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The Wikipedia page for backpropagation has this claim:

The backpropagation algorithm for calculating a gradient has been rediscovered a number of times, and is a special case of a more general technique called automatic differentiation in the reverse accumulation mode.

Can someone expound on this, put it in layman's terms? What is the function being differentiated? What is the "special case"? Is it the adjoint values themselves that are used or the final gradient?

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In Neural Network training, we want to find a set of weights w that minimizes the error E(N(w,x)-y). (x is the training input, y is the training output, N is the network and E is some error function).

The standard way to do an optimization like this, is gradient descent, which uses the derivative of the network, N' say. We could represent the network as a matrix product and do this manually with matrix calculus, but we can also write (automatic) algorithms.

Backpropagation is a special such algorithm, which has certain advantages. For example it makes it easy to take the derivative only with respect to a selected sample of weights, as is needed for stochastic gradient descent. It also specifies how feed-forward (actual network values) are saved so that they are easily accessible for calculating the needed derivatives.

You should be able to find the exact code for the specific algorithm in text books as well as online.

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