Versatile Energy-Based Probabilistic Models for High Energy Physics
Abstract
As a classical generative modeling approach, energy-based models have the natural advantage of flexibility in the form of the energy function. Recently, energy-based models have achieved great success in modeling high-dimensional data in computer vision and natural language processing. In line with these advancements, we build a multi-purpose energy-based probabilistic model for High Energy Physics events at the Large Hadron Collider. This framework builds on a powerful generative model and describes higher-order inter-particle interactions. It suits different encoding architectures and builds on implicit generation. As for applicative aspects, it can serve as a powerful parameterized event generator for physics simulation, a generic anomalous signal detector free from spurious correlations, and an augmented event classifier for particle identification.
Cite
Text
Cheng and Courville. "Versatile Energy-Based Probabilistic Models for High Energy Physics." Neural Information Processing Systems, 2023.Markdown
[Cheng and Courville. "Versatile Energy-Based Probabilistic Models for High Energy Physics." Neural Information Processing Systems, 2023.](https://mlanthology.org/neurips/2023/cheng2023neurips-versatile/)BibTeX
@inproceedings{cheng2023neurips-versatile,
title = {{Versatile Energy-Based Probabilistic Models for High Energy Physics}},
author = {Cheng, Taoli and Courville, Aaron C.},
booktitle = {Neural Information Processing Systems},
year = {2023},
url = {https://mlanthology.org/neurips/2023/cheng2023neurips-versatile/}
}