Design and implementation of the AMIGA embedded system for data acquisition

The Pierre Auger Collaboration; Olaf Scholten

doi:10.1088/1748-0221/16/07/T07008

Design and implementation of the AMIGA embedded system for data acquisition

The Pierre Auger Collaboration, Olaf Scholten

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Abstract

The Auger Muon Infill Ground Array (AMIGA) is part of the AugerPrime upgrade of the Pierre Auger Observatory. It consists of particle counters buried 2.3 m underground next to the water-Cherenkov stations that form the 23.5 km2 large infilled array. The reduced distance between detectors in this denser area allows the lowering of the energy threshold for primary cosmic ray reconstruction down to about 1017 eV. At the depth of 2.3 m the electromagnetic component of cosmic ray showers is almost entirely absorbed so that the buried scintillators provide an independent and direct measurement of the air showers muon content. This work describes the design and implementation of the AMIGA embedded system, which provides centralized control, data acquisition and environment monitoring to its detectors. The presented system was firstly tested in the engineering array phase ended in 2017, and lately selected as the final design to be installed in all new detectors of the production phase. The system was proven to be robust and reliable and has worked in a stable manner since its first deployment.

Original language	English
Article number	T07008
Journal	Journal of Instrumentation
Volume	16
Issue number	7
DOIs	https://doi.org/10.1088/1748-0221/16/07/T07008
Publication status	Published - Jul-2021

Keywords

Control and monitor systems online
Data acquisition concepts
Detector control systems (detector and experiment monitoring and slow-control systems, architecture, hardware, algorithms, databases)
Particle detectors

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10.1088/1748-0221/16/07/T07008Licence: CC BY

Design and implementation of the AMIGA embedded system for data acquisitionFinal publisher's version, 3.46 MBLicence: CC BY

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title = "Design and implementation of the AMIGA embedded system for data acquisition",

abstract = "The Auger Muon Infill Ground Array (AMIGA) is part of the AugerPrime upgrade of the Pierre Auger Observatory. It consists of particle counters buried 2.3 m underground next to the water-Cherenkov stations that form the 23.5 km2 large infilled array. The reduced distance between detectors in this denser area allows the lowering of the energy threshold for primary cosmic ray reconstruction down to about 1017 eV. At the depth of 2.3 m the electromagnetic component of cosmic ray showers is almost entirely absorbed so that the buried scintillators provide an independent and direct measurement of the air showers muon content. This work describes the design and implementation of the AMIGA embedded system, which provides centralized control, data acquisition and environment monitoring to its detectors. The presented system was firstly tested in the engineering array phase ended in 2017, and lately selected as the final design to be installed in all new detectors of the production phase. The system was proven to be robust and reliable and has worked in a stable manner since its first deployment.",

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author = "{The Pierre Auger Collaboration} and A. Aab and P. Abreu and M. Aglietta and Albury, {J. M.} and I. Allekotte and A. Almela and Olaf Scholten",

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AU - The Pierre Auger Collaboration

AU - Aab, A.

AU - Abreu, P.

AU - Aglietta, M.

AU - Albury, J. M.

AU - Allekotte, I.

AU - Almela, A.

AU - Scholten, Olaf

PY - 2021/7

Y1 - 2021/7

N2 - The Auger Muon Infill Ground Array (AMIGA) is part of the AugerPrime upgrade of the Pierre Auger Observatory. It consists of particle counters buried 2.3 m underground next to the water-Cherenkov stations that form the 23.5 km2 large infilled array. The reduced distance between detectors in this denser area allows the lowering of the energy threshold for primary cosmic ray reconstruction down to about 1017 eV. At the depth of 2.3 m the electromagnetic component of cosmic ray showers is almost entirely absorbed so that the buried scintillators provide an independent and direct measurement of the air showers muon content. This work describes the design and implementation of the AMIGA embedded system, which provides centralized control, data acquisition and environment monitoring to its detectors. The presented system was firstly tested in the engineering array phase ended in 2017, and lately selected as the final design to be installed in all new detectors of the production phase. The system was proven to be robust and reliable and has worked in a stable manner since its first deployment.

AB - The Auger Muon Infill Ground Array (AMIGA) is part of the AugerPrime upgrade of the Pierre Auger Observatory. It consists of particle counters buried 2.3 m underground next to the water-Cherenkov stations that form the 23.5 km2 large infilled array. The reduced distance between detectors in this denser area allows the lowering of the energy threshold for primary cosmic ray reconstruction down to about 1017 eV. At the depth of 2.3 m the electromagnetic component of cosmic ray showers is almost entirely absorbed so that the buried scintillators provide an independent and direct measurement of the air showers muon content. This work describes the design and implementation of the AMIGA embedded system, which provides centralized control, data acquisition and environment monitoring to its detectors. The presented system was firstly tested in the engineering array phase ended in 2017, and lately selected as the final design to be installed in all new detectors of the production phase. The system was proven to be robust and reliable and has worked in a stable manner since its first deployment.

KW - Control and monitor systems online

KW - Data acquisition concepts

KW - Detector control systems (detector and experiment monitoring and slow-control systems, architecture, hardware, algorithms, databases)

KW - Particle detectors

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Design and implementation of the AMIGA embedded system for data acquisition

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