Integrated automation for configuration management and operations in the ATLAS online computing farm

Integrated automation for configuration management and operations in the ATLAS online computing farm

The online farm of the ATLAS experiment at the LHC, consisting of nearly 4000 PCs with various characteristics, provides configuration and control of the detector and performs the collection, processing, selection, and conveyance of event data from the front-end electronics to mass storage. Differen...

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Bibliographic Details
Published in:EPJ Web of Conferences Vol. 214; p. 8022
Main Authors: Amirkhanov, Artem, Ballestrero, Sergio, Brasolin, Franco, du Plessis, Haydn, Lee, Christopher Jon, Mitrogeorgos, Konstantinos, Pernigotti, Marco, Sanchez Pineda, Arturo, Scannicchio, Diana Alessandra, Twomey, Matthew Shaun
Format: Journal Article Conference Proceeding
Language:English
Published: Les Ulis EDP Sciences 01-01-2019
Subjects:
Agricultural management
Automation
Configuration management
Data sources
Ganglia
Information sources
Nodes
Tracking systems
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Summary:The online farm of the ATLAS experiment at the LHC, consisting of nearly 4000 PCs with various characteristics, provides configuration and control of the detector and performs the collection, processing, selection, and conveyance of event data from the front-end electronics to mass storage. Different aspects of the farm management are already accessible via several tools. The status and health of each node are monitored by a system based on Icinga 2 and Ganglia. PuppetDB gathers centrally all the status information from Puppet, the configuration management tool used to ensure configuration consistency of every node. The in-house Configuration Database (ConfDB) controls DHCP and PXE, while also integrating external information sources. In these proceedings we present our roadmap for integrating these and other data sources and systems, and building a higher level of abstraction on top of this foundation. An automation and orchestration tool will be able to use these systems and replace lengthy manual procedures, some of which also require interactions with other systems and teams, e.g. for the repair of a faulty node. Finally, an inventory and tracking system will complement the available data sources, keep track of node history, and improve the evaluation of long-term lifecycle management and purchase strategies.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/201921408022