I am trying to implement the regularization term for the Norm of the Gradient for improved WGAN training in Keras with theano backend. Basically I want to penalize the l2 Norm of the Gradient based on how far away it is from 1.
I am implementing a custom loss like this:
def get_gradient_norm(model, y_pred): weights = model.trainable_weights gradients = model.optimizer.get_gradients(K.mean(y_pred), weights) acc = None for g in gradients: s = K.sum(K.square(g)) if acc == None: acc = s else: acc = s + acc return K.sqrt(acc) def make_w_reg_loss(model): lvar = K.variable(lamb, name="Lambda") def foo(y_true, y_pred): gnorm = get_gradient_norm(model, y_pred) return lvar * K.square(gnorm - 1) return foo [...] critic.compile(loss=make_w_reg_loss(critic), optimizer=RMSprop(learn_rate))
It throws a DisconnectedInputError once the training process tries to attempt to get the gradient of my custom loss function.
Replacing the loss with some standard loss works. The error is something about the loss function I defined.
See this gist for a minimal not-working example of my attempt
So I think I know how to make it work now. First I just randomly added this term to my loss, directly before returning it from foo(y_true, y_pred):
K.mean(y_pred) - K.mean(y_pred)
Clearly a constant zero, and if I only use this term as my loss I do get a zero. If however I add this "constant zero" to my regularization loss it suddenly works fine. I get a loss, which is non-zero so comes from the regularization, and optimization over many train_on_batch does reduce the loss as well.
So is this an odd issue with theano being a bit overzealous in throwing exceptions? My question still stands: Why does it throw in the original code. Since adding a constant zero term fixes it, it looks like a bug to me?