## New answer

I think you're looking exactly for L2 regularization. Just create a regularizer and add it in the layers:

```
from keras.regularizers import l2
#in the target layers, Dense, Conv2D, etc.:
layer = Dense(units, ..., kernel_regularizer = l2(some_coefficient))
```

You can use `bias_regularizer`

as well.

The `some_coefficient`

var is multiplied by the square value of the weight.

PS: if `val`

in your code is constant, it should not harm your loss. But you can still use the old answer below for `val`

.

## Old answer

Wrap the Keras expected function (with two parameters) into an outer function with your needs:

```
def customLoss(layer_weights, val = 0.01):
def lossFunction(y_true,y_pred):
loss = mse(y_true, y_pred)
loss += K.sum(val, K.abs(K.sum(K.square(layer_weights), axis=1)))
return loss
return lossFunction
model.compile(loss=customLoss(weights,0.03), optimizer =..., metrics = ...)
```

Notice that `layer_weights`

must come directly from the layer as a "tensor", so you can't use `get_weights()`

, you must go with `someLayer.kernel`

and `someLayer.bias`

. (Or the respective var name in case of layers that use different names for their trainable parameters).

The answer here shows how to deal with that if your external vars are variable with batches: How to define custom cost function that depends on input when using ImageDataGenerator in Keras?