/* 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 "paddle/phi/kernels/sparse/sparse_pool_kernel.h" #include "paddle/phi/core/kernel_registry.h" #include "paddle/phi/core/tensor_meta.h" #include "paddle/phi/core/visit_type.h" #include "paddle/phi/kernels/funcs/pooling.h" #include "paddle/phi/kernels/funcs/sparse/convolution.h" #include "paddle/phi/kernels/sparse/gpu/convolution.cu.h" namespace phi { namespace sparse { template __global__ void MaxPoolCudaKernel(const T* in_features_ptr, const IntT* rulebook_ptr, const int n, const int rulebook_len, const int channels, T* out_features_ptr) { phi::funcs::MaxPool max_pool_functor; CUDA_KERNEL_LOOP_TYPE(i, n * channels, int64_t) { int real_i = i / channels; int channel_i = i - real_i * channels; IntT in_i = rulebook_ptr[real_i]; IntT out_i = rulebook_ptr[real_i + rulebook_len]; max_pool_functor.compute(in_features_ptr[in_i * channels + channel_i], &out_features_ptr[out_i * channels + channel_i]); } } /** * x: (N, D, H, W, C) * kernel: (D, H, W, C, OC) * out: (N, D, H, W, OC) **/ template void MaxPoolGPUKernel(const GPUContext& dev_ctx, const SparseCooTensor& x, const std::vector& kernel_sizes, const std::vector& paddings, const std::vector& dilations, const std::vector& strides, SparseCooTensor* out, DenseTensor* rulebook) { const auto& x_dims = x.dims(); int kernel_size = kernel_sizes[0] * kernel_sizes[1] * kernel_sizes[2]; const std::vector& real_kernel_sizes = phi::funcs::sparse::PoolResetKernel(kernel_sizes, x_dims[4], x_dims[4]); DDim out_dims = {1, 1, 1, 1, 1}; phi::funcs::sparse::GetOutShape( x_dims, real_kernel_sizes, paddings, dilations, strides, &out_dims); const int in_channels = real_kernel_sizes[3]; std::vector offsets(kernel_size + 1), counter(kernel_size); DenseTensorMeta counter_meta( DataType::INT32, {kernel_size}, DataLayout::NCHW); DenseTensor counter_per_kernel = phi::Empty(dev_ctx, std::move(counter_meta)); DenseTensor offsets_per_kernel = phi::Empty(dev_ctx, std::move(counter_meta)); DenseTensorMeta index_meta(DataType::INT32, {1}, DataLayout::NCHW); DenseTensor out_index = phi::Empty(dev_ctx, std::move(index_meta)); DenseTensor unique_value = phi::Empty(dev_ctx, std::move(index_meta)); // 1. product rulebook int rulebook_len = ProductRuleBook(dev_ctx, x, real_kernel_sizes, paddings, dilations, strides, out_dims, false, rulebook, &counter_per_kernel, &offsets_per_kernel, &out_index, &unique_value, out, &counter, &offsets); const IntT* rulebook_ptr = rulebook->data(); T* out_features_ptr = out->mutable_non_zero_elements()->data(); const T* in_features_ptr = x.non_zero_elements().data(); // 2. max pool #ifdef PADDLE_WITH_HIP thrust::fill(thrust::hip::par.on(dev_ctx.stream()), #else thrust::fill(thrust::cuda::par.on(dev_ctx.stream()), #endif out_features_ptr, out_features_ptr + out->non_zero_elements().numel(), static_cast(0)); // TODO(zhangkaihuo) Replacing multiple calls with one kernel may be faster for (int i = 0; i < kernel_size; i++) { if (counter[i] <= 0) { continue; } auto config = phi::backends::gpu::GetGpuLaunchConfig1D( dev_ctx, counter[i] * in_channels, 1); MaxPoolCudaKernel<<>>( in_features_ptr, rulebook_ptr + offsets[i] + rulebook_len, counter[i], rulebook_len, in_channels, out_features_ptr); } } template void MaxPoolKernel(const Context& dev_ctx, const SparseCooTensor& x, const std::vector& kernel_sizes, const std::vector& paddings, const std::vector& dilations, const std::vector& strides, SparseCooTensor* out, DenseTensor* rulebook) { PD_VISIT_INTEGRAL_TYPES( x.non_zero_indices().dtype(), "MaxPoolGPUKernel", ([&] { MaxPoolGPUKernel(dev_ctx, x, kernel_sizes, paddings, dilations, strides, out, rulebook); })); } } // namespace sparse } // namespace phi PD_REGISTER_KERNEL(sparse_maxpool, GPU, ALL_LAYOUT, phi::sparse::MaxPoolKernel, float, double, phi::dtype::float16) { kernel->InputAt(0).SetDataLayout(phi::DataLayout::SPARSE_COO); }