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Self-Assembly of a Biologically Plausible Learning Circuit

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arxiv 2412.20018 v1 pith:SRQWPNMN submitted 2024-12-28 cs.NE

Self-Assembly of a Biologically Plausible Learning Circuit

classification cs.NE
keywords backpropagationcircuitbeenbiologicallyfourgradientlearningplausible
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Over the last four decades, the amazing success of deep learning has been driven by the use of Stochastic Gradient Descent (SGD) as the main optimization technique. The default implementation for the computation of the gradient for SGD is backpropagation, which, with its variations, is used to this day in almost all computer implementations. From the perspective of neuroscientists, however, the consensus is that backpropagation is unlikely to be used by the brain. Though several alternatives have been discussed, none is so far supported by experimental evidence. Here we propose a circuit for updating the weights in a network that is biologically plausible, works as well as backpropagation, and leads to verifiable predictions about the anatomy and the physiology of a characteristic motif of four plastic synapses between ascending and descending cortical streams. A key prediction of our proposal is a surprising property of self-assembly of the basic circuit, emerging from initial random connectivity and heterosynaptic plasticity rules.

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