• DocumentCode
    749521
  • Title

    Overview of the ECAL off-detector electronics of the CMS experiment

  • Author

    Alemany, R. ; Almeida, C.B. ; Almeida, N. ; Bercher, M. ; Benetta, R. ; Bexiga, V. ; Bourotte, J. ; Busson, Ph. ; Cardoso, N. ; Cerrutti, M. ; Dejardin, M. ; Faure, J.-L. ; Gachelin, O. ; Gastal, M. ; Geerebaert, Y. ; Gilly, J. ; Gras, Ph. ; Hansen, M. ;

  • Author_Institution
    Laboratario de Instrumentacao e Fisica Exp. de Particulas, Lisbon, Portugal
  • Volume
    52
  • Issue
    5
  • fYear
    2005
  • Firstpage
    1918
  • Lastpage
    1924
  • Abstract
    Located between the on-detector front-end electronics and the global data acquisition system (DAQ), the off-detector electronics of the CMS electromagnetic calorimeter (ECAL) is involved in both detector readout and trigger system. Working at 40 MHz, the trigger part must, within ten clock cycles, receive and deserialize the data of the front-end electronics, encode the trigger primitives using a nonlinear scale, assure time alignment between channels using a histogramming technique and send the trigger primitives to the regional trigger. In addition, it must classify trigger towers in three classes of interest and send this classification to the readout part. The readout part must select the zero suppression level to be applied depending on the regions of interest determined from the trigger tower classification, deserialize front-end data coming from high-speed (800 Mb/s) serial links, check their integrity, apply zero suppression, build the event and send it to the DAQ, monitor the buffer occupancy and send back pressure to the trigger system when required, provide data spying and monitoring facilities for the local DAQ. The system, and especially the data link speed, the latency constraints and the bit-error rate requirements have been validated on prototypes. Part of the system is about to go to production.
  • Keywords
    data acquisition; high energy physics instrumentation computing; nuclear electronics; particle calorimetry; position sensitive particle detectors; readout electronics; CMS electromagnetic calorimeter; bit-error rate requirements; clock cycles; data acquisition system; detector readout; high-speed serial links; histogramming technique; nonlinear scale; off-detector electronics; on-detector front-end electronics; trigger system; zero suppression level; Bit error rate; Clocks; Collision mitigation; Data acquisition; Delay; Detectors; Monitoring; Poles and towers; Production systems; Prototypes; Calorimetry; data acquisition; triggering;
  • fLanguage
    English
  • Journal_Title
    Nuclear Science, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9499
  • Type

    jour

  • DOI
    10.1109/TNS.2005.856596
  • Filename
    1546528