Fast Point Cloud Generation with Diffusion Models in High Energy Physics
Published in arXiv, 2023
Recommended citation: Mikuni, V., Nachman, B., Pettee, M. (2023). Fast Point Cloud Generation with Diffusion Models in High Energy Physics. arXiv preprint arXiv:2304.01266. https://arxiv.org/abs/2304.01266
Many particle physics datasets like those generated at colliders are described by continuous coordinates (in contrast to grid points like in an image), respect a number of symmetries (like permutation invariance), and have a stochastic dimensionality. For this reason, standard deep generative models that produce images or at least a fixed set of features are limiting. We introduce a new neural network simulation based on a diffusion model that addresses these limitations named Fast Point Cloud Diffusion (FPCD). We show that our approach can reproduce the complex properties of hadronic jets from proton-proton collisions with competitive precision to other recently proposed models. Additionally, we use a procedure called progressive distillation to accelerate the generation time of our method, which is typically a significant challenge for diffusion models despite their state-of-the-art precision. Download paper here
Recommended citation:
@article{Mikuni:2023dvk,
author = "Mikuni, Vinicius and Nachman, Benjamin and Pettee, Mariel",
title = "{Fast Point Cloud Generation with Diffusion Models in High Energy Physics}",
eprint = "2304.01266",
archivePrefix = "arXiv",
primaryClass = "hep-ph",
month = "4",
year = "2023"
}