HBD status for Run9

1. HBD status for Run9 Takao for HBD group kick-off Run9 DAQ meeting

2. Detector/Readout/HV status • Both West and East have been installed yesterday • As of Run6, HBD readout has been working fine. • We take 12 FACD samples per trigger • Post and pre charge are computed from means of three samples each • Data volume from DCM: 1919(ch) *12/2(we pack 2 channels into one word) = 11Kword = 46kB (at maximum) • We have 12 fibers: 4kB/fiber • Zero-suppression will reduce the size • HV server/client program are re-designed to accommodate new hardware-based trip reduction scheme kick-off Run9 DAQ meeting

3. Run policies • We run at +/- field only for physics • How about ++ field? • How long we can continue to take data as a single run • As long as no trip occurred? • Threshold of requesting stop of the run • More than a half of HV modules are tripped? • We will need to measure our pedestal values to prepare the zero suppression. This does not require beam and might be repeated on an infrequent basis (every few weeks) • Need sizeable sample (10-40 million events) for early gain calibration using “All triggers” to see scintillation. • We need to have minimum bias events to show alive channel count. • We would like to also have reconstruction of electron tracks in ERT-electron triggers online as a set of data used to evaluate detector performance online. This should make specialized micro-DST files for subsequent analysis with many passes as we learn what we’re doing. • These files can be HIGHLY filtered to only keep the very best events for subsequent efficient analysis with minimal disk space usage. • We need a single zero field run in the early days with ERT-electron trigger for alignment. kick-off Run9 DAQ meeting

4. Backup kick-off Run9 DAQ meeting

5. HBD Readout size for Run-8? A case: 20:00, June 24, 2007 Takao Sakaguchi • Data: Run 240065, segment 85 • I took it because this run is still left in 1008 disk • Only 7 fibers (East) out of 12 were read out • One out of the seven looks to have taken care of a module with HV off • 1 of 7 did not have its HV on • Each fiber supposedly took care of one detector module • Total event size: 226KB/evt • HBD event size: 6.6KB/evt • Threshold were 3 sigma for valid modules • HV set to of each modules: 3550-3750V, drift field: -30V kick-off Run9 DAQ meeting

6. Extrapolating to full module operation • Size significantly reduced after Chi’s “packing two samples into one” • factor of two reduction in size • No more “packing” seems to be possible • Requirement was to reduce data volume per fiber “before going to SEB” • Flow: FEM-> DCM-> SEB(Sub Event Buffer)-> EVB(Event builder)-> Disk • The big volume is still OK as long as volume per fiber is within a tolerance • Event size per fiber is the one that determines how many event we can take per second. • Also, reducing data volume before DCM is not necessarily required • That’s why raising zero-suppression threshold did help. It just reduced the size of data going out from DCM • Right now, we are taking 12 samples per channel per event. • Since we calculate signal by “samp(0+1+2)-samp(8+9+10)”, we could drop rest six samples • It reduces the size by a factor of two. Of course, need reexamination of the samples to take • Then, full operation would give: 6.6[KB/evt](24/6)(1/2) = 13[KB/evt] • The limit we could go kick-off Run9 DAQ meeting