Mercurial > pylearn
view cost.py @ 497:a272f4cbf004
'x' => 'input'
'y' => 'output'
author | Joseph Turian <turian@gmail.com> |
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date | Tue, 28 Oct 2008 12:25:04 -0400 |
parents | f13847478c6d |
children |
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""" Cost functions. @note: All of these functions return one cost per example. So it is your job to perform a tensor.sum over the individual example losses. @todo: Make a Cost class, with a particular contract. @todo: It would be nice to implement a hinge loss, with a particular margin. """ import theano.tensor as T from xlogx import xlogx def quadratic(target, output, axis=1): return T.mean(T.sqr(target - output), axis=axis) def cross_entropy(target, output, axis=1): """ @todo: This is essentially duplicated as nnet_ops.binary_crossentropy @warning: OUTPUT and TARGET are reversed in nnet_ops.binary_crossentropy """ return -T.mean(target * T.log(output) + (1 - target) * T.log(1 - output), axis=axis) def KL_divergence(target, output): """ @note: We do not compute the mean, because if target and output have different shapes then the result will be garbled. """ return -(target * T.log(output) + (1 - target) * T.log(1 - output)) \ + (xlogx(target) + xlogx(1 - target)) # return cross_entropy(target, output, axis) - cross_entropy(target, target, axis)