src/core/NEON/kernels/arm_gemm/gemm_uint8.cpp - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2017-2020 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 __aarch64__

 #include "arm_gemm.hpp"
 #include "gemm_common.hpp"
 #include "gemm_implementation.hpp"
 #include "gemm_interleaved.hpp"
 #include "gemm_hybrid.hpp"
 #include "gemm_hybrid_indirect.hpp"

 #include "kernels/a64_gemm_u16_8x12.hpp"
 #include "kernels/a64_gemm_u8_4x4.hpp"
 #include "kernels/a64_gemm_u8_8x12.hpp"
 #include "kernels/a64_hybrid_u8u32_dot_6x16.hpp"
 #include "kernels/a64_interleaved_u8u32_mmla_8x12.hpp"
 #include "kernels/a64_smallK_hybrid_u8u32_dot_6x4.hpp"
 #include "kernels/a64_smallK_hybrid_u8u32_dot_8x4.hpp"

 #include "kernels/sve_hybrid_u8u32_dot_6x4VL.hpp"
 #include "kernels/sve_interleaved_u8u32_dot_8x3VL.hpp"
 #include "kernels/sve_interleaved_u8u32_mmla_8x3VL.hpp"
 #include "kernels/sve_smallK_hybrid_u8u32_dot_8x1VL.hpp"

 namespace arm_gemm {

 static const GemmImplementation<uint8_t, uint32_t> gemm_u8_methods[] = {
 #ifdef __ARM_FEATURE_SVE
 #ifdef MMLA_INT8
 {
     GemmMethod::GEMM_INTERLEAVED,
     "sve_interleaved_u8u32_mmla_8x3VL",
     [](const GemmArgs &args) {  args._ci->has_sve() && return (args._Ksize>8); },
     [](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
     [](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_u8u32_mmla_8x3VL, uint8_t, uint32_t>(args); }
 },
 #endif
 {
     GemmMethod::GEMM_HYBRID,
     "smallK_hybrid_u8u32_dot_8x1VL",
     [](const GemmArgs &args) { return args._ci->has_sve() && args._Ksize<=64 && !args._indirect_input; },
     [](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
     [](const GemmArgs &args) { return new GemmHybrid<cls_sve_smallK_hybrid_u8u32_dot_8x1VL, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_HYBRID,
     "sve_hybrid_u8u32_dot_6x4VL",
     [](const GemmArgs &args) { return args._ci->has_sve(); },
     [](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN && (((args._Ksize <= 128) && (args._Nsize <= 128)) || ((args._nmulti > 1) && ((args._Msize / args._maxthreads) < 8))); },
     [](const GemmArgs &args) { return new GemmHybridIndirect<cls_sve_hybrid_u8u32_dot_6x4VL, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_INTERLEAVED,
     "sve_interleaved_u8u32_dot_8x3VL",
     [](const GemmArgs &args) { return args._ci->has_sve() && (args._Ksize>4); },
     [](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
     [](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_u8u32_dot_8x3VL, uint8_t, uint32_t>(args); }
 },
 #endif
 #ifdef MMLA_INT8
 {
     GemmMethod::GEMM_INTERLEAVED,
     "a64_interleaved_u8u32_mmla_8x12",
     [](const GemmArgs &args) { return (args._Ksize>8); },
     nullptr,
     [](const GemmArgs &args) { return new GemmInterleaved<cls_a64_interleaved_u8u32_mmla_8x12, uint8_t, uint32_t>(args); }
 },
 #endif
 {
     GemmMethod::GEMM_HYBRID,
     "a64_smallK_hybrid_u8u32_dot_8x4",
     [](const GemmArgs &args) { return args._ci->has_dotprod() && (args._Nsize % 4 == 0) && (args._Ksize<=32) && !args._indirect_input; },
     nullptr,
     [](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_u8u32_dot_8x4, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_HYBRID,
     "a64_smallK_hybrid_u8u32_dot_6x4",
     [](const GemmArgs &args) { return args._ci->has_dotprod() && (args._Nsize % 4 == 0) && (args._Ksize>32) && (args._Ksize<=64) && !args._indirect_input; },
     nullptr,
     [](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_u8u32_dot_6x4, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_INTERLEAVED,
     "a64_gemm_u16_8x12",
     nullptr,
     [](const GemmArgs &args) { return args._ci->get_cpu_model() == CPUModel::A53 && args._Msize > 4; },
     [](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u16_8x12, uint8_t, uint32_t>(args); },
 },
 {
     GemmMethod::GEMM_HYBRID,
     "a64_hybrid_u8u32_dot_6x16",
     [](const GemmArgs &args) { return args._ci->has_dotprod(); },
     [](const GemmArgs &args) { return args._Nsize<=256 && args._Ksize>128; },
     [](const GemmArgs &args) { return new GemmHybridIndirect<cls_a64_hybrid_u8u32_dot_6x16, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_INTERLEAVED,
     "a64_gemm_u8_8x12",
     [](const GemmArgs &args) { return args._ci->has_dotprod(); },
     nullptr,
     [](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u8_8x12, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::GEMM_INTERLEAVED,
     "a64_gemm_u8_4x4",
     nullptr,
     nullptr,
     [](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u8_4x4, uint8_t, uint32_t>(args); }
 },
 {
     GemmMethod::DEFAULT,
     "",
     nullptr,
     nullptr,
     nullptr
 }
 };

 template<>
 const GemmImplementation<uint8_t, uint32_t> *gemm_implementation_list<uint8_t, uint32_t>() {
     return gemm_u8_methods;
 }

 /* Explicitly instantiate the external functions for these types. */
 template UniqueGemmCommon<uint8_t, uint32_t> gemm<uint8_t, uint32_t, Nothing>(const GemmArgs &args, const Nothing &);
 template KernelDescription get_gemm_method<uint8_t, uint32_t, Nothing>(const GemmArgs &args, const Nothing &);
 template std::vector<KernelDescription> get_compatible_kernels<uint8_t, uint32_t, Nothing> (const GemmArgs &args, const Nothing &);

 } // namespace arm_gemm

 #endif // __aarch64__
	/*
	* Copyright (c) 2017-2020 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 __aarch64__

	#include "arm_gemm.hpp"
	#include "gemm_common.hpp"
	#include "gemm_implementation.hpp"
	#include "gemm_interleaved.hpp"
	#include "gemm_hybrid.hpp"
	#include "gemm_hybrid_indirect.hpp"

	#include "kernels/a64_gemm_u16_8x12.hpp"
	#include "kernels/a64_gemm_u8_4x4.hpp"
	#include "kernels/a64_gemm_u8_8x12.hpp"
	#include "kernels/a64_hybrid_u8u32_dot_6x16.hpp"
	#include "kernels/a64_interleaved_u8u32_mmla_8x12.hpp"
	#include "kernels/a64_smallK_hybrid_u8u32_dot_6x4.hpp"
	#include "kernels/a64_smallK_hybrid_u8u32_dot_8x4.hpp"

	#include "kernels/sve_hybrid_u8u32_dot_6x4VL.hpp"
	#include "kernels/sve_interleaved_u8u32_dot_8x3VL.hpp"
	#include "kernels/sve_interleaved_u8u32_mmla_8x3VL.hpp"
	#include "kernels/sve_smallK_hybrid_u8u32_dot_8x1VL.hpp"

	namespace arm_gemm {

	static const GemmImplementation<uint8_t, uint32_t> gemm_u8_methods[] = {
	#ifdef __ARM_FEATURE_SVE
	#ifdef MMLA_INT8
	{
	GemmMethod::GEMM_INTERLEAVED,
	"sve_interleaved_u8u32_mmla_8x3VL",
	[](const GemmArgs &args) { args._ci->has_sve() && return (args._Ksize>8); },
	[](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
	[](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_u8u32_mmla_8x3VL, uint8_t, uint32_t>(args); }
	},
	#endif
	{
	GemmMethod::GEMM_HYBRID,
	"smallK_hybrid_u8u32_dot_8x1VL",
	[](const GemmArgs &args) { return args._ci->has_sve() && args._Ksize<=64 && !args._indirect_input; },
	[](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
	[](const GemmArgs &args) { return new GemmHybrid<cls_sve_smallK_hybrid_u8u32_dot_8x1VL, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_HYBRID,
	"sve_hybrid_u8u32_dot_6x4VL",
	[](const GemmArgs &args) { return args._ci->has_sve(); },
	[](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN && (((args._Ksize <= 128) && (args._Nsize <= 128)) \|\| ((args._nmulti > 1) && ((args._Msize / args._maxthreads) < 8))); },
	[](const GemmArgs &args) { return new GemmHybridIndirect<cls_sve_hybrid_u8u32_dot_6x4VL, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_INTERLEAVED,
	"sve_interleaved_u8u32_dot_8x3VL",
	[](const GemmArgs &args) { return args._ci->has_sve() && (args._Ksize>4); },
	[](const GemmArgs &args) { return args._ci->get_cpu_model() != CPUModel::KLEIN; },
	[](const GemmArgs &args) { return new GemmInterleaved<cls_sve_interleaved_u8u32_dot_8x3VL, uint8_t, uint32_t>(args); }
	},
	#endif
	#ifdef MMLA_INT8
	{
	GemmMethod::GEMM_INTERLEAVED,
	"a64_interleaved_u8u32_mmla_8x12",
	[](const GemmArgs &args) { return (args._Ksize>8); },
	nullptr,
	[](const GemmArgs &args) { return new GemmInterleaved<cls_a64_interleaved_u8u32_mmla_8x12, uint8_t, uint32_t>(args); }
	},
	#endif
	{
	GemmMethod::GEMM_HYBRID,
	"a64_smallK_hybrid_u8u32_dot_8x4",
	[](const GemmArgs &args) { return args._ci->has_dotprod() && (args._Nsize % 4 == 0) && (args._Ksize<=32) && !args._indirect_input; },
	nullptr,
	[](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_u8u32_dot_8x4, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_HYBRID,
	"a64_smallK_hybrid_u8u32_dot_6x4",
	[](const GemmArgs &args) { return args._ci->has_dotprod() && (args._Nsize % 4 == 0) && (args._Ksize>32) && (args._Ksize<=64) && !args._indirect_input; },
	nullptr,
	[](const GemmArgs &args) { return new GemmHybrid<cls_a64_smallK_hybrid_u8u32_dot_6x4, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_INTERLEAVED,
	"a64_gemm_u16_8x12",
	nullptr,
	[](const GemmArgs &args) { return args._ci->get_cpu_model() == CPUModel::A53 && args._Msize > 4; },
	[](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u16_8x12, uint8_t, uint32_t>(args); },
	},
	{
	GemmMethod::GEMM_HYBRID,
	"a64_hybrid_u8u32_dot_6x16",
	[](const GemmArgs &args) { return args._ci->has_dotprod(); },
	[](const GemmArgs &args) { return args._Nsize<=256 && args._Ksize>128; },
	[](const GemmArgs &args) { return new GemmHybridIndirect<cls_a64_hybrid_u8u32_dot_6x16, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_INTERLEAVED,
	"a64_gemm_u8_8x12",
	[](const GemmArgs &args) { return args._ci->has_dotprod(); },
	nullptr,
	[](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u8_8x12, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::GEMM_INTERLEAVED,
	"a64_gemm_u8_4x4",
	nullptr,
	nullptr,
	[](const GemmArgs &args) { return new GemmInterleaved<cls_a64_gemm_u8_4x4, uint8_t, uint32_t>(args); }
	},
	{
	GemmMethod::DEFAULT,
	"",
	nullptr,
	nullptr,
	nullptr
	}
	};

	template<>
	const GemmImplementation<uint8_t, uint32_t> *gemm_implementation_list<uint8_t, uint32_t>() {
	return gemm_u8_methods;
	}

	/* Explicitly instantiate the external functions for these types. */
	template UniqueGemmCommon<uint8_t, uint32_t> gemm<uint8_t, uint32_t, Nothing>(const GemmArgs &args, const Nothing &);
	template KernelDescription get_gemm_method<uint8_t, uint32_t, Nothing>(const GemmArgs &args, const Nothing &);
	template std::vector<KernelDescription> get_compatible_kernels<uint8_t, uint32_t, Nothing> (const GemmArgs &args, const Nothing &);

	} // namespace arm_gemm

	#endif // __aarch64__