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Overview of the current TDR system

Overview of the current TDR system. Introduction Electronics for instrumentation TDR core : Metronome, ADC, Merge Data Handling. Pete Jones, University of Jyväskylä SAGE / LISA Kick-Off Meeting Daresbury Laboratory, 2nd September 2005. TDR (Total Data Readout).

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Overview of the current TDR system

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  1. Overview of the current TDR system • Introduction • Electronics for instrumentation • TDR core : Metronome, ADC, Merge • Data Handling Pete Jones, University of JyväskyläSAGE / LISA Kick-Off MeetingDaresbury Laboratory, 2nd September 2005

  2. TDR(Total Data Readout) • Collects data from all detectors (over 500 channels and timestamps arrival to 10ns accuracy) and keeps it synchronised • Timestamping ADCs : Measure energy + time of arrival of signal. • All possible data is therefore collected

  3. C F D A D C A M P Electronics • Each detector pre-amp output to electronics racks • Amplifier : TFA / CFD combination – ADC Gate • Amplifier : Shaping amp – ADC input • Logic signals to user electronics, TACS • 4 free channels (x16) w/o JUROGAM

  4. Electronics • Linear amplifer suffer decreased resolution for counting rates > 3kHz • CFD/TFA gives good response at counting rates 0-100kHz • Large number of high count rate spectroscopy channels  C F D A M P A D C AMP

  5. E T1 T2 TDR ADC • VXI Card with 32 independent channels (analogue input + gate) • 14 bit, 0-8V, 4.5us conversion time, sliding-scale : 16k spectra • Flexible gating conditions can be programmed / Veto inputs • Generates timestamp from gate and converts • Output of data via SHARC link • JUROGAM uses 2 cards -> 64 channels available Detect and measure ”pileup” by second pulse : two timestamps Fast Decays / Ge pileup - TDR

  6. TDR Pattern Register • VME Card with 32 independent channels • Different operating modes for eg. Fast veto, grouped modes • Flexible input signals • Generates timestamp from inputs • Output of data via SHARC link

  7. TDR Metronome • Heart of the TDR system • Master 100MHz clock for ALL TDR components • Generates SYNC pulses (every 655us) + fast starts whole system • Battery backup of clock counter • 8 outputs, currently 3 free 100 MhZ Distribution through cables SYNC Pulse Distribution

  8. DATA COLLATE Data from each ADC card is time ordered, but COLLATE these together to produce time ordered data per SHARC & Over all sharcs S H A R C ADC ADC S H A R C ADC TIME ORDERED DATA

  9. How TDR works : DATA MERGE • Data from all COLLATORS are MERGED together and time ordered. C O L LA T O R C O L LA T O R M E R G E C O L LA T O R C O L LA T O R

  10. Collate / Merge • VME Based 3 processor system • Merge CPU takes data from 2 collate CPUs, time orders, histograms • Output via Gbit ethernet to Event Builder • Processes up to 2Mevents/s, or 16MByte/s

  11. Overview

  12.    GAS Si Si 2us Event Builder • Once data are correlated by Event Builder, data selections can be processed in flexible way. • Data can be output to several destinations • Data Selection  Reduce raw singles data to useful coincidence data JUROGAM PU / BGO supression

  13. Data Storage / Analysis • Selected data (i.e. anything with GREAT) sent to DataStore • 2TB Raid 1 array + redundancy – accessable from Gbit network • Data also available by online & offline workstations • User decides how to store data : Disc, Tape, etc.

  14. Overview of the current TDR system • ~400 channels of electronics • Over 500 channels of analogue / digital inputs into TDR • Stable metronome with master 100MHz clock • VXI / VME based core of acquisition • PC based Merge / Online / Offline systems • Stable environment for electronics & acquisition • Extremely stable for experiments, over 3 months continual running without fault

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