13:13 - ECC is in state EccState.Ready with status EccStatus.NoError
13:13 - ECC temperature sensors: T1= 32.7, T2= 24.4, T3= 23.8, T4= 24.0 deg C
13:13 - 24 V power supply no. 1 is enabled with a current of 9.690 A.
13:13 - Checking high voltages...
13:13 - Starting task "Check HV"
13:13 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20180306/config_12modules_SPE.NMC.xml
13:13 - Done
13:13 - Found 12 drawer(s). Reference voltage is between 968.11 V and 1275.68 V. Actual voltage is between 968.68 V and 1276.73 V.
13:13 - Maximum difference between reference and actual voltage is 1.82 V
13:13 - Checking status of HVPA module in 12 drawer(s)...
13:13 - Checking status of HVPA channels in 12 drawer(s)...
13:13 - HV is stabilized in all channels.
13:13 - Finished task "Check HV"
13:13 - Starting task "Configure NMC"
13:13 - Configuring modules with configuration /local/home/cta_test_bench/config/2018/20180306/config_12modules_SPE.NMC.xml
13:13 - NMC is in state NmcState.Ready and knows of 0 drawer(s)
13:13 - Found 0 PPS errors.
13:13 - Finished task "Configure NMC"
13:14 - Checking high voltages...
13:14 - Starting task "Check HV"
13:14 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20180306/config_12modules_SPE.NMC.xml
13:14 - Done
13:14 - Found 12 drawer(s). Reference voltage is between 968.11 V and 1275.68 V. Actual voltage is between 968.68 V and 1277.34 V.
13:14 - Maximum difference between reference and actual voltage is 1.82 V
13:14 - Checking status of HVPA module in 12 drawer(s)...
13:14 - Checking status of HVPA channels in 12 drawer(s)...
13:14 - HV is stabilized in all channels.
13:14 - Finished task "Check HV"
13:14 - Starting NMC
13:14 - Clearing PPS error counters
13:14 - Configuring TIB...
13:14 - Setting TIB forced mode to False
13:14 - Writing False to serveur.TIB.Forced.ForcedMode.ForcedMode_v
13:14 - Status: TibState.PpsStopped
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Writing 0.0 to serveur.TIB.ExternalDelay.ExternalDelay_v
13:14 - Setting TIB trigger mode to 0x48 = TriggerMask.SlowControl|SPhE
13:14 - Writing 72 to serveur.TIB.TriggerMode.ModeMask.ModeMask_v
13:14 - Writing 0 to serveur.TIB.InputsEnable.InputMask.InputMask_v
13:14 - Writing False to serveur.TIB.BUSY.DisableBusy.DisableBusy_v
13:14 - Writing 0.0 to serveur.TIB.BUSY.ExtraDelayBusy.ExtraDelayBusy_v
13:14 - Writing False to serveur.TIB.Throttler.DisableThrottlerBP.DisableThrottlerBP_v
13:14 - Writing 255 to serveur.TIB.Throttler.MaxTriggersBP50us.MaxTriggersBP50us_v
13:14 - Writing 255 to serveur.TIB.Throttler.MaxTriggersBP1ms.MaxTriggersBP1ms_v
13:14 - Status: TibState.PpsStopped
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Closing TIB connection to camera server
13:14 - Connecting TIB to camera server at 10.10.0.251:222
13:14 - Starting TIB...
13:14 - Status: TibState.PpsStopped
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Resetting run
13:14 - Wait for UCTS external trigger before enabling trigger...
13:14 - Status: TibState.Standby
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Status: TibState.Standby
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Status: TibState.CoutingPps
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Starting TIB triggers...
13:14 - Enabling trigger
13:14 - Status: TibState.Running
13:14 - Alarms: AlarmVector.NoAlarm
13:14 - Configuring calibration box...
13:14 - Configuring calibration box with leds=0x358 voltage=9.00 frequency=300.0/3 central_current=0 duration=1 width=True lemo_out=True fiber1_out=True fiber2_out=False lemo_in=False enabled=0.0
13:14 - Scanning voltages
13:14 - Starting task "Scan voltages"
13:14 - Setting LED mask to 0x0
13:14 - Configuring calibration box with leds=0x0 voltage=8.00 frequency=300.0/3 central_current=0 duration=1 width=True lemo_out=True fiber1_out=True fiber2_out=False lemo_in=False enabled=0.0
13:14 - Starting flashes...
13:14 - Stopping flashes...
13:14 - Setting LED mask to 0x358
13:15 - Setting voltage to 8.000000 V
13:15 - Starting flashes...
13:15 - Stopping flashes...
13:15 - Setting voltage to 8.250000 V
13:15 - Starting flashes...
13:15 - Stopping flashes...
13:15 - Setting voltage to 8.500000 V
13:15 - Starting flashes...
13:15 - Stopping flashes...
13:15 - Setting voltage to 8.750000 V
13:15 - Starting flashes...
13:16 - Stopping flashes...
13:16 - Setting voltage to 9.000000 V
13:16 - Starting flashes...
13:16 - Stopping flashes...
13:16 - Setting voltage to 9.250000 V
13:16 - Starting flashes...
13:16 - Stopping flashes...
13:16 - Setting voltage to 9.500000 V
13:16 - Starting flashes...
13:16 - Stopping flashes...
13:17 - Setting voltage to 9.750000 V
13:17 - Starting flashes...
13:17 - Stopping flashes...
13:17 - Setting voltage to 10.000000 V
13:17 - Starting flashes...
13:17 - Stopping flashes...
13:17 - Setting voltage to 10.250000 V
13:17 - Starting flashes...
13:17 - Stopping flashes...
13:18 - Setting voltage to 10.500000 V
13:18 - Starting flashes...
13:18 - Stopping flashes...
13:18 - Setting voltage to 10.750000 V
13:18 - Starting flashes...
13:18 - Stopping flashes...
13:18 - Setting voltage to 11.000000 V
13:18 - Starting flashes...
13:18 - Stopping flashes...
13:18 - Setting voltage to 11.250000 V
13:19 - Starting flashes...
13:19 - Stopping flashes...
13:19 - Setting voltage to 11.500000 V
13:19 - Starting flashes...
13:19 - Stopping flashes...
13:19 - Setting voltage to 11.750000 V
13:19 - Starting flashes...
13:19 - Stopping flashes...
13:19 - Setting voltage to 12.000000 V
13:19 - Starting flashes...
13:20 - Stopping flashes...
13:20 - Setting voltage to 12.250000 V
13:20 - Starting flashes...
13:20 - Stopping flashes...
13:20 - Setting voltage to 12.500000 V
13:20 - Starting flashes...
13:20 - Stopping flashes...
13:20 - Setting voltage to 12.750000 V
13:20 - Starting flashes...
13:20 - Stopping flashes...
13:21 - Setting voltage to 13.000000 V
13:21 - Starting flashes...
13:21 - Stopping flashes...
13:21 - Setting voltage to 13.250000 V
13:21 - Starting flashes...
13:21 - Stopping flashes...
13:21 - Setting voltage to 13.500000 V
13:21 - Starting flashes...
13:21 - Stopping flashes...
13:22 - Setting voltage to 13.750000 V
13:22 - Starting flashes...
13:22 - Stopping flashes...
13:22 - Setting voltage to 14.000000 V
13:22 - Starting flashes...
13:22 - Stopping flashes...
13:22 - Setting voltage to 14.250000 V
13:22 - Starting flashes...
13:22 - Stopping flashes...
13:22 - Setting voltage to 14.500000 V
13:22 - Starting flashes...
13:23 - Stopping flashes...
13:23 - Setting voltage to 14.750000 V
13:23 - Starting flashes...
13:23 - Stopping flashes...
13:23 - Setting voltage to 15.000000 V
13:23 - Starting flashes...
13:23 - Stopping flashes...
13:23 - Setting voltage to 15.250000 V
13:23 - Starting flashes...
13:23 - Stopping flashes...
13:24 - Setting voltage to 15.500000 V
13:24 - Starting flashes...
13:24 - Stopping flashes...
13:24 - Setting voltage to 15.750000 V
13:24 - Starting flashes...
13:24 - Stopping flashes...
13:24 - Setting voltage to 16.000000 V
13:24 - Starting flashes...
13:24 - Stopping flashes...
13:24 - Finished task "Scan voltages"
13:25 - Stopping TIB...
13:25 - Status: TibState.Running
13:25 - Alarms: AlarmVector.NoAlarm
13:25 - Disabling trigger
13:25 - Status: TibState.RunStopped
13:25 - Alarms: AlarmVector.NoAlarm
13:25 - Disabling PPS
13:25 - Status: TibState.PpsStopped
13:25 - Alarms: AlarmVector.NoAlarm
13:25 - Closing TIB connection to camera server
13:25 - Stopping NMC
13:25 - Found 0 PPS errors.
13:25 - Checking high voltages...
13:25 - Starting task "Check HV"
13:25 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20180306/config_12modules_SPE.NMC.xml
13:25 - Done
13:25 - Found 12 drawer(s). Reference voltage is between 968.11 V and 1275.68 V. Actual voltage is between 968.68 V and 1277.34 V.
13:25 - Maximum difference between reference and actual voltage is 1.88 V
13:25 - Checking status of HVPA module in 12 drawer(s)...
13:25 - Checking status of HVPA channels in 12 drawer(s)...
13:25 - HV is stabilized in all channels.
13:25 - Finished task "Check HV"
13:25 - Status: TibState.PpsStopped
13:25 - Alarms: AlarmVector.NoAlarm
13:25 - Run duration: 0:10:57
13:25 - Local camera triggers: 0
13:25 - Slow control triggers: 0
13:25 - Single photo-electron triggers: 20582
13:25 - Calibration triggers: 0
13:25 - Software triggers from UCTS: 0
13:25 - Auto-pedestal triggers: 4272551
13:25 - Collected input triggers: 20582
13:25 - Busy triggers: 0
13:25 - Non-busy triggers sent to UCTS: 20582
13:25 - Camera event triggers sent to clusters: 20582
13:25 - ECC is in state EccState.Ready with status EccStatus.NoError
13:25 - ECC temperature sensors: T1= 33.0, T2= 24.4, T3= 23.8, T4= 24.0 deg C
13:25 - 24 V power supply no. 1 is enabled with a current of 9.730 A.