How is the categorical_crossentropy implemented in keras?
I'm trying to apply the concept of distillation, basically to train a new smaller network to do the same as the original one but with less computation.
I have the softmax outputs for every sample instead of the logits.
My question is, how is the categorical cross entropy loss function implemented? Like it takes the maximum value of the original labels and multiply it with the corresponded predicted value in the same index, or it does the summation all over the logits (One Hot encoding) as the formula says:
I see that you used the tensorflow tag, so I guess this is the backend you are using?
def categorical_crossentropy(output, target, from_logits=False):
"""Categorical crossentropy between an output tensor and a target tensor.
# Arguments
output: A tensor resulting from a softmax
(unless `from_logits` is True, in which
case `output` is expected to be the logits).
target: A tensor of the same shape as `output`.
from_logits: Boolean, whether `output` is the
result of a softmax, or is a tensor of logits.
# Returns
Output tensor.
This code comes from the keras source code. Looking directly at the code should answer all your questions :) If you need more info just ask !
EDIT :
Here is the code that interests you :
# Note: tf.nn.softmax_cross_entropy_with_logits
# expects logits, Keras expects probabilities.
if not from_logits:
# scale preds so that the class probas of each sample sum to 1
output /= tf.reduce_sum(output,
reduction_indices=len(output.get_shape()) - 1,
keep_dims=True)
# manual computation of crossentropy
epsilon = _to_tensor(_EPSILON, output.dtype.base_dtype)
output = tf.clip_by_value(output, epsilon, 1. - epsilon)
return - tf.reduce_sum(target * tf.log(output),
reduction_indices=len(output.get_shape()) - 1)
If you look at the return, they sum it... :)