3

So here is the model with the standard loss function.

target = Input(shape=(1, ), dtype='int32')
w_inputs = Input(shape=(1, ), dtype='int32')
w_emb = Embedding(V, dim, embeddings_initializer='glorot_uniform',name='word_emb')(w_inputs)
w_flat= Flatten()(w_emb)
    # context


w1=  Dense(input_dim=dim, units=V, activation='softmax') # because I want to use predicition on valid set)

w= w1(w_flat)
model = Model(inputs=[w_inputs], outputs=[w])

model.compile(loss='sparse_categorical_crossentropy', optimizer='sgd',metrics=['accuracy'])

It works fine. Given NCE loss isnt available in keras, I wrote up a custom loss.

def model_loss(layer,labels, inputs, num_sampled, num_classes, num_true):
    weights= K.transpose( layer.get_weights()[0])
    biases = layer.get_weights()[1]
    def loss(y_true, y_pred):

        if K.learning_phase() == 1:
            compute_loss = tf.nn.nce_loss(weights, biases, labels, inputs, num_sampled, num_classes, num_true,
            partition_strategy="div")
        else:
            logits = tf.matmul(K.squeeze(inputs,axis=0), K.transpose(weights))
            logits = tf.nn.bias_add(logits, biases)
            labels_one_hot = tf.one_hot(labels, num_classes)
            loss = tf.nn.sigmoid_cross_entropy_with_logits(
                labels=labels_one_hot[:][0][:],
                logits=logits)
            compute_loss = tf.reduce_sum(loss, axis=1)
        return compute_loss

    return loss

And changed the last line to:

model.compile(loss=model_loss(w1,target, w_emb, num_sampled, num_classes, num_true), optimizer='sgd',metrics=['accuracy']) 

This compiles by the way.

And on execution dies.

---------------------------------------------------------------------------
ValueError                                Traceback (most recent call last)
<ipython-input-68-d3b3ef93b81b> in <module>
      3                                  epochs=epochs, steps_per_epoch = seq_len,
      4 
----> 5                                  verbose=1, max_queue_size=15)

/opt/conda/lib/python3.6/site-packages/keras/legacy/interfaces.py in wrapper(*args, **kwargs)
     89                 warnings.warn('Update your `' + object_name + '` call to the ' +
     90                               'Keras 2 API: ' + signature, stacklevel=2)
---> 91             return func(*args, **kwargs)
     92         wrapper._original_function = func
     93         return wrapper

/opt/conda/lib/python3.6/site-packages/keras/engine/training.py in fit_generator(self, generator, steps_per_epoch, epochs, verbose, callbacks, validation_data, validation_steps, class_weight, max_queue_size, workers, use_multiprocessing, shuffle, initial_epoch)
   1416             use_multiprocessing=use_multiprocessing,
   1417             shuffle=shuffle,
-> 1418             initial_epoch=initial_epoch)
   1419 
   1420     @interfaces.legacy_generator_methods_support

/opt/conda/lib/python3.6/site-packages/keras/engine/training_generator.py in fit_generator(model, generator, steps_per_epoch, epochs, verbose, callbacks, validation_data, validation_steps, class_weight, max_queue_size, workers, use_multiprocessing, shuffle, initial_epoch)
     38 
     39     do_validation = bool(validation_data)
---> 40     model._make_train_function()
     41     if do_validation:
     42         model._make_test_function()

/opt/conda/lib/python3.6/site-packages/keras/engine/training.py in _make_train_function(self)
    507                     training_updates = self.optimizer.get_updates(
    508                         params=self._collected_trainable_weights,
--> 509                         loss=self.total_loss)
    510                 updates = (self.updates +
    511                            training_updates +

/opt/conda/lib/python3.6/site-packages/keras/legacy/interfaces.py in wrapper(*args, **kwargs)
     89                 warnings.warn('Update your `' + object_name + '` call to the ' +
     90                               'Keras 2 API: ' + signature, stacklevel=2)
---> 91             return func(*args, **kwargs)
     92         wrapper._original_function = func
     93         return wrapper

/opt/conda/lib/python3.6/site-packages/keras/optimizers.py in get_updates(self, loss, params)
    182     @interfaces.legacy_get_updates_support
    183     def get_updates(self, loss, params):
--> 184         grads = self.get_gradients(loss, params)
    185         self.updates = [K.update_add(self.iterations, 1)]
    186 

/opt/conda/lib/python3.6/site-packages/keras/optimizers.py in get_gradients(self, loss, params)
     89         grads = K.gradients(loss, params)
     90         if None in grads:
---> 91             raise ValueError('An operation has `None` for gradient. '
     92                              'Please make sure that all of your ops have a '
     93                              'gradient defined (i.e. are differentiable). '

ValueError: An operation has `None` for gradient. Please make sure that all of your ops have a gradient defined (i.e. are differentiable). Common ops without gradient: K.argmax, K.round, K.eval.

The issue is of course, that the weights aren't quite getting updated in the layer, hence the non gradient. How could i do that without making a custom layer? I tried that approach but I give up on measuring things like val_acc using a layer.

1

It seems like you cannot do it in Keras without Layer's API. You can try this solution using custom layer: Keras NCE Implementation

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.