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From the Keras documentation:

dropout: Float between 0 and 1. Fraction of the units to drop for the linear transformation of the inputs.

recurrent_dropout: Float between 0 and 1. Fraction of the units to drop for the linear transformation of the recurrent state.

Can anyone point to where on the image below each dropout happens?

enter image description here

  • for the linear transformation of the inputs so x_t – Thomas Jungblut Jul 5 '17 at 11:14
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I suggest taking a look at (the first part of) this paper. Regular dropout is applied on the inputs and/or the outputs, meaning the vertical arrows from x_t and to h_t. In your case, if you add it as an argument to your layer, it will mask the inputs; you can add a Dropout layer after your recurrent layer to mask the outputs as well. Recurrent dropout masks (or "drops") the connections between the recurrent units; that would be the horizontal arrows in your picture.

This picture is taken from the paper above. On the left, regular dropout on inputs and outputs. On the right, regular dropout PLUS recurrent dropout:

This picture is taken from the paper above. On the left, regular dropout on inputs and outputs. On the right, regular dropout PLUS recurrent dropout.

(Ignore the colour of the arrows in this case; in the paper they are making a further point of keeping the same dropout masks at each timestep)

  • 1
    Thanks, @michetonu. The linked paper and your explanation were helpful. Anything you could point to in terms of how to properly use regular dropout with recurrent_dropout in Keras for time series forecasting? Seems some examples out there combine the two kinds of dropout, whiles use just recurrent_dropout. – Kim Miller Jul 30 '18 at 21:14
  • @KimMiller from what I've encountered, there does not seem to be much science behind using one or another, and how much (yet). I tend to optimize both and choose whatever combination works best. – Michele Tonutti Jul 31 '18 at 10:47
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    And there seems to be applying the (regular) dropout= parameter on a layer vs. a dropout layer by itself. What is the effective difference between these methods? – Kim Miller Aug 1 '18 at 17:11

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