Tau Lepton Run 2 trigger Performance (CMS DP-2019/012)

The trigger efficiency is estimated using Tag and Probe (TnP) method in Z -> tautau -> mu tauh events. Details about the procedure and the fully enabled tau HLTs recommended for Run 2 data taking period can be found in the DP note.


mutauEfficiencyPt_mediumTauMVA_2016DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau pt for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyPt_mediumTauMVA_2017DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau pt for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyPt_mediumTauMVA_2018DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau pt for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyNvtx_mediumTauMVA_2016DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of number of vertices for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyNvtx_mediumTauMVA_2017DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of number of vertices for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyNvtx_mediumTauMVA_2018DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of number of vertices for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyEta_mediumTauMVA_2016DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau eta for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyEta_mediumTauMVA_2017DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau eta for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


mutauEfficiencyEta_mediumTauMVA_2018DataMC.png mu tauh trigger efficiency
The hadronic tau leg efficiencies of mu-tau triggers are shown below as a function of offline tau eta for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pt is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert




etauEfficiencyPt_mediumTauMVA_2017DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of offline tau pt for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


etauEfficiencyPt_mediumTauMVA_2018DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of offline tau pt for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


etauEfficiencyNvtx_mediumTauMVA_2017DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of number of vertices for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


etauEfficiencyNvtx_mediumTauMVA_2018DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of number of vertices for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


etauEfficiencyEta_mediumTauMVA_2017DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of offline tau eta for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


etauEfficiencyEta_mediumTauMVA_2018DataMC.png e tauh trigger efficiency
The hadronic tau leg efficiencies of e-tau triggers are shown below as a function of offline tau eta for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert



ditauEfficiencyPt_mediumTauMVA_2016DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau pt for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyPt_mediumTauMVA_2017DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau pt for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyPt_mediumTauMVA_2018DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau pt for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyNvtx_mediumTauMVA_2016DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of number of vertices for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyNvtx_mediumTauMVA_2017DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of number of vertices for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyNvtx_mediumTauMVA_2018DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of number of vertices for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyEta_mediumTauMVA_2016DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau eta for 2016 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyEta_mediumTauMVA_2017DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau eta for 2017 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend. The encountered pixel problems in 2017 cause a reduced efficiency compared to simulation.
Caption
[Get pdf version]
Contact: Hale Sert


ditauEfficiencyEta_mediumTauMVA_2018DataMC.png di-tauh trigger efficiency
The hadronic tau leg efficiencies of di-tau triggers are shown below as a function of offline tau eta for 2018 data taking. The shown efficiencies correspond to the combined L1 and HLT efficiency. An offline cut on the tau pT is applied to be above the trigger threshold. The corresponding cut and L1 seeds are represented on the legend.
Caption
[Get pdf version]
Contact: Hale Sert



mutauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.png HPS based and Cone based tau reconstruction comparison (mu-tauh trigger)
HPS tau reconstruction was deployed at HLT in the beginning of 2018 data-taking. The efficiency of hadronic tau leg of the mu-tau trigger is shown as a function of offline tau pT for the 17.7 fb-1 data taken with the cone-based tau reconstruction and for 42.0 fb-1 data collected with the HPS-based algorithm in 2018. The combined L1 and HLT efficiency of the tauh-leg is shown. The HPS-based tauh reconstruction algorithm has a rate of 4.6 Hz for mu-tau trigger at average PU = 50, while the rate for cone-based algorithm was 5.2 Hz for mu-tau trigger. So, the HPS reduces the rate by 10% for mu-tau trigger [Ref: CMS DP -2018/035].
Caption
[Get pdf version]
Contact: Hale Sert

ditauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.png HPS based and Cone based tau reconstruction comparison (di-tauh trigger)
HPS tau reconstruction was deployed at HLT in the beginning of 2018 data-taking. The efficiency of hadronic tau leg of the di-tau trigger is shown as a function of offline tau pT for the 17.7 fb-1 data taken with the cone-based tau reconstruction and for 42.0 fb-1 data collected with the HPS-based algorithm in 2018. The combined L1 and HLT efficiency of the tauh-leg is shown. The HPS-based tauh reconstruction algorithm has a rate of 39 Hz for di-tau trigger at average PU = 50, while the rate for cone-based algorithm was 50 Hz for di-tau trigger. So, the HPS reduces the rate by 20% for di-tau trigger [Ref: CMS DP-2018/035].
Caption
[Get pdf version]
Contact: Hale Sert

mutauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.png HPS based and Cone based tau reconstruction comparison (mu-tauh trigger)
HPS tau reconstruction was deployed at HLT in the beginning of 2018 data-taking. The efficiency of hadronic tau leg of the mu-tau trigger is shown as a function of number of vertices for the 17.7 fb-1 data taken with the cone-based tau reconstruction and for 42.0 fb-1 data collected with the HPS-based algorithm in 2018. The combined L1 and HLT efficiency of the tauh-leg is shown. The HPS-based tauh reconstruction algorithm has a rate of 4.6 Hz for mu-tau trigger at average PU = 50, while the rates for cone-based algorithm was 5.2 Hz for mu-tau trigger. So, the HPS reduces the rates by 10% for mu-tau trigger [Ref: CMS DP-2018/035].
Caption
[Get pdf version]
Contact: Hale Sert

ditauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.png HPS based and Cone based tau reconstruction comparison (di-tauh trigger)
HPS tau reconstruction was deployed at HLT in the beginning of 2018 data-taking. The efficiency of hadronic tau leg of the di-tau trigger is shown as a function of number of vertices for the 17.7 fb-1 data taken with the cone-based tau reconstruction and for 42.0 fb-1 data collected with the HPS-based algorithm in 2018. The combined L1 and HLT efficiency of the tauh-leg is shown. The HPS-based tauh reconstruction algorithm has a rate of 39 Hz for di-tau trigger at average PU = 50, while the rates for cone-based algorithm was 50 Hz for di-tau trigger. So, the HPS reduces the rate by 20% for di-tau trigger [Ref: CMS DP-2018/035].
Caption
[Get pdf version]
Contact: Hale Sert



ptResolution_mutau_2018ABCD_HPSBeforeAfter.png pT resolution of HPS-based and cone-based tau reconstruction
pT resolution of the HPS based and cone-based tau reconstruction is shown on the right. The resolution is calculated for mu-tauh trigger by comparing pT of the online and offline tau leptons. It is calculated using the first 17.7 fb-1 of data taken with the cone-based tau reconstruction, where the trigger paths with HPS based algorithm was included for the purpose of testing. The HPS-based tauh reconstruction has better pT resolution compared to the cone-based reconstruction.
Caption
[Get pdf version]
Contact: Hale Sert



mutauEfficiencyPt_eachYear_mediumTauMVA_Data.png Performance of mu-tauh triggers in Run 2
The hadronic tau leg efficiencies of mu-tauh triggers are shown below as a function of offline tau pT for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legends. The different HLT thresholds and differences on L1 seed result in higher efficiencies in 2016 and differences in shapes of the 2016 efficiencies compared to 2017 and 2018. The low pileup in 2016 has also an impact for the higher efficiencies.
Caption
[Get pdf version]
Contact: Hale Sert

etauEfficiencyPt_eachYear_mediumTauMVA_Data.png Performance of for e-tauh triggers in Run 2
The hadronic tau leg efficiencies of e-tauh triggers are shown below as a function of offline tau pT for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legends. The different HLT thresholds and differences on L1 seed result in higher efficiencies in 2016 and differences in shapes of the 2016 efficiencies compared to 2017 and 2018. The low pileup in 2016 has also an impact for the higher efficiencies.
Caption
[Get pdf version]
Contact: Hale Sert

ditauEfficiencyPt_eachYear_mediumTauMVA_Data.png Performance of di-tauh triggers in Run 2
The hadronic tau leg efficiencies of di-tauh triggers are shown below as a function of offline tau pT for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. HLT pt thresholds and L1 seeds are represented on the legends. The lower L1 pt threshold and the low pileup in 2016 results in higher efficiencies, while the encountered pixel problems in 2017 causes a reduction on the efficiency.
Caption
[Get pdf version]
Contact: Hale Sert

mutauEfficiencyNvtx_eachYear_mediumTauMVA_Data.png Performance of mu-tauh triggers in Run 2
The hadronic tau leg efficiencies of mu-tauh triggers are shown below as a function of number of vertices for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. In these plots an offline cut on the tau pT is applied to be above the trigger thresholds. The corresponding cuts and L1 seeds are represented on the legends.
Caption
[Get pdf version]
Contact: Hale Sert

etauEfficiencyNvtx_eachYear_mediumTauMVA_Data.png Performance of e-tauh triggers in Run 2
The hadronic tau leg efficiencies of e-tauh triggers are shown below as a function of number of vertices for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. In these plots an offline cut on the tau pT is applied to be above the trigger thresholds. The corresponding cuts and L1 seeds are represented on the legends.
Caption
[Get pdf version]
Contact: Hale Sert

ditauEfficiencyNtvx_eachYear_mediumTauMVA_Data.png Performance of di-tauh triggers in Run 2
The hadronic tau leg efficiencies of di-tauh triggers are shown below as a function of number of vertices for 2016, 2017 and 2018 years overlaid with each other. The shown efficiencies correspond to the combined L1 and HLT efficiency. In these plots an offline cut on the tau pT is applied to be above the trigger thresholds. The corresponding cuts and L1 seeds are represented on the legends.
Caption
[Get pdf version]
Contact: Hale Sert

-- ElisabettaGallo - 2019-06-18

Topic attachments
I Attachment History Action Size Date Who CommentSorted descending
PDFpdf ditauEfficiencyEta_mediumTauMVA_2016DataMC.pdf r1 manage 15.6 K 2019-06-19 - 11:56 ElisabettaGallo  
PNGpng ditauEfficiencyEta_mediumTauMVA_2016DataMC.png r1 manage 19.9 K 2019-06-19 - 11:56 ElisabettaGallo  
PDFpdf ditauEfficiencyEta_mediumTauMVA_2017DataMC.pdf r1 manage 15.6 K 2019-06-19 - 11:56 ElisabettaGallo  
PNGpng ditauEfficiencyEta_mediumTauMVA_2017DataMC.png r1 manage 20.2 K 2019-06-19 - 11:56 ElisabettaGallo  
PDFpdf ditauEfficiencyEta_mediumTauMVA_2018DataMC.pdf r1 manage 15.6 K 2019-06-19 - 11:56 ElisabettaGallo  
PNGpng ditauEfficiencyEta_mediumTauMVA_2018DataMC.png r1 manage 20.0 K 2019-06-19 - 11:56 ElisabettaGallo  
PDFpdf ditauEfficiencyNvtx_eachYear_mediumTauMVA_Data.pdf r1 manage 14.7 K 2019-06-19 - 12:38 ElisabettaGallo  
PNGpng ditauEfficiencyNvtx_eachYear_mediumTauMVA_Data.png r1 manage 22.0 K 2019-06-19 - 12:38 ElisabettaGallo  
PDFpdf ditauEfficiencyNvtx_mediumTauMVA_2016DataMC.pdf r1 manage 14.2 K 2019-06-19 - 11:57 ElisabettaGallo  
PNGpng ditauEfficiencyNvtx_mediumTauMVA_2016DataMC.png r1 manage 19.8 K 2019-06-19 - 11:57 ElisabettaGallo  
PDFpdf ditauEfficiencyNvtx_mediumTauMVA_2017DataMC.pdf r1 manage 14.3 K 2019-06-19 - 11:57 ElisabettaGallo  
PNGpng ditauEfficiencyNvtx_mediumTauMVA_2017DataMC.png r1 manage 20.0 K 2019-06-19 - 11:57 ElisabettaGallo  
PDFpdf ditauEfficiencyNvtx_mediumTauMVA_2018DataMC.pdf r1 manage 14.3 K 2019-06-19 - 11:57 ElisabettaGallo  
PNGpng ditauEfficiencyNvtx_mediumTauMVA_2018DataMC.png r1 manage 19.8 K 2019-06-19 - 11:57 ElisabettaGallo  
PDFpdf ditauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.pdf r1 manage 14.3 K 2019-06-18 - 10:52 ElisabettaGallo  
PNGpng ditauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.png r1 manage 16.6 K 2019-06-18 - 10:52 ElisabettaGallo  
PDFpdf ditauEfficiencyPt_eachYear_mediumTauMVA_Data.pdf r1 manage 15.3 K 2019-06-19 - 12:39 ElisabettaGallo  
PNGpng ditauEfficiencyPt_eachYear_mediumTauMVA_Data.png r1 manage 22.7 K 2019-06-19 - 12:39 ElisabettaGallo  
PDFpdf ditauEfficiencyPt_mediumTauMVA_2016DataMC.pdf r1 manage 14.6 K 2019-06-19 - 11:58 ElisabettaGallo  
PNGpng ditauEfficiencyPt_mediumTauMVA_2016DataMC.png r1 manage 20.2 K 2019-06-19 - 11:58 ElisabettaGallo  
PDFpdf ditauEfficiencyPt_mediumTauMVA_2017DataMC.pdf r1 manage 14.6 K 2019-06-18 - 10:55 ElisabettaGallo  
PNGpng ditauEfficiencyPt_mediumTauMVA_2017DataMC.png r1 manage 20.3 K 2019-06-18 - 10:55 ElisabettaGallo  
PDFpdf ditauEfficiencyPt_mediumTauMVA_2018DataMC.pdf r1 manage 14.6 K 2019-06-18 - 10:55 ElisabettaGallo  
PNGpng ditauEfficiencyPt_mediumTauMVA_2018DataMC.png r1 manage 20.2 K 2019-06-18 - 10:55 ElisabettaGallo  
PDFpdf ditauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.pdf r1 manage 14.9 K 2019-06-18 - 10:52 ElisabettaGallo  
PNGpng ditauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.png r1 manage 16.8 K 2019-06-18 - 10:52 ElisabettaGallo  
PDFpdf etauEfficiencyEta_mediumTauMVA_2017DataMC.pdf r1 manage 15.7 K 2019-06-18 - 10:53 ElisabettaGallo  
PNGpng etauEfficiencyEta_mediumTauMVA_2017DataMC.png r1 manage 20.3 K 2019-06-18 - 10:53 ElisabettaGallo  
PDFpdf etauEfficiencyEta_mediumTauMVA_2018DataMC.pdf r1 manage 15.7 K 2019-06-18 - 10:53 ElisabettaGallo  
PNGpng etauEfficiencyEta_mediumTauMVA_2018DataMC.png r1 manage 20.0 K 2019-06-18 - 10:53 ElisabettaGallo  
PDFpdf etauEfficiencyNvtx_eachYear_mediumTauMVA_Data.pdf r1 manage 14.8 K 2019-06-18 - 10:53 ElisabettaGallo  
PNGpng etauEfficiencyNvtx_eachYear_mediumTauMVA_Data.png r1 manage 25.7 K 2019-06-18 - 10:53 ElisabettaGallo  
PDFpdf etauEfficiencyNvtx_mediumTauMVA_2017DataMC.pdf r1 manage 14.3 K 2019-06-18 - 10:53 ElisabettaGallo  
PNGpng etauEfficiencyNvtx_mediumTauMVA_2017DataMC.png r1 manage 20.1 K 2019-06-18 - 10:53 ElisabettaGallo  
PDFpdf etauEfficiencyNvtx_mediumTauMVA_2018DataMC.pdf r1 manage 14.3 K 2019-06-18 - 10:53 ElisabettaGallo  
PNGpng etauEfficiencyNvtx_mediumTauMVA_2018DataMC.png r1 manage 20.0 K 2019-06-18 - 10:53 ElisabettaGallo  
PDFpdf etauEfficiencyPt_eachYear_mediumTauMVA_Data.pdf r1 manage 15.3 K 2019-06-18 - 10:56 ElisabettaGallo  
PNGpng etauEfficiencyPt_eachYear_mediumTauMVA_Data.png r1 manage 25.8 K 2019-06-18 - 10:56 ElisabettaGallo  
PDFpdf etauEfficiencyPt_mediumTauMVA_2017DataMC.pdf r1 manage 14.5 K 2019-06-18 - 10:56 ElisabettaGallo  
PNGpng etauEfficiencyPt_mediumTauMVA_2017DataMC.png r1 manage 20.4 K 2019-06-18 - 10:56 ElisabettaGallo  
PDFpdf etauEfficiencyPt_mediumTauMVA_2018DataMC.pdf r1 manage 14.5 K 2019-06-18 - 10:56 ElisabettaGallo  
PNGpng etauEfficiencyPt_mediumTauMVA_2018DataMC.png r1 manage 20.2 K 2019-06-18 - 10:56 ElisabettaGallo  
PDFpdf mutauEfficiencyEta_mediumTauMVA_2016DataMC.pdf r1 manage 15.6 K 2019-06-18 - 10:55 ElisabettaGallo  
PNGpng mutauEfficiencyEta_mediumTauMVA_2016DataMC.png r1 manage 19.0 K 2019-06-18 - 10:55 ElisabettaGallo  
PDFpdf mutauEfficiencyEta_mediumTauMVA_2017DataMC.pdf r1 manage 15.6 K 2019-06-18 - 10:55 ElisabettaGallo  
PNGpng mutauEfficiencyEta_mediumTauMVA_2017DataMC.png r1 manage 19.4 K 2019-06-18 - 10:55 ElisabettaGallo  
PDFpdf mutauEfficiencyEta_mediumTauMVA_2018DataMC.pdf r1 manage 15.6 K 2019-06-18 - 10:56 ElisabettaGallo  
PNGpng mutauEfficiencyEta_mediumTauMVA_2018DataMC.png r1 manage 19.3 K 2019-06-18 - 10:56 ElisabettaGallo  
PDFpdf mutauEfficiencyNvtx_eachYear_mediumTauMVA_Data.pdf r1 manage 14.7 K 2019-06-19 - 12:04 ElisabettaGallo  
PNGpng mutauEfficiencyNvtx_eachYear_mediumTauMVA_Data.png r1 manage 21.3 K 2019-06-19 - 12:04 ElisabettaGallo  
PDFpdf mutauEfficiencyNvtx_mediumTauMVA_2016DataMC.pdf r1 manage 14.2 K 2019-06-18 - 10:55 ElisabettaGallo  
PNGpng mutauEfficiencyNvtx_mediumTauMVA_2016DataMC.png r1 manage 19.6 K 2019-06-18 - 10:55 ElisabettaGallo  
PDFpdf mutauEfficiencyNvtx_mediumTauMVA_2017DataMC.pdf r1 manage 14.3 K 2019-06-18 - 10:54 ElisabettaGallo  
PNGpng mutauEfficiencyNvtx_mediumTauMVA_2017DataMC.png r1 manage 19.3 K 2019-06-18 - 10:54 ElisabettaGallo  
PDFpdf mutauEfficiencyNvtx_mediumTauMVA_2018DataMC.pdf r1 manage 14.3 K 2019-06-18 - 10:54 ElisabettaGallo  
PNGpng mutauEfficiencyNvtx_mediumTauMVA_2018DataMC.png r1 manage 19.2 K 2019-06-18 - 10:54 ElisabettaGallo  
PDFpdf mutauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.pdf r1 manage 14.2 K 2019-06-18 - 10:52 ElisabettaGallo  
PNGpng mutauEfficiencyNvtx_mediumTauMVA_2018_ConeVSHPS.png r1 manage 16.4 K 2019-06-18 - 10:52 ElisabettaGallo  
PDFpdf mutauEfficiencyPt_eachYear_mediumTauMVA_Data.pdf r1 manage 15.4 K 2019-06-19 - 12:39 ElisabettaGallo  
PNGpng mutauEfficiencyPt_eachYear_mediumTauMVA_Data.png r1 manage 22.3 K 2019-06-19 - 12:39 ElisabettaGallo  
PDFpdf mutauEfficiencyPt_mediumTauMVA_2016DataMC.pdf r1 manage 14.6 K 2019-06-18 - 10:54 ElisabettaGallo  
PNGpng mutauEfficiencyPt_mediumTauMVA_2016DataMC.png r1 manage 19.7 K 2019-06-18 - 10:54 ElisabettaGallo  
PDFpdf mutauEfficiencyPt_mediumTauMVA_2017DataMC.pdf r1 manage 14.6 K 2019-06-18 - 10:54 ElisabettaGallo  
PNGpng mutauEfficiencyPt_mediumTauMVA_2017DataMC.png r1 manage 19.6 K 2019-06-18 - 10:54 ElisabettaGallo  
PDFpdf mutauEfficiencyPt_mediumTauMVA_2018DataMC.pdf r1 manage 14.6 K 2019-06-18 - 10:54 ElisabettaGallo  
PNGpng mutauEfficiencyPt_mediumTauMVA_2018DataMC.png r1 manage 19.6 K 2019-06-18 - 10:54 ElisabettaGallo  
PDFpdf mutauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.pdf r1 manage 14.9 K 2019-06-18 - 10:52 ElisabettaGallo  
PNGpng mutauEfficiencyPt_mediumTauMVA_2018_ConeVSHPS.png r1 manage 16.7 K 2019-06-18 - 10:52 ElisabettaGallo  
PDFpdf ptResolution_mutau_2018ABCD_HPSBeforeAfter.pdf r1 manage 16.8 K 2019-06-18 - 10:52 ElisabettaGallo  
PNGpng ptResolution_mutau_2018ABCD_HPSBeforeAfter.png r1 manage 15.9 K 2019-06-18 - 10:52 ElisabettaGallo  
Edit | Attach | Watch | Print version | History: r4 < r3 < r2 < r1 | Backlinks | Raw View | Raw edit | More topic actions...
Topic revision: r3 - 2019-07-22 - HaleSert
 
    • Cern Search Icon Cern Search
    • TWiki Search Icon TWiki Search
    • Google Search Icon Google Search

    CMSPublic All webs login

This site is powered by the TWiki collaboration platform Powered by PerlCopyright & 2008-2019 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback