Extension of the INFN Tier-1 on a HPC system

The INFN Tier-1 located at CNAF in Bologna (Italy) is a center of the WLCG e-Infrastructure, supporting the 4 major LHC collaborations and more than 30 other INFN-related experiments.After multiple tests towards elastic expansion of CNAF compute power via Cloud resources (provided by Azure, Aruba an...

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Autores principales: Boccali, Tommaso, Dal Pra, Stefano, Spiga, Daniele, Ciangottini, Diego, Zani, Stefano, Bozzi, Concezio, De Salvo, Alessandro, Valassi, Andrea, Noferini, Francesco, Agnello, Luca dell, Stagni, Federico, Doria, Alessandra, Bonacorsi, Daniele
Lenguaje:eng
Publicado: 2020
Materias:
hep-ex
Particle Physics - Experiment
physics.comp-ph
Other Fields of Physics
Acceso en línea:https://dx.doi.org/10.1051/epjconf/202024509009
http://cds.cern.ch/record/2724100
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author Boccali, Tommaso
Dal Pra, Stefano
Spiga, Daniele
Ciangottini, Diego
Zani, Stefano
Bozzi, Concezio
De Salvo, Alessandro
Valassi, Andrea
Noferini, Francesco
Agnello, Luca dell
Stagni, Federico
Doria, Alessandra
Bonacorsi, Daniele
author_facet Boccali, Tommaso
Dal Pra, Stefano
Spiga, Daniele
Ciangottini, Diego
Zani, Stefano
Bozzi, Concezio
De Salvo, Alessandro
Valassi, Andrea
Noferini, Francesco
Agnello, Luca dell
Stagni, Federico
Doria, Alessandra
Bonacorsi, Daniele
author_sort Boccali, Tommaso
collection CERN
description The INFN Tier-1 located at CNAF in Bologna (Italy) is a center of the WLCG e-Infrastructure, supporting the 4 major LHC collaborations and more than 30 other INFN-related experiments.After multiple tests towards elastic expansion of CNAF compute power via Cloud resources (provided by Azure, Aruba and in the framework of the HNSciCloud project), and building on the experience gained with the production quality extension of the Tier-1 farm on remote owned sites, the CNAF team, in collaboration with experts from the ALICE, ATLAS, CMS, and LHCb experiments, has been working to put in production a solution of an integrated HTC+HPC system with the PRACE CINECA center, located nearby Bologna. Such extension will be implemented on the Marconi A2 partition, equipped with Intel Knights Landing (KNL) processors. A number of technical challenges were faced and solved in order to successfully run on low RAM nodes, as well as to overcome the closed environment (network, access, software distribution, … ) that HPC systems deploy with respect to standard GRID sites. We show preliminary results from a large scale integration effort, using resources secured via the successful PRACE grant N. 2018194658, for 30 million KNL core hours.
id cern-2724100
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
record_format invenio
spelling cern-27241002021-03-17T03:49:50Zdoi:10.1051/epjconf/202024509009http://cds.cern.ch/record/2724100engBoccali, TommasoDal Pra, StefanoSpiga, DanieleCiangottini, DiegoZani, StefanoBozzi, ConcezioDe Salvo, AlessandroValassi, AndreaNoferini, FrancescoAgnello, Luca dellStagni, FedericoDoria, AlessandraBonacorsi, DanieleExtension of the INFN Tier-1 on a HPC systemhep-exParticle Physics - Experimentphysics.comp-phOther Fields of PhysicsThe INFN Tier-1 located at CNAF in Bologna (Italy) is a center of the WLCG e-Infrastructure, supporting the 4 major LHC collaborations and more than 30 other INFN-related experiments.After multiple tests towards elastic expansion of CNAF compute power via Cloud resources (provided by Azure, Aruba and in the framework of the HNSciCloud project), and building on the experience gained with the production quality extension of the Tier-1 farm on remote owned sites, the CNAF team, in collaboration with experts from the ALICE, ATLAS, CMS, and LHCb experiments, has been working to put in production a solution of an integrated HTC+HPC system with the PRACE CINECA center, located nearby Bologna. Such extension will be implemented on the Marconi A2 partition, equipped with Intel Knights Landing (KNL) processors. A number of technical challenges were faced and solved in order to successfully run on low RAM nodes, as well as to overcome the closed environment (network, access, software distribution, … ) that HPC systems deploy with respect to standard GRID sites. We show preliminary results from a large scale integration effort, using resources secured via the successful PRACE grant N. 2018194658, for 30 million KNL core hours.The INFN Tier-1 located at CNAF in Bologna (Italy) is a center of the WLCG e-Infrastructure, supporting the 4 major LHC collaborations and more than 30 other INFN-related experiments. After multiple tests towards elastic expansion of CNAF compute power via Cloud resources (provided by Azure, Aruba and in the framework of the HNSciCloud project), and building on the experience gained with the production quality extension of the Tier-1 farm on remote owned sites, the CNAF team, in collaboration with experts from the ALICE, ATLAS, CMS, and LHCb experiments, has been working to put in production a solution of an integrated HTC+HPC system with the PRACE CINECA center, located nearby Bologna. Such extension will be implemented on the Marconi A2 partition, equipped with Intel Knights Landing (KNL) processors. A number of technical challenges were faced and solved in order to successfully run on low RAM nodes, as well as to overcome the closed environment (network, access, software distribution, ... ) that HPC systems deploy with respect to standard GRID sites. We show preliminary results from a large scale integration effort, using resources secured via the successful PRACE grant N. 2018194658, for 30 million KNL core hours.arXiv:2006.14603oai:cds.cern.ch:27241002020
spellingShingle hep-ex
Particle Physics - Experiment
physics.comp-ph
Other Fields of Physics
Boccali, Tommaso
Dal Pra, Stefano
Spiga, Daniele
Ciangottini, Diego
Zani, Stefano
Bozzi, Concezio
De Salvo, Alessandro
Valassi, Andrea
Noferini, Francesco
Agnello, Luca dell
Stagni, Federico
Doria, Alessandra
Bonacorsi, Daniele
Extension of the INFN Tier-1 on a HPC system
title Extension of the INFN Tier-1 on a HPC system
title_full Extension of the INFN Tier-1 on a HPC system
title_fullStr Extension of the INFN Tier-1 on a HPC system
title_full_unstemmed Extension of the INFN Tier-1 on a HPC system
title_short Extension of the INFN Tier-1 on a HPC system
title_sort extension of the infn tier-1 on a hpc system
topic hep-ex
Particle Physics - Experiment
physics.comp-ph
Other Fields of Physics
url https://dx.doi.org/10.1051/epjconf/202024509009
http://cds.cern.ch/record/2724100
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AT bonacorsidaniele extensionoftheinfntier1onahpcsystem

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