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I was under the impression that all tensorflow primitives are differentiable. Under this "illusion" I wrote this function in the hopes that tensorflow will just automatically differentiate it and I can backprop erros through it.

Rank-weight function:

def ranked(a):
     lens     = tf.convert_to_tensor(tf.range(1, (tf.size(a) + 1)))
     rankw01  = tf.cast(tf.convert_to_tensor(tf.contrib.framework.argsort(tf.contrib.framework.argsort(a)) + 1),
                 tf.float64)
     rankw02  = tf.convert_to_tensor(rankw01 - ((tf.size(a) + 1)/2))
     rankw03  = tf.divide(rankw02, tf.reduce_sum(tf.gather(rankw02, tf.where(tf.greater(rankw02, 0)))))
     rankw04  = tf.cast(rankw03, tf.float32)

     return rankw04

Unfortunately the function works as expected in the forward pass but does not work in the reverse pass because the derivative does not exist (from the error I keep getting).

The function is explained in the attached image:

enter image description here

I have the following questions:

1: Why can't I take the derivative of the function above.

2: If it is an implementation issue, can you suggest how I can rewrite it so I can take its derivative and backprop errors through it?

3: Are all tensorflow ops differentiable?

  • How are you differentiating? I'd try a version without any tf.convert_to_tensor calls. If the input to your function isn't a tensor (e.g. if its a numpy array) tensorflow won't know where it was converted to a tensor – DomJack Aug 19 '18 at 1:50
  • Thanks for the suggestion, @DomJack. I went back and cleaned the code starting from your suggestion and I now have a working rank weighting function that is differentiable. – Baba Yara Aug 25 '18 at 8:27
1

So I followed @DomJack 's advice and removed the tf.convert_to_tensor calls and did a little house cleaning all the way through. Now the function is differentiable.

def ranked(a):
    rankw01  = tf.cast(tf.contrib.framework.argsort(tf.contrib.framework.argsort(a)) + 1, tf.float32)
    rankw02  = rankw01 - tf.cast((tf.shape(a)[-1] + 1)/2, tf.float32)
    rankw03  = tf.div(rankw02, tf.reduce_sum(tf.nn.relu(rankw02), axis = -1, keepdims=True))

    return rankw033
  • Glad you got there :). Quick note: make sure your division is doing the right thing in (tf.shape(a)[-1] + 1)/2 (int division vs float division) - depending on your version of python/whether or not your using from __future__ import division. You may have to do the cast before the division. – DomJack Aug 25 '18 at 23:25

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