCUMULATORS_FROM_BUFFER
	}
	if (C == nullptr)
	{
	flags \|= 1 << 1; // STORE_ACCUMULATORS_TO_BUFFER
	}
	if (rq.per_channel_requant)
	{
	flags \|= 1 << 2; // PER_CHANNEL_QUANTISATION
	}
	}

	const int8_t *const A;
	const int8_t *const B;
	const long kstride_bytes;
	int8_t *const C;
	const long ldcb;
	const long M, N, K, n_loops, n_tail_iters;
	int32_t min = std::numeric_limits<int8_t>::min();
	int32_t max = std::numeric_limits<int8_t>::max();

	const int32_t *const bias;
	const int n_0;

	int32_t *const accumulator_buffer;
	uint64_t flags;
	};

	// Construct arguments for this kernel
	KernelArgs args(A, B, C, ldc, M, N, K, bias, rq, n_0, accumulate, accumulator_buffer);

	__asm__ __volatile__(
	"ldr x14, [%x[args], %[offsetof_flags]]\n"
	".inst 0xd503477f // SMSTART ZA\n"
	"ptrue p1.b\n"
	".inst 0x25207811 // ptrue pn9.b\n"
	"ldr x13, [%x[args], %[offsetof_accumulator_buffer]]\n"
	"ldr x11, [%x[args], %[offsetof_accumulator_buffer]]\n"
	"tbz x14, #0, 2f\n"
	"mov x12, #0x0\n"
	"cntw x20\n"
	"1:" // Initial accumulator load from buffer: Loop
	".inst 0xa040c5ac // ld1w { z12.s-z15.s }, pn9.b/Z, [x13]\n"
	".inst 0xc0840580 // mova za0h.s[x12], { z12.s-z15.s }\n"
	".inst 0xa041c5bc // ld1w { z28.s-z31.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
	".inst 0xc0840781 // mova za1h.s[x12], { z28.s-z31.s }\n"
	".inst 0xa042c5bc // ld1w { z28.s-z31.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
	".inst 0xc0840782 // mova za2h.s[x12], { z28.s-z31.s }\n"
	".inst 0xa043c5a4 // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
	".inst 0xc0840483 // mova za3h.s[x12], { z4.s-z7.s }\n"
	"add x12, x12, #0x4\n"
	"cmp x12, x20\n"
	"addvl x13, x13, #16\n"
	"blt 1b\n"
	"2:" // Initial accumulator load from buffer: End
	"ldr w10, [%x[args], %[offsetof_M]]\n"
	"mov x9, #0x0\n"
	"mov x28, #0x0\n"
	"ldr w27, [%x[args], %[offsetof_N]]\n"
	"ldr x26, [%x[args], %[offsetof_A]]\n"
	"3:" // M and N loop
	"mov x25, x26\n"
	".inst 0x25bb6790 // whilelt pn8.s, x28, x27, VLx4\n"
	"tbnz x14, #0, 4f\n"
	"ldr x20, [%x[args], %[offsetof_bias]]\n"
	".inst 0xc00800ff // zero { zad0, zad1, zad2, zad3, zad4, zad5, zad6, zad7 }\n"
	"cbz x20, 5f\n"
	".inst 0xa01cc299 // ldnt1w { z24.s-z27.s }, p8/Z, [x20, x28, LSL #2]\n"
	".inst 0xc0902700 // addha za0.s, p1/M, p1/M, z24.s\n"
	".inst 0xc0902721 // addha za1.s, p1/M, p1/M, z25.s\n"
	".inst 0xc0902742 // addha za2.s, p1/M, p1/M, z26.s\n"
	".inst 0xc0902763 // addha za3.s, p1/M, p1/M, z27.s\n"
	"4:" // Prepare accumulators: Test for last block
	"mov x20, x28\n"
	"mov x21, x9\n"
	"incw x20, ALL, MUL #4\n"
	"incw x21\n"
	"cmp x20, x27\n"
	"csel x21, x9, x21, LT\n"
	"mov x20, x14\n"
	"bfm x14, XZR, #0x0, #0x0 // bfc x14, #0x0, #0x1\n"
	"cmp x21, x10\n"
	"csel x14, x20, x14, LT\n"
	"5:" // Prepare accumulators: End
	"ldr x20, [%x[args], %[offsetof_K]]\n"
	"add x20, x20, #0x3\n"
	"lsr x20, x20, #0x2\n"
	"ldr x23, [%x[args], %[offsetof_B]]\n"
	"lsr x22, x20, #0x2\n"
	"and x21, x20, #0x3\n"
	"ldr x20, [%x[args], %[offsetof_kstride_bytes]]\n"
	"madd x23, x28, x20, x23\n" // bptr = B + n * kstride_bytes
	"cbz x22, 8f\n"
	"subs x22, x22, #0x1\n"
	"ld1b { z10.b }, p1/Z, [x25]\n"
	".inst 0xa04086fd // ldnt1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
	"ld1b { z16.b }, p1/Z, [x25, #1, MUL VL]\n"
	".inst 0xa04186ed // ldnt1b { z12.b-z15.b }, pn9.b/Z, [x23, #0x4, MUL VL]\n"
	"ld1b { z21.b }, p1/Z, [x25, #2, MUL VL]\n"
	".inst 0xa04286f9 // ldnt1b { z24.b-z27.b }, pn9.b/Z, [x23, #0x8, MUL VL]\n"
	"ld1b { z19.b }, p1/Z, [x25, #3, MUL VL]\n"
	"addvl x25, x25, #4\n"
	".inst 0xa04386e1 // ldnt1b { z0.b-z3.b }, pn9.b/Z, [x23, #0xc, MUL VL]\n"
	"addvl x23, x23, #16\n"
	"ble 7f\n"
	"6:" // K loop
	".inst 0xa09c2540 // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
	"subs x22, x22, #0x1\n"
	".inst 0xa09d2541 // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
	".inst 0xa09e2542 // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
	".inst 0xa09f2543 // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
	"ld1b { z10.b }, p1/Z, [x25]\n"
	".inst 0xa08c2600 // smopa za0.s, p1/M, p1/M, z16.b, z12.b\n"
	".inst 0xa04086fd // ldnt1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
	".inst 0xa08d2601 // smopa za1.s, p1/M, p1/M, z16.b, z13.b\n"
	".inst 0xa08e2602 // smopa za2.s, p1/M, p1/M, z16.b, z14.b\n"
	".inst 0xa08f2603 // smopa za3.s, p1/M, p1/M, z16.b, z15.b\n"
	"ld1b { z16.b }, p1/Z, [x25, #1, MUL VL]\n"
	".inst 0xa09826a0 // smopa za0.s, p1/M, p1/M, z21.b, z24.b\n"
	".inst 0xa04186ed // ldnt1b { z12.b-z15.b }, pn9.b/Z, [x23, #0x4, MUL VL]\n"
	".inst 0xa09926a1 // smopa za1.s, p1/M, p1/M, z21.b, z25.b\n"
	".inst 0xa09a26a2 // smopa za2.s, p1/M, p1/M, z21.b, z26.b\n"
	".inst 0xa09b26a3 // smopa za3.s, p1/M, p1/M, z21.b, z27.b\n"
	"ld1b { z21.b }, p1/Z, [x25, #2, MUL VL]\n"
	".inst 0xa04286f9 // ldnt1b { z24.b-z27.b }, pn9.b/Z, [x23, #0x8, MUL VL]\n"
	".inst 0xa0802660 // smopa za0.s, p1/M, p1/M, z19.b, z0.b\n"
	".inst 0xa0812661 // smopa za1.s, p1/M, p1/M, z19.b, z1.b\n"
	".inst 0xa0822662 // smopa za2.s, p1/M, p1/M, z19.b, z2.b\n"
	".inst 0xa0832663 // smopa za3.s, p1/M, p1/M, z19.b, z3.b\n"
	"ld1b { z19.b }, p1/Z, [x25, #3, MUL VL]\n"
	"addvl x25, x25, #4\n"
	".inst 0xa04386e1 // ldnt1b { z0.b-z3.b }, pn9.b/Z, [x23, #0xc, MUL VL]\n"
	"addvl x23, x23, #16\n"
	"bgt 6b\n"
	"7:" // K loop tail
	".inst 0xa09c2540 // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
	".inst 0xa09d2541 // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
	".inst 0xa09e2542 // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
	".inst 0xa09f2543 // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
	".inst 0xa08c2600 // smopa za0.s, p1/M, p1/M, z16.b, z12.b\n"
	".inst 0xa08d2601 // smopa za1.s, p1/M, p1/M, z16.b, z13.b\n"
	".inst 0xa08e2602 // smopa za2.s, p1/M, p1/M, z16.b, z14.b\n"
	".inst 0xa08f2603 // smopa za3.s, p1/M, p1/M, z16.b, z15.b\n"
	".inst 0xa09826a0 // smopa za0.s, p1/M, p1/M, z21.b, z24.b\n"
	".inst 0xa09926a1 // smopa za1.s, p1/M, p1/M, z21.b, z25.b\n"
	".inst 0xa09a26a2 // smopa za2.s, p1/M, p1/M, z21.b, z26.b\n"
	".inst 0xa09b26a3 // smopa za3.s, p1/M, p1/M, z21.b, z27.b\n"
	".inst 0xa0802660 // smopa za0.s, p1/M, p1/M, z19.b, z0.b\n"
	".inst 0xa0812661 // smopa za1.s, p1/M, p1/M, z19.b, z1.b\n"
	".inst 0xa0822662 // smopa za2.s, p1/M, p1/M, z19.b, z2.b\n"
	".inst 0xa0832663 // smopa za3.s, p1/M, p1/M, z19.b, z3.b\n"
	"8:" // K oddments
	"cbz x21, 10f\n"
	"9:" // K oddments: Loop
	"ld1b { z10.b }, p1/Z, [x25]\n"
	"subs x21, x21, #0x1\n"
	"addvl x25, x25, #1\n"
	".inst 0xa04086fc // ld1b { z28.b-z31.b }, pn9.b/Z, [x23]\n"
	"addvl x23, x23, #4\n"
	".inst 0xa09c2540 // smopa za0.s, p1/M, p1/M, z10.b, z28.b\n"
	".inst 0xa09d2541 // smopa za1.s, p1/M, p1/M, z10.b, z29.b\n"
	".inst 0xa09e2542 // smopa za2.s, p1/M, p1/M, z10.b, z30.b\n"
	".inst 0xa09f2543 // smopa za3.s, p1/M, p1/M, z10.b, z31.b\n"
	"bgt 9b\n"
	"10:" // K oddments: End
	"ld1w { z14.s }, p1/Z, [x25]\n"
	"addvl x25, x25, #1\n"
	".inst 0xc09125c0 // addva za0.s, p1/M, p1/M, z14.s\n"
	".inst 0xc09125c1 // addva za1.s, p1/M, p1/M, z14.s\n"
	".inst 0xc09125c2 // addva za2.s, p1/M, p1/M, z14.s\n"
	".inst 0xc09125c3 // addva za3.s, p1/M, p1/M, z14.s\n"
	"tbz x14, #1, 14f\n"
	"tbz x14, #0, 12f\n"
	"mov x12, #0x0\n"
	"cntw x20\n"
	"11:" // Store to partial result buffer: Store and refill: Loop
	".inst 0xa040c5b8 // ld1w { z24.s-z27.s }, pn9.b/Z, [x13]\n"
	".inst 0xc086041c // mova { z28.s-z31.s }, za0h.s[x12]\n"
	".inst 0xc0840700 // mova za0h.s[x12], { z24.s-z27.s }\n"
	".inst 0xc0860428 // mova { z8.s-z11.s }, za1h.s[x12]\n"
	".inst 0xa041c5b0 // ld1w { z16.s-z19.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
	".inst 0xc0840601 // mova za1h.s[x12], { z16.s-z19.s }\n"
	".inst 0xc0860458 // mova { z24.s-z27.s }, za2h.s[x12]\n"
	".inst 0xc086046c // mova { z12.s-z15.s }, za3h.s[x12]\n"
	".inst 0xa042c5a4 // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
	".inst 0xc0840482 // mova za2h.s[x12], { z4.s-z7.s }\n"
	".inst 0xa043c5a4 // ld1w { z4.s-z7.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
	".inst 0xc0840483 // mova za3h.s[x12], { z4.s-z7.s }\n"
	"add x12, x12, #0x4\n"
	"cmp x12, x20\n"
	".inst 0xa060c57c // st1w { z28.s-z31.s }, pn9.b, [x11]\n"
	"addvl x13, x13, #16\n"
	".inst 0xa061c568 // st1w { z8.s-z11.s }, pn9.b, [x11, #0x4, MUL VL]\n"
	".inst 0xa062c578 // st1w { z24.s-z27.s }, pn9.b, [x11, #0x8, MUL VL]\n"
	".inst 0xa063c56c // st1w { z12.s-z15.s }, pn9.b, [x11, #0xc, MUL VL]\n"
	"addvl x11, x11, #16\n"
	"blt 11b\n"
	"b 21f\n"
	"12:" // Store to partial result buffer: Store only
	"mov x12, #0x0\n"
	"cntw x20\n"
	"13:" // Store to partial result buffer: Store only: Loop
	".inst 0xc086041c // mova { z28.s-z31.s }, za0h.s[x12]\n"
	".inst 0xc0860420 // mova { z0.s-z3.s }, za1h.s[x12]\n"
	".inst 0xa060c57c // st1w { z28.s-z31.s }, pn9.b, [x11]\n"
	".inst 0xc0860448 // mova { z8.s-z11.s }, za2h.s[x12]\n"
	".inst 0xc0860470 // mova { z16.s-z19.s }, za3h.s[x12]\n"
	".inst 0xa061c560 // st1w { z0.s-z3.s }, pn9.b, [x11, #0x4, MUL VL]\n"
	"add x12, x12, #0x4\n"
	"cmp x12, x20\n"
	".inst 0xa062c568 // st1w { z8.s-z11.s }, pn9.b, [x11, #0x8, MUL VL]\n"
	".inst 0xa063c570 // st1w { z16.s-z19.s }, pn9.b, [x11, #0xc, MUL VL]\n"
	"addvl x11, x11, #16\n"
	"blt 13b\n"
	"b 21f\n"
	"14:" // Store to output array
	"ldr x24, [%x[args], %[offsetof_C]]\n"
	"add x24, x24, x28\n" // C += n
	"sub x23, x10, x9\n"
	"ld1rw { z12.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
	"ldr x22, [%x[args], %[offsetof_ldcb]]\n"
	"madd x24, x9, x22, x24\n" // C += m * ldc
	"ld1rw { z13.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
	"ld1rw { z14.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
	"ld1rw { z15.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_mul]]\n"
	"ld1rw { z4.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
	"ld1rw { z5.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
	"ld1rw { z6.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
	"ld1rw { z7.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_per_layer_right_shift]]\n"
	"ld1rw { z1.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_c_offset]]\n"
	"ld1rw { z21.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_minval]]\n"
	"ld1rw { z20.s }, p1/Z, [%x[rq], %[offsetof_Requantize32_maxval]]\n"
	"tbz x14, #2, 15f\n"
	"ldr w21, [%x[args], %[offsetof_n_0]]\n"
	"add x21, x21, x28\n"
	"ldr x20, [%x[rq], %[offsetof_Requantize32_per_channel_muls]]\n"
	"add x20, x20, x21, LSL #2\n"
	".inst 0xa040c28c // ld1w { z12.s-z15.s }, p8/Z, [x20]\n"
	"ldr x20, [%x[rq], %[offsetof_Requantize32_per_channel_right_shifts]]\n"
	"add x20, x20, x21, LSL #2\n"
	".inst 0xa040c284 // ld1w { z4.s-z7.s }, p8/Z, [x20]\n"
	"15:" // Store to output array: Load per-channel parameters: End
	"cntw x20\n"
	"whilelt p0.b, x28, x27\n"
	"cmp x23, x20\n"
	"csel x20, x23, x20, LT\n"
	"lsr x21, x20, #0x1\n"
	"mov x12, #0x0\n"
	"and x20, x20, #0x1\n"
	"cbz x21, 17f\n"
	"16:" // Store to output array: Accumulator row 0 loop
	".inst 0xc086001a // mova { z26.s-z27.s }, za0h.s[x12, 0:1]\n"
	".inst 0xc086005c // mova { z28.s-z29.s }, za1h.s[x12, 0:1]\n"
	".inst 0xc1aca41a // sqdmulh { z26.s-z27.s }, { z26.s-z27.s }, z12.s\n"
	".inst 0xc0860096 // mova { z22.s-z23.s }, za2h.s[x12, 0:1]\n"
	".inst 0xc08600d0 // mova { z16.s-z17.s }, za3h.s[x12, 0:1]\n"
	".inst 0xc1ada41c // sqdmulh { z28.s-z29.s }, { z28.s-z29.s }, z13.s\n"
	".inst 0xc1aea416 // sqdmulh { z22.s-z23.s }, { z22.s-z23.s }, z14.s\n"
	"add x12, x12, #0x2\n"
	"cmp x12, x21, LSL #1\n"
	".inst 0xc1afa410 // sqdmulh { z16.s-z17.s }, { z16.s-z17.s }, z15.s\n"
	".inst 0xc1a4a23a // srshl { z26.s-z27.s }, { z26.s-z27.s }, z4.s\n"
	".inst 0xc1a5a23c // srshl { z28.s-z29.s }, { z28.s-z29.s }, z5.s\n"
	".inst 0xc1a6a236 // srshl { z22.s-z23.s }, { z22.s-z23.s }, z6.s\n"
	".inst 0xc1a7a230 // srshl { z16.s-z17.s }, { z16.s-z17.s }, z7.s\n"
	".inst 0xc1a1a31a // add { z26.s-z27.s }, { z26.s-z27.s }, z1.s\n"
	".inst 0xc1a1a31c // add { z28.s-z29.s }, { z28.s-z29.s }, z1.s\n"
	".inst 0xc1a1a316 // add { z22.s-z23.s }, { z22.s-z23.s }, z1.s\n"
	".inst 0xc1a1a310 // add { z16.s-z17.s }, { z16.s-z17.s }, z1.s\n"
	".inst 0xc1b4c6ba // sclamp { z26.s-z27.s }, z21.s, z20.s\n"
	".inst 0xc1b4c6bc // sclamp { z28.s-z29.s }, z21.s, z20.s\n"
	"uzp1 z19.b, z26.b, z28.b\n"
	".inst 0xc1b4c6b6 // sclamp { z22.s-z23.s }, z21.s, z20.s\n"
	".inst 0xc1b4c6b0 // sclamp { z16.s-z17.s }, z21.s, z20.s\n"
	"uzp1 z16.b, z22.b, z16.b\n"
	"uzp1 z18.b, z27.b, z29.b\n"
	"uzp1 z17.b, z23.b, z17.b\n"
	"uzp1 z16.b, z19.b, z16.b\n"
	"st1b { z16.b }, p0, [x24]\n"
	"add x24, x24, x22\n"
	"uzp1 z16.b, z18.b, z17.b\n"
	"st1b { z16.b }, p0, [x24]\n"
	"add x24, x24, x22\n"
	"blt 16b\n"
	"17:" // Store to output array: Accumulator row 0 oddments
	"cbz x20, 18f\n"
	".inst 0xc0860002 // mova { z2.s-z3.s }, za0h.s[x12, 0:1]\n"
	".inst 0xc0860058 // mova { z24.s-z25.s }, za1h.s[x12, 0:1]\n"
	".inst 0xc1aca402 // sqdmulh { z2.s-z3.s }, { z2.s-z3.s }, z12.s\n"
	".inst 0xc0860090 // mova { z16.s-z17.s }, za2h.s[x12, 0:1]\n"
	".inst 0xc08600ca // mova { z10.s-z11.s }, za3h.s[x12, 0:1]\n"
	".inst 0xc1ada418 // sqdmulh { z24.s-z25.s }, { z24.s-z25.s }, z13.s\n"
	".inst 0xc1aea410 // sqdmulh { z16.s-z17.s }, { z16.s-z17.s }, z14.s\n"
	".inst 0xc1afa40a // sqdmulh { z10.s-z11.s }, { z10.s-z11.s }, z15.s\n"
	".inst 0xc1a4a222 // srshl { z2.s-z3.s }, { z2.s-z3.s }, z4.s\n"
	".inst 0xc1a5a238 // srshl { z24.s-z25.s }, { z24.s-z25.s }, z5.s\n"
	".inst 0xc1a6a230 // srshl { z16.s-z17.s }, { z16.s-z17.s }, z6.s\n"
	".inst 0xc1a7a22a // srshl { z10.s-z11.s }, { z10.s-z11.s }, z7.s\n"
	".inst 0xc1a1a302 // add { z2.s-z3.s }, { z2.s-z3.s }, z1.s\n"
	".inst 0xc1a1a318 // add { z24.s-z25.s }, { z24.s-z25.s }, z1.s\n"
	".inst 0xc1a1a310 // add { z16.s-z17.s }, { z16.s-z17.s }, z1.s\n"
	".inst 0xc1a1a30a // add { z10.s-z11.s }, { z10.s-z11.s }, z1.s\n"
	".inst 0xc1b4c6a2 // sclamp { z2.s-z3.s }, z21.s, z20.s\n"
	".inst 0xc1b4c6b8 // sclamp { z24.s-z25.s }, z21.s, z20.s\n"
	"uzp1 z23.b, z2.b, z24.b\n"
	".inst 0xc1b4c6b0 // sclamp { z16.s-z17.s }, z21.s, z20.s\n"
	".inst 0xc1b4c6aa // sclamp { z10.s-z11.s }, z21.s, z20.s\n"
	"uzp1 z16.b, z16.b, z10.b\n"
	"uzp1 z16.b, z23.b, z16.b\n"
	"st1b { z16.b }, p0, [x24]\n"
	"18:" // Store to output array: Accumulator row 0 oddments: End
	"19:" // Store to output array: End
	"tbz x14, #0, 21f\n"
	"mov x12, #0x0\n"
	"cntw x20\n"
	"20:" // Store to output array: Refill accumulators: Loop
	".inst 0xa040c5b0 // ld1w { z16.s-z19.s }, pn9.b/Z, [x13]\n"
	".inst 0xc0840600 // mova za0h.s[x12], { z16.s-z19.s }\n"
	".inst 0xa041c5ac // ld1w { z12.s-z15.s }, pn9.b/Z, [x13, #0x4, MUL VL]\n"
	".inst 0xc0840581 // mova za1h.s[x12], { z12.s-z15.s }\n"
	".inst 0xa042c5b0 // ld1w { z16.s-z19.s }, pn9.b/Z, [x13, #0x8, MUL VL]\n"
	".inst 0xc0840602 // mova za2h.s[x12], { z16.s-z19.s }\n"
	".inst 0xa043c5ac // ld1w { z12.s-z15.s }, pn9.b/Z, [x13, #0xc, MUL VL]\n"
	".inst 0xc0840583 // mova za3h.s[x12], { z12.s-z15.s }\n"
	"add x12, x12, #0x4\n"
	"cmp x12, x20\n"
	"addvl x13, x13, #16\n"
	"blt 20b\n"
	"21:" // End block
	"incw x28, ALL, MUL #4\n"
	"cmp x28, x27\n"
	"blt 3b\n"
	"incw x9\n"
	"cmp x9, x10\n"
	"mov x28, #0x0\n"
	"mov x26, x25\n"
	"blt 3b\n"
	".inst 0xd503467f // SMSTOP\n"
	:
	: [args] "r" (&args), [offsetof_A] "I" (offsetof(KernelArgs, A)), [offsetof_B] "I" (offsetof(KernelArgs, B)), [offsetof_C] "I" (offsetof(KernelArgs, C)), [offsetof_K] "I" (offsetof(KernelArgs, K)), [offsetof_M] "I" (offsetof(KernelArgs, M)), [offsetof_N] "I" (offsetof(KernelArgs, N)), [offsetof_Requantize32_c_offset] "I" (offsetof(Requantize32, c_offset)), [offsetof_Requantize32_maxval] "I" (offsetof(Requantize32, maxval)), [offsetof_Requantize32_minval] "I" (offsetof(Requantize32, minval)), [offsetof_Requantize32_per_channel_muls] "I" (offsetof(Requantize32, per_channel_muls)), [offsetof_Requantize32_per_channel_right_shifts] "I" (offsetof(Requantize32, per_channel_right_shifts)), [offsetof_Requantize32_per_layer_mul] "I" (offsetof(Requantize32, per_layer_mul)), [offsetof_Requantize32_per_layer_right_shift] "I" (offsetof(Requantize32, per_layer_right_shift)), [offsetof_accumulator_buffer] "I" (offsetof(KernelArgs, accumulator_buffer)), [offsetof_bias] "I" (offsetof(KernelArgs, bias)), [offsetof_flags] "I" (offsetof(KernelArgs, flags)), [offsetof_kstride_bytes] "I" (offsetof(KernelArgs, kstride_bytes)), [offsetof_ldcb] "I" (offsetof(KernelArgs, ldcb)), [offsetof_n_0] "I" (offsetof(KernelArgs, n_0)), [rq] "r" (&rq)
	: "cc", "memory", "p0", "p1", "p2", "p3", "p4", "p5", "p6", "p7", "p8", "p9", "p10", "p11", "p12", "p13", "p14", "p15", "x9", "x10", "x11", "x12", "x13", "x14", "x20", "x21", "x22", "x23", "x24", "x25", "x26", "x27", "x28", "z0", "z1", "z2", "z3", "z4", "z5", "z6", "z7", "z8", "z9", "z10", "z11", "z12", "z13", "z14", "z15", "z16", "z17", "z18", "z19", "z20", "z21", "z22", "z23", "z24", "z25", "z26", "z27", "z28", "z29", "z30", "z31"
	);
	}

	} // namespace arm_gemm

	#endif // ARM_COMPUTE_ENABLE_SME2
	#endif // __ARM_FEATURE_SVE