Training neural networks using Metropolis Monte Carlo and an adaptive variant
May 16, 2022 ยท Declared Dead ยท ๐ Machine Learning: Science and Technology
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Authors
Stephen Whitelam, Viktor Selin, Ian Benlolo, Corneel Casert, Isaac Tamblyn
arXiv ID
2205.07408
Category
cs.LG: Machine Learning
Cross-listed
cond-mat.stat-mech,
cs.NE
Citations
12
Venue
Machine Learning: Science and Technology
Last Checked
4 months ago
Abstract
We examine the zero-temperature Metropolis Monte Carlo algorithm as a tool for training a neural network by minimizing a loss function. We find that, as expected on theoretical grounds and shown empirically by other authors, Metropolis Monte Carlo can train a neural net with an accuracy comparable to that of gradient descent, if not necessarily as quickly. The Metropolis algorithm does not fail automatically when the number of parameters of a neural network is large. It can fail when a neural network's structure or neuron activations are strongly heterogenous, and we introduce an adaptive Monte Carlo algorithm, aMC, to overcome these limitations. The intrinsic stochasticity and numerical stability of the Monte Carlo method allow aMC to train deep neural networks and recurrent neural networks in which the gradient is too small or too large to allow training by gradient descent. Monte Carlo methods offer a complement to gradient-based methods for training neural networks, allowing access to a distinct set of network architectures and principles.
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