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Article Dans Une Revue APL Machine Learning Année : 2023

Autoregressive transformers for data-driven spatiotemporal learning of turbulent flows

Aakash Patil
Elie Hachem

Résumé

A convolutional encoder–decoder-based transformer model is proposed for autoregressively training on spatiotemporal data of turbulent flows. The prediction of future fluid flow fields is based on the previously predicted fluid flow field to ensure long-term predictions without diverging. A combination of convolutional neural networks and transformer architecture is utilized to handle both the spatial and temporal dimensions of the data. To assess the performance of the model, a priori assessments are conducted, and significant agreements are found with the ground truth data. The a posteriori predictions, which are generated after a considerable number of simulation steps, exhibit predicted variances. The autoregressive training and prediction of a posteriori states are deemed crucial steps toward the development of more complex data-driven turbulence models and simulations. The highly nonlinear and chaotic dynamics of turbulent flows can be handled by the proposed model, and accurate predictions over long time horizons can be generated. Overall, the potential of using deep learning techniques to improve the accuracy and efficiency of turbulence modeling and simulation is demonstrated by this approach. The proposed model can be further optimized and extended to incorporate additional physics and boundary conditions, paving the way for more realistic simulations of complex fluid dynamics.

Dates et versions

hal-04328639 , version 1 (07-12-2023)

Identifiants

Citer

Aakash Patil, Jonathan Viquerat, Elie Hachem. Autoregressive transformers for data-driven spatiotemporal learning of turbulent flows. APL Machine Learning, 2023, 1 (4), ⟨10.1063/5.0152212⟩. ⟨hal-04328639⟩
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