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Enabling distributed analysis for ALICE Run 3

The ALICE Collaboration has just finished a major detector upgrade that increases the data-taking rate capability by two orders of magnitude and will allow to collect unprecedented data samples. For example, the analysis input for 1 month of Pb-Pb collisions amounts to about 5 PB. In order to enable...

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Autor principal: Raluca Cruceru, Ionela Lavinia
Lenguaje:eng
Publicado: 2022
Materias:
Acceso en línea:https://dx.doi.org/10.22323/1.414.0211
http://cds.cern.ch/record/2847567
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author Raluca Cruceru, Ionela Lavinia
author_facet Raluca Cruceru, Ionela Lavinia
author_sort Raluca Cruceru, Ionela Lavinia
collection CERN
description The ALICE Collaboration has just finished a major detector upgrade that increases the data-taking rate capability by two orders of magnitude and will allow to collect unprecedented data samples. For example, the analysis input for 1 month of Pb-Pb collisions amounts to about 5 PB. In order to enable analysis on such large data samples, the ALICE distributed infrastructure was revised and dedicated tools for Run 3 analysis were created. These are firstly the O2 analysis framework that builds on a multi-process architecture exchanging a flat data format through shared memory implemented in C++. Secondly, the Hyperloop train system for distributed analysis on the Grid and on dedicated analysis facilities implemented in Java/Javascript/React. These systems have been commissioned with converted Run 2 data and with the recent LHC pilot beam and are ready for data analysis for the start of Run 3. This contribution discusses the requirements and the used concepts, providing details on the actual implementation. The status of the operation in particular with respect to the LHC pilot beam will also be discussed.
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institution Organización Europea para la Investigación Nuclear
language eng
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spelling cern-28475672023-01-31T10:49:47Zdoi:10.22323/1.414.0211http://cds.cern.ch/record/2847567engRaluca Cruceru, Ionela LaviniaEnabling distributed analysis for ALICE Run 3hep-exParticle Physics - Experimentphysics.ins-detDetectors and Experimental TechniquesThe ALICE Collaboration has just finished a major detector upgrade that increases the data-taking rate capability by two orders of magnitude and will allow to collect unprecedented data samples. For example, the analysis input for 1 month of Pb-Pb collisions amounts to about 5 PB. In order to enable analysis on such large data samples, the ALICE distributed infrastructure was revised and dedicated tools for Run 3 analysis were created. These are firstly the O2 analysis framework that builds on a multi-process architecture exchanging a flat data format through shared memory implemented in C++. Secondly, the Hyperloop train system for distributed analysis on the Grid and on dedicated analysis facilities implemented in Java/Javascript/React. These systems have been commissioned with converted Run 2 data and with the recent LHC pilot beam and are ready for data analysis for the start of Run 3. This contribution discusses the requirements and the used concepts, providing details on the actual implementation. The status of the operation in particular with respect to the LHC pilot beam will also be discussed.The ALICE Collaboration has just finished a major detector upgrade that increases the data-taking rate capability by two orders of magnitude and will allow to collect unprecedented data samples. For example, the analysis input for 1 month of Pb-Pb collisions amounts to about 5 PB. In order to enable analysis on such large data samples, the ALICE distributed infrastructure was revised and dedicated tools for Run 3 analysis were created. These are firstly the $\mathrm{O^2}$ analysis framework that builds on a multi-process architecture exchanging a flat data format through shared memory implemented in C++. Secondly, the Hyperloop train system for distributed analysis on the Grid and on dedicated analysis facilities implemented in Java/Javascript/React. These systems have been commissioned with converted Run 2 data and with the recent LHC pilot beam and are ready for data analysis for the start of Run 3. This contribution discusses the requirements and the used concepts, providing details on the actual implementation. The status of the operation in particular with respect to the LHC pilot beam will also be discussed.arXiv:2211.12276oai:cds.cern.ch:28475672022-11-22
spellingShingle hep-ex
Particle Physics - Experiment
physics.ins-det
Detectors and Experimental Techniques
Raluca Cruceru, Ionela Lavinia
Enabling distributed analysis for ALICE Run 3
title Enabling distributed analysis for ALICE Run 3
title_full Enabling distributed analysis for ALICE Run 3
title_fullStr Enabling distributed analysis for ALICE Run 3
title_full_unstemmed Enabling distributed analysis for ALICE Run 3
title_short Enabling distributed analysis for ALICE Run 3
title_sort enabling distributed analysis for alice run 3
topic hep-ex
Particle Physics - Experiment
physics.ins-det
Detectors and Experimental Techniques
url https://dx.doi.org/10.22323/1.414.0211
http://cds.cern.ch/record/2847567
work_keys_str_mv AT ralucacruceruionelalavinia enablingdistributedanalysisforalicerun3