I'm using Lasagne to create a CNN for the MNIST dataset. I'm following closely to this example: Convolutional Neural Networks and Feature Extraction with Python.

The CNN architecture I have at the moment, which doesn't include any dropout layers, is:

```
NeuralNet(
layers=[('input', layers.InputLayer), # Input Layer
('conv2d1', layers.Conv2DLayer), # Convolutional Layer
('maxpool1', layers.MaxPool2DLayer), # 2D Max Pooling Layer
('conv2d2', layers.Conv2DLayer), # Convolutional Layer
('maxpool2', layers.MaxPool2DLayer), # 2D Max Pooling Layer
('dense', layers.DenseLayer), # Fully connected layer
('output', layers.DenseLayer), # Output Layer
],
# input layer
input_shape=(None, 1, 28, 28),
# layer conv2d1
conv2d1_num_filters=32,
conv2d1_filter_size=(5, 5),
conv2d1_nonlinearity=lasagne.nonlinearities.rectify,
# layer maxpool1
maxpool1_pool_size=(2, 2),
# layer conv2d2
conv2d2_num_filters=32,
conv2d2_filter_size=(3, 3),
conv2d2_nonlinearity=lasagne.nonlinearities.rectify,
# layer maxpool2
maxpool2_pool_size=(2, 2),
# Fully Connected Layer
dense_num_units=256,
dense_nonlinearity=lasagne.nonlinearities.rectify,
# output Layer
output_nonlinearity=lasagne.nonlinearities.softmax,
output_num_units=10,
# optimization method params
update= momentum,
update_learning_rate=0.01,
update_momentum=0.9,
max_epochs=10,
verbose=1,
)
```

This outputs the following Layer Information:

```
# name size
--- -------- --------
0 input 1x28x28
1 conv2d1 32x24x24
2 maxpool1 32x12x12
3 conv2d2 32x10x10
4 maxpool2 32x5x5
5 dense 256
6 output 10
```

and outputs the number of learnable parameters as **217,706**

I'm wondering how this number is calculated? I've read a number of resources, including this StackOverflow's question, but none clearly generalizes the calculation.

If possible, *can the calculation of the learnable parameters per layer be generalised?*

For example, convolutional layer: number of filters x filter width x filter height.