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In tensorflow, what is the difference between tf.nn.static_rnn and tf.nn.dynamic_rnn, and when to use them?

Both take a sequence_length argument that adapts the computation to the actual length of the input; it is not as if static_rnn is limited to fixed-size inputs, right?

dynamic_rnn has the following extra arguments:

  • parallel_iterations
  • swap_memory
  • time_major

But I suppose these are only minor differences.

So what is the main difference between tf.nn.static_rnn and tf.nn.dynamic_rnn and when should we use one over the other?

1 Answer 1

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This is still a useful resource (despite being written a couple years ago): http://www.wildml.com/2016/08/rnns-in-tensorflow-a-practical-guide-and-undocumented-features/

In it, Denny Britz has the following comment on the static/dynamic issue:

Static

Internally, tf.nn.rnn creates an unrolled graph for a fixed RNN length. That means, if you call tf.nn.rnn with inputs having 200 time steps you are creating a static graph with 200 RNN steps. First, graph creation is slow. Second, you’re unable to pass in longer sequences (> 200) than you’ve originally specified.

Dynamic

tf.nn.dynamic_rnn solves this. It uses a tf.While loop to dynamically construct the graph when it is executed. That means graph creation is faster and you can feed batches of variable size.

In general he concludes that there is no real benefit in using tf.nn.static_rnn and that for most cases you'll want to resort to tf.nn.dynamic_rnn

For what it's worth, I've had the same experience myself.

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  • Note that second order gradients are not supported for tf.while at the moment, thus if you need that, you need to use tf.nn.static_rnn.
    – Albert
    Apr 11, 2019 at 12:31

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