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machine learning - Many to one and many to many LSTM examples in Keras

I try to understand LSTMs and how to build them with Keras. I found out, that there are principally the 4 modes to run a RNN (the 4 right ones in the picture)

enter image description here Image source: Andrej Karpathy

Now I wonder how a minimalistic code snippet for each of them would look like in Keras. So something like

model = Sequential()
model.add(LSTM(128, input_shape=(timesteps, data_dim)))
model.add(Dense(1))

for each of the 4 tasks, maybe with a little bit of explanation.

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So:

  1. One-to-one: you could use a Dense layer as you are not processing sequences:

    model.add(Dense(output_size, input_shape=input_shape))
    
  2. One-to-many: this option is not supported well as chaining models is not very easy in Keras, so the following version is the easiest one:

    model.add(RepeatVector(number_of_times, input_shape=input_shape))
    model.add(LSTM(output_size, return_sequences=True))
    
  3. Many-to-one: actually, your code snippet is (almost) an example of this approach:

    model = Sequential()
    model.add(LSTM(1, input_shape=(timesteps, data_dim)))
    
  4. Many-to-many: This is the easiest snippet when the length of the input and output matches the number of recurrent steps:

    model = Sequential()
    model.add(LSTM(1, input_shape=(timesteps, data_dim), return_sequences=True))
    
  5. Many-to-many when number of steps differ from input/output length: this is freaky hard in Keras. There are no easy code snippets to code that.

EDIT: Ad 5

In one of my recent applications, we implemented something which might be similar to many-to-many from the 4th image. In case you want to have a network with the following architecture (when an input is longer than the output):

                                        O O O
                                        | | |
                                  O O O O O O
                                  | | | | | | 
                                  O O O O O O

You could achieve this in the following manner:

model = Sequential()
model.add(LSTM(1, input_shape=(timesteps, data_dim), return_sequences=True))
model.add(Lambda(lambda x: x[:, -N:, :])) #Select last N from output

Where N is the number of last steps you want to cover (on image N = 3).

From this point getting to:

                                        O O O
                                        | | |
                                  O O O O O O
                                  | | | 
                                  O O O 

is as simple as artificial padding sequence of length N using e.g. with 0 vectors, in order to adjust it to an appropriate size.


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