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Data Acquisition System of the CLOUD Experiment at CERN

The Cosmics Leaving OUtdoor Droplets (CLOUD) experiment at the European Organization for Nuclear Research (CERN) is investigating the nucleation and growth of aerosol particles under atmospheric conditions and their activation into cloud droplets. The experiment comprises an ultraclean 26 m3chamber...

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Autores principales: Weber, Stefan K, Miotto, Giovanna Lehmann, Almeida, João, Blanc, Pascal Herve, Dias, António, Malaguti, Giulio, Manninen, Hanna E, Pfeifer, Joschka, Ravat, Sylvain, Onnela, Antti, Mathot, Serge, Kirkby, Jasper, Tomé, António, Amorim, António
Lenguaje:eng
Publicado: 2021
Acceso en línea:https://dx.doi.org/10.1109/TIM.2020.3023210
http://cds.cern.ch/record/2748163
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author Weber, Stefan K
Miotto, Giovanna Lehmann
Almeida, João
Blanc, Pascal Herve
Dias, António
Malaguti, Giulio
Manninen, Hanna E
Pfeifer, Joschka
Ravat, Sylvain
Onnela, Antti
Mathot, Serge
Kirkby, Jasper
Tomé, António
Amorim, António
author_facet Weber, Stefan K
Miotto, Giovanna Lehmann
Almeida, João
Blanc, Pascal Herve
Dias, António
Malaguti, Giulio
Manninen, Hanna E
Pfeifer, Joschka
Ravat, Sylvain
Onnela, Antti
Mathot, Serge
Kirkby, Jasper
Tomé, António
Amorim, António
author_sort Weber, Stefan K
collection CERN
description The Cosmics Leaving OUtdoor Droplets (CLOUD) experiment at the European Organization for Nuclear Research (CERN) is investigating the nucleation and growth of aerosol particles under atmospheric conditions and their activation into cloud droplets. The experiment comprises an ultraclean 26 m3chamber and its associated systems (the CLOUD facility) together with a suite of around 50 advanced instruments attached to the chamber via sampling probes to analyze its contents. The set of instruments changes for each experimental campaign according to the scientific goals. The central function of the CLOUD DAQ (data acquisition) system is to combine the data from these autonomous and inhomogeneous instruments into a single, integrated CLOUD experiment database. The DAQ system needs to be highly adaptable to allow a fast setup over a single installation week at the start of each campaign when the instruments are brought to CERN and installed at the CLOUD chamber. Each campaign requires high flexibility and fast response to changes in instrument configuration or experimental parameters. The experiments require online monitoring of the physical and chemical measurements with delays of only a few seconds. In addition, the raw data, the monitoring databases, and the processed data must be archived and provided to the international collaboration for both real-time and later analyses. We will describe the various components of the CLOUD DAQ and computing infrastructure, together with the reasons for the chosen solutions.
id oai-inspirehep.net-1833019
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2021
record_format invenio
spelling oai-inspirehep.net-18330192023-06-13T15:06:29Zdoi:10.1109/TIM.2020.3023210http://cds.cern.ch/record/2748163engWeber, Stefan KMiotto, Giovanna LehmannAlmeida, JoãoBlanc, Pascal HerveDias, AntónioMalaguti, GiulioManninen, Hanna EPfeifer, JoschkaRavat, SylvainOnnela, AnttiMathot, SergeKirkby, JasperTomé, AntónioAmorim, AntónioData Acquisition System of the CLOUD Experiment at CERNThe Cosmics Leaving OUtdoor Droplets (CLOUD) experiment at the European Organization for Nuclear Research (CERN) is investigating the nucleation and growth of aerosol particles under atmospheric conditions and their activation into cloud droplets. The experiment comprises an ultraclean 26 m3chamber and its associated systems (the CLOUD facility) together with a suite of around 50 advanced instruments attached to the chamber via sampling probes to analyze its contents. The set of instruments changes for each experimental campaign according to the scientific goals. The central function of the CLOUD DAQ (data acquisition) system is to combine the data from these autonomous and inhomogeneous instruments into a single, integrated CLOUD experiment database. The DAQ system needs to be highly adaptable to allow a fast setup over a single installation week at the start of each campaign when the instruments are brought to CERN and installed at the CLOUD chamber. Each campaign requires high flexibility and fast response to changes in instrument configuration or experimental parameters. The experiments require online monitoring of the physical and chemical measurements with delays of only a few seconds. In addition, the raw data, the monitoring databases, and the processed data must be archived and provided to the international collaboration for both real-time and later analyses. We will describe the various components of the CLOUD DAQ and computing infrastructure, together with the reasons for the chosen solutions.oai:inspirehep.net:18330192021
spellingShingle Weber, Stefan K
Miotto, Giovanna Lehmann
Almeida, João
Blanc, Pascal Herve
Dias, António
Malaguti, Giulio
Manninen, Hanna E
Pfeifer, Joschka
Ravat, Sylvain
Onnela, Antti
Mathot, Serge
Kirkby, Jasper
Tomé, António
Amorim, António
Data Acquisition System of the CLOUD Experiment at CERN
title Data Acquisition System of the CLOUD Experiment at CERN
title_full Data Acquisition System of the CLOUD Experiment at CERN
title_fullStr Data Acquisition System of the CLOUD Experiment at CERN
title_full_unstemmed Data Acquisition System of the CLOUD Experiment at CERN
title_short Data Acquisition System of the CLOUD Experiment at CERN
title_sort data acquisition system of the cloud experiment at cern
url https://dx.doi.org/10.1109/TIM.2020.3023210
http://cds.cern.ch/record/2748163
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