Accelerating hypersonic reentry simulations using deep learning-based hybridization (with guarantees) - Archive ouverte HAL
Article Dans Une Revue Journal of Computational Physics Année : 2024

Accelerating hypersonic reentry simulations using deep learning-based hybridization (with guarantees)

Résumé

In this paper, we are interested in the acceleration of numerical simulations. We focus on a hypersonic planetary reentry problem whose simulation involves coupling fluid dynamics and chemical reactions. Simulating chemical reactions takes most of the computational time but, on the other hand, cannot be avoided to obtain accurate predictions. We face a trade-off between cost-efficiency and accuracy: the numerical scheme has to be sufficiently efficient to be used in an operational context but accurate enough to predict the phenomenon faithfully. To tackle this trade-off, we design a hybrid numerical scheme coupling a traditional fluid dynamic solver with a neural network approximating the chemical reactions. We rely on their power in terms of accuracy and dimension reduction when applied in a big data context and on their efficiency stemming from their matrixvector structure to achieve important acceleration factors (×10 to ×18.6). This paper aims to explain how we design such cost-effective hybrid numerical schemes in practice. Above all, we describe methodologies to ensure accuracy guarantees, allowing us to go beyond traditional surrogate modeling and to use these schemes as references.
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Dates et versions

hal-04323551 , version 1 (27-09-2022)
hal-04323551 , version 2 (05-12-2023)

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Paul Novello, Gaël Poëtte, David Lugato, Simon Peluchon, Pietro Marco Congedo. Accelerating hypersonic reentry simulations using deep learning-based hybridization (with guarantees). Journal of Computational Physics, 2024, 498, pp.112700. ⟨10.1016/j.jcp.2023.112700⟩. ⟨hal-04323551v2⟩
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