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Noise and correlation monitoring using LArNoiseMonToolBase

Noise and correlation monitoring using LArNoiseMonToolBase. Noise comparisons HEC LV on/off Coherent noise. Endcap expert week 08 June 2006. M. Lefebvre University of Victoria. summary histo. for tag LArMonTools-00-01-79

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Noise and correlation monitoring using LArNoiseMonToolBase

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  1. Noise and correlation monitoring using LArNoiseMonToolBase • Noise comparisons • HEC LV on/off • Coherent noise Endcap expert week 08 June 2006 M. Lefebvre University of Victoria Noise and correlation monitoring

  2. summary histo • for tag LArMonTools-00-01-79 • the same criterion is applied for the EM and FCal • for the HEC, the same criterion is applied but per region per ieta within a FEB • this is well adapted to the HEC • the noise varies a lot per FEB and per region • at least 4 channels for a given (region, ieta) in each HEC FEB, corresponding to different iphi values • this is NOT well adapted to the EM • often only 2 channels for a given (region, ieta) in a FEB • by default, D = 0.5 • better that 1., as it allows to flag very low noise channels • from tag LArMonTools-00-01-80 • improvement in the case of mixed gain data Noise and correlation monitoring

  3. summary histo (continued) • run 1153 (pedestal, high gain, 10063 events) FT09: “EMecSpecial”FT10: “HEC” LArMonTools-00-01-80 correct treatment of summary histogram for mixed gain data EndcapCFT10Slot08 EndcapCFT02LHECM2 data corruption Noise and correlation monitoring

  4. pedestal and noise: run 1153 vs 1202 • Typical FT09 (FT02R) “EMecSpecial” febs Similar results Note 64 channels for presampler Noise and correlation monitoring

  5. pedestal and noise: run 1153 vs 1202 • FT10 (FT02L) “HEC feedthrough”, EMEC febs Similar results same for EMInner2 Noise and correlation monitoring

  6. pedestal and noise: run 1153 vs 1202 • FT10 (FT02L) “HEC feedthrough”, HEC febs HEC LV on increases noise but does not affect pedestal Same result for other 5 HEC febs Noise and correlation monitoring

  7. pedestal and noise: run 1153 vs 1202 • FT10 (FT02L) “HEC feedthrough”, HECM2 HEC LV on increases noise but does not affect pedestal these are the seemingly uncorrupted channels Noise and correlation monitoring

  8. pedestal and noise: run 1153 vs 1202 • FT10 (FT02L) “HEC feedthrough”, HECM2 HEC LV on increases noise but does not affect pedestal these are the corrupted channels channels 08-15 and 72-79 Noise and correlation monitoring

  9. pedestal and noise: run 1153 vs 1202 • FT10 (FT02L) “HEC feedthrough”, region context corrupted channels are in sampling0-4 region0 Noise and correlation monitoring

  10. pedestal and noise: run 1153 vs 1202 • FT09 (FT02R) “EMecSpecial”, feedthrough context similar results Noise and correlation monitoring

  11. pedestal and noise: run 1153 vs 1202 • FT10 (FT02R) “HEC feedthrough”, feedthrough context similar pedestal results EMEC not affected increase in noise with HEC LV on Noise and correlation monitoring

  12. summary histo (continued) • run 1202 (pedestal, high gain, 10035 events) FT09: “EMecSpecial”FT10: “HEC” channel 21 with low noise EndcapCFT10Slot08 EndcapCFT02LHECM2 corrupted data... corrupted consistently!! Noise and correlation monitoring

  13. pedestal and noise: run 1202 • FT10 (FT02L) “HEC feedthrough”, HECM2 these are supposed to be the uncorrupted channels channel 21 with very low noise, as reported in run 1078 Noise and correlation monitoring

  14. pedestal and noise: run 1202 • FT10 (FT02L) “HEC feedthrough”, HECM2 channel 21 with low noise, as reported in run 1078 normal channel 20 Noise and correlation monitoring

  15. coherent noise summary: run 1153 vs 1202 • largest coherent noise in EMInner1 Noise and correlation monitoring

  16. coherent noise: run 1153 vs 1202 • largest coherent noise in EMInner1 R  1.23 Noise and correlation monitoring

  17. correlations 1153, 1154, 1155 • typical example HIGH MEDIUM LOW Noise and correlation monitoring

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