A survey of machine learning-based physics event generation

06/01/2021

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Event generators in high-energy nuclear and particle physics play an important role in facilitating studies of particle reactions. We survey the state-of-the-art of machine learning (ML) efforts at building physics event generators. We review ML generative models used in ML-based event generators and their specific challenges, and discuss various approaches of incorporating physics into the ML model designs to overcome these challenges. Finally, we explore some open questions related to super-resolution, fidelity, and extrapolation for physics event generation based on ML technology.

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A survey of machine learning-based physics event generation

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BROOD: Bilevel and Robust Optimization and Outlier Detection for Efficient Tuning of High-Energy Physics Event Generators

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Design and engineering of a simplified workflow execution for the MG5aMC event generator on GPUs and vector CPUs

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A survey of machine learning-based physics event generation

Related Research

Advances in machine-learning-based sampling motivated by lattice quantum chromodynamics

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GANplifying Event Samples

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Design and engineering of a simplified workflow execution for the MG5aMC event generator on GPUs and vector CPUs

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