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namespace PlottingSetup { |
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< |
string directoryname="Results_With_4653ipb__Step8___AllInOne___PAPERMODE"; |
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string directoryname="Jellyfish_tests"; |
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bool RestrictToMassPeak=true; //if you want to switch between offpeak ("false") and onpeak ("true") analysis please use this switch; the masscut below will be adapted automatically when adding samples :-) |
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bool FullMCAnalysis=false; |
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bool DoBTag=false; |
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< |
float luminosity=4653.74;//p3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1} |
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// the 2012 switch is in GeneralToolBox |
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float luminosity=4980;//4653.74;//p3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1} |
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// float luminosity=3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1} |
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// float luminosity=2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1} |
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< |
float lumiuncert=0.045;// to be indicated in [0,1] range, e.g. for 4% write 0.04 |
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float lumiuncert=0.022;//0.045;// to be indicated in [0,1] range, e.g. for 4% write 0.04 |
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float luminosity2012=2420; |
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float lumiuncert2012=0.022; |
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< |
string jzbvariabledata="jzb[1]+0.06*pt"; |
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string jzbvariablemc="jzb[1]+0.04*pt"; |
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float jzbHigh = 400.; // Range for JZB plots |
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// string jzbvariabledata="jzb[1]+0.06*pt"; |
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// string jzbvariablemc="jzb[1]+0.04*pt"; |
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string jzbvariabledata="(jzb[1]+0.06*pt)"; |
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string jzbvariablemc="(jzb[1]+0.04*pt)"; |
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float jzbHigh = 420.; // Range for JZB plots |
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float iMllLow = 20.; // Range for Edge Fitting (and mll plot) for iJZB |
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float iMllHigh = 400.; // Range for Edge Fitting (and mll plot) for iJZB |
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samplecollection allsamples("completesamplecollection"); |
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samplecollection qcdsamples("QCDcollection"); |
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samplecollection signalsamples("signalsamplecollection"); |
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samplecollection systsamples("systematicssamplecollection"); |
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samplecollection scansample("scansamplecollection"); |
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int data=1; |
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int mc=0; |
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int mcwithsignal=2; |
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TCut passtrig("(passed_triggers||!is_data)"); |
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TCut cutmass("abs(mll-91.2)<20"); |
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TCut genMassCut("abs(genMll-91.2)<20"); |
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TCut openmasscut("mll>40"); // this is the mass cut used in the off peak analysis! |
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TCut openGenmasscut("genMll>40"); |
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TCut leptoncut("(pt1>20&&pt2>20)"); |
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TCut passtrig("(passed_triggers||!is_data)"&&leptoncut); |
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TCut openmasscut("mll>20"); // this is the mass cut used in the off peak analysis! |
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TCut openGenmasscut("genMll>20"); |
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TCut opensidebandcut("mll>500&&mll<100"); // this won't let anything thru ... |
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TCut Restrmasscut("abs(mll-91.2)<20"); // this is the mass cut used in the off peak analysis! |
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TCut RestrGenmasscut("abs(genMll-91.2)<20"); |
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TCut Restrsidebandcut("((mll>55&&mll<70)||(mll>112&&mll<160))"); |
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TCut cutmass(Restrmasscut); |
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TCut genMassCut(RestrGenmasscut); |
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TCut bTagRequirement("bTagProbCSVBP[0]>0.679"); |
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//TCut cutmass("mll>2"); |
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TCut basiccut("mll>2");//basically nothing. |
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TCut basicqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0]!=0)&&(pfJetGoodNum>=2&&pfJetGoodID[1]!=0)");//don't use this for the "essential cut", because we want to plot nJets as well as mll in the inclusive case; we thus use it as an addition nJets cut. |
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// TCut basiccut("mll>2"&&leptoncut&&"(bTagProbTHighEff[0]>1.7)&&(bTagProbTHighEff[1]>1.7)");//basically nothing. |
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TCut basiccut("mll>2"&&leptoncut);//basically nothing |
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TCut basicqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0]!=0)&&(pfJetGoodNum>=2&&pfJetGoodID[1]!=0)"&&basiccut);//don't use this for the "essential cut", because we want to plot nJets as well as mll in the inclusive case; we thus use it as an addition nJets cut. |
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//TCut jetqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0])&&(pfJetGoodNum>=2&&pfJetGoodID[1])");//now part of the basiccut |
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//TCut jetqualitycut("mll>0"); |
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TCut cutnJets("pfJetGoodNum>=3"&&basicqualitycut); |
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TCut cutnJetsJESdown("pfJetGoodNum25>=3"&&basicqualitycut); |
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TCut cutnJetsJESup("pfJetGoodNum35>=3"&&basicqualitycut); |
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TCut cutnJetsJESdown("pfJetGoodNumn1sigma>=3"&&basicqualitycut); |
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TCut cutnJetsJESup("pfJetGoodNump1sigma>=3"&&basicqualitycut); |
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TCut cutOSOF("(id1!=id2)&&(ch1*ch2<0)"); |
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TCut cutOSSF("(id1==id2)&&(ch1*ch2<0)"); |
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TCut sidebandcut("(mll>55&&mll<70)||(mll>112&&mll<160)"); |
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TCut sidebandcut(Restrsidebandcut); |
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// SUSY scan parameters |
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float mglustart=25;float mgluend=1200;float mglustep=25; |
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float mLSPstart=25;float mLSPend=1200;float mLSPstep=25; |
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float m0start=200; float m0end=3000; float m0step=20; |
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float m12start=100; float m12end=1000; float m12step=20; |
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float m0start=0; float m0end=3000; float m0step=20; |
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float m12start=0; float m12end=1000; float m12step=20; |
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int ScanXzones=15; // number of zones in x for (mSUGRA) scans |
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int ScanYzones=15; // number of zones in y for (mSUGRA) scans |
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string mSUGRAxsFile="Plotting/Modules/external/msugra_m0_m12_10_0_1_NLO_1.0.txt"; |
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string SMSReferenceXSFile="Plotting/Modules/external/reference_xSec_SMS-new.root"; |
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//scan types: |
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int mSUGRA=1; |
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//here we save our "flipped" number of predicted and observed events (with errors) -- this means that we consider JZB<-X as observed and construct the corresponding prediction |
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bool alwaysflip=false; |
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bool allowflipping=true; |
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vector<float> flippedNobs; |
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vector<float> flippedNpred; |
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vector<float> flippedNprederr; |
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int JESdown=1; |
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int JESup=2; |
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// Uncertainties ONPEAK |
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float zjetsestimateuncertONPEAK=0.25; |
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float emuncertONPEAK=0.25; |
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float emsidebanduncertONPEAK=0.25; |
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float eemmsidebanduncertONPEAK=0.25; |
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// Uncertainties OFFPEAK (iJZB) |
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float zjetsestimateuncertOFFPEAK=0.25; |
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float emuncertOFFPEAK=0.1; |
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float emsidebanduncertOFFPEAK=0.0; |
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float eemmsidebanduncertOFFPEAK=0.0; |
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//some refinement: nicer color gradient |
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Double_t stops[5] = { 0.00, 0.34, 0.61, 0.84, 1.00 }; |
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Double_t red[5] = { 0.00, 0.00, 0.87, 1.00, 0.51 }; |
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// LIMITS |
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int nlimittoys=1000; // how many toys for setting limits |
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string limitmethod="cls";//what method to use to set limits |
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< |
int limitpatience=15; // for how many minutes should the limit calculation (for one configuration!) be allowed to run before being aborted? this only has an effect when when running on the t3 batch; the value for CRAB is on the next line |
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int limitpatience=20; // for how many minutes should the limit calculation (for one configuration!) be allowed to run before being aborted? this only has an effect when when running on the t3 batch; the value for CRAB is on the next line |
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int limitpatienceCRAB=60; |
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bool ConsiderSignalContaminationForLimits=true; //whether or not to consider signal contamination when computing limits (standard:true) |
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int nuisancemodel=1; |
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bool computeJZBefficiency=false; |
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bool computeJZBresponse=false; |
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bool requireZ=true; |
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bool requireZ=true;//this is switched to "off" automatically when doing offpeak! |
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// string ScanSampleDirectory="SMS_T5zzh_newslots";//DileptonmSUGRAScan__pieces |
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string ScanSampleDirectory="DileptonmSUGRAScan__pieces"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/ note: this string needs to either contain "SMS", "GMSB", or "mSUGRA" |
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// string ScanSampleDirectory="SMS_T1lh"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/ note: this string needs to either contain "SMS", "GMSB", or "mSUGRA" |
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< |
string ScanSampleDirectory="SMS_T5zz/"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/ note: this string needs to either contain "SMS", "GMSB", or "mSUGRA" |
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string FilterEfficiencyFile = "/shome/buchmann/JellyfishCBAF/DistributedModelCalculations/Limits/FilterEfficiencyv3.root"; |
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string CMSSW_dir = "/shome/buchmann/final_production_2011/CMSSW_4_2_8/src/"; |
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ResultLibrary allresults; |
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} |
