Optimizing High-Dimensional Physics Simulations via Composite Bayesian Optimization
Machine Learning
2021-12-01 v1 Artificial Intelligence
Abstract
Physical simulation-based optimization is a common task in science and engineering. Many such simulations produce image- or tensor-based outputs where the desired objective is a function of those outputs, and optimization is performed over a high-dimensional parameter space. We develop a Bayesian optimization method leveraging tensor-based Gaussian process surrogates and trust region Bayesian optimization to effectively model the image outputs and to efficiently optimize these types of simulations, including a radio-frequency tower configuration problem and an optical design problem.
Cite
@article{arxiv.2111.14911,
title = {Optimizing High-Dimensional Physics Simulations via Composite Bayesian Optimization},
author = {Wesley Maddox and Qing Feng and Max Balandat},
journal= {arXiv preprint arXiv:2111.14911},
year = {2021}
}
Comments
Fourth Workshop on Machine Learning and the Physical Sciences at NeurIPS 2021