LSTM calculation with Vanilla Numpy

Question

I've compared LSTM result with Keras/Tensorflow calculation and Numpy calculation. However, the result is slightly different:

Numpy: [[ 0.16315128 -0.04277606 0.26504123 0.08014129 0.38561829]]
Keras: [[ 0.16836338 -0.04930305 0.25080156 0.08938988 0.3537751 ]]

Keras' LSTM implementation does not use tf.contrib.rnn but Keras directly manages the parameters, and tf.matmul is used to calculate. I found the corresponding implementation of Keras and tried the same calculation with Numpy, but the values are slightly different as shown above.

I have checked the formula several times and it seems like the same. The only difference is the differences between tf.matmul or np.dot. Maybe there are some differences about decimal point calculation method. Even so, I think the results are too much different. The biggest difference is about 10%. I'd like to match the Numpy calculation with the tensorflow calculation. If someone could give me some hint or point me to the right implementation, I'd really appreciate it.

Keras implementation and the Numpy code implemented myself:

• Keras: https://github.com/keras-team/keras/blob/master/keras/layers/recurrent.py#L1921-L1948
• Numpy: https://github.com/likejazz/jupyter-notebooks/blob/master/deep-learning/lstm-keras-inspect.py

Answer 1

The default value of recurrent_activation is 'hard_sigmoid' for Keras LSTM layer. However, the original sigmoid function is used in your NumPy implementation.

So you can either change the recurrent_activation argument to 'sigmoid',

model.add(LSTM(5, input_shape=(8, 3), recurrent_activation='sigmoid'))

or use the "hard" sigmoid function in your NumPy code.

def hard_sigmoid(x):
    return np.clip(0.2 * x + 0.5, 0, 1)