I have an autoencoder set up in Keras. I want to be able to weight the features of the input vector according to a predetermined 'precision' vector. This continuous valued vector has the same length as the input, and each element lies in the range `[0, 1]`

, corresponding to the confidence in the corresponding input element, where 1 is completely confident and 0 is no confidence.

I have a precision vector for every example.

I have defined a loss that takes into account this precision vector. Here, reconstructions of low-confidence features are down-weighted.

```
def MAEpw_wrapper(y_prec):
def MAEpw(y_true, y_pred):
return K.mean(K.square(y_prec * (y_pred - y_true)))
return MAEpw
```

My issue is that the precision tensor `y_prec`

depends on the batch. I want to be able to update `y_prec`

according to the current batch so that each precision vector is correctly associated with its observation.

**I have the done the following:**

```
global y_prec
y_prec = K.variable(P[:32])
```

Here `P`

is a numpy array containing all precision vectors with the indices corresponding to the examples. I initialize `y_prec`

to have the correct shape for a batch size of 32. I then define the following `DataGenerator`

:

```
class DataGenerator(Sequence):
def __init__(self, batch_size, y, shuffle=True):
self.batch_size = batch_size
self.y = y
self.shuffle = shuffle
self.on_epoch_end()
def on_epoch_end(self):
self.indexes = np.arange(len(self.y))
if self.shuffle == True:
np.random.shuffle(self.indexes)
def __len__(self):
return int(np.floor(len(self.y) / self.batch_size))
def __getitem__(self, index):
indexes = self.indexes[index * self.batch_size: (index+1) * self.batch_size]
# Set precision vector.
global y_prec
new_y_prec = K.variable(P[indexes])
y_prec = K.update(y_prec, new_y_prec)
# Get training examples.
y = self.y[indexes]
return y, y
```

Here I am aiming to update `y_prec`

in the same function that generates the batch. This seems to be updating `y_prec`

as expected. I then define my model architecture:

```
dims = [40, 20, 2]
model2 = Sequential()
model2.add(Dense(dims[0], input_dim=64, activation='relu'))
model2.add(Dense(dims[1], input_dim=dims[0], activation='relu'))
model2.add(Dense(dims[2], input_dim=dims[1], activation='relu', name='bottleneck'))
model2.add(Dense(dims[1], input_dim=dims[2], activation='relu'))
model2.add(Dense(dims[0], input_dim=dims[1], activation='relu'))
model2.add(Dense(64, input_dim=dims[0], activation='linear'))
```

And finally, I compile and run:

```
model2.compile(optimizer='adam', loss=MAEpw_wrapper(y_prec))
model2.fit_generator(DataGenerator(32, digits.data), epochs=100)
```

Where `digits.data`

is a numpy array of observations.

However, this ends up defining separate graphs:

```
StopIteration: Tensor("Variable:0", shape=(32, 64), dtype=float32_ref) must be from the same graph as Tensor("Variable_4:0", shape=(32, 64), dtype=float32_ref).
```

I've scoured SO for a solution to my problem but nothing I've found works. Any help on how to do this properly is appreciated.