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Deep neural networks have an inbuilt Occam’s razor

Chris Mingard, Henry Rees, Guillermo Valle-Pérez, Ard A. Louis

2025Nature Communications14 citationsDOIOpen Access PDF

Abstract

The remarkable performance of overparameterized deep neural networks (DNNs) must arise from an interplay between network architecture, training algorithms, and structure in the data. To disentangle these three components for supervised learning, we apply a Bayesian picture based on the functions expressed by a DNN. The prior over functions is determined by the network architecture, which we vary by exploiting a transition between ordered and chaotic regimes. For Boolean function classification, we approximate the likelihood using the error spectrum of functions on data. Combining this with the prior yields an accurate prediction for the posterior, measured for DNNs trained with stochastic gradient descent. This analysis shows that structured data, together with a specific Occam's razor-like inductive bias towards (Kolmogorov) simple functions that exactly counteracts the exponential growth of the number of functions with complexity, is a key to the success of DNNs.

Topics & Concepts

occamOccam's razorComputer scienceArtificial intelligenceKey (lock)Simple (philosophy)Artificial neural networkGradient descentStochastic gradient descentDeep neural networksChaoticFunction (biology)Inductive biasBayesian probabilityMachine learningExponential functionMathematicsBiologyEpistemologyEconomicsManagementStatisticsEvolutionary biologyProgramming languagePhilosophyMulti-task learningMathematical analysisComputer securityTask (project management)Neural Networks and ApplicationsGaussian Processes and Bayesian InferenceMachine Learning and Data Classification
Deep neural networks have an inbuilt Occam’s razor | Litcius