15:43 - Executing command '/opt/cta/bin/cta_ctrl --all --power_on' on Digital Trigger Crate at 10.10.4.59
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 35.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 35.800 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 35.900 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 35.900 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - ECC is in state EccState.Ready with status EccStatus.NoError
15:43 - ECC temperature sensors: T1= 24.9, T2= 24.3, T3= 25.6, T4= 26.5 deg C
15:43 - 24 V power supply no. 1 is enabled with a current of 39.700 A.
15:43 - Starting task "Configure NMC"
15:43 - Configuring modules with configuration /local/home/cta_test_bench/config/2018/20181205/NectarCAM.Run1013.NMC.xml
15:43 - Setting HV current limits to maximum
15:44 - Successfully configured 37 module(s)
15:44 - NMC is in state NmcState.Configured and knows of 37 drawer(s)
15:44 - Found 0 PPS errors.
15:44 - Finished task "Configure NMC"
15:44 - Starting task "Switch HVPA voltage state"
15:44 - Setting HVPA current limit to 12489.75 uA
15:44 - Setting HVPA ramp speed to 35 V/s
15:44 - Switching HVPA to state Nominal
15:44 - Switching HVPA of all drawers to state Nominal
15:44 - Finished task "Switch HVPA voltage state"
15:58 - Checking high voltages...
15:58 - Starting task "Check HV"
15:58 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20181205/NectarCAM.Run1013.NMC.xml
15:58 - Done
15:58 - Found 37 drawer(s) in Nominal state, 0 in Low state and 0 in Wait state
15:58 - Found 37 drawer(s). Reference voltage is between 938.66 V and 1181.59 V. Actual voltage is between 938.79 V and 1181.57 V.
15:58 - Maximum difference between expected and actual voltages in drawer 76 is 0.62 V
15:58 - Maximum difference between expected and actual voltages in drawer 77 is 0.63 V
15:58 - Maximum difference between expected and actual voltages in drawer 78 is 0.67 V
15:58 - Maximum difference between expected and actual voltages in drawer 79 is 0.40 V
15:58 - Maximum difference between expected and actual voltages in drawer 80 is 0.42 V
15:58 - Maximum difference between expected and actual voltages in drawer 81 is 0.44 V
15:58 - Maximum difference between expected and actual voltages in drawer 93 is 0.49 V
15:58 - Maximum difference between expected and actual voltages in drawer 94 is 0.47 V
15:58 - Maximum difference between expected and actual voltages in drawer 95 is 0.67 V
15:58 - Maximum difference between expected and actual voltages in drawer 96 is 0.46 V
15:58 - Maximum difference between expected and actual voltages in drawer 97 is 0.47 V
15:58 - Maximum difference between expected and actual voltages in drawer 98 is 0.43 V
15:58 - Maximum difference between expected and actual voltages in drawer 110 is 0.47 V
15:58 - Maximum difference between expected and actual voltages in drawer 111 is 0.39 V
15:58 - Maximum difference between expected and actual voltages in drawer 112 is 0.38 V
15:58 - Maximum difference between expected and actual voltages in drawer 113 is 0.43 V
15:58 - Maximum difference between expected and actual voltages in drawer 114 is 0.52 V
15:58 - Maximum difference between expected and actual voltages in drawer 115 is 0.44 V
15:58 - Maximum difference between expected and actual voltages in drawer 116 is 0.69 V
15:58 - Maximum difference between expected and actual voltages in drawer 128 is 0.49 V
15:58 - Maximum difference between expected and actual voltages in drawer 129 is 0.45 V
15:58 - Maximum difference between expected and actual voltages in drawer 130 is 0.69 V
15:58 - Maximum difference between expected and actual voltages in drawer 131 is 0.25 V
15:58 - Maximum difference between expected and actual voltages in drawer 132 is 0.46 V
15:58 - Maximum difference between expected and actual voltages in drawer 133 is 0.42 V
15:58 - Maximum difference between expected and actual voltages in drawer 145 is 0.46 V
15:58 - Maximum difference between expected and actual voltages in drawer 146 is 0.49 V
15:58 - Maximum difference between expected and actual voltages in drawer 147 is 0.37 V
15:58 - Maximum difference between expected and actual voltages in drawer 148 is 0.65 V
15:58 - Maximum difference between expected and actual voltages in drawer 149 is 0.36 V
15:58 - Maximum difference between expected and actual voltages in drawer 150 is 0.68 V
15:58 - Maximum difference between expected and actual voltages in drawer 163 is 0.34 V
15:58 - Maximum difference between expected and actual voltages in drawer 164 is 0.45 V
15:58 - Maximum difference between expected and actual voltages in drawer 165 is 0.68 V
15:58 - Maximum difference between expected and actual voltages in drawer 166 is 0.61 V
15:58 - Maximum difference between expected and actual voltages in drawer 167 is 0.48 V
15:58 - Maximum difference between expected and actual voltages in drawer 168 is 0.84 V
15:58 - Checking status of HVPA module in 37 drawer(s)...
15:58 - Checking status of HVPA channels in 37 drawer(s)...
15:58 - HV is stabilized in all channels.
15:58 - Finished task "Check HV"
15:59 - Setting current trip limits...
15:59 - Starting task "Set HVPA current trips"
15:59 - Setting HVPA current limits...
15:59 - Finished task "Set HVPA current trips"
15:59 - Checking high voltages...
15:59 - Starting task "Check HV"
15:59 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20181205/NectarCAM.Run1013.NMC.xml
15:59 - Done
15:59 - Found 37 drawer(s) in Nominal state, 0 in Low state and 0 in Wait state
15:59 - Found 37 drawer(s). Reference voltage is between 938.66 V and 1181.59 V. Actual voltage is between 938.18 V and 1181.57 V.
15:59 - Maximum difference between expected and actual voltages in drawer 76 is 0.35 V
15:59 - Maximum difference between expected and actual voltages in drawer 77 is 0.26 V
15:59 - Maximum difference between expected and actual voltages in drawer 78 is 0.36 V
15:59 - Maximum difference between expected and actual voltages in drawer 79 is 0.69 V
15:59 - Maximum difference between expected and actual voltages in drawer 80 is 0.55 V
15:59 - Maximum difference between expected and actual voltages in drawer 81 is 0.44 V
15:59 - Maximum difference between expected and actual voltages in drawer 93 is 0.49 V
15:59 - Maximum difference between expected and actual voltages in drawer 94 is 0.70 V
15:59 - Maximum difference between expected and actual voltages in drawer 95 is 0.32 V
15:59 - Maximum difference between expected and actual voltages in drawer 96 is 0.40 V
15:59 - Maximum difference between expected and actual voltages in drawer 97 is 0.31 V
15:59 - Maximum difference between expected and actual voltages in drawer 98 is 0.60 V
15:59 - Maximum difference between expected and actual voltages in drawer 110 is 0.47 V
15:59 - Maximum difference between expected and actual voltages in drawer 111 is 0.36 V
15:59 - Maximum difference between expected and actual voltages in drawer 112 is 0.57 V
15:59 - Maximum difference between expected and actual voltages in drawer 113 is 0.56 V
15:59 - Maximum difference between expected and actual voltages in drawer 114 is 0.50 V
15:59 - Maximum difference between expected and actual voltages in drawer 115 is 0.44 V
15:59 - Maximum difference between expected and actual voltages in drawer 116 is 0.49 V
15:59 - Maximum difference between expected and actual voltages in drawer 128 is 0.39 V
15:59 - Maximum difference between expected and actual voltages in drawer 129 is 0.45 V
15:59 - Maximum difference between expected and actual voltages in drawer 130 is 0.50 V
15:59 - Maximum difference between expected and actual voltages in drawer 131 is 0.25 V
15:59 - Maximum difference between expected and actual voltages in drawer 132 is 0.46 V
15:59 - Maximum difference between expected and actual voltages in drawer 133 is 0.42 V
15:59 - Maximum difference between expected and actual voltages in drawer 145 is 0.46 V
15:59 - Maximum difference between expected and actual voltages in drawer 146 is 0.47 V
15:59 - Maximum difference between expected and actual voltages in drawer 147 is 0.37 V
15:59 - Maximum difference between expected and actual voltages in drawer 148 is 0.57 V
15:59 - Maximum difference between expected and actual voltages in drawer 149 is 0.59 V
15:59 - Maximum difference between expected and actual voltages in drawer 150 is 0.46 V
15:59 - Maximum difference between expected and actual voltages in drawer 163 is 0.53 V
15:59 - Maximum difference between expected and actual voltages in drawer 164 is 0.45 V
15:59 - Maximum difference between expected and actual voltages in drawer 165 is 0.46 V
15:59 - Maximum difference between expected and actual voltages in drawer 166 is 0.29 V
15:59 - Maximum difference between expected and actual voltages in drawer 167 is 0.48 V
15:59 - Maximum difference between expected and actual voltages in drawer 168 is 0.38 V
15:59 - Checking status of HVPA module in 37 drawer(s)...
15:59 - Checking status of HVPA channels in 37 drawer(s)...
15:59 - HV is stabilized in all channels.
15:59 - Finished task "Check HV"
17:20 - Starting NMC
17:20 - Clearing PPS error counters
17:20 - Status: TibState.PpsStopped
17:20 - Alarms: AlarmVector.ReadError
17:20 - Connection status: False
17:20 - External delays: Local=0.000 ns, Calibration=76.000 ns, Sphe=0.000 ns
17:20 - Trigger mask: 0x44 = TriggerMask.SlowControl|Calibration
17:20 - Input mask: 0x0
17:20 - Disable BUSY: False
17:20 - Extra BUSY Delay: 0.0
17:20 - Temperature: 36.81
17:20 - Configuring TIB...
17:20 - Setting TIB forced mode to False
17:20 - Writing False to Camera.TIB.Forced.ForcedMode.ForcedMode_v
17:20 - Status: TibState.PpsStopped
17:20 - Alarms: AlarmVector.ReadError
17:20 - Connection status: False
17:20 - Entering set_external_delay
17:20 - Setting ExternalDelayLocal to 0.000 ns
17:20 - Writing 0.0 to Camera.TIB.ExternalDelay.ExternalDelayLocal.ExternalDelayLocal_v
17:20 - Entering set_external_delay
17:20 - Setting ExternalDelayCalibration to 76.000 ns
17:20 - Writing 76.0 to Camera.TIB.ExternalDelay.ExternalDelayCalibration.ExternalDelayCalibration_v
17:20 - Entering set_external_delay
17:20 - Setting ExternalDelaySphe to 0.000 ns
17:20 - Writing 0.0 to Camera.TIB.ExternalDelay.ExternalDelaySphe.ExternalDelaySphe_v
17:20 - Setting TIB trigger mode to 0x60 = TriggerMask.SlowControl|Pedestal
17:20 - Writing 96 to Camera.TIB.TriggerMode.ModeMask.ModeMask_v
17:20 - Writing 0 to Camera.TIB.InputsEnable.InputMask.InputMask_v
17:20 - Writing False to Camera.TIB.BUSY.DisableBusy.DisableBusy_v
17:20 - Writing 0.0 to Camera.TIB.BUSY.ExtraDelayBusy.ExtraDelayBusy_v
17:20 - Writing False to Camera.TIB.Throttler.DisableThrottler.DisableThrottler_v
17:20 - Writing 255 to Camera.TIB.Throttler.MaxTriggers50us.MaxTriggers50us_v
17:20 - Writing 255 to Camera.TIB.Throttler.MaxTriggers1ms.MaxTriggers1ms_v
17:20 - Status: TibState.PpsStopped
17:20 - Alarms: AlarmVector.ReadError
17:20 - Connection status: False
17:20 - Writing True to Camera.TIB.Pedestal.PeriodicPedestalEnable.PeriodicPedestalEnable_v
17:20 - Writing 1000 to Camera.TIB.Pedestal.PeriodicPedestalFrequency.PeriodicPedestalFrequency_v
17:20 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:20 - Writing False to Camera.TIB.Pedestal.DigitalPedestalEnable.DigitalPedestalEnable_v
17:20 - Writing 1000 to Camera.TIB.Pedestal.DigitalPedestal_config_Rate.DigitalPedestal_config_Rate_v
17:20 - Writing 375764 to Camera.TIB.Pedestal.DigitalPedestalSeed.DigitalPedestalSeed_v
17:20 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:20 - Writing False to Camera.TIB.Pedestal.AnalogPedestalEnable.AnalogPedestalEnable_v
17:20 - Writing 3000.0 to Camera.TIB.Pedestal.AnalogPedestalThreshold.AnalogPedestalThreshold_v
17:20 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:21 - Connecting TIB to camera server at 10.10.4.12:222
17:21 - Starting TIB...
17:21 - Status: TibState.PpsStopped
17:21 - Alarms: AlarmVector.ReadError
17:21 - Connection status: False
17:21 - Resetting run
17:21 - Wait for UCTS external trigger before enabling trigger...
17:21 - Status: TibState.Standby
17:21 - Alarms: AlarmVector.NoAlarm
17:21 - Connection status: False
17:21 - Status: TibState.Standby
17:21 - Alarms: AlarmVector.NoAlarm
17:21 - Connection status: False
17:21 - Status: TibState.Armed
17:21 - Alarms: AlarmVector.NoAlarm
17:21 - Connection status: False
17:21 - Starting TIB triggers...
17:21 - Enabling trigger
17:21 - Status: TibState.Running
17:21 - Alarms: AlarmVector.NoAlarm
17:21 - Connection status: False
17:21 - Status: TibState.Running ConnectionStatus: False
17:21 - Alarms: AlarmVector.NoAlarm
17:21 - Temperature: 36.88
17:21 - Local camera rate: 0.0 Hz
17:21 - Stereo trigger rate: 0.0 Hz
17:21 - SPE trigger rate: 0.0 Hz
17:21 - Calibration trigger rate: 0.0 Hz
17:21 - Software trigger rate: 0.0 Hz
17:21 - Pedestal trigger rate: 999.0 Hz
17:21 - Collected trigger rate: 999.0 Hz
17:21 - Busy rate: 0.0 Hz
17:21 - Camera trigger rate: 999.0 Hz
17:21 - Status: TibState.Running ConnectionStatus: False
17:21 - Alarms: AlarmVector.BufferFull|AlmostFull
17:21 - Temperature: 36.88
17:21 - Local camera rate: 0.0 Hz
17:21 - Stereo trigger rate: 0.0 Hz
17:21 - SPE trigger rate: 0.0 Hz
17:21 - Calibration trigger rate: 0.0 Hz
17:21 - Software trigger rate: 0.0 Hz
17:21 - Pedestal trigger rate: 999.0 Hz
17:21 - Collected trigger rate: 999.0 Hz
17:21 - Busy rate: 0.0 Hz
17:21 - Camera trigger rate: 999.0 Hz
17:21 - Stopping TIB...
17:21 - Status: TibState.Running
17:21 - Alarms: AlarmVector.BufferFull|AlmostFull
17:21 - Connection status: False
17:21 - Disabling trigger
17:21 - Disabling PPS
17:21 - Status: TibState.PpsStopped
17:21 - Alarms: AlarmVector.BufferFull|AlmostFull
17:21 - Connection status: False
17:21 - Closing TIB connection to camera server
17:21 - Resetting TIB...
17:21 - Failed to call Reset: Bad statuses are present
17:21 - Stopping NMC
17:21 - Found 0 PPS errors.
17:21 - Checking high voltages...
17:21 - Starting task "Check HV"
17:21 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20181205/NectarCAM.Run1013.NMC.xml
17:21 - Done
17:21 - Found 37 drawer(s) in Nominal state, 0 in Low state and 0 in Wait state
17:21 - Found 37 drawer(s). Reference voltage is between 938.66 V and 1181.59 V. Actual voltage is between 938.79 V and 1181.57 V.
17:21 - Maximum difference between expected and actual voltages in drawer 76 is 0.34 V
17:21 - Maximum difference between expected and actual voltages in drawer 77 is 0.39 V
17:21 - Maximum difference between expected and actual voltages in drawer 78 is 0.36 V
17:21 - Maximum difference between expected and actual voltages in drawer 79 is 0.44 V
17:21 - Maximum difference between expected and actual voltages in drawer 80 is 0.64 V
17:21 - Maximum difference between expected and actual voltages in drawer 81 is 0.45 V
17:21 - Maximum difference between expected and actual voltages in drawer 93 is 0.49 V
17:21 - Maximum difference between expected and actual voltages in drawer 94 is 0.39 V
17:21 - Maximum difference between expected and actual voltages in drawer 95 is 0.32 V
17:21 - Maximum difference between expected and actual voltages in drawer 96 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 97 is 0.47 V
17:21 - Maximum difference between expected and actual voltages in drawer 98 is 0.43 V
17:21 - Maximum difference between expected and actual voltages in drawer 110 is 0.69 V
17:21 - Maximum difference between expected and actual voltages in drawer 111 is 0.41 V
17:21 - Maximum difference between expected and actual voltages in drawer 112 is 0.44 V
17:21 - Maximum difference between expected and actual voltages in drawer 113 is 0.43 V
17:21 - Maximum difference between expected and actual voltages in drawer 114 is 0.50 V
17:21 - Maximum difference between expected and actual voltages in drawer 115 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 116 is 0.53 V
17:21 - Maximum difference between expected and actual voltages in drawer 128 is 0.55 V
17:21 - Maximum difference between expected and actual voltages in drawer 129 is 0.40 V
17:21 - Maximum difference between expected and actual voltages in drawer 130 is 0.47 V
17:21 - Maximum difference between expected and actual voltages in drawer 131 is 0.36 V
17:21 - Maximum difference between expected and actual voltages in drawer 132 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 133 is 0.47 V
17:21 - Maximum difference between expected and actual voltages in drawer 145 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 146 is 0.47 V
17:21 - Maximum difference between expected and actual voltages in drawer 147 is 0.53 V
17:21 - Maximum difference between expected and actual voltages in drawer 148 is 0.57 V
17:21 - Maximum difference between expected and actual voltages in drawer 149 is 0.42 V
17:21 - Maximum difference between expected and actual voltages in drawer 150 is 0.68 V
17:21 - Maximum difference between expected and actual voltages in drawer 163 is 0.41 V
17:21 - Maximum difference between expected and actual voltages in drawer 164 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 165 is 0.46 V
17:21 - Maximum difference between expected and actual voltages in drawer 166 is 0.61 V
17:21 - Maximum difference between expected and actual voltages in drawer 167 is 0.48 V
17:21 - Maximum difference between expected and actual voltages in drawer 168 is 0.34 V
17:21 - Checking status of HVPA module in 37 drawer(s)...
17:21 - Checking status of HVPA channels in 37 drawer(s)...
17:21 - HV is stabilized in all channels.
17:21 - Finished task "Check HV"
17:22 - Starting NMC
17:22 - Clearing PPS error counters
17:22 - Configuring TIB...
17:22 - Setting TIB forced mode to False
17:22 - Writing False to Camera.TIB.Forced.ForcedMode.ForcedMode_v
17:22 - Status: TibState.RunStopped
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Disabling PPS
17:22 - Status: TibState.PpsStopped
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Entering set_external_delay
17:22 - Setting ExternalDelayLocal to 0.000 ns
17:22 - Writing 0.0 to Camera.TIB.ExternalDelay.ExternalDelayLocal.ExternalDelayLocal_v
17:22 - Entering set_external_delay
17:22 - Setting ExternalDelayCalibration to 76.000 ns
17:22 - Writing 76.0 to Camera.TIB.ExternalDelay.ExternalDelayCalibration.ExternalDelayCalibration_v
17:22 - Entering set_external_delay
17:22 - Setting ExternalDelaySphe to 0.000 ns
17:22 - Writing 0.0 to Camera.TIB.ExternalDelay.ExternalDelaySphe.ExternalDelaySphe_v
17:22 - Setting TIB trigger mode to 0x44 = TriggerMask.SlowControl|Calibration
17:22 - Writing 68 to Camera.TIB.TriggerMode.ModeMask.ModeMask_v
17:22 - Writing 0 to Camera.TIB.InputsEnable.InputMask.InputMask_v
17:22 - Writing False to Camera.TIB.BUSY.DisableBusy.DisableBusy_v
17:22 - Writing 0.0 to Camera.TIB.BUSY.ExtraDelayBusy.ExtraDelayBusy_v
17:22 - Writing False to Camera.TIB.Throttler.DisableThrottler.DisableThrottler_v
17:22 - Writing 255 to Camera.TIB.Throttler.MaxTriggers50us.MaxTriggers50us_v
17:22 - Writing 255 to Camera.TIB.Throttler.MaxTriggers1ms.MaxTriggers1ms_v
17:22 - Status: TibState.PpsStopped
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Writing False to Camera.TIB.Pedestal.PeriodicPedestalEnable.PeriodicPedestalEnable_v
17:22 - Writing 1000 to Camera.TIB.Pedestal.PeriodicPedestalFrequency.PeriodicPedestalFrequency_v
17:22 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:22 - Writing False to Camera.TIB.Pedestal.DigitalPedestalEnable.DigitalPedestalEnable_v
17:22 - Writing 1000 to Camera.TIB.Pedestal.DigitalPedestal_config_Rate.DigitalPedestal_config_Rate_v
17:22 - Writing 375764 to Camera.TIB.Pedestal.DigitalPedestalSeed.DigitalPedestalSeed_v
17:22 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:22 - Writing False to Camera.TIB.Pedestal.AnalogPedestalEnable.AnalogPedestalEnable_v
17:22 - Writing 3000.0 to Camera.TIB.Pedestal.AnalogPedestalThreshold.AnalogPedestalThreshold_v
17:22 - Writing False to Camera.TIB.Pedestal.Fake_trig_enable.Fake_trig_enable_v
17:22 - Connecting TIB to camera server at 10.10.4.12:222
17:22 - Starting TIB...
17:22 - Status: TibState.PpsStopped
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Resetting run
17:22 - Wait for UCTS external trigger before enabling trigger...
17:22 - Status: TibState.Standby
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Status: TibState.Standby
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: False
17:22 - Status: TibState.Armed
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: True
17:22 - Starting TIB triggers...
17:22 - Enabling trigger
17:22 - Status: TibState.Running
17:22 - Alarms: AlarmVector.NoAlarm
17:22 - Connection status: True
17:22 - Configuring calibration box...
17:22 - Configuring calibration box with leds=0x40 voltage=12.00 frequency=1000.0/1 central_current=0.0 duration=300 width=1 lemo_out=True fiber1_out=True fiber2_out=True lemo_in=False enabled=False
17:22 - Starting flashes...
17:23 - Stopping TIB...
17:23 - Status: TibState.Running
17:23 - Alarms: AlarmVector.ReadError
17:23 - Connection status: True
17:23 - Disabling trigger
17:23 - Disabling PPS
17:23 - Status: TibState.PpsStopped
17:23 - Alarms: AlarmVector.ReadError
17:23 - Connection status: True
17:23 - Closing TIB connection to camera server
17:23 - Status: TibState.PpsStopped
17:23 - Alarms: AlarmVector.ReadError
17:23 - Connection status: False
17:23 - Run duration: 0:00:53
17:23 - Local camera triggers: 0
17:23 - Slow control triggers: 0
17:23 - Single photo-electron triggers: 0
17:23 - Calibration triggers: 29954
17:23 - Software triggers from UCTS: 0
17:23 - Pedestal triggers: 0
17:23 - Collected input triggers: 29954
17:23 - Busy triggers: 0
17:23 - Camera event triggers sent to clusters: 29954
17:23 - Stopping NMC
17:23 - Found 0 PPS errors.
17:23 - Checking high voltages...
17:23 - Starting task "Check HV"
17:23 - Checking reference voltages against /local/home/cta_test_bench/config/2018/20181205/NectarCAM.Run1013.NMC.xml
17:23 - Done
17:23 - Found 37 drawer(s) in Nominal state, 0 in Low state and 0 in Wait state
17:24 - Found 37 drawer(s). Reference voltage is between 938.66 V and 1181.59 V. Actual voltage is between 938.18 V and 1181.57 V.
17:24 - Maximum difference between expected and actual voltages in drawer 76 is 0.35 V
17:24 - Maximum difference between expected and actual voltages in drawer 77 is 0.66 V
17:24 - Maximum difference between expected and actual voltages in drawer 78 is 0.36 V
17:24 - Maximum difference between expected and actual voltages in drawer 79 is 0.44 V
17:24 - Maximum difference between expected and actual voltages in drawer 80 is 0.28 V
17:24 - Maximum difference between expected and actual voltages in drawer 81 is 0.50 V
17:24 - Maximum difference between expected and actual voltages in drawer 93 is 0.49 V
17:24 - Maximum difference between expected and actual voltages in drawer 94 is 0.47 V
17:24 - Maximum difference between expected and actual voltages in drawer 95 is 0.60 V
17:24 - Maximum difference between expected and actual voltages in drawer 96 is 0.40 V
17:24 - Maximum difference between expected and actual voltages in drawer 97 is 0.47 V
17:24 - Maximum difference between expected and actual voltages in drawer 98 is 0.43 V
17:24 - Maximum difference between expected and actual voltages in drawer 110 is 0.47 V
17:24 - Maximum difference between expected and actual voltages in drawer 111 is 0.41 V
17:24 - Maximum difference between expected and actual voltages in drawer 112 is 0.57 V
17:24 - Maximum difference between expected and actual voltages in drawer 113 is 0.39 V
17:24 - Maximum difference between expected and actual voltages in drawer 114 is 0.52 V
17:24 - Maximum difference between expected and actual voltages in drawer 115 is 0.44 V
17:24 - Maximum difference between expected and actual voltages in drawer 116 is 0.67 V
17:24 - Maximum difference between expected and actual voltages in drawer 128 is 0.52 V
17:24 - Maximum difference between expected and actual voltages in drawer 129 is 0.45 V
17:24 - Maximum difference between expected and actual voltages in drawer 130 is 0.40 V
17:24 - Maximum difference between expected and actual voltages in drawer 131 is 0.45 V
17:24 - Maximum difference between expected and actual voltages in drawer 132 is 0.55 V
17:24 - Maximum difference between expected and actual voltages in drawer 133 is 0.60 V
17:24 - Maximum difference between expected and actual voltages in drawer 145 is 0.46 V
17:24 - Maximum difference between expected and actual voltages in drawer 146 is 0.49 V
17:24 - Maximum difference between expected and actual voltages in drawer 147 is 0.67 V
17:24 - Maximum difference between expected and actual voltages in drawer 148 is 0.44 V
17:24 - Maximum difference between expected and actual voltages in drawer 149 is 0.42 V
17:24 - Maximum difference between expected and actual voltages in drawer 150 is 0.44 V
17:24 - Maximum difference between expected and actual voltages in drawer 163 is 0.41 V
17:24 - Maximum difference between expected and actual voltages in drawer 164 is 0.46 V
17:24 - Maximum difference between expected and actual voltages in drawer 165 is 0.47 V
17:24 - Maximum difference between expected and actual voltages in drawer 166 is 0.61 V
17:24 - Maximum difference between expected and actual voltages in drawer 167 is 0.48 V
17:24 - Maximum difference between expected and actual voltages in drawer 168 is 0.38 V
17:24 - Checking status of HVPA module in 37 drawer(s)...
17:24 - Checking status of HVPA channels in 37 drawer(s)...
17:24 - HV is stabilized in all channels.
17:24 - Finished task "Check HV"