Detector and Beamline Simulation for Next-Generation High Energy Physics Experiments
Autor: | Banerjee, Sunanda, Brown, D. N., Brown, David N., Calafiura, Paolo, Calcutt, Jacob, Canal, Philippe, Diamond, Miriam, Elvira, Daniel, Evans, Thomas, Fatemi, Renee, Genser, Krzysztof, Hatcher, Robert, Himmel, Alexander, Johnson, Seth R., Jun, Soon Yung, Kelsey, Michael, Kourlitis, Evangelos, Kutschke, Robert K., Lima, Guilherme, Lynch, Kevin, Mahn, Kendall, Marshall, Zachary, Mooney, Michael, Para, Adam, Pascuzzi, Vincent R., Pedro, Kevin, Samoylov, Oleg, Snider, Erica, Snopok, Pavel, Szydagis, Matthew, Wenzel, Hans, Whitehead, Leigh H., Yang, Tingjun, Yarba, Julia |
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Rok vydání: | 2022 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | The success of high energy physics programs relies heavily on accurate detector simulations and beam interaction modeling. The increasingly complex detector geometries and beam dynamics require sophisticated techniques in order to meet the demands of current and future experiments. Common software tools used today are unable to fully utilize modern computational resources, while data-recording rates are often orders of magnitude larger than what can be produced via simulation. In this paper, we describe the state, current and future needs of high energy physics detector and beamline simulations and related challenges, and we propose a number of possible ways to address them. Comment: Contribution to Snowmass 2021 |
Databáze: | arXiv |
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