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I am not able to understand the output from tf.nn.dynamic_rnn tensorflow function. The document just tells about the size of the output, but it doesn't tell what does each row/column means. From the documentation:

outputs: The RNN output Tensor.

If time_major == False (default), this will be a Tensor shaped: [batch_size, max_time, cell.output_size].

If time_major == True, this will be a Tensor shaped: [max_time, batch_size, cell.output_size].

Note, if cell.output_size is a (possibly nested) tuple of integers or TensorShape objects, then outputs will be a tuple having the
same structure as cell.output_size, containing Tensors having shapes corresponding to the shape data in cell.output_size.

state: The final state. If cell.state_size is an int, this will be shaped [batch_size, cell.state_size]. If it is a
TensorShape, this will be shaped [batch_size] + cell.state_size.
If it is a (possibly nested) tuple of ints or TensorShape, this will be a tuple having the corresponding shapes.

The outputs tensor is a 3-D matrix but what does each row/column represent?

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tf.dynamic_rnn provides two outputs, outputs and state.

  • outputs contains the output of the RNN cell at every time instant. Assuming the default time_major == False, let's say you have an input composed of 10 examples with 7 time steps each and a feature vector of size 5 for every time step. Then your input would be 10x7x5 (batch_sizexmax_timexfeatures). Now you give this as an input to a RNN cell with output size 15. Conceptually, each time step of each example is input to the RNN, and you would get a 15-long vector for each of those. So that is what outputs contains, a tensor in this case of size 10x7x15 (batch_sizexmax_timexcell.output_size) with the output of the RNN cell at each time step. If you are only interested in the last output of the cell, you can just slice the time dimension to pick just the last element (e.g. outputs[:, -1, :]).
  • state contains the state of the RNN after processing all the inputs. Note that, unlike outputs, this doesn't contain information about every time step, but only about the last one (that is, the state after the last one). Depending on your case, the state may or may not be useful. For example, if you have very long sequences, you may not want/be able to processes them in a single batch, and you may need to split them into several subsequences. If you ignore the state, then whenever you give a new subsequence it will be as if you are beginning a new one; if you remember the state, however (e.g. outputting it or storing it in a variable), you can feed it back later (through the initial_state parameter of tf.nn.dynamic_rnn) in order to correctly keep track of the state of the RNN, and only reset it to the initial state (generally all zeros) after you have completed the whole sequences. The shape of state can vary depending on the RNN cell that you are using, but, in general, you have some state for each of the examples (one or more tensors with size batch_sizexstate_size, where state_size depends on the cell type and size).
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    This, but I believe state additionally holds the state at every layer of your network. So if you are using a GRU, you would have a state for the output of your candidate and gate layers, and if your GRU was the cell for a multi-layer RNN, you would have these states for every layer in your network.
    – Engineero
    May 24 '17 at 20:04
  • @Engineero Yes, that's right, thanks. I didn't give much detail, but state for multi-layer RNN cells would be a list of states of each individual cell, for LSTM cells would be a pair of tensors and so on.
    – jdehesa
    May 24 '17 at 20:16
  • @jdehesa - Could you please take a look at this another question that I raised? stackoverflow.com/questions/44116689/…
    – Mithun
    May 25 '17 at 13:32
  • @jdehesa is "15" the number of hidden units in your hidden layer in the discussion of "outputs"? Dec 7 '17 at 18:58
  • @StatsSorceress Well, you could say that. Strictly speaking, that would only be the case for plain recurrent layers, since advanced structures like LSTM or GRU are more complicated and therefore have more actual "units". But, conceptually speaking, if we are only talking about the number of outputs of the layer, then yes.
    – jdehesa
    Dec 7 '17 at 20:18

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