Mercurial > ift6266
changeset 280:c77ffb11f91d
rajout de methode reliant toutes les couches cachees a la logistic et changeant seulement les parametres de la logistic durant finetune
author | SylvainPL <sylvain.pannetier.lebeuf@umontreal.ca> |
---|---|
date | Wed, 24 Mar 2010 14:44:24 -0400 |
parents | 206374eed2fb |
children | a8b92a4a708d |
files | deep/stacked_dae/v_sylvain/stacked_dae.py |
diffstat | 1 files changed, 39 insertions(+), 4 deletions(-) [+] |
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--- a/deep/stacked_dae/v_sylvain/stacked_dae.py Wed Mar 24 14:36:55 2010 -0400 +++ b/deep/stacked_dae/v_sylvain/stacked_dae.py Wed Mar 24 14:44:24 2010 -0400 @@ -36,6 +36,7 @@ # list of parameters for this layer self.params = [self.W, self.b] + def negative_log_likelihood(self, y): return -T.mean(T.log(self.p_y_given_x)[T.arange(y.shape[0]),y]) @@ -181,6 +182,7 @@ # (not used for finetuning... still using ".params") self.all_params = [] self.n_layers = len(hidden_layers_sizes) + self.logistic_params = [] print "Creating SdA with params:" print "batch_size", batch_size @@ -257,7 +259,7 @@ self.pretrain_functions += [update_fn] - # We now need to add a logistic layer on top of the MLP + # We now need to add a logistic layer on top of the SDA self.logLayer = LogisticRegression(\ input = self.layers[-1].output,\ n_in = hidden_layers_sizes[-1], n_out = n_outs) @@ -277,15 +279,48 @@ self.finetune = theano.function([self.x,self.y], cost, updates = updates)#, - # givens = { - # self.x : train_set_x[index*batch_size:(index+1)*batch_size]/self.shared_divider, - # self.y : train_set_y[index*batch_size:(index+1)*batch_size]} ) # symbolic variable that points to the number of errors made on the # minibatch given by self.x and self.y self.errors = self.logLayer.errors(self.y) + + #STRUCTURE FOR THE FINETUNING OF THE LOGISTIC REGRESSION ON THE TOP WITH + #ALL HIDDEN LAYERS AS INPUT + + all_h=[] + for i in xrange(self.n_layers): + all_h.append(self.layers[i].output) + self.all_hidden=T.concatenate(all_h,axis=1) + + + self.logLayer2 = LogisticRegression(\ + input = self.all_hidden,\ + n_in = sum(hidden_layers_sizes), n_out = n_outs) + #n_in=hidden_layers_sizes[0],n_out=n_outs) + + #self.logistic_params+= self.logLayer2.params + # construct a function that implements one step of finetunining + + # compute the cost, defined as the negative log likelihood + cost2 = self.logLayer2.negative_log_likelihood(self.y) + # compute the gradients with respect to the model parameters + gparams2 = T.grad(cost2, self.logLayer2.params) + + # compute list of updates + updates2 = {} + for param,gparam in zip(self.logLayer2.params, gparams2): + updates2[param] = param - gparam*finetune_lr + + self.finetune2 = theano.function([self.x,self.y], cost2, + updates = updates2) + + # symbolic variable that points to the number of errors made on the + # minibatch given by self.x and self.y + + self.errors2 = self.logLayer2.errors(self.y) + if __name__ == '__main__': import sys