Mikołaj Kita, Jan Dubiński, Przemysław Rokita, Kamil Deja
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引用次数: 0
Abstract
In High Energy Physics simulations play a crucial role in unraveling the
complexities of particle collision experiments within CERN's Large Hadron
Collider. Machine learning simulation methods have garnered attention as
promising alternatives to traditional approaches. While existing methods mainly
employ Variational Autoencoders (VAEs) or Generative Adversarial Networks
(GANs), recent advancements highlight the efficacy of diffusion models as
state-of-the-art generative machine learning methods. We present the first
simulation for Zero Degree Calorimeter (ZDC) at the ALICE experiment based on
diffusion models, achieving the highest fidelity compared to existing
baselines. We perform an analysis of trade-offs between generation times and
the simulation quality. The results indicate a significant potential of latent
diffusion model due to its rapid generation time.
在欧洲核子研究中心的大型强子对撞机中,高能物理模拟在揭示粒子对撞实验的复杂性方面发挥着至关重要的作用。机器学习仿真方法作为传统方法的替代品备受关注。虽然现有方法主要采用变异自动编码器(VAE)或生成对抗网络(GAN),但最近的进展凸显了扩散模型作为最先进的生成机器学习方法的功效。我们首次基于扩散模型在 ALICE 实验中模拟了零度量热器(ZDC),与现有基线相比达到了最高的保真度。我们对生成时间和仿真质量之间的权衡进行了分析。结果表明,延迟扩散模型因其快速生成时间而具有巨大潜力。
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