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/*
* 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.
*/
#include "pooling.hpp"
#include <cstdint>
#include <cstddef>
#if defined(ARM_COMPUTE_ENABLE_SME)
namespace arm_conv {
namespace pooling {
void sme_s8q_nhwc_max_generic_depthfirst_impl(
const uint64_t,
const uint64_t n_valid_cells,
uint64_t n_channels,
const int8_t *const *const inptrs,
int8_t *outptr,
const Requantize32 &qp
)
{
__asm__ __volatile__(
".inst 0xd503477f // SMSTART ZA\n"
"mov x9, #0x0\n"
"cntb x28\n"
"cntb x27, ALL, MUL #2\n"
"cntb x26, ALL, MUL #3\n"
"whilelt p4.b, x9, %x[n_channels]\n"
"whilelt p3.b, x28, %x[n_channels]\n"
"whilelt p2.b, x27, %x[n_channels]\n"
"whilelt p1.b, x26, %x[n_channels]\n"
"ptrue p0.b\n"
"b.none 7f\n"
"1:" // 4-vectors of channels
"lsr x25, %x[n_valid_cells], #0x2\n"
"mov z4.b, #0x80\n"
"mov z3.b, #0x80\n"
"mov x24, %x[inptrs]\n"
"mov z2.b, #0x80\n"
"mov z1.b, #0x80\n"
"cbz x25, 4f\n"
"ldp x23, x22, [x24, #0x0]\n"
"subs x25, x25, #0x1\n"
"ld1b { z0.b }, p4/Z, [x23, x9]\n"
"ldp x21, x20, [x24, #0x10]\n"
"add x24, x24, #0x20\n"
"ld1b { z31.b }, p4/Z, [x22, x9]\n"
"ld1b { z23.b }, p4/Z, [x21, x9]\n"
"ld1b { z30.b }, p4/Z, [x20, x9]\n"
"ld1b { z18.b }, p3/Z, [x23, x28]\n"
"ld1b { z29.b }, p3/Z, [x22, x28]\n"
"ld1b { z22.b }, p3/Z, [x21, x28]\n"
"ld1b { z28.b }, p3/Z, [x20, x28]\n"
"ld1b { z17.b }, p2/Z, [x23, x27]\n"
"ld1b { z27.b }, p2/Z, [x22, x27]\n"
"ld1b { z21.b }, p2/Z, [x21, x27]\n"
"ld1b { z26.b }, p2/Z, [x20, x27]\n"
"ld1b { z16.b }, p1/Z, [x23, x26]\n"
"ld1b { z25.b }, p1/Z, [x22, x26]\n"
"ld1b { z20.b }, p1/Z, [x21, x26]\n"
"ld1b { z24.b }, p1/Z, [x20, x26]\n"
"beq 3f\n"
"2:" // 4-vectors of channels: 4 inputs loop
"movprfx z19, z0\n smax z19.b, p0/M, z19.b, z31.b\n"
"smax z23.b, p0/M, z23.b, z30.b\n"
"ldp x23, x22, [x24, #0x0]\n"
"subs x25, x25, #0x1\n"
"smax z18.b, p0/M, z18.b, z29.b\n"
"smax z22.b, p0/M, z22.b, z28.b\n"
"ldp x21, x20, [x24, #0x10]\n"
"add x24, x24, #0x20\n"
"smax z17.b, p0/M, z17.b, z27.b\n"
"smax z21.b, p0/M, z21.b, z26.b\n"
"ld1b { z0.b }, p4/Z, [x23, x9]\n"
"smax z16.b, p0/M, z16.b, z25.b\n"
"smax z20.b, p0/M, z20.b, z24.b\n"
"ld1b { z31.b }, p4/Z, [x22, x9]\n"
"smax z19.b, p0/M, z19.b, z23.b\n"
"smax z18.b, p0/M, z18.b, z22.b\n"
"ld1b { z23.b }, p4/Z, [x21, x9]\n"
"smax z17.b, p0/M, z17.b, z21.b\n"
"smax z16.b, p0/M, z16.b, z20.b\n"
"ld1b { z30.b }, p4/Z, [x20, x9]\n"
"smax z4.b, p0/M, z4.b, z19.b\n"
"smax z3.b, p0/M, z3.b, z18.b\n"
"ld1b { z18.b }, p3/Z, [x23, x28]\n"
"smax z2.b, p0/M, z2.b, z17.b\n"
"smax z1.b, p0/M, z1.b, z16.b\n"
"ld1b { z29.b }, p3/Z, [x22, x28]\n"
"ld1b { z22.b }, p3/Z, [x21, x28]\n"
"ld1b { z28.b }, p3/Z, [x20, x28]\n"
"ld1b { z17.b }, p2/Z, [x23, x27]\n"
"ld1b { z27.b }, p2/Z, [x22, x27]\n"
"ld1b { z21.b }, p2/Z, [x21, x27]\n"
"ld1b { z26.b }, p2/Z, [x20, x27]\n"
"ld1b { z16.b }, p1/Z, [x23, x26]\n"
"ld1b { z25.b }, p1/Z, [x22, x26]\n"
"ld1b { z20.b }, p1/Z, [x21, x26]\n"
"ld1b { z24.b }, p1/Z, [x20, x26]\n"
"bgt 2b\n"
"3:" // 4-vectors of channels: 4 inputs tail
"movprfx z19, z0\n smax z19.b, p0/M, z19.b, z31.b\n"
"smax z23.b, p0/M, z23.b, z30.b\n"
"smax z18.b, p0/M, z18.b, z29.b\n"
"smax z22.b, p0/M, z22.b, z28.b\n"
"smax z17.b, p0/M, z17.b, z27.b\n"
"smax z21.b, p0/M, z21.b, z26.b\n"
"smax z16.b, p0/M, z16.b, z25.b\n"
"smax z20.b, p0/M, z20.b, z24.b\n"
"smax z19.b, p0/M, z19.b, z23.b\n"
"smax z18.b, p0/M, z18.b, z22.b\n"
"smax z17.b, p0/M, z17.b, z21.b\n"
"smax z16.b, p0/M, z16.b, z20.b\n"
"smax z4.b, p0/M, z4.b, z19.b\n"
"smax z3.b, p0/M, z3.b, z18.b\n"
"smax z2.b, p0/M, z2.b, z17.b\n"
"smax z1.b, p0/M, z1.b, z16.b\n"
"4:" // 4-vectors of channels: After loop
"ands x21, %x[n_valid_cells], #0x3\n"
"beq 6f\n"
"5:" // 4-vectors of channels: Single input loop
"ldr x20, [x24], #0x8\n"
"ld1b { z16.b }, p4/Z, [x20, x9]\n"
"subs x21, x21, #0x1\n"
"smax z4.b, p0/M, z4.b, z16.b\n"
"ld1b { z16.b }, p3/Z, [x20, x28]\n"
"smax z3.b, p0/M, z3.b, z16.b\n"
"ld1b { z16.b }, p2/Z, [x20, x27]\n"
"smax z2.b, p0/M, z2.b, z16.b\n"
"ld1b { z16.b }, p1/Z, [x20, x26]\n"
"smax z1.b, p0/M, z1.b, z16.b\n"
"bgt 5b\n"
"6:" // 4-vectors of channels: Single input loop: End
".inst 0x4508a097 // sshllb z23.h, z4.b, #0x0\n"
".inst 0x4508a496 // sshllt z22.h, z4.b, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_left_shift]\n"
"ld1rw { z4.s }, p0/Z, [x20]\n"
".inst 0x4508a075 // sshllb z21.h, z3.b, #0x0\n"
".inst 0x4508a472 // sshllt z18.h, z3.b, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_mul]\n"
"ld1rw { z3.s }, p0/Z, [x20]\n"
".inst 0x4508a054 // sshllb z20.h, z2.b, #0x0\n"
".inst 0x4508a451 // sshllt z17.h, z2.b, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_right_shift]\n"
"ld1rw { z2.s }, p0/Z, [x20]\n"
".inst 0x4508a033 // sshllb z19.h, z1.b, #0x0\n"
".inst 0x4508a430 // sshllt z16.h, z1.b, #0x0\n"
".inst 0x4510a2e1 // sshllb z1.s, z23.h, #0x0\n"
".inst 0x4510a6f7 // sshllt z23.s, z23.h, #0x0\n"
".inst 0x4510a2c0 // sshllb z0.s, z22.h, #0x0\n"
".inst 0x4510a6df // sshllt z31.s, z22.h, #0x0\n"
".inst 0x4510a2be // sshllb z30.s, z21.h, #0x0\n"
".inst 0x4510a6b6 // sshllt z22.s, z21.h, #0x0\n"
".inst 0x4510a25d // sshllb z29.s, z18.h, #0x0\n"
".inst 0x4510a652 // sshllt z18.s, z18.h, #0x0\n"
".inst 0x4510a29c // sshllb z28.s, z20.h, #0x0\n"
".inst 0x4510a695 // sshllt z21.s, z20.h, #0x0\n"
".inst 0x4510a23b // sshllb z27.s, z17.h, #0x0\n"
".inst 0x4510a631 // sshllt z17.s, z17.h, #0x0\n"
".inst 0x4510a27a // sshllb z26.s, z19.h, #0x0\n"
".inst 0x4510a674 // sshllt z20.s, z19.h, #0x0\n"
".inst 0x4510a219 // sshllb z25.s, z16.h, #0x0\n"
".inst 0x4510a618 // sshllt z24.s, z16.h, #0x0\n"
".inst 0x44828081 // srshl z1.s, p0/M, z1.s, z4.s\n"
".inst 0x44828097 // srshl z23.s, p0/M, z23.s, z4.s\n"
".inst 0x44828080 // srshl z0.s, p0/M, z0.s, z4.s\n"
".inst 0x4482809f // srshl z31.s, p0/M, z31.s, z4.s\n"
".inst 0x4482809e // srshl z30.s, p0/M, z30.s, z4.s\n"
".inst 0x44828096 // srshl z22.s, p0/M, z22.s, z4.s\n"
".inst 0x4482809d // srshl z29.s, p0/M, z29.s, z4.s\n"
".inst 0x44828092 // srshl z18.s, p0/M, z18.s, z4.s\n"
".inst 0x4482809c // srshl z28.s, p0/M, z28.s, z4.s\n"
".inst 0x44828095 // srshl z21.s, p0/M, z21.s, z4.s\n"
".inst 0x4482809b // srshl z27.s, p0/M, z27.s, z4.s\n"
".inst 0x44828091 // srshl z17.s, p0/M, z17.s, z4.s\n"
".inst 0x4482809a // srshl z26.s, p0/M, z26.s, z4.s\n"
".inst 0x44828094 // srshl z20.s, p0/M, z20.s, z4.s\n"
".inst 0x44828099 // srshl z25.s, p0/M, z25.s, z4.s\n"
".inst 0x44828098 // srshl z24.s, p0/M, z24.s, z4.s\n"
".inst 0x04a37421 // sqrdmulh z1.s, z1.s, z3.s\n"
".inst 0x04a376f7 // sqrdmulh z23.s, z23.s, z3.s\n"
".inst 0x04a37400 // sqrdmulh z0.s, z0.s, z3.s\n"
".inst 0x04a377ff // sqrdmulh z31.s, z31.s, z3.s\n"
".inst 0x04a377de // sqrdmulh z30.s, z30.s, z3.s\n"
".inst 0x04a376d6 // sqrdmulh z22.s, z22.s, z3.s\n"
".inst 0x04a377bd // sqrdmulh z29.s, z29.s, z3.s\n"
".inst 0x04a37652 // sqrdmulh z18.s, z18.s, z3.s\n"
".inst 0x04a3779c // sqrdmulh z28.s, z28.s, z3.s\n"
".inst 0x04a376b5 // sqrdmulh z21.s, z21.s, z3.s\n"
".inst 0x04a3777b // sqrdmulh z27.s, z27.s, z3.s\n"
".inst 0x04a37631 // sqrdmulh z17.s, z17.s, z3.s\n"
".inst 0x04a3775a // sqrdmulh z26.s, z26.s, z3.s\n"
".inst 0x04a37694 // sqrdmulh z20.s, z20.s, z3.s\n"
".inst 0x04a37739 // sqrdmulh z25.s, z25.s, z3.s\n"
".inst 0x04a37718 // sqrdmulh z24.s, z24.s, z3.s\n"
"mov z19.s, #0x7f\n"
".inst 0x44828041 // srshl z1.s, p0/M, z1.s, z2.s\n"
".inst 0x44828057 // srshl z23.s, p0/M, z23.s, z2.s\n"
".inst 0x44828040 // srshl z0.s, p0/M, z0.s, z2.s\n"
".inst 0x4482805f // srshl z31.s, p0/M, z31.s, z2.s\n"
".inst 0x4482805e // srshl z30.s, p0/M, z30.s, z2.s\n"
".inst 0x44828056 // srshl z22.s, p0/M, z22.s, z2.s\n"
".inst 0x4482805d // srshl z29.s, p0/M, z29.s, z2.s\n"
".inst 0x44828052 // srshl z18.s, p0/M, z18.s, z2.s\n"
".inst 0x4482805c // srshl z28.s, p0/M, z28.s, z2.s\n"
".inst 0x44828055 // srshl z21.s, p0/M, z21.s, z2.s\n"
".inst 0x4482805b // srshl z27.s, p0/M, z27.s, z2.s\n"
".inst 0x44828051 // srshl z17.s, p0/M, z17.s, z2.s\n"
".inst 0x4482805a // srshl z26.s, p0/M, z26.s, z2.s\n"
".inst 0x44828054 // srshl z20.s, p0/M, z20.s, z2.s\n"
".inst 0x44828059 // srshl z25.s, p0/M, z25.s, z2.s\n"
".inst 0x44828058 // srshl z24.s, p0/M, z24.s, z2.s\n"
"not z16.s, p0/M, z19.s\n"
"smax z1.s, p0/M, z1.s, z16.s\n"
"smax z23.s, p0/M, z23.s, z16.s\n"
"smax z0.s, p0/M, z0.s, z16.s\n"
"smax z31.s, p0/M, z31.s, z16.s\n"
"smax z30.s, p0/M, z30.s, z16.s\n"
"smax z22.s, p0/M, z22.s, z16.s\n"
"smax z29.s, p0/M, z29.s, z16.s\n"
"smax z18.s, p0/M, z18.s, z16.s\n"
"smax z28.s, p0/M, z28.s, z16.s\n"
"smax z21.s, p0/M, z21.s, z16.s\n"
"smax z27.s, p0/M, z27.s, z16.s\n"
"smax z17.s, p0/M, z17.s, z16.s\n"
"smax z26.s, p0/M, z26.s, z16.s\n"
"smax z20.s, p0/M, z20.s, z16.s\n"
"smax z25.s, p0/M, z25.s, z16.s\n"
"smax z24.s, p0/M, z24.s, z16.s\n"
"smin z1.s, p0/M, z1.s, z19.s\n"
"smin z23.s, p0/M, z23.s, z19.s\n"
"trn1 z23.h, z1.h, z23.h\n"
"smin z0.s, p0/M, z0.s, z19.s\n"
"smin z31.s, p0/M, z31.s, z19.s\n"
"trn1 z16.h, z0.h, z31.h\n"
"smin z30.s, p0/M, z30.s, z19.s\n"
"smin z22.s, p0/M, z22.s, z19.s\n"
"trn1 z22.h, z30.h, z22.h\n"
"smin z29.s, p0/M, z29.s, z19.s\n"
"smin z18.s, p0/M, z18.s, z19.s\n"
"trn1 z18.h, z29.h, z18.h\n"
"smin z28.s, p0/M, z28.s, z19.s\n"
"smin z21.s, p0/M, z21.s, z19.s\n"
"trn1 z21.h, z28.h, z21.h\n"
"smin z27.s, p0/M, z27.s, z19.s\n"
"smin z17.s, p0/M, z17.s, z19.s\n"
"trn1 z17.h, z27.h, z17.h\n"
"smin z26.s, p0/M, z26.s, z19.s\n"
"smin z20.s, p0/M, z20.s, z19.s\n"
"trn1 z20.h, z26.h, z20.h\n"
"smin z25.s, p0/M, z25.s, z19.s\n"
"smin z24.s, p0/M, z24.s, z19.s\n"
"trn1 z19.h, z25.h, z24.h\n"
"trn1 z16.b, z23.b, z16.b\n"
"trn1 z18.b, z22.b, z18.b\n"
"st1b { z16.b }, p4, [%x[outptr], x9]\n"
"incb x9, ALL, MUL #4\n"
"trn1 z17.b, z21.b, z17.b\n"
"trn1 z16.b, z20.b, z19.b\n"
"st1b { z18.b }, p3, [%x[outptr], x28]\n"
"incb x28, ALL, MUL #4\n"
"st1b { z17.b }, p2, [%x[outptr], x27]\n"
"incb x27, ALL, MUL #4\n"
"st1b { z16.b }, p1, [%x[outptr], x26]\n"
"incb x26, ALL, MUL #4\n"
"whilelt p1.b, x26, %x[n_channels]\n"
"b.any 1b\n"
"7:" // Single vector of channels
"whilelt p4.b, x9, %x[n_channels]\n"
"b.none 14f\n"
"8:" // Single vector of channels: Loop
"lsr x25, %x[n_valid_cells], #0x2\n"
"mov z4.b, #0x80\n"
"mov x24, %x[inptrs]\n"
"cbz x25, 11f\n"
"ldp x20, x22, [x24, #0x0]\n"
"subs x25, x25, #0x1\n"
"ld1b { z0.b }, p4/Z, [x20, x9]\n"
"ldp x21, x20, [x24, #0x10]\n"
"add x24, x24, #0x20\n"
"ld1b { z31.b }, p4/Z, [x22, x9]\n"
"ld1b { z23.b }, p4/Z, [x21, x9]\n"
"ld1b { z30.b }, p4/Z, [x20, x9]\n"
"beq 10f\n"
"9:" // Single vector of channels: Loop: 4 inputs loop
"movprfx z16, z0\n smax z16.b, p0/M, z16.b, z31.b\n"
"movprfx z17, z23\n smax z17.b, p0/M, z17.b, z30.b\n"
"ldp x23, x22, [x24, #0x0]\n"
"subs x25, x25, #0x1\n"
"smax z16.b, p0/M, z16.b, z17.b\n"
"ldp x21, x20, [x24, #0x10]\n"
"smax z4.b, p0/M, z4.b, z16.b\n"
"add x24, x24, #0x20\n"
"ld1b { z0.b }, p4/Z, [x23, x9]\n"
"ld1b { z31.b }, p4/Z, [x22, x9]\n"
"ld1b { z23.b }, p4/Z, [x21, x9]\n"
"ld1b { z30.b }, p4/Z, [x20, x9]\n"
"bgt 9b\n"
"10:" // Single vector of channels: Loop: 4 inputs tail
"movprfx z16, z0\n smax z16.b, p0/M, z16.b, z31.b\n"
"movprfx z17, z23\n smax z17.b, p0/M, z17.b, z30.b\n"
"smax z16.b, p0/M, z16.b, z17.b\n"
"smax z4.b, p0/M, z4.b, z16.b\n"
"11:" // Single vector of channels: Loop: After loop
"ands x21, %x[n_valid_cells], #0x3\n"
"beq 13f\n"
"12:" // Single vector of channels: Loop: Single input loop
"ldr x20, [x24], #0x8\n"
"ld1b { z16.b }, p4/Z, [x20, x9]\n"
"subs x21, x21, #0x1\n"
"smax z4.b, p0/M, z4.b, z16.b\n"
"bgt 12b\n"
"13:" // Single vector of channels: Loop: Single input loop: End
".inst 0x4508a091 // sshllb z17.h, z4.b, #0x0\n"
".inst 0x4508a490 // sshllt z16.h, z4.b, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_left_shift]\n"
"ld1rw { z18.s }, p0/Z, [x20]\n"
".inst 0x4510a236 // sshllb z22.s, z17.h, #0x0\n"
".inst 0x4510a635 // sshllt z21.s, z17.h, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_mul]\n"
"ld1rw { z17.s }, p0/Z, [x20]\n"
".inst 0x4510a214 // sshllb z20.s, z16.h, #0x0\n"
".inst 0x4510a613 // sshllt z19.s, z16.h, #0x0\n"
"add x20, %x[quant_params], %[offsetof_qp_per_layer_right_shift]\n"
"ld1rw { z16.s }, p0/Z, [x20]\n"
".inst 0x44828256 // srshl z22.s, p0/M, z22.s, z18.s\n"
".inst 0x44828255 // srshl z21.s, p0/M, z21.s, z18.s\n"
".inst 0x44828254 // srshl z20.s, p0/M, z20.s, z18.s\n"
".inst 0x44828253 // srshl z19.s, p0/M, z19.s, z18.s\n"
".inst 0x04b176d6 // sqrdmulh z22.s, z22.s, z17.s\n"
".inst 0x04b176b5 // sqrdmulh z21.s, z21.s, z17.s\n"
".inst 0x04b17694 // sqrdmulh z20.s, z20.s, z17.s\n"
".inst 0x04b17673 // sqrdmulh z19.s, z19.s, z17.s\n"
"mov z18.s, #0x7f\n"
".inst 0x44828216 // srshl z22.s, p0/M, z22.s, z16.s\n"
".inst 0x44828215 // srshl z21.s, p0/M, z21.s, z16.s\n"
".inst 0x44828214 // srshl z20.s, p0/M, z20.s, z16.s\n"
".inst 0x44828213 // srshl z19.s, p0/M, z19.s, z16.s\n"
"not z16.s, p0/M, z18.s\n"
"smax z22.s, p0/M, z22.s, z16.s\n"
"smax z21.s, p0/M, z21.s, z16.s\n"
"smax z20.s, p0/M, z20.s, z16.s\n"
"smax z19.s, p0/M, z19.s, z16.s\n"
"smin z22.s, p0/M, z22.s, z18.s\n"
"smin z21.s, p0/M, z21.s, z18.s\n"
"trn1 z17.h, z22.h, z21.h\n"
"smin z20.s, p0/M, z20.s, z18.s\n"
"smin z19.s, p0/M, z19.s, z18.s\n"
"trn1 z16.h, z20.h, z19.h\n"
"trn1 z16.b, z17.b, z16.b\n"
"st1b { z16.b }, p4, [%x[outptr], x9]\n"
"incb x9\n"
"whilelt p4.b, x9, %x[n_channels]\n"
"b.any 8b\n"
"14:" // End
".inst 0xd503467f // SMSTOP\n"
:
: [inptrs] "r" (inptrs), [n_channels] "r" (n_channels), [n_valid_cells] "r" (n_valid_cells), [offsetof_qp_per_layer_left_shift] "I" (offsetof(Requantize32, per_layer_left_shift)), [offsetof_qp_per_layer_mul] "I" (offsetof(Requantize32, per_layer_mul)), [offsetof_qp_per_layer_right_shift] "I" (offsetof(Requantize32, per_layer_right_shift)), [outptr] "r" (outptr), [quant_params] "r" (&qp)
: "cc", "memory", "p0", "p1", "p2", "p3", "p4", "p5", "p6", "p7", "p8", "p9", "p10", "p11", "p12", "p13", "p14", "p15", "x9", "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 pooling
} // namespace arm_conv
#endif // defined(ARM_COMPUTE_ENABLE_SME)
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