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FastVPINNs: Tensor-Driven Acceleration of VPINNs for Complex Geometries

Authors :
Anandh, Thivin
Ghose, Divij
Jain, Himanshu
Ganesan, Sashikumaar
Publication Year :
2024

Abstract

Variational Physics-Informed Neural Networks (VPINNs) utilize a variational loss function to solve partial differential equations, mirroring Finite Element Analysis techniques. Traditional hp-VPINNs, while effective for high-frequency problems, are computationally intensive and scale poorly with increasing element counts, limiting their use in complex geometries. This work introduces FastVPINNs, a tensor-based advancement that significantly reduces computational overhead and improves scalability. Using optimized tensor operations, FastVPINNs achieve a 100-fold reduction in the median training time per epoch compared to traditional hp-VPINNs. With proper choice of hyperparameters, FastVPINNs surpass conventional PINNs in both speed and accuracy, especially in problems with high-frequency solutions. Demonstrated effectiveness in solving inverse problems on complex domains underscores FastVPINNs' potential for widespread application in scientific and engineering challenges, opening new avenues for practical implementations in scientific machine learning.<br />Comment: 31 pages, 19 figures, 4 algorithms

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2404.12063
Document Type :
Working Paper