Mercurial > ift6266
changeset 435:d8129a09ffb1
bug fix in output
author | Guillaume Sicard <guitch21@gmail.com> |
---|---|
date | Mon, 03 May 2010 06:11:30 -0400 |
parents | 310c730516af |
children | 0ca069550abd |
files | baseline/mlp/ratio_classes/mlp_nist_ratio.py |
diffstat | 1 files changed, 37 insertions(+), 19 deletions(-) [+] |
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--- a/baseline/mlp/ratio_classes/mlp_nist_ratio.py Mon May 03 03:08:34 2010 -0400 +++ b/baseline/mlp/ratio_classes/mlp_nist_ratio.py Mon May 03 06:11:30 2010 -0400 @@ -24,8 +24,7 @@ """ __docformat__ = 'restructedtext en' -import ift6266 -from scripts import setup_batches +import setup_batches import pdb import numpy @@ -50,7 +49,7 @@ - def __init__(self, input, n_in, n_hidden, n_out,learning_rate): + def __init__(self, input, n_in, n_hidden, n_out,learning_rate, test_subclass): """Initialize the parameters for the multilayer perceptron :param input: symbolic variable that describes the input of the @@ -113,12 +112,20 @@ # compute prediction as class whose probability is maximal in # symbolic form - self.y_pred = T.argmax( self.p_y_given_x, axis =1) - self.y_pred_num = T.argmax( self.p_y_given_x[0:9], axis =1) + #self.y_pred = T.argmax( self.p_y_given_x, axis =1) + #self.y_pred_num = T.argmax( self.p_y_given_x[0:9], axis =1) - - - + self.test_subclass = test_subclass + + #if (self.test_subclass == "u"): + # self.y_pred = T.argmax( self.p_y_given_x[10:35], axis =1) + 10 + #elif (self.test_subclass == "l"): + # self.y_pred = T.argmax( self.p_y_given_x[35:], axis =1) + 35 + #elif (self.test_subclass == "d"): + # self.y_pred = T.argmax( self.p_y_given_x[0:9], axis =1) + #else: + self.y_pred = T.argmax( self.p_y_given_x, axis =1) + # L1 norm ; one regularization option is to enforce L1 norm to # be small self.L1 = abs(self.W1).sum() + abs(self.W2).sum() @@ -178,9 +185,9 @@ nb_max_exemples=1000000,\ batch_size=20,\ nb_hidden = 500,\ - nb_targets = 62,\ + nb_targets = 26,\ tau=1e6,\ - main_class="d",\ + main_class="l",\ start_ratio=1,\ end_ratio=1): @@ -216,8 +223,9 @@ classifier = MLP( input=x.reshape((batch_size,32*32)),\ n_in=32*32,\ n_hidden=nb_hidden,\ - n_out=nb_targets, - learning_rate=learning_rate) + n_out=nb_targets,\ + learning_rate=learning_rate,\ + test_subclass=main_class) @@ -285,7 +293,13 @@ n_iter=max(1,n_iter) # run at least once on short debug call time_n=0 #in unit of exemples - + if (main_class == "u"): + class_offset = 10 + elif (main_class == "l"): + class_offset = 36 + else: + class_offset = 0 + if verbose == True: print 'looping at most %d times through the data set' %n_iter @@ -302,6 +316,9 @@ # get the minibatches corresponding to `iter` modulo # `len(train_batches)` x,y = train_batches[ minibatch_index ] + + y = y - class_offset + # convert to float x_float = x/255.0 cost_ij = train_model(x_float,y) @@ -312,6 +329,7 @@ this_validation_loss = 0. for x,y in validation_batches: # sum up the errors for each minibatch + y = y - class_offset x_float = x/255.0 this_validation_loss += test_model(x_float,y) # get the average by dividing with the number of minibatches @@ -323,6 +341,7 @@ this_train_loss=0 for x,y in train_batches: # sum up the errors for each minibatch + y = y - class_offset x_float = x/255.0 this_train_loss += test_model(x_float,y) # get the average by dividing with the number of minibatches @@ -355,6 +374,7 @@ # test it on the test set test_score = 0. for x,y in test_batches: + y = y - class_offset x_float=x/255.0 test_score += test_model(x_float,y) test_score /= len(test_batches) @@ -381,6 +401,7 @@ #calculation before aborting patience = iter+validation_frequency+1 for x,y in test_batches: + y = y - class_offset x_float=x/255.0 test_score += test_model(x_float,y) test_score /= len(test_batches) @@ -421,13 +442,10 @@ def jobman_mlp_full_nist(state,channel): (train_error,validation_error,test_error,nb_exemples,time)=mlp_full_nist(learning_rate=state.learning_rate,\ - nb_max_exemples=state.nb_max_exemples,\ nb_hidden=state.nb_hidden,\ - adaptive_lr=state.adaptive_lr,\ - tau=state.tau,\ - main_class=state.main_class,\ - start_ratio=state.start_ratio,\ - end_ratio=state.end_ratio) + main_class=state.main_class,\ + start_ratio=state.ratio,\ + end_ratio=state.ratio) state.train_error=train_error state.validation_error=validation_error state.test_error=test_error