In-context modeling as a retrain-free paradigm for foundation models || May 22, 2026

Speaker, institute & title
1) Yang Liu, National University of Singapore, In-context modeling as a retrain-free paradigm for foundation models in computational science

Abstract: Building models that generalize across physical systems without retraining remains a central challenge in computational science. Here we introduce In-Context Modeling (ICM), a retrain-free paradigm that infers physical relationships directly from observational fields. Rather than encoding system-specific behavior in fixed parameters, ICM assimilates measurements as physical context and performs inference through a single forward pass. Trained in a physics-informed, label-free manner using governing equations, a single model generalizes across unseen materials, geometries, and loading conditions. Demonstrated on hyperelasticity, ICM integrates with finite-element simulations and is validated using experimental full-field measurements. Moreover, performance improves with increasing data diversity and computational budget, exhibiting favorable scaling behavior analogous to foundation models. By recasting physical modeling as in-context inference, this work establishes a transferable paradigm for retrain-free scientific learning and a foundation for scalable modeling across computational science.

Видео In-context modeling as a retrain-free paradigm for foundation models || May 22, 2026 канала CRUNCH Group: Home of Math + Machine Learning + X