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arxiv 2406.12898 v1 pith:SEB4NK4J submitted 2024-06-08 physics.ins-det cs.AIhep-exphysics.data-an

A Comprehensive Evaluation of Generative Models in Calorimeter Shower Simulation

classification physics.ins-det cs.AIhep-exphysics.data-an
keywords modelsparticleevaluationdatagenerativephysicssimulationcomprehensive
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The pursuit of understanding fundamental particle interactions has reached unparalleled precision levels. Particle physics detectors play a crucial role in generating low-level object signatures that encode collision physics. However, simulating these particle collisions is a demanding task in terms of memory and computation which will be exasperated with larger data volumes, more complex detectors, and a higher pileup environment in the High-Luminosity LHC. The introduction of "Fast Simulation" has been pivotal in overcoming computational bottlenecks. The use of deep-generative models has sparked a surge of interest in surrogate modeling for detector simulations, generating particle showers that closely resemble the observed data. Nonetheless, there is a pressing need for a comprehensive evaluation of their performance using a standardized set of metrics. In this study, we conducted a rigorous evaluation of three generative models using standard datasets and a diverse set of metrics derived from physics, computer vision, and statistics. Furthermore, we explored the impact of using full versus mixed precision modes during inference. Our evaluation revealed that the CaloDiffusion and CaloScore generative models demonstrate the most accurate simulation of particle showers, yet there remains substantial room for improvement. Our findings identified areas where the evaluated models fell short in accurately replicating Geant4 data.

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