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LossCTC.cpp
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LossCTC.cpp
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#include <ATen/ATen.h>
#include <ATen/NativeFunctions.h>
#include <ATen/Config.h>
#include <ATen/cuda/CUDAConfig.h>
#if AT_CUDNN_ENABLED()
#include <ATen/cudnn/Descriptors.h>
#endif
#if (!AT_CUDNN_ENABLED()) || (CUDNN_VERSION < 7600)
namespace at { namespace native {
// See Note [ATen preprocessor philosophy]
bool _use_cudnn_ctc_loss(
const Tensor& log_probs,
const Tensor& targets,
IntArrayRef input_lengths,
IntArrayRef target_lengths,
int64_t BLANK) {
return false;
}
std::tuple<Tensor, Tensor> _cudnn_ctc_loss(const Tensor& log_probs, const Tensor& targets, IntArrayRef input_lengths, IntArrayRef target_lengths, int64_t BLANK, bool deterministic, bool zero_infinity) {
AT_ERROR("cudnn_ctc_loss: ATen not compiled with cuDNN >= 7 support");
}
}}
#else // AT_CUDNN_ENABLED
#include <ATen/cudnn/Descriptors.h>
#include <ATen/cudnn/Types.h>
#include <ATen/cudnn/Utils.h>
#include <ATen/TensorUtils.h>
namespace at { namespace native {
bool _use_cudnn_ctc_loss(
const Tensor& log_probs,
const Tensor& targets,
IntArrayRef input_lengths,
IntArrayRef target_lengths,
int64_t BLANK) {
auto& ctx = at::globalContext();
bool use_cudnn = ctx.userEnabledCuDNN() && (BLANK == 0) &&
(targets.dim() == 1) && (log_probs.scalar_type() == at::kFloat) &&
(targets.scalar_type() == at::kInt) &&
(log_probs.device().type() == at::kCUDA);
if (use_cudnn) {
// we don't know that input_lengths and target_lengths have the same size
// (they should, but we didn't check yet)
int64_t max_input_length = log_probs.size(0);
for (size_t b = 0; b < input_lengths.size(); b++) {
use_cudnn &= (input_lengths[b] == max_input_length);
}
for (size_t b = 0; b < target_lengths.size(); b++) {
// target length < 256 is documented, but we see illegal memory accesses
// when target lengths > input lengths for CuDNN
use_cudnn &=
(target_lengths[b] <= 256) & (target_lengths[b] <= input_lengths[b]);
}
}
return use_cudnn;
}
std::tuple<Tensor, Tensor> _cudnn_ctc_loss(const Tensor& log_probs_t, const Tensor& targets_t, IntArrayRef input_lengths_, IntArrayRef target_lengths_, int64_t BLANK, bool deterministic, bool zero_infinity) {
(void)zero_infinity; // only used for backward
CheckedFrom c = "cudnn_ctc_loss";
TensorArg log_probs { log_probs_t, "log_probs", 1 };
TensorArg targets { targets_t, "targets", 2 };
checkDim(c, log_probs, 3);
checkScalarType(c, log_probs, kFloat);
checkDim(c, targets, 1);
checkScalarType(c, targets, kInt);
checkContiguous(c, targets); // ?
checkBackend(c, {*log_probs}, Backend::CUDA);
checkBackend(c, {*targets}, Backend::CPU);
int64_t batch_size = log_probs->size(1);
TORCH_CHECK(input_lengths_.size() == batch_size, "input_lengths needs to have size to match batch_size");
TORCH_CHECK(target_lengths_.size() == batch_size, "target_lengths needs to have size to match batch_size");
std::vector<int> input_lengths(input_lengths_.begin(), input_lengths_.end());
std::vector<int> target_lengths(target_lengths_.begin(), target_lengths_.end());
TORCH_CHECK(BLANK == 0, "blank must be label 0 for cudnn_ctc_loss");
// checked in dispatch:
// assert other conditions for cudnnCTCLoss: all label lengths <= 256
// all input lengths = logprob.size(0)
auto handle = getCudnnHandle();
cudnnCTCLossAlgo_t algo = (deterministic ? CUDNN_CTC_LOSS_ALGO_DETERMINISTIC : CUDNN_CTC_LOSS_ALGO_NON_DETERMINISTIC);
CTCLossDescriptor ctc_loss_desc;
// so the CuDNN gradient semantics have changed between 7.1 and 7.6,
// this is CuDNN 7.6 only, see PyTorch 1.2 for older CuDNN.
ctc_loss_desc.setEx(
CUDNN_DATA_FLOAT, CUDNN_LOSS_NORMALIZATION_SOFTMAX, CUDNN_PROPAGATE_NAN);
TensorDescriptor log_probs_desc{log_probs_t};
Tensor grad = at::empty_like(log_probs_t, LEGACY_CONTIGUOUS_MEMORY_FORMAT);
TensorDescriptor grad_desc{grad};
size_t workspace_size;
AT_CUDNN_CHECK(cudnnGetCTCLossWorkspaceSize(
handle,
log_probs_desc.desc(),
grad_desc.desc(),
targets->data_ptr<int>(),
target_lengths.data(),
input_lengths.data(),
algo,
ctc_loss_desc.desc(),
&workspace_size));
Tensor workspace = at::empty(workspace_size, log_probs->options().dtype(kByte));
Tensor costs = at::empty({log_probs->size(1)}, log_probs->options());
AT_CUDNN_CHECK(cudnnCTCLoss(
handle,
log_probs_desc.desc(),
log_probs_t.data_ptr(),
targets->data_ptr<int>(),
target_lengths.data(),
input_lengths.data(),
costs.data_ptr(),
grad_desc.desc(),
grad.data_ptr(),
algo,
ctc_loss_desc.desc(),
workspace.data_ptr(),
workspace_size));
return std::make_tuple(costs, grad);
}
}} // namespace at::native
#endif