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Masond / apex /csrc /multi_tensor_apply.cuh
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#include <ATen/ATen.h>
#include <ATen/AccumulateType.h>
#include <ATen/cuda/CUDAContext.h>
#include <ATen/cuda/Exceptions.h>
#include <assert.h>
// #include <iostream>
// This header is the one-stop shop for all your multi-tensor apply needs.
// TODO: Kernel arg size limit may be <4KB for some other cards (ie Jetson)
constexpr int depth_to_max_tensors[5] = {110, 64, 48, 36, 30};
constexpr int depth_to_max_blocks[5] = {320, 320, 320, 320, 320};
template<int n> struct TensorListMetadata
{
void* addresses[n][depth_to_max_tensors[n-1]];
int sizes[depth_to_max_tensors[n-1]];
unsigned char block_to_tensor[depth_to_max_blocks[n-1]];
int block_to_chunk[depth_to_max_blocks[n-1]]; // I fear this needs to be a full int.
int start_tensor_this_launch;
};
template<typename T, typename U, typename... ArgTypes>
__global__ void multi_tensor_apply_kernel(
int chunk_size,
volatile int* noop_flag,
T tl,
U callable,
ArgTypes... args)
{
// Hand the chunk information to the user-supplied functor to process however it likes.
callable(chunk_size, noop_flag, tl, args...);
}
template<int depth, typename T, typename... ArgTypes>
void multi_tensor_apply(
int block_size,
int chunk_size,
const at::Tensor& noop_flag,
const std::vector<std::vector<at::Tensor>>& tensor_lists,
T callable,
ArgTypes... args)
{
AT_CHECK(tensor_lists.size() == depth, "tensor_lists.size() != depth");
int len0 = tensor_lists[0].size();
AT_CHECK(len0 > 0, "tensor_lists[0].size() is not > 0");
for(int l = 0; l < tensor_lists.size(); l++) // No range-based for because I need indices
{
AT_CHECK(tensor_lists[l].size() == len0, "Size mismatch among tensor lists");
for(int t = 0; t < tensor_lists[l].size(); t++)
{
// TODO: Print which tensor fails.
AT_CHECK(tensor_lists[l][t].is_contiguous(), "A tensor was not contiguous.");
AT_CHECK(tensor_lists[l][t].is_cuda(), "A tensor was not cuda.");
AT_CHECK(tensor_lists[l][t].numel() == tensor_lists[0][t].numel(), "Size mismatch");
}
}
int ntensors = tensor_lists[0].size();
TensorListMetadata<depth> tl;
auto stream = at::cuda::getCurrentCUDAStream();
tl.start_tensor_this_launch = 0;
int loc_block_info = 0;
int loc_tensor_info = 0;
for(int t = 0; t < ntensors; t++)
{
tl.sizes[loc_tensor_info] = tensor_lists[0][t].numel();
for(int d = 0; d < depth; d++)
tl.addresses[d][loc_tensor_info] = tensor_lists[d][t].data_ptr();
loc_tensor_info++;
int chunks_this_tensor = (tensor_lists[0][t].numel() + chunk_size - 1)/chunk_size;
for(int chunk = 0; chunk < chunks_this_tensor; chunk++)
{
// std::cout << chunks_this_tensor << std::endl;
tl.block_to_tensor[loc_block_info] = loc_tensor_info - 1;
tl.block_to_chunk[loc_block_info] = chunk;
loc_block_info++;
bool tensors_full = (loc_tensor_info == depth_to_max_tensors[depth-1] &&
chunk == chunks_this_tensor - 1);
bool blocks_full = (loc_block_info == depth_to_max_blocks[depth-1]);
bool last_chunk = (t == ntensors - 1 && chunk == chunks_this_tensor - 1);
if(tensors_full || blocks_full || last_chunk)
{
// using accscalar_t = acc_type<scalar_t, true>;
multi_tensor_apply_kernel<<<loc_block_info, block_size, 0, stream>>>(
chunk_size,
noop_flag.data<int>(),
tl,
callable,
args...);
AT_CUDA_CHECK(cudaGetLastError());
// Reset. The control flow possibilities here make my brain hurt.
loc_block_info = 0;
if(chunk == chunks_this_tensor - 1)
{
// std::cout << "Hit case 1 " << cond1 << " " << cond2 << " " << cond3 << std::endl;
loc_tensor_info = 0;
tl.start_tensor_this_launch = t + 1;
}
else
{
// std::cout << "Hit case 2 " << cond1 << " " << cond2 << " " << cond3 << std::endl;
tl.sizes[0] = tl.sizes[loc_tensor_info-1];
for(int d = 0; d < depth; d++)
tl.addresses[d][0] = tl.addresses[d][loc_tensor_info-1];
loc_tensor_info = 1;
tl.start_tensor_this_launch = t;
}
}
}
}
}