HLTriggerOffline/HeavyFlavor Package description

Validation Results

CMSSW_3_11_1_hltpatch1
  • CMSSW_3_11_1_hltpatch1 has improvements in L1 wrt CMSSW_3_11_0_pre5

CMSSW_3_9_0_pre3
  • CMSSW_3_9_0_pre3 has improvements wrt CMSSW_3_9_0_pre2 due to the cascade algorithm

CMSSW_3_7_0_pre5
  • CMSSW_3_7_0_pre5 is consistent with CMSSW_3_7_0_pre4

CMSSW_3_7_0_pre4
  • CMSSW_3_7_0_pre4 is consistent with CMSSW_3_7_0_pre3

CMSSW_3_7_0_pre3
  • CMSSW_3_7_0_pre3 is consistent with CMSSW_3_7_0_pre2

CMSSW_3_7_0_pre2
  • CMSSW_3_7_0_pre2 is consistent with CMSSW_3_6_0

CMSSW_3_6_1
  • CMSSW_3_6_1 is consistent with CMSSW_3_6_0

CMSSW_3_6_0
  • CMSSW_3_6_0 is consistent with CMSSW_3_6_0_pre5

CMSSW_3_6_0_pre6
  • Increase of 5% in L2 efficiency at eta above 1.8 in the high Pt paths due to the improved handling of L1 ghosts

CMSSW_3_6_0_pre5
  • CMSSW_3_6_0_pre5 is consistent with CMSSW_3_6_0_pre4

CMSSW_3_6_0_pre4
  • L2 performance is back to that of CMSSW_3_5_0_pre3 by removing the wide patterns from RPCs and therefore L1 ghosts
  • 5-10% increase of L1 efficiency in eta-region above ~2.1 compared to CMSSW_3_6_0_pre2

CMSSW_3_6_0_pre2
  • CMSSW_3_6_0_pre2 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_6_0_pre1
  • CMSSW_3_6_0_pre1 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_8
  • CMSSW_3_5_8 is consistent with CMSSW_3_5_7

CMSSW_3_5_7
  • L2 performance is back to that of CMSSW_3_5_0_pre3 by removing the wide patterns from RPCs and therefore L1 ghosts and due to the improved handling of L1 ghosts at L2

CMSSW_3_5_5
  • CMSSW_3_5_5 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_4
  • CMSSW_3_5_4 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_3
  • CMSSW_3_5_3 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_2
  • CMSSW_3_5_2 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_1
  • CMSSW_3_5_1 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_0
  • CMSSW_3_5_0 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts
  • CMSSW_3_5_0 vs CMSSW_3_4_1
  • CMSSW_3_5_0 vs CMSSW_3_5_0_pre5

CMSSW_3_5_0_pre5
  • CMSSW_3_5_0_pre5 shows drop of efficiency at L2 wrt CMSSW_3_5_0_pre3 due to L1 ghosts

CMSSW_3_5_0_pre3
  • CMSSW_3_5_0_pre3 is consistent with CMSSW_3_5_0_pre2

CMSSW_3_5_0_pre2
  • CMSSW_3_5_0_pre2 is consistent with CMSSW_3_5_0_pre1

CMSSW_3_5_0_pre1
  • CMSSW_3_5_0_pre1 is consistent with CMSSW_3_4_0_pre7

CMSSW_3_4_2
  • CMSSW_3_4_2 is consistent with CMSSW_3_4_1

CMSSW_3_4_1
  • CMSSW_3_4_1 is consistent with CMSSW_3_4_0

CMSSW_3_4_0
  • CMSSW_3_4_0 is consistent with CMSSW_3_4_0_pre7

CMSSW_3_4_0_pre7
  • Comparison of JpsiMM 20-inf and UpsMM 20-inf in CMSSW_3_4_0_pre7 shows dependencies on deltaR between the muons

  • CMSSW_3_4_0_pre7 is consistent with CMSSW_3_3_0

  • CMSSW_3_4_0_pre7 is consistent with CMSSW_3_4_0_pre6

CMSSW_3_4_0_pre6
  • The inefficiency of L1 in the endcap due to the new compiler is back to normal (slides 8-9)

CMSSW_3_4_0_pre5
  • Global muons are back in the endcap
  • The inefficiency of L1 in the endcap is still present, a feature since the new compiler (slides 8-9)

CMSSW_3_4_0_pre4
  • There are no global muons in the endcap (see slides 5-6)

CMSSW_3_3_6
  • CMSSW_3_3_6 is consistent with CMSSW_3_3_5

CMSSW_3_3_5
  • CMSSW_3_3_5 is consistent with CMSSW_3_3_4

CMSSW_3_3_4
  • CMSSW_3_3_4 is consistent with CMSSW_3_3_3

CMSSW_3_3_3
  • CMSSW_3_3_3 is consistent with CMSSW_3_3_2
  • Drop of L1 efficiency (up to 50%) in the end caps with the NEW COMPILER (see slides 8-9)

CMSSW_3_3_2
  • Drop of L1 efficiency in the end caps with the new compiler (see slides 8-9)

CMSSW_3_3_0
  • There are up to 10% improvements at L3 for low pT central by removing the L2 track refit (see slides 14-15)

CMSSW_3_3_0_pre3
  • There are up to 10% improvements at L3 for low pT central and very forward muons by switching to Outside-In algorithm (see slides 14-15)

CMSSW_3_1_1
  • There are no problems detected

CMSSW_3_1_0_pre4
  • There is an unusual inefficiency in the eta (-2, -1) region in L3/L2v, also visible in L2v/L2 for muons with pT<20GeV. It is absent in CMSSW_3_1_0_pre3 (see ZMM and SingleMuPt10)
  • There is an improvement in L3/L2v efficiency in the deltaR at IP (0.1,0.2) region (see bjpsiX slide 22)
  • FastSim is comparable to FullSim. FastSim shows less eta-dependent detector structure, slightly better efficiency (see SingleMuPt10 Full/Fast)
  • L1 / Global efficiency is low for central muons with pT 3-4 (GeV). (see slide 7)
  • L3 / L2v efficiency is low for central muons with pT 3-5 (GeV). (see slide 13)
  • Double muon trigger paths show low efficiency for high pT quarkonia. The two close by muons (see JpsiMM_Pt_20_inf) effect the online reconstruction. (see slides 22, 23)
Full reports:

CMSSW_3_0_0_pre10
No major differences with respect to CMSSW_3_0_0_pre7
  • L1 / Global efficiency is low for central muons with pT 3-4 (GeV). (see slide 7)
  • L3 / L2v efficiency is low for central muons with pT 3-5 (GeV). (see slide 13)
  • Double muon trigger paths show low efficiency for high pT quarkonia. Presumably the two close by muons (see JpsiMM_Pt_20_inf) effect the online reconstruction. (see slide 18)

CMSSW_3_0_0_pre7
  • L1 / Global efficiency is low for central muons with pT 3-4 (GeV). (see slide 7)
  • L3 / L2v efficiency is low for central muons with pT 3-5 (GeV). (see slide 13)
  • Double muon trigger paths show low efficiency for high pT quarkonia. Presumably the two close by muons (see JpsiMM_Pt_20_inf) effect the online reconstruction. (see slide 23)

-- Responsible: Zoltan Gecse, 02 Feb 2009

CMSSW 1.6.0
L1 and HLT efficiency study:
02/10/2007 Trigger Performance Validation (Heavy Flavor Group) D. Majumder, G. Majumder

-- Responsible: Devdatta Majumder, 08 Oct 2007

Description of the code

The offline trigger efficiency code is located in HLTriggerOffline/HeavyFlavor

Running the code

Responsible: JasonSlaunwhite

Topic attachments
I Attachment History Action Size Date Who Comment
PDFpdf RelValBjpsiMM_CMSSW_3_3_0_pre3_vs_3_1_0_pre11.pdf r1 manage 789.8 K 2009-09-29 - 23:50 ZoltanGecse  
PDFpdf RelValJpsi0_20_CMSSW_3_1_0_pre11_vs_3_3_0_pre3.pdf r1 manage 248.3 K 2009-09-18 - 10:56 ZoltanGecse  
PDFpdf RelValJpsi0_20_CMSSW_3_1_0_pre4_vs_3_0_0_pre10.pdf r1 manage 965.4 K 2009-03-28 - 09:57 ZoltanGecse  
PDFpdf RelValJpsiMM0_20_CMSSW_3_0_0_pre10_vs_3_0_0_pre7.pdf r1 manage 736.7 K 2009-02-27 - 22:49 ZoltanGecse  
PDFpdf RelValJpsiMM0_20_CMSSW_3_3_0_pre3_vs_3_1_0_pre11.pdf r1 manage 770.9 K 2009-09-29 - 23:48 ZoltanGecse  
PDFpdf RelValJpsiMM0_20_CMSSW_3_3_0_vs_3_3_0_pre3.pdf r1 manage 929.4 K 2009-10-20 - 09:38 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_CMSSW_3_0_0_pre10_vs_3_0_0_pre7.pdf r1 manage 760.8 K 2009-02-27 - 22:51 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_CMSSW_3_1_0_pre4_vs_3_0_0_pre10.pdf r1 manage 1071.1 K 2009-03-28 - 09:59 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_CMSSW_3_3_0_pre3_vs_3_1_0_pre11.pdf r1 manage 823.9 K 2009-09-29 - 23:49 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_CMSSW_3_3_0_vs_3_3_0_pre3.pdf r1 manage 987.6 K 2009-10-20 - 09:41 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_CMSSW_3_4_0_pre7_vs_3_3_0.pdf r1 manage 987.1 K 2009-12-09 - 16:05 ZoltanGecse  
PDFpdf RelValJpsiMM20_inf_vs_UpsMM20_inf_CMSSW_3_4_0_pre7.pdf r1 manage 1020.3 K 2009-12-09 - 16:09 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_2_v2_vs_3_3_2_v1.pdf r1 manage 984.4 K 2009-11-04 - 17:31 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_3_v1_vs_3_3_2_v1.pdf r1 manage 981.1 K 2009-11-16 - 22:02 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_3_v2_vs_3_3_3_v1.pdf r1 manage 990.4 K 2009-11-16 - 22:38 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_4_vs_3_3_3_v1.pdf r1 manage 1064.1 K 2009-11-26 - 12:14 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_5_vs_3_3_4.pdf r1 manage 1063.5 K 2009-12-02 - 18:35 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_3_6_vs_3_3_5.pdf r1 manage 982.3 K 2009-12-23 - 21:55 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_0_pre4_vs_3_3_2_v1.pdf r1 manage 971.7 K 2009-11-04 - 19:17 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_0_pre5_vs_3_3_2_v1.pdf r1 manage 989.0 K 2009-11-08 - 13:05 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_0_pre6_vs_3_3_4.pdf r1 manage 1065.3 K 2009-11-26 - 12:13 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_0_pre7_vs_3_4_0_pre6.pdf r1 manage 985.7 K 2009-12-06 - 18:39 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_0_vs_3_4_0_pre7.pdf r1 manage 985.2 K 2009-12-23 - 21:56 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_4_1_vs_3_4_0.pdf r1 manage 983.3 K 2009-12-23 - 21:58 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_5_0_pre1_vs_3_4_0_pre7.pdf r1 manage 985.7 K 2009-12-15 - 14:58 ZoltanGecse  
PDFpdf RelValJpsiMM_CMSSW_3_5_0_pre2_vs_3_5_0_pre1.pdf r1 manage 984.8 K 2009-12-23 - 21:59 ZoltanGecse  
PDFpdf RelValJpsiMM_Pt_0_20_CMSSW_3_0_0_pre7_STARTUP_30X_v1.pdf r1 manage 452.6 K 2009-02-02 - 00:07 ZoltanGecse  
PDFpdf RelValJpsiMM_Pt_20_inf_CMSSW_3_0_0_pre7_STARTUP_30X_v1.pdf r1 manage 455.0 K 2009-02-02 - 00:09 ZoltanGecse  
PDFpdf RelValSingleMuPt10_CMSSW_3_1_0_pre4_vs_3_1_0_pre3.pdf r1 manage 738.3 K 2009-03-28 - 10:02 ZoltanGecse  
PDFpdf RelValSingleMuPt10_CMSSW_3_1_0_pre4_vs_3_1_0_pre4_Fast.pdf r1 manage 738.9 K 2009-03-28 - 10:04 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_0_0_pre10_vs_3_0_0_pre7.pdf r1 manage 760.6 K 2009-02-27 - 22:53 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_0_0_pre7_STARTUP_30X_v1.pdf r1 manage 455.8 K 2009-02-02 - 00:06 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_1_0_pre4_vs_3_0_0_pre10.pdf r1 manage 1012.3 K 2009-03-28 - 10:00 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_3_0_pre3_vs_3_1_0_pre11.pdf r1 manage 761.4 K 2009-09-29 - 23:51 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_3_0_vs_3_3_0_pre3.pdf r1 manage 920.2 K 2009-10-20 - 09:42 ZoltanGecse  
PDFpdf RelValUpsMM_CMSSW_3_4_0_pre7_vs_3_3_0.pdf r1 manage 924.1 K 2009-12-09 - 16:08 ZoltanGecse  
PDFpdf RelValZMM_CMSSW_3_1_0_pre4_vs_3_1_0_pre3.pdf r1 manage 815.0 K 2009-03-28 - 10:01 ZoltanGecse  
PDFpdf RelValbJpsiX_3_0_0_pre10_vs_3_0_0_pre7.pdf r1 manage 758.2 K 2009-02-27 - 22:52 ZoltanGecse  
PDFpdf RelValbJpsiX_CMSSW_3_0_0_pre7_STARTUP_30X_v1.pdf r1 manage 458.6 K 2009-02-02 - 00:09 ZoltanGecse  
PDFpdf RelValbjpsiX_CMSSW_3_1_0_pre4_vs_3_0_0_pre10.pdf r1 manage 1027.7 K 2009-03-28 - 09:56 ZoltanGecse  
PDFpdf RelValbjpsiX_CMSSW_3_3_0_vs_3_3_0_pre3.pdf r1 manage 950.2 K 2009-10-20 - 09:38 ZoltanGecse  
PDFpdf RelValbjpsiX_CMSSW_3_4_0_pre7_vs_3_3_0.pdf r1 manage 951.8 K 2009-12-09 - 16:08 ZoltanGecse  
PDFpdf Summer09PreproductionCMSSW_3_1_1.pdf r1 manage 447.8 K 2009-07-18 - 00:36 ZoltanGecse  
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Topic revision: r45 - 2011-05-30 - MonicaVazquezAcosta
 
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