I am working on predicting the EWMA (exponential weighted moving average) formula on a time series using a simple RNN. already posted about it here.

While the model converges beautifully using keras-tf (from tensorflow import keras), the exact same code doesn't work using native keras (import keras).

converging model code (keras-tf):

```
from tensorflow import keras
import numpy as np
np.random.seed(1337) # for reproducibility
def run_avg(signal, alpha=0.2):
avg_signal = []
avg = np.mean(signal)
for i, sample in enumerate(signal):
if np.isnan(sample) or sample == 0:
sample = avg
avg = (1 - alpha) * avg + alpha * sample
avg_signal.append(avg)
return np.array(avg_signal)
def train():
x = np.random.rand(3000)
y = run_avg(x)
x = np.reshape(x, (-1, 1, 1))
y = np.reshape(y, (-1, 1))
input_layer = keras.layers.Input(batch_shape=(1, 1, 1), dtype='float32')
rnn_layer = keras.layers.SimpleRNN(1, stateful=True, activation=None, name='rnn_layer_1')(input_layer)
model = keras.Model(inputs=input_layer, outputs=rnn_layer)
model.compile(optimizer=keras.optimizers.SGD(lr=0.1), loss='mse')
model.summary()
print(model.get_layer('rnn_layer_1').get_weights())
model.fit(x=x, y=y, batch_size=1, epochs=10, shuffle=False)
print(model.get_layer('rnn_layer_1').get_weights())
train()
```

none converging model code:

```
from keras import Model
from keras.layers import SimpleRNN, Input
from keras.optimizers import SGD
import numpy as np
np.random.seed(1337) # for reproducibility
def run_avg(signal, alpha=0.2):
avg_signal = []
avg = np.mean(signal)
for i, sample in enumerate(signal):
if np.isnan(sample) or sample == 0:
sample = avg
avg = (1 - alpha) * avg + alpha * sample
avg_signal.append(avg)
return np.array(avg_signal)
def train():
x = np.random.rand(3000)
y = run_avg(x)
x = np.reshape(x, (-1, 1, 1))
y = np.reshape(y, (-1, 1))
input_layer = Input(batch_shape=(1, 1, 1), dtype='float32')
rnn_layer = SimpleRNN(1, stateful=True, activation=None, name='rnn_layer_1')(input_layer)
model = Model(inputs=input_layer, outputs=rnn_layer)
model.compile(optimizer=SGD(lr=0.1), loss='mse')
model.summary()
print(model.get_layer('rnn_layer_1').get_weights())
model.fit(x=x, y=y, batch_size=1, epochs=10, shuffle=False)
print(model.get_layer('rnn_layer_1').get_weights())
train()
```

while in the tf-keras converging model the loss minimizes and weights approximate nicely the EWMA formula, in the non-converging model the loss explodes to nan. the only difference as far as i can tell is the way i import the classes.

i used the same random seed for both implementations. i am working on a windows pc, anaconda environment with keras 2.2.4 and tensorflow version 1.13.1 (which includes keras in version 2.2.4-tf).

any insights on this?

`stateful`

of`SimpleRNN`

is`True`

. – rvinas Aug 8 at 21:43