I am trying to understand the role of the Flatten function in Keras. Below is my code, which is a simple two-layer network. It takes in 2-dimensional data of shape (3, 2), and outputs 1-dimensional data of shape (1, 4):

model = Sequential()
model.add(Dense(16, input_shape=(3, 2)))
model.compile(loss='mean_squared_error', optimizer='SGD')

x = np.array([[[1, 2], [3, 4], [5, 6]]])

y = model.predict(x)

print y.shape

This prints out that y has shape (1, 4). However, if I remove the Flatten line, then it prints out that y has shape (1, 3, 4).

I don't understand this. From my understanding of neural networks, the model.add(Dense(16, input_shape=(3, 2))) function is creating a hidden fully-connected layer, with 16 nodes. Each of these nodes is connected to each of the 3x2 input elements. Therefore, the 16 nodes at the output of this first layer are already "flat". So, the output shape of the first layer should be (1, 16). Then, the second layer takes this as an input, and outputs data of shape (1, 4).

So if the output of the first layer is already "flat" and of shape (1, 16), why do I need to further flatten it?



if you read a documentation of Dense here you will see that:

Dense(16, input_shape=(5,3))

would result in a Dense network with 3 inputs and 16 outputs which would be applied independently for each of 5 steps. So if D(x) transforms 3 dimensional vector to 16-d vector what you'll get as output from your layer would be a sequence of vectors: [D(x[0,:], D(x[1,:],..., D(x[4,:]] with shape (5, 16). In order to have the behaviour you specify you may first Flatten your input to a 15-d vector and then apply Dense:

model = Sequential()
model.add(Flatten(input_shape=(3, 2)))
model.compile(loss='mean_squared_error', optimizer='SGD')

EDIT: As some people struggled to understand - here you have an explaining image:

enter image description here

  • Thanks for your explanation. Just to clarify though: with Dense(16, input_shape=(5,3), will each output neuron from the set of 16 (and, for all 5 sets of these neurons), be connected to all (3 x 5 = 15) input neurons? Or will each neuron in the first set of 16 only be connected to the 3 neurons in the first set of 5 input neurons, and then each neuron in the second set of 16 is only connected to the 3 neurons in the second set of 5 input neurons, etc.... I'm confused as to which it is! – Karnivaurus Apr 6 '17 at 12:49
  • You have one Dense layer which gets 3 neurons and output 16 which is applied to each of 5 sets of 3 neurons. – Marcin Możejko Apr 6 '17 at 12:55
  • But don't the output neurons have connections to all 5 sets of input neurons? The reason I thought this might be the case, is that in convolutional networks, each feature map in the first layer takes as input all three channels (R,G,B) from the input. – Karnivaurus Apr 6 '17 at 12:59
  • 1
    Ah ok. What I am trying to do is take a list of 5 colour pixels as input, and I want them to pass through a fully-connected layer. So input_shape=(5,3) means that there are 5 pixels, and each pixel has three channels (R,G,B). But according to what you are saying, each channel would be processed individually, whereas I want all three channels to be processed by all neurons in the first layer. So would applying the Flatten layer immediately at the start give me what I want? – Karnivaurus Apr 6 '17 at 13:08
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    A little drawing with and without Flatten may help to understand. – Xvolks Aug 28 '17 at 14:52

short read:

Flattening a tensor means to remove all of the dimensions except for one. This is exactly what the Flatten layer do.

long read:

If we take the original model (with the Flatten layer) created in consideration we can get the following model summary:

Layer (type)                 Output Shape              Param #   
D16 (Dense)                  (None, 3, 16)             48        
A (Activation)               (None, 3, 16)             0         
F (Flatten)                  (None, 48)                0         
D4 (Dense)                   (None, 4)                 196       
Total params: 244
Trainable params: 244
Non-trainable params: 0

For this summary the next image will hopefully provide little more sense on the input and output sizes for each layer.

The output shape for the Flatten layer as you can read is (None, 48). Here is the tip. You should read it (1, 48) or (2, 48) or ... or (16, 48) ... or (32, 48), ...

In fact, None on that position means any batch size. For the inputs to recall, the first dimension means the batch size and the second means the number of input features.

The role of the Flatten layer in Keras is super simple:

A flatten operation on a tensor reshapes the tensor to have the shape that is equal to the number of elements contained in tensor non including the batch dimension.

enter image description here

Note: I used the model.summary() method to provide the output shape and parameter details.

  • 1
    This answer is better than the accepted one! – Yahya Jul 9 at 10:24
  • 1
    Very insightful diagram. – Shrey Joshi Jul 9 at 13:44

enter image description here This is how Flatten works converting Matrix to single array.

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