155 lines
4.0 KiB
Plaintext
155 lines
4.0 KiB
Plaintext
#include <torch/extension.h>
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#include <ATen/ATen.h>
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#include "cuda_launch.h"
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#include "cuda_kernel.h"
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#include <vector>
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//////////////////////////////////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////////////////////////////////
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std::vector<at::Tensor> index_max_kernel(
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at::Tensor index_vals, // [batch_size, 32, num_block]
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at::Tensor indices, // [batch_size, num_block],
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int A_num_block,
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int B_num_block
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) {
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int batch_size = indices.size(0);
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int num_block = indices.size(1);
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at::Tensor max_vals = at::zeros({batch_size, A_num_block * 32}, index_vals.options());
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at::Tensor max_vals_scatter = at::zeros({batch_size, 32, num_block}, index_vals.options());
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dim3 threads(256);
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dim3 blocks(batch_size);
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int shared_mem = A_num_block * 32 * sizeof(float);
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index_max_cuda_kernel<<<blocks, threads, shared_mem>>>(
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index_vals.data_ptr<float>(),
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indices.data_ptr<int>(),
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max_vals.data_ptr<float>(),
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max_vals_scatter.data_ptr<float>(),
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batch_size,
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A_num_block,
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B_num_block,
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num_block
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);
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return {max_vals, max_vals_scatter};
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}
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at::Tensor mm_to_sparse_kernel(
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at::Tensor dense_A, // [batch_size, A_num_block, dim, 32]
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at::Tensor dense_B, // [batch_size, B_num_block, dim, 32]
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at::Tensor indices // [batch_size, num_block]
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) {
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int batch_size = dense_A.size(0);
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int A_num_block = dense_A.size(1);
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int B_num_block = dense_B.size(1);
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int dim = dense_A.size(2);
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int num_block = indices.size(1);
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at::Tensor sparse_C = at::zeros({batch_size, num_block, 32, 32}, dense_A.options());
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dim3 threads(64, 4);
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dim3 blocks(num_block / 4, batch_size);
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mm_to_sparse_cuda_kernel<<<blocks, threads>>>(
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dense_A.data_ptr<float>(),
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dense_B.data_ptr<float>(),
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indices.data_ptr<int>(),
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sparse_C.data_ptr<float>(),
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batch_size,
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A_num_block,
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B_num_block,
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dim,
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num_block
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);
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return sparse_C;
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}
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at::Tensor sparse_dense_mm_kernel(
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at::Tensor sparse_A, // [batch_size, num_block, 32, 32]
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at::Tensor indices, // [batch_size, num_block]
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at::Tensor dense_B, // [batch_size, B_num_block, dim, 32]
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int A_num_block
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) {
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int batch_size = sparse_A.size(0);
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int num_block = sparse_A.size(1);
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int B_num_block = dense_B.size(1);
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int dim = dense_B.size(2);
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at::Tensor dense_C = at::zeros({batch_size, A_num_block, dim, 32}, dense_B.options());
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dim3 threads(128, 2);
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dim3 blocks(num_block / 2, batch_size);
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sparse_dense_mm_cuda_kernel<<<blocks, threads>>>(
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sparse_A.data_ptr<float>(),
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indices.data_ptr<int>(),
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dense_B.data_ptr<float>(),
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dense_C.data_ptr<float>(),
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batch_size,
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A_num_block,
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B_num_block,
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dim,
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num_block
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);
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return dense_C;
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}
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at::Tensor reduce_sum_kernel(
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at::Tensor sparse_A, // [batch_size, num_block, 32, 32]
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at::Tensor indices, // [batch_size, num_block]
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int A_num_block,
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int B_num_block
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) {
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int batch_size = sparse_A.size(0);
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int num_block = sparse_A.size(1);
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at::Tensor dense_C = at::zeros({batch_size, A_num_block, 32}, sparse_A.options());
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dim3 threads(32, 4);
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dim3 blocks(num_block / 4, batch_size);
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reduce_sum_cuda_kernel<<<blocks, threads>>>(
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sparse_A.data_ptr<float>(),
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indices.data_ptr<int>(),
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dense_C.data_ptr<float>(),
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batch_size,
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A_num_block,
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B_num_block,
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num_block
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);
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return dense_C;
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}
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at::Tensor scatter_kernel(
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at::Tensor dense_A, // [batch_size, A_num_block, 32]
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at::Tensor indices, // [batch_size, num_block]
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int B_num_block
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) {
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int batch_size = dense_A.size(0);
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int A_num_block = dense_A.size(1);
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int num_block = indices.size(1);
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at::Tensor sparse_C = at::zeros({batch_size, num_block, 32, 32}, dense_A.options());
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dim3 threads(32, 4);
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dim3 blocks(num_block / 4, batch_size);
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scatter_cuda_kernel<<<blocks, threads>>>(
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dense_A.data_ptr<float>(),
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indices.data_ptr<int>(),
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sparse_C.data_ptr<float>(),
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batch_size,
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A_num_block,
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B_num_block,
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num_block
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);
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return sparse_C;
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}
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