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Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board
High luminosity conditions at the LHC pose many unique challenges for potential silicon based track trigger systems. One of the major challenges is data formatting, where hits from thousands of silicon modules must first be shared and organized into overlapping eta-phi trigger towers. Communication...
| Autores principales: | , , , |
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| Lenguaje: | eng |
| Publicado: |
2014
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/NSSMIC.2013.6829449 http://cds.cern.ch/record/1669696 |
| _version_ | 1780935546680377344 |
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| author | Okumura, Yasuyuki Olsen, Jamieson Liu, Tiehui Ted Yin, Hang |
| author_facet | Okumura, Yasuyuki Olsen, Jamieson Liu, Tiehui Ted Yin, Hang |
| author_sort | Okumura, Yasuyuki |
| collection | CERN |
| description | High luminosity conditions at the LHC pose many unique challenges for potential silicon based track trigger systems. One of the major challenges is data formatting, where hits from thousands of silicon modules must first be shared and organized into overlapping eta-phi trigger towers. Communication between nodes requires high bandwidth, low latency, and flexible real time data sharing, for which a full mesh backplane is a natural solution. A custom Advanced Telecommunications Computing Architecture data processing board is designed with the goal of creating a scalable architecture abundant in flexible, non-blocking, high bandwidth board to board communication channels while keeping the design as simple as possible. We have performed the first prototype board testing and our first attempt at designing the prototype system has proven to be successful. Leveraging the experience we gained through designing, building and testing the prototype board system we are in the final stages of laying out the next generation board, which will be used in the ATLAS Level-2 Fast TracKer as Data Formatter, as well as in the CMS Level-1 tracking trigger R&D for early technical demonstrations. |
| id | cern-1669696 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2014 |
| record_format | invenio |
| spelling | cern-16696962023-03-12T04:12:06Zdoi:10.1109/NSSMIC.2013.6829449http://cds.cern.ch/record/1669696engOkumura, YasuyukiOlsen, JamiesonLiu, Tiehui TedYin, HangPrototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing BoardDetectors and Experimental TechniquesHigh luminosity conditions at the LHC pose many unique challenges for potential silicon based track trigger systems. One of the major challenges is data formatting, where hits from thousands of silicon modules must first be shared and organized into overlapping eta-phi trigger towers. Communication between nodes requires high bandwidth, low latency, and flexible real time data sharing, for which a full mesh backplane is a natural solution. A custom Advanced Telecommunications Computing Architecture data processing board is designed with the goal of creating a scalable architecture abundant in flexible, non-blocking, high bandwidth board to board communication channels while keeping the design as simple as possible. We have performed the first prototype board testing and our first attempt at designing the prototype system has proven to be successful. Leveraging the experience we gained through designing, building and testing the prototype board system we are in the final stages of laying out the next generation board, which will be used in the ATLAS Level-2 Fast TracKer as Data Formatter, as well as in the CMS Level-1 tracking trigger R&D for early technical demonstrations.High luminosity conditions at the LHC pose many unique challenges for potential silicon based track trigger systems. One of the major challenges is data formatting, where hits from thousands of silicon modules must first be shared and organized into overlapping eta-phi trigger towers. Communication between nodes requires high bandwidth, low latency, and flexible real time data sharing, for which a full mesh backplane is a natural solution. A custom Advanced Telecommunications Computing Architecture data processing board is designed with the goal of creating a scalable architecture abundant in flexible, non-blocking, high bandwidth board to board communication channels while keeping the design as simple as possible. We have performed the first prototype board testing and our first attempt at designing the prototype system has proven to be successful. Leveraging the experience we gained through designing, building and testing the prototype board system we are in the final stages of laying out the next generation board, which will be used in the ATLAS Level-2 Fast TracKer as Data Formatter, as well as in the CMS Level-1 tracking trigger R&D for early technical demonstrations.The first stage of the ATLAS Fast TracKer (FTK) is an ATCA-based input interface system, where hits from the entire silicon tracker are clustered and organized into overlapping η-phi trigger towers before being sent to the tracking engines. First, FTK Input Mezzanine cards receive hit data and perform clustering to reduce data volume. Then, the ATCA-based Data Formatter system will organize the trigger tower data, sharing data among boards over full mesh backplanes and optic fibers. The board and system level design concepts and implementation details, as well as the operation experiences from the FTK full-chain testing, will be presented.High luminosity conditions at the LHC pose many unique challenges for potential silicon based track trigger systems. One of the major challenges is data formatting, where hits from thousands of silicon modules must first be shared and organized into overlapping eta-phi trigger towers. Communication between nodes requires high bandwidth, low latency, and flexible real time data sharing, for which a full mesh backplane is a natural solution. A custom Advanced Telecommunications Computing Architecture data processing board is designed with the goal of creating a scalable architecture abundant in flexible, non-blocking, high bandwidth board to board communication channels while keeping the design as simple as possible. We have performed the first prototype board testing and our first attempt at designing the prototype system has proven to be successful. Leveraging the experience we gained through designing, building and testing the prototype board system we are in the final stages of laying out the next generation board, which will be used in the ATLAS Level-2 Fast TracKer as Data Formatter, as well as in the CMS Level-1 tracking trigger R&D for early technical demonstrations.arXiv:1403.4331FERMILAB-CONF-13-526-CMS-PPDFERMILAB-CONF-13-527-CMS-PPDoai:cds.cern.ch:16696962014-03-17 |
| spellingShingle | Detectors and Experimental Techniques Okumura, Yasuyuki Olsen, Jamieson Liu, Tiehui Ted Yin, Hang Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title | Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title_full | Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title_fullStr | Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title_full_unstemmed | Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title_short | Prototype performance studies of a Full Mesh ATCA-based General Purpose Data Processing Board |
| title_sort | prototype performance studies of a full mesh atca-based general purpose data processing board |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1109/NSSMIC.2013.6829449 http://cds.cern.ch/record/1669696 |
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