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Contributed Talk
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Workshop: 2nd Workshop on Formal Verification of Machine Learning

Outstanding Paper: Provably Correct Physics-Informed Neural Networks - Francisco Eiras, Adel Bibi, Rudy Bunel, Krishnamurthy Dj Dvijotham, Philip H.S. Torr, M. Pawan Kumar

Francisco Girbal Eiras


Abstract:

Physics-informed neural networks (PINN) have been proven efficient at solving partial differential equations (PDE). However, previous works have failed to provide guarantees on the worstcase residual error of a PINN across the spatiotemporal domain – a measure akin to the tolerance of numerical solvers – focusing instead on pointwise comparisons between their solution and the ones obtained by a solver at a set of inputs. In real-world applications, one cannot consider tests on a finite set of points to be sufficient grounds for deployment. To alleviate this issue, we establish tolerance-based correctness conditions for PINNs over the entire input domain. To verify the extent to which they hold, we introduce ∂-CROWN: a general and efficient post-training framework to bound PINN errors. We demonstrate its effectiveness in obtaining tight certificates by applying it to two classical PINNs – Burgers’ and Schrodinger’s equations –, and two more challenging ones – the Allan-Cahn and Diffusion-Sorption equations.

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