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The design of a distributed key-value store for petascale hot storage in data acquisition systems

Data acquisition systems for high energy physics experiments read-out terabytes of data per second from a large number of electronic components. They are thus inherently distributed systems and require fast online data selection, otherwise requirements for permanent storage would be enormous. Still,...

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Detalles Bibliográficos
Autores principales: Cicalese, Danilo, Jereczek, Grzegorz, Le Goff, Fabrice, Lehmann Miotto, Giovanna, Love, Jeremy, Maciejewski, Maciej, Mommsen, Remigius K, Radtke, Jakub, Schmiegel, Jakub, Szychowska, Malgorzata
Lenguaje:eng
Publicado: 2019
Materias:
Acceso en línea:https://dx.doi.org/10.1051/epjconf/201921401014
http://cds.cern.ch/record/2702025
Descripción
Sumario:Data acquisition systems for high energy physics experiments read-out terabytes of data per second from a large number of electronic components. They are thus inherently distributed systems and require fast online data selection, otherwise requirements for permanent storage would be enormous. Still, incoming data need to be buffered while waiting for this selection to happen. Each minute of an experiment can produce hundreds of terabytes that cannot be lost before a selection decision is made. In this context, we present the design of DAQDB (Data Acquisition Database) — a distributed key-value store for high-bandwidth, generic data storage in event-driven systems. DAQDB offers not only high-capacity and low-latency buffer for fast data selection, but also opens a new approach in high-bandwidth data acquisition by decoupling the lifetime of the data analysis processes from the changing event rate due to the duty cycle of the data source. This is achievable by the option to extend its capacity even up to hundreds of petabytes to store hours of an experiment’s data. Our initial performance evaluation shows that DAQDB is a promising alternative to generic database solutions for the high luminosity upgrades of the LHC at CERN.