CRAB job submission

In UserCode/boeriu/AnalysisCode one can find a crab file: crab_LQ_M300_10TeV.cfg that shows what needs to go inside for running over a particular dataset (this is valid for CMSSW_3_1_3 though, there may be other changes needed for later releases). The datasets can be found in DBS. To be able to use CRAB, you need a valid CRAB certificate, once you have that you can use the following commands to set it up and check status/getoutput and resubmit jobs (from /afs):
>  source /afs/cern.ch/cms/LCG/LCG-2/UI/cms_ui_env.csh
>  cmsenv
>  source /afs/cern.ch/cms/ccs/wm/scripts/Crab/crab.csh
>  crab -create -submit -cfg crab_TTbar_7TeV.cfg
>  crab -status -c crab_0_xxx_yyy
>  crab -getoutput 1 -c crab_0_xxx_yyy
>  crab -resubmit 1 -c crab_0_xxx_yyy

Different CRAB error codes can be found here: https://twiki.cern.ch/twiki/bin/view/CMS/JobExitCodes

Leptoquark Analysis in CMSSW_3XY

To produce an analyzer for new data files based on the latest variables you have in a root file, execute in ROOT:

>  TFile *f = new TFile ("myfile.root");
>  TTree *t = (TTree *)f->Get(“tree1”);
>  t->MakeClass("MyAnalyzerName");

The new analysis code used for the October exercise (OctExercise.C and .h files) can be found under UserCode/boeriu/AnalysisCode, using the output from the RootTupleMakerPAT described in https://twiki.cern.ch/twiki/bin/view/CMS/ExoticaLeptoquarkAnalyzerRootNtupleMakerPAT3XY. In ROOT one executes:

> .L OctExercise.C++ 
>  OctExercise t 
>  t.Loop()

For each different file edit the .h file to contain your favorite background or signal sample, the .C file has to be edited depending on what sample is chosen (cross-section and number of events/ or luminosity). Before running make sure the sample is FullSim or FastSim, depending on this criteria the HLT bits might change, also this depends on what release is used, the bits have a tendency to change position. There is commented out code at the beginning of the .C file that allows one to run for a few events (or all) the HLT menu output, and thus change to the correct HLT bit in each sample case.

The number of events in a given file can be obtained by using the EventsOctEx.C and .h.

There are other .C and .h files one could use for analyzing the root files under UserCode/Leptoquarks/RootTupleMakerPAT.

NLO cross-sections at 7TeV

 m_LQ[GeV]   LO [pb]     NLO [pb]
 ----------------------------------
 0.100E+03   0.265E+03   0.446E+03
 0.200E+03   0.756E+01   0.119E+02
 0.250E+03   0.215E+01   0.348E+01
 0.300E+03   0.733E+00   0.121E+01
 0.400E+03   0.119E+00   0.206E+00
 0.500E+03   0.257E-01   0.463E-01
 0.600E+03   0.662E-02   0.124E-01
 0.650E+03   0.352E-02   0.676E-02
 0.700E+03   0.191E-02   0.377E-02
 0.800E+03   0.598E-03   0.124E-02
 0.900E+03   0.197E-03   0.437E-03
 0.100E+04   0.676E-04   0.160E-03
 0.110E+04   0.237E-04   0.607E-04
 0.120E+04   0.844E-05   0.235E-04
 0.130E+04   0.303E-05   0.923E-05
 0.140E+04   0.108E-05   0.366E-05
 0.150E+04   0.384E-06   0.145E-05

NLO cross-sections at 10TeV

m_LQ[GeV]  LO [pb]     NLO [pb]
 ----------------------------------
 0.100E+03  0.599E+03   0.838E+03
 0.200E+03  0.210E+02   0.316E+02
 0.250E+03  0.653E+01   0.101E+02
 0.300E+03  0.242E+01   0.380E+01
 0.400E+03  0.462E+00   0.752E+00
 0.500E+03  0.118E+00   0.197E+00
 0.600E+03  0.358E-01    0.617E-01
 0.650E+03  0.208E-01    0.362E-01
 0.700E+03  0.124E-01    0.218E-01
 0.800E+03  0.466E-02    0.846E-02
 0.900E+03  0.188E-02    0.351E-02
 0.100E+04  0.794E-03    0.153E-02
 0.120E+04  0.158E-03    0.329E-03
 0.150E+04  0.165E-04    0.393E-04

NLO cross-sections at 14TeV

m_LQ[GeV]  LO [pb]     NLO [pb]
 ----------------------------------
 0.200E+03   50.0         74.2
 0.250E+03   14.68        22.02
 0.300E+03    5.659        8.77
 0.400E+03    1.316        2.11
 0.500E+03    0.339        0.55
 0.600E+03    0.132        0.22
 0.650E+03    0.076        0.13
 0.700E+03    0.0469       0.0797
 0.800E+03    0.022        0.038 
 0.900E+03    0.0093       0.0163
 0.100E+04    0.0047       0.0083

Plot variables

UserCode/boeriu/AnalysisCode/plot.C is an example code for drawing in ROOT a variable for the signal and background.

OctoberX Results

The results from October exercise can be found here: https://twiki.cern.ch/twiki/bin/view/CMS/EXOLQMResults with some distributions.

Data in DBS

A general search in DBS like:
*Summer09-MC_31X_V3_7TeV* 
*Summer09-MC_31X_V3* 
will produce lots of results where one can find the signal and background data for 7 and 10 TeV MC samples.

Some 7TeV RECO background samples (the output files have the name XXX_count.root, where XXX= name of input file) below. The filter efficiency is used in the following way - if different from 1.0, calculate the equivalent luminosity like this: N / (sigma * filter_efficiency).

/WZ/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (114070 evts), &sigma = 10.5 pb
/TTbarJets-madgraph/Summer09-MC_31X_V3_7TeV-v2/GEN-SIM-RECO  (1062730 evts), &sigma = 90.0 pb
/ZJets-madgraph/Summer09-MC_31X_V3_7TeV_preproduction-v1/GEN-SIM-RECO  (201671 evts), &sigma = 2350.0 pb
/VVJets-madgraph/Summer09-MC_31X_V3_7TeV-v2/GEN-SIM-RECO (102853 evts), &sigma = 4.8 pb, filter_eff = 0.59
/ZmumuJet_Pt0to15/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (235420 evts), &sigma = 4434.0 pb
/ZmumuJet_Pt15to20/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (222730 evts),  &sigma = 145.4 pb
/ZmumuJet_Pt20to30/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (195750 evts), &sigma = 131.8 pb
/ZmumuJet_Pt30to50/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (230420 evts), &sigma = 84.38 pb
/ZmumuJet_Pt50to80/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (106016 evts), &sigma = 32.35 pb
/ZmumuJet_Pt80to120/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (107759 evts), &sigma = 9.981 pb
/ZmumuJet_Pt120to170/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (175560 evts), &sigma = 2.76 pb
/ZmumuJet_Pt170to230/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (170188 evts), &sigma = 0.7241 pb
/ZmumuJet_Pt230to300/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (177230 evts), &sigma = 0.1946 pb
/ZmumuJet_Pt300toInf/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (109316 evts), &sigma = 0.07627 pb
/QCD_Mu_Pt20to30/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (11049739 evts), &sigma = 237000000 pb, filter_eff = 0.0051
/QCD_Mu_Pt30to50/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (7017216 evts), &sigma = 53200000 pb, filter_eff = 0.0123
/QCD_Mu_Pt50to80/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (2507049 evts), &sigma = 6340000 pb, filter_eff = 0.0219
/QCD_Mu_Pt80to120/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (516248 evts), &sigma = 7850000 pb, filter_eff = 0.037
/QCD_Mu_Pt120to170/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (318028 evts), &sigma = 115000 pb, filter_eff = 0.053 
/QCD_Mu_Pt170toInf/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (316801 evts), &sigma = 25600 pb, filter_eff = 0.063 
/QCDDiJet_Pt30to50/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (1070867 evts), &sigma = 53110000 pb
/QCDDiJet_Pt50to80/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (104821 evts), &sigma = 6358888 pb
/QCDDiJet_Pt80to120/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (593142 evts), &sigma = 784999 pb
/QCDDiJet_Pt120to170/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (56296 evts), &sigma = 115100 pb
/QCDDiJet_Pt170to230/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (50240 evts), &sigma = 20140 pb
/QCDDiJet_Pt230to300/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (54028 evts), &sigma = 4094 pb
/QCDDiJet_Pt300to380/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (61325 evts), &sigma = 934.6 pb
/QCDDiJet_Pt380to470/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (51472 evts), &sigma = 233.8 pb
/QCDDiJet_Pt470to600/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (20380 evts), &sigma = 70.21 pb
/QCDDiJet_Pt600to800/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (22448 evts), &sigma = 15.57 pb
/QCDDiJet_Pt800to1000/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (11000 evts), &sigma = 1.843 pb
/QCDDiJet_Pt1000to1400/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (18564 evts), &sigma = 0.3318 pb
/QCDDiJet_Pt1400to1800/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (20575 evts), &sigma = 0.01086 pb
/QCDDiJet_Pt1800to2200/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (33970 evts), &sigma = 0.0003499 pb
/QCDDiJet_Pt2200to2600/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (22580 evts), &sigma = 0.000007549 pb
/QCDDiJet_Pt2600to3000/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (19016 evts), &sigma = 0.00000006465 pb
/QCDDiJet_Pt3000to3500/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (23460 evts), &sigma = 0.00000000006295 pb
/QCD_Pt80/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (3203440 evts), &sigma = 923800 pb
/QCD_Pt170/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (3132800 evts), &sigma = 25470 pb
/QCD_Pt300/Summer09-MC_31X_V3_7TeV-v1/GEN-SIM-RECO  (3274202 evts), &sigma = 1256.0 pb

Cross-sections can be found here as well for 7TeV: https://twiki.cern.ch/twiki/bin/view/CMS/ProductionSummer2009at7TeV

Data on pcneu03

Under /localscratch2/oana/CMSSW_3_1_3/src/Leptoquarks/RootTupleMakerPAT/test/dataOct5Exercise/data_7TeV and /data_10TeV there are MC samples for both signal and background for 7TeV and 10TeV.

-- OanaBoeriu - 14-Dec-2009

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