I'm trying to fit an RNN in Keras using sequences that have varying time lengths. My data is in a Numpy array with format `(sample, time, feature) = (20631, max_time, 24)`

where `max_time`

is determined at run-time as the number of time steps available for the sample with the most time stamps. I've padded the beginning of each time series with `0`

, except for the longest one, obviously.

I've initially defined my model like so...

```
model = Sequential()
model.add(Masking(mask_value=0., input_shape=(max_time, 24)))
model.add(LSTM(100, input_dim=24))
model.add(Dense(2))
model.add(Activation(activate))
model.compile(loss=weibull_loglik_discrete, optimizer=RMSprop(lr=.01))
model.fit(train_x, train_y, nb_epoch=100, batch_size=1000, verbose=2, validation_data=(test_x, test_y))
```

For completeness, here's the code for the loss function:

```
def weibull_loglik_discrete(y_true, ab_pred, name=None):
y_ = y_true[:, 0]
u_ = y_true[:, 1]
a_ = ab_pred[:, 0]
b_ = ab_pred[:, 1]
hazard0 = k.pow((y_ + 1e-35) / a_, b_)
hazard1 = k.pow((y_ + 1) / a_, b_)
return -1 * k.mean(u_ * k.log(k.exp(hazard1 - hazard0) - 1.0) - hazard1)
```

And here's the code for the custom activation function:

```
def activate(ab):
a = k.exp(ab[:, 0])
b = k.softplus(ab[:, 1])
a = k.reshape(a, (k.shape(a)[0], 1))
b = k.reshape(b, (k.shape(b)[0], 1))
return k.concatenate((a, b), axis=1)
```

When I fit the model and make some test predictions, *every sample in the test set gets exactly the same prediction*, which seems fishy.

Things get better if I remove the masking layer, which makes me think there's something wrong with the masking layer, but as far as I can tell, I've followed the documentation exactly.

Is there something mis-specified with the masking layer? Am I missing something else?

`1e-35`

constant when`float32`

accuracy is actually`1e-7`

? – Marcin Możejko Apr 6 '17 at 15:51`1e-35`

comes from here: ragulpr.github.io/assets/… , p. 53. It's just to avoid "numerical instability" (as zeroes are undefined here). Think it should be higher? – DHW Oct 29 '19 at 15:18