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Journal Article PUBDB-2022-02526
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Getting High: High Fidelity Simulation of High Granularity Calorimeters with High Speed

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2021
Springer International Publishing Cham, Switzerland

Computing and software for big science 5(1), 13 () [10.1007/s41781-021-00056-0]
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Report No.: DESY-20-075; arXiv:2005.05334

Abstract: Accurate simulation of physical processes is crucial for the success of modern particle physics. However, simulating the development and interaction of particle showers with calorimeter detectors is a time consuming process and drives the computing needs of large experiments at the LHC and future colliders. Recently, generative machine learning models based on deep neural networks have shown promise in speeding up this task by several orders of magnitude. We investigate the use of a new architecture—the Bounded Information Bottleneck Autoencoder—for modelling electromagnetic showers in the central region of the Silicon-Tungsten calorimeter of the proposed International Large Detector. Combined with a novel second post-processing network, this approach achieves an accurate simulation of differential distributions including for the first time the shape of the minimum-ionizing-particle peak compared to a full Geant4 simulation for a high-granularity calorimeter with 27k simulated channels. The results are validated by comparing to established architectures. Our results further strengthen the case of using generative networks for fast simulation and demonstrate that physically relevant differential distributions can be described with high accuracy.

Keyword(s): calorimeter ; iron ; tungsten ; showers: electromagnetic ; particle: interaction ; neural network ; GEANT ; ILD detector ; artificial intelligence ; numerical calculations ; numerical methods ; performance ; Deep learning ; Generative models ; Calorimeter ; Simulation ; High granularity ; GAN ; WGAN ; BIB-AE

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Note: Computing and Software for Big Science 5, 13 (2021). 17 pages, 12 figures
Contributing Institute(s):
  1. Experimente an Lepton Collidern (FLC)
Research Program(s):
  1. 611 - Fundamental Particles and Forces (POF3-611) (POF3-611)
Experiment(s):
  1. Facility (machine) ILC
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Creative Commons Attribution CC BY 4.0 ; OpenAccess
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Getting High: High Fidelity Simulation of High Granularity Calorimeters with High Speed
arxiv hep-ex 1-15 () [10.3204/PUBDB-2020-01630]  GO OpenAccess  Download fulltext Files  Download fulltextFulltext by arXiv.org BibTeX | EndNote: XML, Text | RIS

 Record created 2022-05-10, last modified 2025-07-20
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