/* * Copyright (c) 2022 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 ENABLE_EXPERIMENTAL_DYNAMIC_FUSION #include "src/core/experimental/dynamic_fusion/ClKernelBuildingImpl/components/ClElementwiseAddKernelComponent.h" #include "arm_compute/core/Validate.h" #include "src/core/helpers/AutoConfiguration.h" #include "src/core/helpers/WindowHelpers.h" namespace arm_compute { namespace experimental { namespace dynamic_fusion { ComponentType ClElementwiseAddKernelComponent::get_component_type() const { return ComponentType::Simple; } std::set ClElementwiseAddKernelComponent::get_headers_list() const { return std::set { "common/experimental/gemm_fused_post_ops/fp_mixed_precision_helpers.h", "tile_helpers.h" }; } Window ClElementwiseAddKernelComponent::get_window() const { const ITensorInfo *lhs_info = _blueprint->impl().get_kernel_argument_info(_lhs.arg_id); const ITensorInfo *rhs_info = _blueprint->impl().get_kernel_argument_info(_rhs.arg_id); ITensorInfo *dst_info = _blueprint->impl().get_kernel_argument_info(_blueprint->impl().get_dst_id()); ARM_COMPUTE_ERROR_ON_NULLPTR(lhs_info, rhs_info, dst_info); const std::pair broadcast_pair = ITensorInfo::broadcast_shape_and_valid_region(*lhs_info, *rhs_info); const TensorShape &out_shape = broadcast_pair.first; auto_init_if_empty(*dst_info, out_shape, 1, lhs_info->data_type()); const unsigned int vector_size_byte_opencl = 16; const unsigned int num_elems_processed_per_iteration = adjust_vec_size(vector_size_byte_opencl / dst_info->element_size(), dst_info->dimension(0)); Window win = calculate_max_window(*dst_info, Steps(num_elems_processed_per_iteration)); return win; } std::string ClElementwiseAddKernelComponent::get_component_code() const { std::string code; const bool is_root = _blueprint->impl().group(_lhs.arg_id) == SharedVarGroup::Argument && _blueprint->impl().group(_rhs.arg_id) == SharedVarGroup::Argument; if(is_root) { return R"_( //------------------ START KERNEL {{meta_kernel_id}} ELTWISE_ADD --------------------- // IN_0(LHS) {{lhs}} // IN_1(RHS) {{rhs}} // OUT(dst, accum) {{dst}} // dst = lhs + rhs (mix-precision, broadcast, boundary aware) TILE({{DATA_TYPE}}, M0, N0, {{dst}}); { TILE({{DATA_TYPE}}, M0, N0, lhs_tile); TILE({{DATA_TYPE}}, M0, N0, rhs_tile); T_LOAD({{DATA_TYPE}}, M0, N0, BUFFER, {{lhs}}, cout, mout, 1, {{lhs}}_stride_y, lhs_tile); T_LOAD({{DATA_TYPE}}, M0, N0, BUFFER, {{rhs}}, cout, mout, 1, {{rhs}}_stride_y, rhs_tile); #if defined(IS_BROADCAST) T_ADD_BROADCAST_X({{DATA_TYPE}}, M0, N0, lhs_tile, rhs_tile, {{dst}}); #else // !defined(IS_BROADCAST) T_ADD({{DATA_TYPE}}, M0, N0, lhs_tile, rhs_tile, {{dst}}); #endif // defined(IS_BROADCAST) } //------------------ END KERNEL {{meta_kernel_id}} ELTWISE_ADD --------------------- )_"; } else { return R"_( //------------------ START KERNEL {{meta_kernel_id}} ELTWISE_ADD --------------------- // IN_0/Out(Accumulator) {{acc}} // IN_1(Addend) {{addend}} // acc = addend + acc (mix-precision, broadcast, boundary aware) { TILE({{DATA_TYPE}}, M0, N0, addend_tile); T_LOAD({{DATA_TYPE}}, M0, N0, BUFFER, {{addend}}, cout, mout, 1, {{addend}}_stride_y, addend_tile); #if defined(IS_BROADCAST) T_ADD_BROADCAST_X({{DATA_TYPE}}, M0, N0, {{acc}}, addend_tile, {{acc}}); #else // !defined(IS_BROADCAST) T_ADD({{DATA_TYPE}}, M0, N0, {{acc}}, addend_tile, {{acc}}); #endif // defined(IS_BROADCAST) } //------------------ END KERNEL {{meta_kernel_id}} ELTWISE_ADD --------------------- )_"; } } CLBuildOptions ClElementwiseAddKernelComponent::generate_build_options() const { const auto t_src_info = _blueprint->impl().get_kernel_argument_info(_rhs.arg_id); const auto t_dst_info = _blueprint->impl().get_kernel_argument_info(_blueprint->impl().get_dst_id()); CLBuildOptions build_opts{}; const auto n0 = _blueprint->impl().get_execution_window().x().step(); const auto m0 = _blueprint->impl().get_execution_window().y().step(); const bool is_broadcast = t_src_info->tensor_shape() != t_dst_info->tensor_shape(); build_opts.add_option("-DM0=" + support::cpp11::to_string(m0)); build_opts.add_option("-DN0=" + support::cpp11::to_string(n0)); build_opts.add_option_if(is_broadcast, "-DIS_BROADCAST"); return build_opts; } std::string ClElementwiseAddKernelComponent::generate_config_id() const { auto t_dst_info = _blueprint->impl().get_kernel_argument_info(_blueprint->impl().get_dst_id()); std::string config_id{}; config_id += lower_string(string_from_data_type(t_dst_info->data_type())); config_id += "_"; config_id += support::cpp11::to_string(t_dst_info->dimension(0)); config_id += "_"; config_id += support::cpp11::to_string(t_dst_info->dimension(1)); config_id += "_"; config_id += lower_string(string_from_data_layout(t_dst_info->data_layout())); return config_id; } void ClElementwiseAddKernelComponent::allocate_shared_vars(SharedVarTable &vtable) const { const bool is_root = _blueprint->impl().group(_lhs.arg_id) == SharedVarGroup::Argument && _blueprint->impl().group(_rhs.arg_id) == SharedVarGroup::Argument; vtable.add(_lhs, _blueprint->impl().group(_lhs.arg_id), ClKernelArgDescriptor(_lhs.arg_id, ClKernelTensorArgType::Tensor_4D_t_Buffer), "lhs"); vtable.add(_rhs, _blueprint->impl().group(_rhs.arg_id), ClKernelArgDescriptor(_rhs.arg_id, ClKernelTensorArgType::Tensor_4D_t_Buffer), "rhs"); if(is_root) { vtable.add(_dst, _blueprint->impl().group(_dst.arg_id), ClKernelArgDescriptor(_dst.arg_id, ClKernelTensorArgType::Tensor_4D_t_Buffer), "dst"); } } ClElementwiseAddKernelComponent::TagLUT ClElementwiseAddKernelComponent::get_tag_lut(const SharedVarTable &vtable) const { TagLUT lut{}; const auto t_dst_info = _blueprint->impl().get_kernel_argument_info(_blueprint->impl().get_dst_id()); // Arguments and global shared variables const bool is_root = _blueprint->impl().group(_lhs.arg_id) == SharedVarGroup::Argument && _blueprint->impl().group(_rhs.arg_id) == SharedVarGroup::Argument; if(is_root) { lut["lhs"] = vtable.get(_lhs); lut["rhs"] = vtable.get(_rhs); lut["dst"] = vtable.get(_dst); } else { // Determine which link is the accumulator Link accumulator; Link addend; if(_blueprint->impl().group(_lhs.arg_id) == SharedVarGroup::Automatic) { accumulator = _lhs; addend = _rhs; } else if(_blueprint->impl().group(_rhs.arg_id) == SharedVarGroup::Automatic) { accumulator = _rhs; addend = _lhs; } else { ARM_COMPUTE_ERROR("Invalid elementwise component linking"); } lut["acc"] = vtable.get(accumulator); lut["addend"] = vtable.get(addend); } // Local build options lut["meta_kernel_id"] = id(); lut["DATA_TYPE"] = get_cl_type_from_data_type(t_dst_info->data_type()); return lut; } } // namespace dynamic_fusion } // namespace experimental } // namespace arm_compute #endif /* ENABLE_EXPERIMENTAL_DYNAMIC_FUSION */