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FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades
The ATLAS experiment at CERN is planning full deployment of a new unified optical link technology for connecting detector front end electronics on the timescale of the LHC Run 4 (2025). It is estimated that roughly 8000 GBT (GigaBit Transceiver) links, with transfer rates up to 10.24~Gbps, will repl...
| Autores principales: | , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2015
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1742-6596/664/8/082050 http://cds.cern.ch/record/2016626 |
| _version_ | 1780946702253948928 |
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| author | Anderson, John Thomas Borga, Andrea Boterenbrood, Hendrik Chen, Hucheng Chen, Kai Drake, Gary Francis, David Gorini, Benedetto Lanni, Francesco Lehmann Miotto, Giovanna Levinson, Lorne Narevicius, Julia Plessl, Christian Roich, Alexander Ryu, Soo Schreuder, Frans Philip Schumacher, Jorn Vandelli, Wainer Vermeulen, Jos Zhang, Jinlong |
| author_facet | Anderson, John Thomas Borga, Andrea Boterenbrood, Hendrik Chen, Hucheng Chen, Kai Drake, Gary Francis, David Gorini, Benedetto Lanni, Francesco Lehmann Miotto, Giovanna Levinson, Lorne Narevicius, Julia Plessl, Christian Roich, Alexander Ryu, Soo Schreuder, Frans Philip Schumacher, Jorn Vandelli, Wainer Vermeulen, Jos Zhang, Jinlong |
| author_sort | Anderson, John Thomas |
| collection | CERN |
| description | The ATLAS experiment at CERN is planning full deployment of a new unified optical link technology for connecting detector front end electronics on the timescale of the LHC Run 4 (2025). It is estimated that roughly 8000 GBT (GigaBit Transceiver) links, with transfer rates up to 10.24~Gbps, will replace existing links used for readout, detector control and distribution of timing and trigger information. A new class of devices will be needed to interface many GBT links to the rest of the trigger, data-acquisition and detector control systems. In this paper FELIX (Front End LInk eXchange) is presented, a PC-based device to route data from and to multiple GBT links via a high-performance general purpose network capable of a total throughput up to O(20 Tbps). FELIX implies architectural changes to the ATLAS data acquisition system, such as the use of industry standard COTS components early in the DAQ chain. Additionally the design and implementation of a FELIX demonstration platform is presented, and hardware and software aspects will be discussed. |
| id | cern-2016626 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-20166262022-08-10T12:55:10Zdoi:10.1088/1742-6596/664/8/082050http://cds.cern.ch/record/2016626engAnderson, John ThomasBorga, AndreaBoterenbrood, HendrikChen, HuchengChen, KaiDrake, GaryFrancis, DavidGorini, BenedettoLanni, FrancescoLehmann Miotto, GiovannaLevinson, LorneNarevicius, JuliaPlessl, ChristianRoich, AlexanderRyu, SooSchreuder, Frans PhilipSchumacher, JornVandelli, WainerVermeulen, JosZhang, JinlongFELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS UpgradesParticle Physics - ExperimentThe ATLAS experiment at CERN is planning full deployment of a new unified optical link technology for connecting detector front end electronics on the timescale of the LHC Run 4 (2025). It is estimated that roughly 8000 GBT (GigaBit Transceiver) links, with transfer rates up to 10.24~Gbps, will replace existing links used for readout, detector control and distribution of timing and trigger information. A new class of devices will be needed to interface many GBT links to the rest of the trigger, data-acquisition and detector control systems. In this paper FELIX (Front End LInk eXchange) is presented, a PC-based device to route data from and to multiple GBT links via a high-performance general purpose network capable of a total throughput up to O(20 Tbps). FELIX implies architectural changes to the ATLAS data acquisition system, such as the use of industry standard COTS components early in the DAQ chain. Additionally the design and implementation of a FELIX demonstration platform is presented, and hardware and software aspects will be discussed.ATL-DAQ-PROC-2015-014oai:cds.cern.ch:20166262015-05-16 |
| spellingShingle | Particle Physics - Experiment Anderson, John Thomas Borga, Andrea Boterenbrood, Hendrik Chen, Hucheng Chen, Kai Drake, Gary Francis, David Gorini, Benedetto Lanni, Francesco Lehmann Miotto, Giovanna Levinson, Lorne Narevicius, Julia Plessl, Christian Roich, Alexander Ryu, Soo Schreuder, Frans Philip Schumacher, Jorn Vandelli, Wainer Vermeulen, Jos Zhang, Jinlong FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title | FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title_full | FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title_fullStr | FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title_full_unstemmed | FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title_short | FELIX: a High-Throughput Network Approach for Interfacing to Front End Electronics for ATLAS Upgrades |
| title_sort | felix: a high-throughput network approach for interfacing to front end electronics for atlas upgrades |
| topic | Particle Physics - Experiment |
| url | https://dx.doi.org/10.1088/1742-6596/664/8/082050 http://cds.cern.ch/record/2016626 |
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