9

I'm looking at a tensorflow network implementing reinforcement-learning for the CartPole open-ai env.

The network implements the likelihood ratio approach for a policy gradient agent.

The thing is, that the policy loss is defined using the gather_nd op!! here, look:

    ....
    self.y = tf.nn.softmax(tf.matmul(self.W3,self.h2) + self.b3,dim=0)
    self.curr_reward = tf.placeholder(shape=[None],dtype=tf.float32)
    self.actions_array = tf.placeholder(shape=[None,2],dtype=tf.int32)
    self.pai_array = tf.gather_nd(self.y,self.actions_array)
    self.L = -tf.reduce_mean(tf.log(self.pai_array)*self.curr_reward)

And then they take the derivative of this loss with respect to all the parameters of the network:

    self.gradients = tf.gradients(self.L,tf.trainable_variables())

How can this be?? I thought that the whole point in neural networks is always working with differentiable ops, like cross-entropy and never do something strange like selecting indexes of self.y according to some self.actions_array selected by random and clearly not differentiable.

What am I missing here? thanks!

6

The gradient is one if the parameter is gathered and zero if it is not. One use-case for the gather operator is to act like a sparse one-hot matrix multiplication. The second argument is the dense representation of the sparse matrix and you "multiply" it with the first argument by just selecting the right rows.

1

There is no official documentation on this but according to this issue: https://github.com/tensorflow/models/issues/295 gradient of tf.gather in tensorflow implementation is 1 w.r.t to self.y and 0 w.r.t to index. Therefore, it will not propabagate gradient through index

0

It's only differentiable w.r.t. self.y but not the integer/discrete elements of self.actions_array.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.