theano.gpuarray.ctc – Connectionist Temporal Classification (CTC) loss


This is not the recomanded user interface. Use the CPU interface. It will get moved automatically to the GPU.


Usage of connectionist temporal classification (CTC) loss Op, requires that the warp-ctc library is available. In case the warp-ctc library is not in your compiler’s library path, the config.ctc__root configuration option must be appropriately set to the directory containing the warp-ctc library files.


Unfortunately, Windows platforms are not yet supported by the underlying library.

theano.gpuarray.ctc.gpu_ctc(activations, labels, input_lengths)[source]

Compute CTC loss function on the GPU.

  • activations – Three-dimensional tensor, which has a shape of (t, m, p), where t is the time index, m is the minibatch index, and p is the index over the probabilities of each symbol in the alphabet. The memory layout is assumed to be in C-order, which consists in the slowest to the fastest changing dimension, from left to right. In this case, p is the fastest changing dimension.
  • labels – A 2-D tensor of all the labels for the minibatch. In each row, there is a sequence of target labels. Negative values are assumed to be padding, and thus are ignored. Blank symbol is assumed to have index 0 in the alphabet.
  • input_lengths – A 1-D tensor with the number of time steps for each sequence in the minibatch.

Cost of each example in the minibatch.

Return type:

1-D array

class theano.gpuarray.ctc.GpuConnectionistTemporalClassification(compute_grad=True)[source]

GPU wrapper for Baidu CTC loss function.

Parameters:compute_grad – If set to True, enables the computation of gradients of the CTC loss function.