VetoPerf analysis over V1:Hrec_hoft_16384Hz

Summary

VetoPerf version:3.2.0: documentation gitlab repository
VetoPerf run by:unknown
VetoPerf processing time:1 h, 31 min, 28 s
Processing Date:Fri Feb 21 13:33:05 2025 (UTC)
Requested start:1407499998 → Mon Aug 12 12:13:00 2024 (UTC)
Requested stop:1408708852 → Mon Aug 26 12:00:34 2024 (UTC)
Requested livetime:950014 sec → 10.996 days
Requested segments:vp.insegments.txt
Summary text file:vp.summary.txt

Triggers (V1:Hrec_hoft_16384Hz - OMICRON)

Number of raw triggers:14767220
Number of raw clusters:109188
Number of active clusters:94622 (SNR > 5.000) 1103 (SNR > 8.000) 909 (SNR > 10.000) 734 (SNR > 20.000)

Vetoes

Number of vetoes:43
Dead time: Integrated time when the veto is active. We note d the fraction of the total livetime (950014 s) when the veto is active.
Efficiency (ε):This is the fraction of V1:Hrec_hoft_16384Hz triggers which are vetoed.
ε/d:This factor is larger than 1 when the veto rejects more triggers than a random veto.
V1:Hrec_hoft_16384Hz: 94622 clusters
V0 → V1:Hrec_hoft_16384Hz_0, vetoed clusters: 6003 (6.344 %)
V1 → V1:Hrec_hoft_20000Hz_0, vetoed clusters: 5799 (6.129 %)
V2 → V1:Hrec_hoft_noHI_20000Hz_0, vetoed clusters: 5101 (5.391 %)
V3 → V1:HrecN_hoft_20000Hz_0, vetoed clusters: 4980 (5.263 %)
V4 → V1:HrecN_hoft_16384Hz_0, vetoed clusters: 4967 (5.249 %)
V5 → V1:Hrec_hoft_unbias_20000Hz_0, vetoed clusters: 4853 (5.129 %)
V6 → V1:Hrec_hoft_raw_20000Hz_0, vetoed clusters: 4814 (5.088 %)
V7 → V1:HrecN_hoft_unbias_20000Hz_0, vetoed clusters: 4590 (4.851 %)
V8 → V1:HrecN_hoft_raw_20000Hz_0, vetoed clusters: 4575 (4.835 %)
V9 → V1:HrecN_hoft_noHI_20000Hz_0, vetoed clusters: 4567 (4.827 %)

V0: V1:Hrec_hoft_16384Hz_0 (ε = 6.344%, ε/d = 527.687) [click here to expand/hide] [link to here]

V1: V1:Hrec_hoft_20000Hz_0 (ε = 6.129%, ε/d = 532.432) [click here to expand/hide] [link to here]

V2: V1:Hrec_hoft_noHI_20000Hz_0 (ε = 5.391%, ε/d = 633.739) [click here to expand/hide] [link to here]

V3: V1:HrecN_hoft_20000Hz_0 (ε = 5.263%, ε/d = 552.550) [click here to expand/hide] [link to here]

V4: V1:HrecN_hoft_16384Hz_0 (ε = 5.249%, ε/d = 574.116) [click here to expand/hide] [link to here]

V5: V1:Hrec_hoft_unbias_20000Hz_0 (ε = 5.129%, ε/d = 650.766) [click here to expand/hide] [link to here]

V6: V1:Hrec_hoft_raw_20000Hz_0 (ε = 5.088%, ε/d = 651.462) [click here to expand/hide] [link to here]

V7: V1:HrecN_hoft_unbias_20000Hz_0 (ε = 4.851%, ε/d = 653.157) [click here to expand/hide] [link to here]

V8: V1:HrecN_hoft_raw_20000Hz_0 (ε = 4.835%, ε/d = 653.767) [click here to expand/hide] [link to here]

V9: V1:HrecN_hoft_noHI_20000Hz_0 (ε = 4.827%, ε/d = 667.739) [click here to expand/hide] [link to here]

V10: V1:Hrec_hoft_20000Hz_Gated_500Hz_0 (ε = 0.412%, ε/d = 128.747) [click here to expand/hide] [link to here]

V11: V1:TCS_WI_CO2_ISSIN_0 (ε = 0.254%, ε/d = 22.409) [click here to expand/hide] [link to here]

V12: V1:TCS_NI_CO2_PWROUT_0 (ε = 0.097%, ε/d = 75.406) [click here to expand/hide] [link to here]

V13: V1:TCS_NI_CO2_POWER_CH_PICKOFF_0 (ε = 0.088%, ε/d = 117.869) [click here to expand/hide] [link to here]

V14: V1:TCS_WI_CO2_CH_PWRLAS_0 (ε = 0.023%, ε/d = 27.924) [click here to expand/hide] [link to here]

V15: V1:TCS_NI_CO2_PWRLAS_0 (ε = 0.017%, ε/d = 211.117) [click here to expand/hide] [link to here]

V16: V1:TCS_NI_CO2_POWER_CH_PSTAB_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V17: V1:TCS_NI_CO2_PWRIN_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V18: V1:TCS_NI_DAS_POWER_IN_CALI_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V19: V1:TCS_NI_DAS_POWER_OUT_CALI_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V20: V1:TCS_N_NOISE_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V21: V1:TCS_WI_CO2_ISSOUT_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V22: V1:TCS_WI_CO2_POWER_CH_PICKOFF_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V23: V1:TCS_WI_CO2_POWER_CH_PSTAB_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V24: V1:TCS_WI_CO2_PWRIN_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V25: V1:TCS_WI_CO2_PWRLAS_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V26: V1:TCS_WI_CO2_PWROUT_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V27: V1:TCS_WI_DAS_POWER_IN_CALI_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V28: V1:TCS_WI_DAS_POWER_OUT_CALI_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V29: V1:TCS_W_NOISE_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V30: V1:TIMING_moni_CfgChange_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V31: V1:TIMING_moni_elapsed_time_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V32: V1:TproImgFDS_elapsed_time_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V33: V1:TproImgFDS_processed_packets_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V34: V1:WEB_NCal_CfgChange_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V35: V1:WEB_NCal_elapsed_time_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V36: V1:WEB_PCal_fast_CfgChange_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V37: V1:WEB_PCal_fast_elapsed_time_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V38: V1:WEB_TIMING_moni_CfgChange_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V39: V1:WEB_TIMING_moni_elapsed_time_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V40: V1:CAL_HI_CW_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V41: V1:CAL_HI_DetChar_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

V42: V1:CAL_HI_DetChar_hoft_0 (ε = 0.000%, ε/d = 0.000) [click here to expand/hide] [link to here]

Florent Robinet, florent.robinet@ijclab.in2p3.fr