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Programming with a Differentiable Forth Interpreter

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arxiv 1605.06640 v3 pith:QG2SYKCL submitted 2016-05-21 cs.NE cs.AIcs.LG

Programming with a Differentiable Forth Interpreter

classification cs.NE cs.AIcs.LG
keywords programinterpreterpriorbehaviourdatadifferentiableend-to-endforth
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Given that in practice training data is scarce for all but a small set of problems, a core question is how to incorporate prior knowledge into a model. In this paper, we consider the case of prior procedural knowledge for neural networks, such as knowing how a program should traverse a sequence, but not what local actions should be performed at each step. To this end, we present an end-to-end differentiable interpreter for the programming language Forth which enables programmers to write program sketches with slots that can be filled with behaviour trained from program input-output data. We can optimise this behaviour directly through gradient descent techniques on user-specified objectives, and also integrate the program into any larger neural computation graph. We show empirically that our interpreter is able to effectively leverage different levels of prior program structure and learn complex behaviours such as sequence sorting and addition. When connected to outputs of an LSTM and trained jointly, our interpreter achieves state-of-the-art accuracy for end-to-end reasoning about quantities expressed in natural language stories.

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