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What is the difference between epoch and iteration when training a multi-layer perceptron?

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In the neural network terminology:

  • one epoch = one forward pass and one backward pass of all the training examples
  • batch size = the number of training examples in one forward/backward pass. The higher the batch size, the more memory space you'll need.
  • number of iterations = number of passes, each pass using [batch size] number of examples. To be clear, one pass = one forward pass + one backward pass (we do not count the forward pass and backward pass as two different passes).

Example: if you have 1000 training examples, and your batch size is 500, then it will take 2 iterations to complete 1 epoch.

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Not a neural networks expert, but these words have standard meanings:

  • epoch - the start time

  • iteration - every single repetition of a process

Though, apparently epoch also has a specific meaning for neural networks:

During iterative training of a neural network , an Epoch is a single pass through the entire training set, followed by testing of the verification set.

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Indeed, the quote is what the OP is after. – Nikana Reklawyks Oct 26 '12 at 21:31

Many neural network training algorithms involve making multiple presentations of the entire data set to the neural network. Often, a single presentation of the entire data set is referred to as an "epoch". In contrast, some algorithms present data to the neural network a single case at a time.

"Iteration" is a much more general term, but since you asked about it together with "epoch", I assume that your source is referring to the presentation of a single case to a neural network.

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great, can you refer to a publication where this is detailed? – Alex Dec 15 '15 at 22:08

An epoch contains a few iterations. That's actually what this 'epoch' is. Let's define 'epoch' as the number of iterations over the data set in order to train the neural network.

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epoch is not a number... this could do with rephrasing, I think. – Nikana Reklawyks Oct 26 '12 at 21:32

Typically, you'll split your test set into small batches for the network to learn from, and make the training go step by step through your number of layers, applying gradient-descent all the way down. All these small steps can be called iterations.

An epoch corresponds to the entire training set going through the entire network once. It can be useful to limit this, e.g. to fight overfitting.

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To my understanding, when you need to train a NN, you need a large dataset involves many data items. when NN is being trained, data items go in to NN one by one, that is called an iteration; When the whole dataset goes through, it is called an epoch.

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I believe iteration is equivalent to a single batch forward+backprop in batch SGD. Epoch is going through the entire dataset once (as someone else mentioned).

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epoch is an iteration of subset of the samples for training, for example, the gradient descent algorithm in neutral network. A good reference is:

Note that the page has a code for the gradient descent algorithm which uses epoch

def SGD(self, training_data, epochs, mini_batch_size, eta,
    """Train the neural network using mini-batch stochastic
    gradient descent.  The "training_data" is a list of tuples
    "(x, y)" representing the training inputs and the desired
    outputs.  The other non-optional parameters are
    self-explanatory.  If "test_data" is provided then the
    network will be evaluated against the test data after each
    epoch, and partial progress printed out.  This is useful for
    tracking progress, but slows things down substantially."""
    if test_data: n_test = len(test_data)
    n = len(training_data)
    for j in xrange(epochs):
        mini_batches = [
            for k in xrange(0, n, mini_batch_size)]
        for mini_batch in mini_batches:
            self.update_mini_batch(mini_batch, eta)
        if test_data:
            print "Epoch {0}: {1} / {2}".format(
                j, self.evaluate(test_data), n_test)
            print "Epoch {0} complete".format(j)

Look at the code. For each epoch, we randomly generate a subset of the inputs for the gradient descent algorithm. Why epoch is effective is also explained in the page. Please take a look.

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