Training Deep Surrogate Models with Large Scale Online Learning

June 28, 2023 Β· Declared Dead Β· πŸ› International Conference on Machine Learning

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Authors Lucas Meyer, Marc Schouler, Robert Alexander Caulk, Alejandro RibΓ©s, Bruno Raffin arXiv ID 2306.16133 Category cs.AI: Artificial Intelligence Cross-listed cs.DC, physics.comp-ph Citations 8 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
The spatiotemporal resolution of Partial Differential Equations (PDEs) plays important roles in the mathematical description of the world's physical phenomena. In general, scientists and engineers solve PDEs numerically by the use of computationally demanding solvers. Recently, deep learning algorithms have emerged as a viable alternative for obtaining fast solutions for PDEs. Models are usually trained on synthetic data generated by solvers, stored on disk and read back for training. This paper advocates that relying on a traditional static dataset to train these models does not allow the full benefit of the solver to be used as a data generator. It proposes an open source online training framework for deep surrogate models. The framework implements several levels of parallelism focused on simultaneously generating numerical simulations and training deep neural networks. This approach suppresses the I/O and storage bottleneck associated with disk-loaded datasets, and opens the way to training on significantly larger datasets. Experiments compare the offline and online training of four surrogate models, including state-of-the-art architectures. Results indicate that exposing deep surrogate models to more dataset diversity, up to hundreds of GB, can increase model generalization capabilities. Fully connected neural networks, Fourier Neural Operator (FNO), and Message Passing PDE Solver prediction accuracy is improved by 68%, 16% and 7%, respectively.
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