mirror of https://github.com/hpcaitech/ColossalAI
141 lines
4.8 KiB
C++
141 lines
4.8 KiB
C++
/*This code from NVIDIA apex:
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* https://github.com/NVIDIA/apex
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* with minor changes. */
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#include <torch/extension.h>
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#include <cassert>
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#include <vector>
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#include "compat.h"
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namespace {
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void compute_n1_n2(at::Tensor input, at::IntArrayRef normalized_shape, int &n1,
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int &n2) {
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int idiff = input.ndimension() - normalized_shape.size();
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n2 = 1;
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for (int i = 0; i < (int)normalized_shape.size(); ++i) {
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assert(input.sizes()[i + idiff] == normalized_shape[i]);
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n2 *= normalized_shape[i];
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}
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n1 = 1;
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for (int i = 0; i < idiff; ++i) {
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n1 *= input.sizes()[i];
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}
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}
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void check_args(at::IntArrayRef normalized_shape, at::Tensor gamma,
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at::Tensor beta) {
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TORCH_CHECK(!gamma.defined() || gamma.sizes().equals(normalized_shape));
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TORCH_CHECK(!beta.defined() || beta.sizes().equals(normalized_shape));
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}
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void check_args(at::Tensor input, at::IntArrayRef normalized_shape, int &n1,
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int &n2) {
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int64_t normalized_ndim = normalized_shape.size();
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if (normalized_ndim < 1) {
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std::stringstream ss;
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ss << "Expected normalized_shape to be at least 1-dimensional, i.e., "
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<< "containing at least one element, but got normalized_shape="
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<< normalized_shape;
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throw std::runtime_error(ss.str());
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}
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auto input_shape = input.sizes();
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auto input_ndim = input.dim();
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if (input_ndim < normalized_ndim ||
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!input_shape.slice(input_ndim - normalized_ndim)
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.equals(normalized_shape)) {
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std::stringstream ss;
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ss << "Given normalized_shape=" << normalized_shape
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<< ", expected input with shape [*";
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for (auto size : normalized_shape) {
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ss << ", " << size;
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}
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ss << "], but got input of size" << input_shape;
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throw std::runtime_error(ss.str());
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}
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compute_n1_n2(input, normalized_shape, n1, n2);
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}
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void check_args(at::Tensor input, at::IntArrayRef normalized_shape,
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at::Tensor gamma, at::Tensor beta, int &n1, int &n2) {
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check_args(input, normalized_shape, n1, n2);
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check_args(normalized_shape, gamma, beta);
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}
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} // namespace
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void cuda_layer_norm(at::Tensor *output, at::Tensor *mean, at::Tensor *invvar,
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at::Tensor *input, int n1, int n2,
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at::IntArrayRef normalized_shape, at::Tensor *gamma,
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at::Tensor *beta, double epsilon);
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#define CHECK_CUDA(x) TORCH_CHECK(x.is_cuda(), #x " must be a CUDA tensor")
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#define CHECK_CONTIGUOUS(x) \
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TORCH_CHECK(x.is_contiguous(), #x " must be contiguous")
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#define CHECK_INPUT(x) \
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CHECK_CUDA(x); \
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CHECK_CONTIGUOUS(x)
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std::vector<at::Tensor> layer_norm_affine(at::Tensor input,
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at::IntArrayRef normalized_shape,
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at::Tensor gamma, at::Tensor beta,
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double epsilon) {
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CHECK_INPUT(input);
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CHECK_INPUT(gamma);
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CHECK_INPUT(beta);
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int n1, n2;
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check_args(input, normalized_shape, gamma, beta, n1, n2);
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at::Tensor output =
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at::empty_like(input, gamma.options().dtype(gamma.scalar_type()));
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at::Tensor mean =
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at::empty({n1}, input.options().dtype(at::ScalarType::Float));
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at::Tensor invvar = at::empty_like(mean);
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cuda_layer_norm(&output, &mean, &invvar, &input, n1, n2, normalized_shape,
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&gamma, &beta, epsilon);
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return {output, mean, invvar};
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}
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void cuda_layer_norm_gradient(at::Tensor *dout, at::Tensor *mean,
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at::Tensor *invvar, at::Tensor *input, int n1,
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int n2, at::IntArrayRef normalized_shape,
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at::Tensor *gamma, at::Tensor *beta,
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double epsilon, at::Tensor *grad_input,
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at::Tensor *grad_gamma, at::Tensor *grad_beta);
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std::vector<at::Tensor> layer_norm_gradient_affine(
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at::Tensor dout, at::Tensor mean, at::Tensor invvar, at::Tensor input,
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at::IntArrayRef normalized_shape, at::Tensor gamma, at::Tensor beta,
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double epsilon) {
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CHECK_INPUT(dout);
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CHECK_INPUT(mean);
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CHECK_INPUT(invvar);
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CHECK_INPUT(input);
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CHECK_INPUT(gamma);
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CHECK_INPUT(beta);
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int n1, n2;
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check_args(input, normalized_shape, gamma, beta, n1, n2);
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at::Tensor grad_input = at::empty_like(input);
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at::Tensor grad_gamma = at::empty_like(gamma);
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at::Tensor grad_beta = at::empty_like(beta);
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cuda_layer_norm_gradient(&dout, &mean, &invvar, &input, n1, n2,
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normalized_shape, &gamma, &beta, epsilon,
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&grad_input, &grad_gamma, &grad_beta);
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return {grad_input, grad_gamma, grad_beta};
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}
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PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
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m.def("forward_affine", &layer_norm_affine, "LayerNorm forward (CUDA)");
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m.def("backward_affine", &layer_norm_gradient_affine,
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"LayerNorm backward (CUDA)");
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} |