Data-Centric Engineering (Jan 2022)

On the reproducibility of fully convolutional neural networks for modeling time–space-evolving physical systems

  • Wagner G. Pinto,
  • Antonio Alguacil,
  • Michaël Bauerheim

DOI
https://doi.org/10.1017/dce.2022.18
Journal volume & issue
Vol. 3

Abstract

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Reproducibility of a deep-learning fully convolutional neural network is evaluated by training several times the same network on identical conditions (database, hyperparameters, and hardware) with nondeterministic graphics processing unit operations. The network is trained to model three typical time–space-evolving physical systems in two dimensions: heat, Burgers’, and wave equations. The behavior of the networks is evaluated on both recursive and nonrecursive tasks. Significant changes in models’ properties (weights and feature fields) are observed. When tested on various benchmarks, these models systematically return estimations with a high level of deviation, especially for the recurrent analysis which strongly amplifies variability due to the nondeterminism. Trainings performed with double floating-point precision provide slightly better estimations and a significant reduction of the variability of both the network parameters and its testing error range.

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