Snowmass 2013 Computing Frontier: Accelerator Science

P. Spentzouris; E. Cormier-Michel; C. Joshi; J. Amundson and; W. An; D.L. Bruhwiler; J.R. Cary; B. Cowan; V.K. Decyk; E.; Esarey; R.A. Fonseca; A. Friedman; C.G.R. Geddes; D.P. Grote and; I. Kourbanis; W.P. Leemans; W. Lu; W.B. Mori; C. Ng; Ji Qiang; and T. Roberts; R.D. Ryne; C.B. Schroeder; L.O. Silva; F.S. Tsung; and J.-L. Vay; J. Vieira

arXiv:1310.2203·physics.acc-ph·October 9, 2013·2 cites

Snowmass 2013 Computing Frontier: Accelerator Science

P. Spentzouris, E. Cormier-Michel, C. Joshi, J. Amundson and, W. An, D.L. Bruhwiler, J.R. Cary, B. Cowan, V.K. Decyk, E., Esarey, R.A. Fonseca, A. Friedman, C.G.R. Geddes, D.P. Grote and, I. Kourbanis, W.P. Leemans, W. Lu, W.B. Mori, C. Ng, Ji Qiang, and T. Roberts, R.D. Ryne

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TL;DR

This paper summarizes the computing needs for accelerator technology in high-energy and intensity frontier physics, highlighting the challenges and requirements discussed during the Snowmass 2013 meeting.

Contribution

It provides a comprehensive overview of the computing requirements specific to accelerator science as discussed in the Snowmass 2013 workshop.

Findings

01

Identified key computing challenges for accelerator science.

02

Outlined future computing needs for high-energy physics accelerators.

03

Summarized community consensus on computing priorities.

Abstract

This is the working summary of the Accelerator Science working group of the Computing Frontier of the Snowmass meeting 2013. It summarizes the computing requirements to support accelerator technology in both Energy and Intensity Frontiers.

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Taxonomy

TopicsDistributed and Parallel Computing Systems