I wrote a machine learning algorithm in python using tensorflow. The algorithm pseudo-code can be seen in the figure below. In this algorithm I'm using sess.run() more than one time in the training loops. The reason I have to use more than one sess.run() is because I have to evaluate the same neural network at different inputs to calculate δ. For some reason that I still don't know my code is extremely slow (see codereview, ai to see the code and related questions).

enter image description here Figure taken from the book Reinforcement Learning An Introduction by Richard S. Sutton and Andrew G. Barto.

My questions for this stack are the following:

1) How much more expensive is to do two sess.run() instead of one. For example:

to do,


instead of,


is there any difference at all?

2) What can be an efficient way to evaluate the same neural network at different inputs at the same step?

I'm currently calculating δ as follows:

self.delta = self.time_step_info['r'] + (not self.time_step_info['d'])*self.gamma*sess.run(self.critic(),feed_dict={self.state_in:self.time_step_info['s1']}) - sess.run(self.critic(),feed_dict={self.state_in:self.time_step_info['s']})
  • 1
    You may compare the computation time using time.time()...or if you wanna know exactly the CPU/GPU time of each operation (and whether it is done on CPU or GPU, whether the hardware communication takes most of the time), profile sess.run by feeding options=tf.RunOptions(...). Multiple sess.run are valid when you update the model after each run. Otherwise, a single run is better because each sess.run recalculates every node in the graph. However, your hardware may limit how large the inputs could be. – Richard_wth Sep 6 '18 at 2:06

For your firsst question, I'm not sure.

But for your second question, as you may already know, the input should be a matrix. A matrix can contain multiple X. And NN will generate a corresponding result matrix Y, each line of this matrix Y is the output of line in X.

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