Triggers: Difference between revisions
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Triggers are modules of the [[VME Crates]] of Gammasphere's [[DAQ system]]. They communicate directly with [[digitizers]] in the [[VME Crates]]. | Triggers are modules of the [[VME Crates]] of Gammasphere's [[DAQ system]]. They communicate directly with [[digitizers]] in the [[VME Crates]]. Triggers are the “decision makers” of the DAQ system, and decide what data is worth of keeping and sending out to EPICS. | ||
The trigger system receives the GeCenter and BGOSum bits and processes them in pairs per detector. Coincidence logic within the trigger system identifies GeCenter and BGOSum bits that occur within a programmable overlap time, issuing “veto” signals back to the channels of the digitizers where such overlap occurs. These Veto signals are used to delete the coincident (“dirty”) events prior to such events being made available for readout. | |||
Implementation of the electric honeycomb requires that fast discriminator bits from the 7 BGO segments of each detector (six shields plus back plug), plus the six individual BGO discriminator bits that are face-to-face with the BGO shields, be combined. This requires implementation of discriminator logic within the new pickoff card, collection of the 13 bits for each of the detectors and generation of 110 ‘scatter’ bits, one per detector. This vector of ‘scatter’ bits must then be transmitted to the trigger system sufficiently fast to participate in the aforementioned coincidence logic that generates event veto signal. This new vector of ‘scatter’ bits augments and potentially replaces the functionality currently provided by the BGOSum discriminator. |
Revision as of 21:15, February 27, 2023
Triggers are modules of the VME Crates of Gammasphere's DAQ system. They communicate directly with digitizers in the VME Crates. Triggers are the “decision makers” of the DAQ system, and decide what data is worth of keeping and sending out to EPICS.
The trigger system receives the GeCenter and BGOSum bits and processes them in pairs per detector. Coincidence logic within the trigger system identifies GeCenter and BGOSum bits that occur within a programmable overlap time, issuing “veto” signals back to the channels of the digitizers where such overlap occurs. These Veto signals are used to delete the coincident (“dirty”) events prior to such events being made available for readout.
Implementation of the electric honeycomb requires that fast discriminator bits from the 7 BGO segments of each detector (six shields plus back plug), plus the six individual BGO discriminator bits that are face-to-face with the BGO shields, be combined. This requires implementation of discriminator logic within the new pickoff card, collection of the 13 bits for each of the detectors and generation of 110 ‘scatter’ bits, one per detector. This vector of ‘scatter’ bits must then be transmitted to the trigger system sufficiently fast to participate in the aforementioned coincidence logic that generates event veto signal. This new vector of ‘scatter’ bits augments and potentially replaces the functionality currently provided by the BGOSum discriminator.