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BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics / Ed Bennett; Biagio Lucini; Luigi Del Debbio; Kirk Jordan; Agostino Patella; Claudio Pica; Antonio Rago; Edward Bennett

2016 International Conference on High Performance Computing & Simulation (HPCS), Pages: 834 - 839

Swansea University Authors: Biagio, Lucini, Edward, Bennett

DOI (Published version): 10.1109/HPCSim.2016.7568421

Abstract

Lattice Quantum ChromoDynamics (QCD), and by extension its parent field, Lattice Gauge Theory (LGT), make up a significant fraction of supercomputing cycles worldwide. As such, it would be irresponsible not to evaluate machines’ suitability for such applications. To this end, a benchmark has been de...

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Published in: 2016 International Conference on High Performance Computing & Simulation (HPCS)
ISBN: 978-1-5090-2088-1
Published: IEEE 2016
Online Access: http://ieeexplore.ieee.org/document/7568421/
URI: https://cronfa.swan.ac.uk/Record/cronfa28244
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spelling 2017-08-03T13:29:02.2349228 v2 28244 2016-05-21 BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics 7e6fcfe060e07a351090e2a8aba363cf 0000-0001-8974-8266 Biagio Lucini Biagio Lucini true false e1a8e7927d2b093acdc54e74eac95e38 0000-0002-1678-6701 Edward Bennett Edward Bennett true false 2016-05-21 SMA Lattice Quantum ChromoDynamics (QCD), and by extension its parent field, Lattice Gauge Theory (LGT), make up a significant fraction of supercomputing cycles worldwide. As such, it would be irresponsible not to evaluate machines’ suitability for such applications. To this end, a benchmark has been developed to assess the performance of LGT applications on modern HPC platforms. Distinct from previous QCD-based benchmarks, this allows probing the behaviour of a variety of theories, which allows varying the ratio of demands between on- node computations and inter-node communications. The results of testing this benchmark on various recent HPC platforms are presented, and directions for future development are discussed. Conference Paper/Proceeding/Abstract 2016 International Conference on High Performance Computing & Simulation (HPCS) 834 839 IEEE 978-1-5090-2088-1 benchmarking,quantum chromodynamics,beyond the standard model,Xeon Phi 15 9 2016 2016-09-15 10.1109/HPCSim.2016.7568421 http://ieeexplore.ieee.org/document/7568421/ © 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. COLLEGE NANME Mathematics COLLEGE CODE SMA Swansea University 2017-08-03T13:29:02.2349228 2016-05-21T23:55:23.3439253 College of Science Physics Ed Bennett 1 Biagio Lucini 0000-0001-8974-8266 2 Luigi Del Debbio 3 Kirk Jordan 4 Agostino Patella 5 Claudio Pica 6 Antonio Rago 7 Edward Bennett 0000-0002-1678-6701 8 0028244-22052016000307.pdf hpcs.pdf 2016-05-22T00:03:07.7430000 Output 212735 application/pdf Accepted Manuscript true 2016-05-22T00:00:00.0000000 Copyright 2016 IEEE true
title BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
spellingShingle BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
Biagio, Lucini
Edward, Bennett
title_short BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
title_full BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
title_fullStr BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
title_full_unstemmed BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
title_sort BSMBench: A flexible and scalable HPC benchmark from beyond the standard model physics
author_id_str_mv 7e6fcfe060e07a351090e2a8aba363cf
e1a8e7927d2b093acdc54e74eac95e38
author_id_fullname_str_mv 7e6fcfe060e07a351090e2a8aba363cf_***_Biagio, Lucini
e1a8e7927d2b093acdc54e74eac95e38_***_Edward, Bennett
author Biagio, Lucini
Edward, Bennett
author2 Ed Bennett
Biagio Lucini
Luigi Del Debbio
Kirk Jordan
Agostino Patella
Claudio Pica
Antonio Rago
Edward Bennett
format Conference Paper/Proceeding/Abstract
container_title 2016 International Conference on High Performance Computing & Simulation (HPCS)
container_start_page 834
publishDate 2016
institution Swansea University
isbn 978-1-5090-2088-1
doi_str_mv 10.1109/HPCSim.2016.7568421
publisher IEEE
college_str College of Science
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hierarchy_top_title College of Science
hierarchy_parent_id collegeofscience
hierarchy_parent_title College of Science
department_str Physics{{{_:::_}}}College of Science{{{_:::_}}}Physics
url http://ieeexplore.ieee.org/document/7568421/
document_store_str 1
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description Lattice Quantum ChromoDynamics (QCD), and by extension its parent field, Lattice Gauge Theory (LGT), make up a significant fraction of supercomputing cycles worldwide. As such, it would be irresponsible not to evaluate machines’ suitability for such applications. To this end, a benchmark has been developed to assess the performance of LGT applications on modern HPC platforms. Distinct from previous QCD-based benchmarks, this allows probing the behaviour of a variety of theories, which allows varying the ratio of demands between on- node computations and inter-node communications. The results of testing this benchmark on various recent HPC platforms are presented, and directions for future development are discussed.
published_date 2016-09-15T03:43:00Z
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score 10.766149