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Creates a recurrent neural network specified by RNNCell cell
. (deprecated)
tf.compat.v1.nn.static_rnn(
cell, inputs, initial_state=None, dtype=None, sequence_length=None, scope=None
)
The simplest form of RNN network generated is:
state = cell.zero_state(...)
outputs = []
for input_ in inputs:
output, state = cell(input_, state)
outputs.append(output)
return (outputs, state)
However, a few other options are available:
An initial state can be provided. If the sequence_length vector is provided, dynamic calculation is performed. This method of calculation does not compute the RNN steps past the maximum sequence length of the minibatch (thus saving computational time), and properly propagates the state at an example's sequence length to the final state output.
The dynamic calculation performed is, at time t
for batch row b
,
(output, state)(b, t) =
(t >= sequence_length(b))
? (zeros(cell.output_size), states(b, sequence_length(b) - 1))
: cell(input(b, t), state(b, t - 1))
Args | |
---|---|
cell
|
An instance of RNNCell. |
inputs
|
A length T list of inputs, each a Tensor of shape [batch_size,
input_size] , or a nested tuple of such elements.
|
initial_state
|
(optional) An initial state for the RNN. If cell.state_size
is an integer, this must be a Tensor of appropriate type and shape
[batch_size, cell.state_size] . If cell.state_size is a tuple, this
should be a tuple of tensors having shapes [batch_size, s] for s in
cell.state_size .
|
dtype
|
(optional) The data type for the initial state and expected output. Required if initial_state is not provided or RNN state has a heterogeneous dtype. |
sequence_length
|
Specifies the length of each sequence in inputs. An int32
or int64 vector (tensor) size [batch_size] , values in [0, T) .
|
scope
|
VariableScope for the created subgraph; defaults to "rnn". |
Returns | |
---|---|
A pair (outputs, state) where:
|
Raises | |
---|---|
TypeError
|
If cell is not an instance of RNNCell.
|
ValueError
|
If inputs is None or an empty list, or if the input depth
(column size) cannot be inferred from inputs via shape inference.
|