Author :
Bauer, G. ; Boyer, V. ; Branson, J. ; Brett, A. ; Cano, E. ; Carboni, A. ; Ciganek, M. ; Cittolin, S. ; Erhan, S. ; Gigi, D. ; Glege, F. ; Gomez-Reino, R. ; Gulmini, M. ; Mlot, E. Gutierrez ; Gutleber, J. ; Jacobs, C. ; Kim, J.C. ; Klute, M. ; Lipeles, E.
Abstract :
The data acquisition system of the Compact Muon Solenoid experiment at the large hadron collider reads out event fragments of an average size of 2 kilobytes from around 650 detector front-ends at a rate of up to 100 kHz. The first stage of event-building is performed by the Super-Fragment Builder employing custom-built electronics and a Myrinet optical network. It reduces the number of fragments by one order of magnitude, thereby greatly decreasing the requirements for the subsequent event-assembly stage. By providing fast feedback from any of the front-ends to the trigger, the trigger throttling system prevents buffer overflows in the front-end electronics due to variations in the size and rate of events or due to backpressure from the down-stream event-building and processing. This paper reports on the recent successful integration of a scaled-down setup of the described system with the trigger and with front-ends of all major sub-detectors and discusses the ongoing commissioning of the full-scale system.
Keywords :
data acquisition; nuclear electronics; CERN; CMS; LHC; Myrinet optical network; data acquisition system; feedback; front-end electronics; superfragment builder; trigger throttling system; Buffer overflow; Buildings; Collision mitigation; Data acquisition; Detectors; Feedback; Large Hadron Collider; Mesons; Solenoids; USA Councils; Data Acquisition; Feedback Systems; Triggering;
