Title :
An overview of the first and second level trigger of DELPHI
Author :
Quinton, S. ; Lucock, R. ; Cerrito, L. ; Charentier, P. ; Johansson, K.E. ; Lanceri, L.
Author_Institution :
Rutherford Appleton Lab., Chilton, Didcot, UK
fDate :
2/1/1989 12:00:00 AM
Abstract :
The DELPHI trigger is organized in four levels. The first two triggers are synchronous with the beam crossover, every 22 μs, and are implemented in hardware. The first-level trigger decision is taken at 3 μs and is used primarily as a fast trigger to gate the time protection chamber. Gating this detector off for rejected events reduces space-charge buildup. If the first-level decision is positive, the following beam crossover will be lost to allow the inclusion of data from long-drift-time detectors in the second-level trigger. The second-level decision is taken at 39 μs. If this decision is positive a front-end readout is initiated and up to 500 μs is required to free the front-end buffers. To limit the deadtime fraction for each trigger to the order of 2% the first-level trigger rate has to be held to 1 kHz and the second-level rate to 20 Hz. The authors describe the various subtriggers in DELPHI together with the detector local trigger decision boxes contributing to the subtrigger, and they indicate the type of hardware used implement the decision logic
Keywords :
physics computing; 1 kHz; 20 Hz; 22 mus; 3 mus; 39 mus; 500 mus; DELPHI trigger; beam crossover; decision logic; first-level trigger; first-level trigger rate; hardware; second level trigger; second level trigger rate; space-charge buildup; Data acquisition; Detectors; Electrons; Event detection; Fastbus; Hardware; Laboratories; Physics; Positrons; Proposals;
Journal_Title :
Nuclear Science, IEEE Transactions on