Takes input and builds independent forward and backward RNNs. The input_size
of forward and backward cell must match. The initial state for both directions
is zero by default (but can be set optionally) and no intermediate states are
ever returned -- the network is fully unrolled for the given (passed in)
length(s) of the sequence(s) or completely unrolled if length(s) is not
given.
Args
cell_fw
An instance of RNNCell, to be used for forward direction.
cell_bw
An instance of RNNCell, to be used for backward direction.
inputs
The RNN inputs.
If time_major == False (default), this must be a tensor of shape:
[batch_size, max_time, ...], or a nested tuple of such elements.
If time_major == True, this must be a tensor of shape: [max_time,
batch_size, ...], or a nested tuple of such elements.
sequence_length
(optional) An int32/int64 vector, size [batch_size],
containing the actual lengths for each of the sequences in the batch. If
not provided, all batch entries are assumed to be full sequences; and time
reversal is applied from time 0 to max_time for each sequence.
initial_state_fw
(optional) An initial state for the forward RNN. This must
be a tensor of appropriate type and shape [batch_size,
cell_fw.state_size]. If cell_fw.state_size is a tuple, this should be a
tuple of tensors having shapes [batch_size, s] for s in
cell_fw.state_size.
initial_state_bw
(optional) Same as for initial_state_fw, but using the
corresponding properties of cell_bw.
dtype
(optional) The data type for the initial states and expected output.
Required if initial_states are not provided or RNN states have a
heterogeneous dtype.
parallel_iterations
(Default: 32). The number of iterations to run in
parallel. Those operations which do not have any temporal dependency and
can be run in parallel, will be. This parameter trades off time for
space. Values >> 1 use more memory but take less time, while smaller
values use less memory but computations take longer.
swap_memory
Transparently swap the tensors produced in forward inference
but needed for back prop from GPU to CPU. This allows training RNNs which
would typically not fit on a single GPU, with very minimal (or no)
performance penalty.
time_major
The shape format of the inputs and outputs Tensors. If true,
these Tensors must be shaped [max_time, batch_size, depth]. If false,
these Tensors must be shaped [batch_size, max_time, depth]. Using
time_major = True is a bit more efficient because it avoids transposes
at the beginning and end of the RNN calculation. However, most TensorFlow
data is batch-major, so by default this function accepts input and emits
output in batch-major form.
scope
VariableScope for the created subgraph; defaults to
"bidirectional_rnn"
Returns
A tuple (outputs, output_states) where:
outputs: A tuple (output_fw, output_bw) containing the forward and
the backward rnn output Tensor.
If time_major == False (default),
output_fw will be a Tensor shaped:
[batch_size, max_time, cell_fw.output_size]
and output_bw will be a Tensor shaped:
[batch_size, max_time, cell_bw.output_size].
If time_major == True,
output_fw will be a Tensor shaped:
[max_time, batch_size, cell_fw.output_size]
and output_bw will be a Tensor shaped:
[max_time, batch_size, cell_bw.output_size].
It returns a tuple instead of a single concatenated Tensor, unlike
in the bidirectional_rnn. If the concatenated one is preferred,
the forward and backward outputs can be concatenated as
tf.concat(outputs, 2).
output_states: A tuple (output_state_fw, output_state_bw) containing
the forward and the backward final states of bidirectional rnn.
Raises
TypeError
If cell_fw or cell_bw is not an instance of RNNCell.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2023-10-06 UTC."],[],[]]