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Integration of XRootD into the cloud infrastructure for ALICE data analysis. / Kompaniets, M.; Shadura, O.; Svirin, P.; Yurchenko, V.; Zarochentsev, A.

Journal of Physics: Conference Series.. 2015. стр. 022036.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучнаяРецензирование

Harvard

Kompaniets, M, Shadura, O, Svirin, P, Yurchenko, V & Zarochentsev, A 2015, Integration of XRootD into the cloud infrastructure for ALICE data analysis. в Journal of Physics: Conference Series.. стр. 022036. https://doi.org/10.1088/1742-6596/664/2/022036

APA

Kompaniets, M., Shadura, O., Svirin, P., Yurchenko, V., & Zarochentsev, A. (2015). Integration of XRootD into the cloud infrastructure for ALICE data analysis. в Journal of Physics: Conference Series. (стр. 022036) https://doi.org/10.1088/1742-6596/664/2/022036

Vancouver

Kompaniets M, Shadura O, Svirin P, Yurchenko V, Zarochentsev A. Integration of XRootD into the cloud infrastructure for ALICE data analysis. в Journal of Physics: Conference Series.. 2015. стр. 022036 https://doi.org/10.1088/1742-6596/664/2/022036

Author

Kompaniets, M. ; Shadura, O. ; Svirin, P. ; Yurchenko, V. ; Zarochentsev, A. / Integration of XRootD into the cloud infrastructure for ALICE data analysis. Journal of Physics: Conference Series.. 2015. стр. 022036

BibTeX

@inproceedings{6197829944644d6599b2d47f5a38c214,
title = "Integration of XRootD into the cloud infrastructure for ALICE data analysis",
abstract = "Cloud technologies allow easy load balancing between different tasks and projects. From the viewpoint of the data analysis in the ALICE experiment, cloud allows to deploy software using Cern Virtual Machine (CernVM) and CernVM File System (CVMFS), to run different (including outdated) versions of software for long term data preservation and to dynamically allocate resources for different computing activities, e.g. grid site, ALICE Analysis Facility (AAF) and possible usage for local projects or other LHC experiments. We present a cloud solution for Tier-3 sites based on OpenStack and Ceph distributed storage with an integrated XRootD based storage element (SE). One of the key features of the solution is based on idea that Ceph has been used as a backend for Cinder Block Storage service for OpenStack, and in the same time as a storage backend for XRootD, with redundancy and availability of data preserved by Ceph settings. For faster and easier OpenStack deployment was applied the Packstack solution, which is b",
keywords = "Grid, cloud, xrootd, CEPH",
author = "M. Kompaniets and O. Shadura and P. Svirin and V. Yurchenko and A. Zarochentsev",
year = "2015",
doi = "10.1088/1742-6596/664/2/022036",
language = "English",
pages = "022036",
booktitle = "Journal of Physics: Conference Series.",

}

RIS

TY - GEN

T1 - Integration of XRootD into the cloud infrastructure for ALICE data analysis

AU - Kompaniets, M.

AU - Shadura, O.

AU - Svirin, P.

AU - Yurchenko, V.

AU - Zarochentsev, A.

PY - 2015

Y1 - 2015

N2 - Cloud technologies allow easy load balancing between different tasks and projects. From the viewpoint of the data analysis in the ALICE experiment, cloud allows to deploy software using Cern Virtual Machine (CernVM) and CernVM File System (CVMFS), to run different (including outdated) versions of software for long term data preservation and to dynamically allocate resources for different computing activities, e.g. grid site, ALICE Analysis Facility (AAF) and possible usage for local projects or other LHC experiments. We present a cloud solution for Tier-3 sites based on OpenStack and Ceph distributed storage with an integrated XRootD based storage element (SE). One of the key features of the solution is based on idea that Ceph has been used as a backend for Cinder Block Storage service for OpenStack, and in the same time as a storage backend for XRootD, with redundancy and availability of data preserved by Ceph settings. For faster and easier OpenStack deployment was applied the Packstack solution, which is b

AB - Cloud technologies allow easy load balancing between different tasks and projects. From the viewpoint of the data analysis in the ALICE experiment, cloud allows to deploy software using Cern Virtual Machine (CernVM) and CernVM File System (CVMFS), to run different (including outdated) versions of software for long term data preservation and to dynamically allocate resources for different computing activities, e.g. grid site, ALICE Analysis Facility (AAF) and possible usage for local projects or other LHC experiments. We present a cloud solution for Tier-3 sites based on OpenStack and Ceph distributed storage with an integrated XRootD based storage element (SE). One of the key features of the solution is based on idea that Ceph has been used as a backend for Cinder Block Storage service for OpenStack, and in the same time as a storage backend for XRootD, with redundancy and availability of data preserved by Ceph settings. For faster and easier OpenStack deployment was applied the Packstack solution, which is b

KW - Grid

KW - cloud

KW - xrootd

KW - CEPH

U2 - 10.1088/1742-6596/664/2/022036

DO - 10.1088/1742-6596/664/2/022036

M3 - Conference contribution

SP - 022036

BT - Journal of Physics: Conference Series.

ER -

ID: 3969698