/* Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include #include #include "gtest/gtest.h" #include "paddle/fluid/distributed/auto_parallel/spmd_rules/common.h" #include "paddle/fluid/distributed/auto_parallel/spmd_rules/dist_tensor_spec.h" #include "paddle/phi/core/distributed/auto_parallel/dist_attr.h" #include "paddle/phi/core/distributed/auto_parallel/process_mesh.h" namespace paddle { namespace distributed { namespace auto_parallel { TEST(MatmulSPMDRule, Ctor) { // build input data class std::vector x_shape = {64, 32}; std::vector y_shape = {32, 48}; std::vector mesh_shape = {2, 3}; std::vector process_ids = {0, 1, 2, 3, 4, 5}; std::vector dim_names = {"x", "y"}; ProcessMesh process_mesh(mesh_shape, process_ids, dim_names); TensorDistAttr x_dist_attr = TensorDistAttr(); x_dist_attr.set_process_mesh(process_mesh); x_dist_attr.set_dims_mapping(std::vector({1, -1})); x_dist_attr.set_dynamic_dims(std::vector({false, false})); TensorDistAttr y_dist_attr = TensorDistAttr(); y_dist_attr.set_process_mesh(process_mesh); y_dist_attr.set_dims_mapping(std::vector({-1, -1})); y_dist_attr.set_dynamic_dims(std::vector({false, false})); DistTensorSpec x_dist_tensor_spec = DistTensorSpec(x_shape, x_dist_attr); DistTensorSpec y_dist_tensor_spec = DistTensorSpec(y_shape, y_dist_attr); paddle::framework::AttributeMap attrs; attrs["trans_x"] = false; attrs["trans_y"] = false; SPMDRuleBase* matmul_rule = SPMDRuleMap::Instance().Get("matmul"); // mk[1, -1],kn[-1, -1] --> mk[1, -1],kn[-1, -1] = nm[1, -1] partial[] std::pair, std::vector> infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); size_t input_size = 2; size_t output_size = 1; EXPECT_EQ(infered_dist_attrs.first.size(), input_size); EXPECT_EQ(infered_dist_attrs.second.size(), output_size); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({1, -1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1, -1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({1, -1})); VLOG(4) << "test1 done." << std::endl << std::endl << std::endl; // mk[-1,-1],kn[-1,0] --> mk[-1,-1],kn[-1,0] = nm[-1,0] partial[] x_dist_tensor_spec.set_dims_mapping({-1, -1}); y_dist_tensor_spec.set_dims_mapping({-1, 0}); infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({-1, -1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1, 0})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({-1, 0})); VLOG(4) << "test2 done." << std::endl << std::endl << std::endl; // mk[1, 0],kn[-1,-1] --> mk[1, 0],kn[0, -1] = nm[1, -1] partial[0]: done x_dist_tensor_spec.set_dims_mapping({1, 0}); y_dist_tensor_spec.set_dims_mapping({-1, -1}); infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({1, 0})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({0, -1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({1, -1})); VLOG(4) << "test3 done." << std::endl << std::endl << std::endl; // mk[-1,-1],kn[1,0] --> mk[-1, 1],kn[1, 0] = nm[-1, 0] partial[1]: done x_dist_tensor_spec.set_dims_mapping({-1, -1}); y_dist_tensor_spec.set_dims_mapping({1, 0}); infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({-1, 1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({1, 0})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({-1, 0})); VLOG(4) << "test4 done." << std::endl << std::endl << std::endl; // abcmk[1, 0, -1, -1],kn[-1, -1] --> abcmk[1, 0, -1, -1],kn[-1, -1] = // abcmn[1, 0, -1, -1] partial[]: done x_dist_tensor_spec.set_shape({512, 48, 64, 32}); x_dist_tensor_spec.set_dims_mapping({0, 1, -1, -1}); y_dist_tensor_spec.set_dims_mapping({-1, -1}); infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({0, 1, -1, -1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1, -1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({0, 1, -1, -1})); VLOG(4) << "test5 done." << std::endl << std::endl << std::endl; // abcmk[1, -1, -1, 0],kn[-1, -1] --> abcmk[1, -1, -1, 0],kn[0, -1] = abcmn[1, // -1, -1, -1] partial[0]: done x_dist_tensor_spec.set_dims_mapping({1, -1, -1, 0}); y_dist_tensor_spec.set_dims_mapping({-1, -1}); infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({1, -1, -1, 0})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({0, -1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({1, -1, -1, -1})); VLOG(4) << "test6 done." << std::endl << std::endl << std::endl; // abcmk[1, -1, -1, 0], kn[-1, -1] --> abcmk[1, -1, -1, 0],kn[-1, -1] = // abcmn[1, -1, 0, -1] partial[]: done x_dist_tensor_spec.set_dims_mapping({1, -1, -1, 0}); y_dist_tensor_spec.set_dims_mapping({-1, -1}); attrs["trans_x"] = true; infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({1, -1, -1, 0})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1, -1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({1, -1, 0, -1})); VLOG(4) << "test7 done." << std::endl << std::endl << std::endl; // abcmk[-1, -1, -1, -1], kn[1, 0] --> abcmk[-1, -1, -1, 0],kn[1, 0] = // abcmn[-1, -1, -1, 1] partial[0]: done x_dist_tensor_spec.set_dims_mapping({-1, -1, -1, -1}); y_dist_tensor_spec.set_dims_mapping({1, 0}); attrs["trans_x"] = false; attrs["trans_y"] = true; infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({-1, -1, -1, 0})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({1, 0})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({-1, -1, -1, 1})); VLOG(4) << "test8 done." << std::endl << std::endl << std::endl; // abcmk[-1, -1, -1, -1], kn[1, 0] --> abcmk[-1, -1, -1, 0],kn[1, 0] = // abcmn[-1, -1, -1, 1] partial[0]: done x_dist_tensor_spec.set_dims_mapping({-1, -1, 0, 1}); y_dist_tensor_spec.set_dims_mapping({1, 0}); attrs["trans_y"] = true; attrs["trans_x"] = true; infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({-1, -1, 0, 1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1, 0})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({-1, -1, 1, -1})); VLOG(4) << "test9 done." << std::endl << std::endl << std::endl; // abcmk[-1, -1, 1, 0], kn[1, 0] --> abcmk[-1, -1, -1, 0],kn[1, 0] = // abcmn[-1, -1, -1, 1] partial[0]: done x_dist_tensor_spec.set_dims_mapping({-1, -1, 1, 0}); y_dist_tensor_spec.set_dims_mapping({1, 0}); attrs["trans_y"] = true; attrs["trans_x"] = true; EXPECT_ANY_THROW(infered_dist_attrs = matmul_rule->InferForward( {x_dist_tensor_spec, y_dist_tensor_spec}, attrs)); // Error VLOG(4) << "test10 done." << std::endl << std::endl << std::endl; } TEST(LayerNormSPMDRule, Ctor) { // build input data class std::vector x_shape = {64, 32, 1024}; std::vector scale_shape = {1024}; std::vector bias_shape = {1024}; std::vector mesh_shape = {2, 3}; std::vector process_ids = {0, 1, 2, 3, 4, 5}; std::vector dim_names = {"x", "y"}; ProcessMesh process_mesh(mesh_shape, process_ids, dim_names); TensorDistAttr x_dist_attr = TensorDistAttr(); x_dist_attr.set_process_mesh(process_mesh); x_dist_attr.set_dims_mapping(std::vector({1, -1, -1})); x_dist_attr.set_dynamic_dims(std::vector({false, false, false})); TensorDistAttr scale_dist_attr = TensorDistAttr(); scale_dist_attr.set_process_mesh(process_mesh); scale_dist_attr.set_dims_mapping(std::vector({-1})); scale_dist_attr.set_dynamic_dims(std::vector({false})); TensorDistAttr bias_dist_attr = TensorDistAttr(); bias_dist_attr.set_process_mesh(process_mesh); bias_dist_attr.set_dims_mapping(std::vector({-1})); bias_dist_attr.set_dynamic_dims(std::vector({false})); DistTensorSpec x_dist_tensor_spec = DistTensorSpec(x_shape, x_dist_attr); DistTensorSpec scale_dist_tensor_spec = DistTensorSpec(scale_shape, scale_dist_attr); DistTensorSpec bias_dist_tensor_spec = DistTensorSpec(bias_shape, bias_dist_attr); paddle::framework::AttributeMap attrs; attrs["begin_norm_axis"] = 2; SPMDRuleBase* layer_norm_rule = SPMDRuleMap::Instance().Get("layer_norm"); // ijk[1, -1, -1], k[-1], k[-1] --> ijk[1, -1, -1], z[1], z[1], z=ij, // begin_norm_axis=2 std::pair, std::vector> infered_dist_attrs = layer_norm_rule->InferForward( {x_dist_tensor_spec, scale_dist_tensor_spec, bias_dist_tensor_spec}, attrs); size_t input_size = 3; size_t output_size = 3; EXPECT_EQ(infered_dist_attrs.first.size(), input_size); EXPECT_EQ(infered_dist_attrs.second.size(), output_size); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({1, -1, -1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1})); EXPECT_EQ(infered_dist_attrs.first[2].dims_mapping(), std::vector({-1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({1, -1, -1})); EXPECT_EQ(infered_dist_attrs.second[1].dims_mapping(), std::vector({1})); EXPECT_EQ(infered_dist_attrs.second[2].dims_mapping(), std::vector({1})); VLOG(4) << "test1 done."; // ijk[1, 0, -1],k[0],k[0] --> error, begin_norm_axis=2 x_dist_tensor_spec.set_dims_mapping({1, 0, -1}); scale_dist_tensor_spec.set_dims_mapping({0}); bias_dist_tensor_spec.set_dims_mapping({0}); EXPECT_ANY_THROW( infered_dist_attrs = layer_norm_rule->InferForward( {x_dist_tensor_spec, scale_dist_tensor_spec, bias_dist_tensor_spec}, attrs);); VLOG(4) << "test2 done."; // ijk[0, -1, -1],y[-1],y[1] --> ijk[0, 1, -1], i[0], i[0], y=jk, // begin_norm_axis=1 x_dist_tensor_spec.set_dims_mapping({0, -1, -1}); scale_dist_tensor_spec.set_dims_mapping({-1}); bias_dist_tensor_spec.set_dims_mapping({1}); attrs["begin_norm_axis"] = 1; infered_dist_attrs = layer_norm_rule->InferForward( {x_dist_tensor_spec, scale_dist_tensor_spec, bias_dist_tensor_spec}, attrs); EXPECT_EQ(infered_dist_attrs.first[0].dims_mapping(), std::vector({0, -1, -1})); EXPECT_EQ(infered_dist_attrs.first[1].dims_mapping(), std::vector({-1})); EXPECT_EQ(infered_dist_attrs.first[2].dims_mapping(), std::vector({-1})); EXPECT_EQ(infered_dist_attrs.second[0].dims_mapping(), std::vector({0, -1, -1})); EXPECT_EQ(infered_dist_attrs.second[1].dims_mapping(), std::vector({0})); EXPECT_EQ(infered_dist_attrs.second[2].dims_mapping(), std::vector({0})); VLOG(4) << "test2 done."; } } // namespace auto_parallel } // namespace distributed } // namespace paddle