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Oral

Challenges in Training PINNs: A Loss Landscape Perspective

Pratik Rathore · Weimu Lei · Zachary Frangella · Lu Lu · Madeleine Udell

Lehar 1-4
[ ] [ Visit Oral 5F Physics in ML ]
Thu 25 Jul 2:15 a.m. — 2:30 a.m. PDT
[ Slides

Abstract:

This paper explores challenges in training Physics-Informed Neural Networks (PINNs), emphasizing the role of the loss landscape in the training process. We examine difficulties in minimizing the PINN loss function, particularly due to ill-conditioning caused by differential operators in the residual term. We compare gradient-based optimizers Adam, L-BFGS, and their combination Adam+L-BFGS, showing the superiority of Adam+L-BFGS, and introduce a novel second-order optimizer, NysNewton-CG (NNCG), which significantly improves PINN performance. Theoretically, our work elucidates the connection between ill-conditioned differential operators and ill-conditioning in the PINN loss and shows the benefits of combining first- and second-order optimization methods. Our work presents valuable insights and more powerful optimization strategies for training PINNs, which could improve the utility of PINNs for solving difficult partial differential equations.

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