| /* |
| * Copyright (c) 2021-2023 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 "arm_gemm_local.hpp" |
| |
| #include "depthwise_implementation.hpp" |
| #include "depthwise_depthfirst.hpp" |
| #include "depthwise_depthfirst_generic.hpp" |
| #include "depthwise_depthfirst_multiplier.hpp" |
| #include "depthwise_planar.hpp" |
| |
| #include "depthwise_implementation_constraints.hpp" |
| |
| #include "interleaves/list.hpp" |
| |
| #if defined(__aarch64__) |
| #if defined(ARM_COMPUTE_ENABLE_SVE) |
| #if defined(ARM_COMPUTE_ENABLE_SME2) |
| #include "kernels/sme2_fp32bf16fp32_planar_3x3_s1_4rows_dot_za.hpp" |
| #include "kernels/sme2_fp32bf16fp32_planar_3x3_s2_4rows_dot_za.hpp" |
| #include "kernels/sme2_fp32bf16fp32_planar_5x5_s1_4rows_dot_za.hpp" |
| #include "kernels/sme2_fp32bf16fp32_planar_5x5_s2_4rows_dot_za.hpp" |
| |
| #include "kernels/sme2_fp32_planar_3x3_s1_4rows_mla_za.hpp" |
| #include "kernels/sme2_fp32_planar_3x3_s2_4rows_mla_za.hpp" |
| #include "kernels/sme2_fp32_planar_5x5_s1_4rows_mla_za.hpp" |
| #include "kernels/sme2_fp32_planar_5x5_s2_4rows_mla_za.hpp" |
| |
| #include "kernels/sme2_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst.hpp" |
| #include "kernels/sme2_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst.hpp" |
| #include "kernels/sme2_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst.hpp" |
| #include "kernels/sme2_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst.hpp" |
| #endif // defined(ARM_COMPUTE_ENABLE_SME2) |
| |
| #include "kernels/sve_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_nhwc_generic_output9_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst.hpp" |
| #include "kernels/sve_fp32_packed_to_nhwc_generic_with_multiplier_output2x8_mla_depthfirst.hpp" |
| #endif // defined(ARM_COMPUTE_ENABLE_SVE) |
| #include "kernels/a64_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_nhwc_generic_output9_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst.hpp" |
| #include "kernels/a64_fp32_packed_to_nhwc_generic_with_multiplier_output2x8_mla_depthfirst.hpp" |
| #endif // defined(__aarch64__) |
| |
| namespace arm_conv { |
| namespace depthwise { |
| |
| namespace |
| { |
| #if defined(__aarch64__) |
| bool prefer_premultiply(const DepthwiseArgs &args) { |
| if ((args.stride_rows != args.stride_cols) || (args.kernel_rows != args.kernel_cols)) |
| { |
| return false; |
| } |
| |
| unsigned int threshold; |
| |
| if (args.stride_rows == 1 && args.kernel_rows == 3) |
| { |
| threshold = 18; |
| } |
| else if (args.stride_rows == 1 && args.kernel_rows == 5) |
| { |
| threshold = 5; |
| } |
| else if (args.stride_rows == 2 && args.kernel_rows == 3) |
| { |
| threshold = 5; |
| } |
| else if (args.stride_rows == 2 && args.kernel_rows == 5) |
| { |
| threshold = 12; |
| } else |
| { |
| return false; |
| } |
| |
| return args.channel_multiplier <= threshold; |
| } |
| |
| template <class Strategy> |
| unsigned int cycle_estimate(const DepthwiseArgs &args, const Nothing &) |
| { |
| if (args.channel_multiplier > 1 && !prefer_premultiply(args)) |
| { |
| return std::numeric_limits<unsigned int>::max(); |
| } |
| |
| // First-pass: compute the number of output pixels which will be computed. |
| return arm_gemm::roundup(args.output_rows, Strategy::output_rows) * |
| arm_gemm::roundup(args.output_cols, Strategy::output_cols) * |
| arm_gemm::iceildiv( |
| (long unsigned) args.input_channels * args.channel_multiplier, |
| arm_gemm::utils::get_vector_length<typename Strategy::return_type>(Strategy::vl_type) |
| ); |
| } |
| |
| template <class Strategy> |
| unsigned int planar_cycle_estimate(const DepthwiseArgs &args, const Nothing &) |
| { |
| // First-pass: compute the number of output pixels which will be computed. |
| return arm_gemm::roundup(args.output_rows, Strategy::output_rows) * |
| args.output_cols * |
| arm_gemm::iceildiv( |
| (long unsigned) args.input_channels * args.channel_multiplier, |
| arm_gemm::utils::get_vector_length<typename Strategy::return_type>(Strategy::vl_type) |
| ); |
| } |
| |
| template <class Strategy> |
| unsigned int fast_mode_cycle_estimate(const DepthwiseArgs &args, const Nothing &) |
| { |
| // First-pass: compute the number of output pixels which will be computed. |
| return arm_gemm::roundup(args.output_rows, Strategy::output_rows) * |
| arm_gemm::roundup(args.output_cols, Strategy::output_cols) * |
| arm_gemm::iceildiv( |
| (long unsigned) args.input_channels * args.channel_multiplier, |
| arm_gemm::utils::get_vector_length<typename Strategy::return_type>(Strategy::vl_type) |
| ) * 2 / 3; |
| } |
| |
| unsigned int multiplier_cycle_estimate(const DepthwiseArgs &args, const Nothing &) |
| { |
| return prefer_premultiply(args)? std::numeric_limits<unsigned int>::max() : 0; |
| } |
| |
| unsigned int not_preferred(const DepthwiseArgs &, const Nothing &) |
| { |
| return std::numeric_limits<unsigned int>::max(); |
| } |
| |
| bool fast_mode_enabled(const DepthwiseArgs &args, const void *) __attribute__ ((unused)); |
| bool fast_mode_enabled(const DepthwiseArgs &args, const void *) |
| { |
| return args.fast_mode; |
| } |
| #endif // defined(__aarch64__) |
| } |
| |
| static const DepthwiseImplementation<float, float> depthwise_fp32_methods[] = { |
| #if defined(__aarch64__) |
| #if defined(ARM_COMPUTE_ENABLE_SVE) |
| #if defined(ARM_COMPUTE_ENABLE_SME2) |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32bf16fp32_planar_3x3_s1_4rows_dot_za", |
| constraint(fast_mode_enabled, |
| cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32bf16fp32_planar_3x3_s1_4rows_dot_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32bf16fp32_planar_3x3_s1_4rows_dot_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32bf16fp32_planar_3x3_s2_4rows_dot_za", |
| constraint(fast_mode_enabled, |
| cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32bf16fp32_planar_3x3_s2_4rows_dot_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32bf16fp32_planar_3x3_s2_4rows_dot_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32bf16fp32_planar_5x5_s1_4rows_dot_za", |
| constraint(fast_mode_enabled, |
| cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32bf16fp32_planar_5x5_s1_4rows_dot_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32bf16fp32_planar_5x5_s1_4rows_dot_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32bf16fp32_planar_5x5_s2_4rows_dot_za", |
| constraint(fast_mode_enabled, |
| cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32bf16fp32_planar_5x5_s2_4rows_dot_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32bf16fp32_planar_5x5_s2_4rows_dot_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32_planar_3x3_s1_4rows_mla_za", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_planar_3x3_s1_4rows_mla_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| [] (const DepthwiseArgs &args, const Nothing &os) -> unsigned int { |
| // Heuristic, don't prefer this kernel unless the input plane is greater |
| // than the number of channels. |
| if (args.input_rows * args.input_cols < args.input_channels) |
| return UINT32_MAX; |
| |
| return planar_cycle_estimate<sme2_fp32_planar_3x3_s1_4rows_mla_za>(args, os); |
| }, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_planar_3x3_s1_4rows_mla_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32_planar_3x3_s2_4rows_mla_za", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_planar_3x3_s2_4rows_mla_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| planar_cycle_estimate<sme2_fp32_planar_3x3_s2_4rows_mla_za>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_planar_3x3_s2_4rows_mla_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32_planar_5x5_s1_4rows_mla_za", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_planar_5x5_s1_4rows_mla_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_planar_5x5_s1_4rows_mla_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::PLANAR, |
| "sme2_fp32_planar_5x5_s2_4rows_mla_za", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_planar_5x5_s2_4rows_mla_za>, |
| has_no_channel_multiplier, no_prime_right_pad), |
| nullptr, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_planar_5x5_s2_4rows_mla_za(args.cpu_info); |
| return new DepthwisePlanar<float>(strat, args); |
| }, |
| }, |
| |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sme2_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>), |
| cycle_estimate<sme2_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float, float, float, float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sme2_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>), |
| cycle_estimate<sme2_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float, float, float, float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sme2_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>), |
| cycle_estimate<sme2_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float, float, float, float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sme2_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst", |
| constraint(cpu_has_sme, cpu_has_sme2, |
| is_supported<sme2_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>), |
| cycle_estimate<sme2_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sme2_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float, float, float, float>(strat, args); |
| }, |
| }, |
| #endif // defined(ARM_COMPUTE_ENABLE_SME2) |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst", |
| constraint(is_supported<sve_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>, |
| cpu_has_sve), |
| cycle_estimate<sve_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst", |
| constraint(is_supported<sve_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>, |
| cpu_has_sve), |
| cycle_estimate<sve_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst", |
| constraint(is_supported<sve_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>, |
| cpu_has_sve), |
| cycle_estimate<sve_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst", |
| constraint(is_supported<sve_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>, |
| cpu_has_sve), |
| cycle_estimate<sve_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst", |
| constraint(is_supported<sve_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst>, |
| cpu_has_sve), |
| cycle_estimate<sve_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_generic_output3x3_mla_depthfirst", |
| constraint(cpu_has_sve), |
| not_preferred, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto kern = new sve_fp32_nhwc_generic_output9_mla_depthfirst(args.cpu_info); |
| auto strat = new GenericDepthfirstStrategy<float>(kern, 3, 3, args); |
| return new DepthwiseDepthfirstGeneric<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst", |
| constraint(is_supported<sve_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst>, |
| cpu_has_sve, has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirstMultiplier<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst", |
| constraint(is_supported<sve_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst>, |
| cpu_has_sve, has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new sve_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirstMultiplier<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "sve_fp32_nhwc_generic_with_multiplier_output2x8_mla_depthfirst", |
| constraint(cpu_has_sve, has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto kern = new sve_fp32_packed_to_nhwc_generic_with_multiplier_output2x8_mla_depthfirst(args.cpu_info); |
| auto strat = new GenericDepthfirstMultiplierStrategy<float>(kern, args); |
| return new DepthwiseDepthfirstMultiplier<float, float, float, float, true>(strat, args); |
| }, |
| }, |
| #endif // defined(ARM_COMPUTE_ENABLE_SVE) |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst", |
| constraint(is_supported<a64_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>), |
| cycle_estimate<a64_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_nhwc_3x3_s1_output4x4_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst", |
| constraint(is_supported<a64_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>), |
| cycle_estimate<a64_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_nhwc_3x3_s1_output3x3_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst", |
| constraint(is_supported<a64_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>), |
| cycle_estimate<a64_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_nhwc_3x3_s1_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst", |
| constraint(is_supported<a64_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>), |
| cycle_estimate<a64_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_nhwc_3x3_s2_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst", |
| constraint(is_supported<a64_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst>), |
| cycle_estimate<a64_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst>, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_nhwc_5x5_s1_output2x2_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirst<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_generic_output3x3_mla_depthfirst", |
| nullptr, |
| not_preferred, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto kern = new a64_fp32_nhwc_generic_output9_mla_depthfirst(args.cpu_info); |
| auto strat = new GenericDepthfirstStrategy<float>(kern, 3, 3, args); |
| return new DepthwiseDepthfirstGeneric<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst", |
| constraint(is_supported<a64_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst>, |
| has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_packed_to_nhwc_3x3_s2_with_multiplier_output3x3_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirstMultiplier<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst", |
| constraint(is_supported<a64_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst>, |
| has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto strat = new a64_fp32_packed_to_nhwc_5x5_s1_with_multiplier_output2x4_mla_depthfirst(args.cpu_info); |
| return new DepthwiseDepthfirstMultiplier<float>(strat, args); |
| }, |
| }, |
| { |
| DepthwiseMethod::DEPTHFIRST, |
| "a64_fp32_nhwc_generic_with_multiplier_output2x8_mla_depthfirst", |
| constraint(has_channel_multiplier), |
| multiplier_cycle_estimate, |
| [] (const DepthwiseArgs &args, const Nothing &) -> DepthwiseCommon<float, float, float> * { |
| auto kern = new a64_fp32_packed_to_nhwc_generic_with_multiplier_output2x8_mla_depthfirst(args.cpu_info); |
| auto strat = new GenericDepthfirstMultiplierStrategy<float>(kern, args); |
| return new DepthwiseDepthfirstMultiplier<float, float, float, float, true>(strat, args); |
| }, |
| }, |
| #endif // defined(__aarch64__) |
| { DepthwiseMethod::DEFAULT, "", nullptr, nullptr, nullptr }, // End of list |
| }; |
| |
| template <> |
| const DepthwiseImplementation<float> *depthwise_implementation_list() |
| { |
| return depthwise_fp32_methods; |
| } |
| |
| template UniqueDepthwiseCommon<float> depthwise(const DepthwiseArgs &, const Nothing &); |
| template std::vector<KernelDescription> get_compatible_kernels<float>(const DepthwiseArgs &, const Nothing &); |
| |
| } // namespace depthwise |
| } // namespace arm_conv |