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G030257-00-D The LIGO Timing System LSC Seminar, May 23, 2003 Daniel Sigg.

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Presentation on theme: "G030257-00-D The LIGO Timing System LSC Seminar, May 23, 2003 Daniel Sigg."— Presentation transcript:

1 G030257-00-D The LIGO Timing System LSC Seminar, May 23, 2003 Daniel Sigg

2 G030257-00-D LIGO I2 Design/Requirements  10  s absolute calibration of incoming GW waves  1  s clock accuracy  Use a GPS master clock in all buildings  Use IRIG-B slaves in each VME crate (UTC – GPS leap seconds)  Synchronize the ADC modules using a hardware clock signal  Use a NTP server for the control room workstations

3 G030257-00-D LIGO I3 Implementation  GPS master in DAQ controller for timestamp  1 second mark  Second GPS master with a 2 24 Hz quartz oscillator  Feeds clock driver module (1pps and 2 22 Hz)  Ramp signal at 1pps, IRIG-B slave signal  Trigger signals for ADC modules  Data collection: reflective memory loop  1/16s buffers, 1/2s ring buffer  Collected and time stamped by DAQ controller (1s)  2s ring buffer to frame builder (1/16s buffers)  16s frame files  Excitations are written to refl. mem. (using GPS time)  Photon Calibrator

4 G030257-00-D LIGO I4 Front-End / T020196 Rolf Bork, Dale Ouimette  Initialization/Auto-resync  Diagnostics  GPS Ramp => absolute  CPU meter overload => lost IO cycles  Polling ADC/Clock ready bit ADC ready at the same time as clock? => late ADC samples  Resync counter ADC ready at end of processing? => missed ADC samples  Cycle count Everyone on the same sample count? => inter-crate synchronization  Processing Time @ 16kHz  LSC: 46  s, LVEA LOS: 56  s, ETM: 45  s, MC2: 27  s

5 G030257-00-D LIGO I5 Timing Diagram

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