qcd_analyze ntuple description
* Branch * Definition
* EVENT * Event information
* TRIG * Triggers and luminosity information
* CAL * Precision readout calorimeter cells
* L1CAL * L1 calorimeter trigger towers
* JCCA * RUN II cone jets on cal towers R=0.7
* JCMG * idem on MC particles
* JCCB * RUN II cone jets on cal towers R=0.5
* JCMB * idem on MC particles
* JKCA * RUN II kT jets on cal towers D=1
* EM0 * EM particles without energy correction
* EM * EM particles after post-processing
* MUON * Muons
* MET0 * Missing ET with 0 thresholds
* MET * Missing ET
* PVSEL * Selected primary vertices
* Branch * Leaf[size]/type * Definition
* EVENT * evt/I * Event number
* EVENT * run/I * Run number
* EVENT * fstz/S * Fast z and/or term
* EVENT * lmn/S * LM north and/or term
* EVENT * lms/S * LM south and/or term
* EVENT * phal/S * Proton halo and/or term
* EVENT * ahal/S * Anti-proton halo and/or term
* TRIG * trg_size/I * Number of analyzed triggers
* TRIG * trg_l3bit[trg_size]/S * L3 trigger bit
* TRIG * trg_lbn/I * Luminosity block number
* TRIG * trg_tick/I * Tick number
* CAL * cal_size/I * Number of calorimeter cells in event
* CAL * cal_E[cal_size]/F * Calorimeter cell energy
* CAL * cal_ieta[cal_size]/S * Calorimeter cell eta bin
* CAL * cal_iphi[cal_size]/S * Calorimeter cell phi bin
* CAL * cal_layer[cal_size]/S * Calorimeter cell layer number
* L1CAL * l1c_size/I * Number of calorimeter towers in event
* L1CAL * l1c_ETe[l1c_size]/F * Calorimeter tower transverse EM energy
* L1CAL * l1c_ETt[l1c_size]/F * Calorimeter tower total transverse energy
* L1CAL * l1c_etae[l1c_size]/F * Calorimeter tower eta bin (EM)
* L1CAL * l1c_etat[l1c_size]/F * Calorimeter tower eta bin (total)
* L1CAL * l1c_phie[l1c_size]/F * Calorimeter tower phi bin (EM)
* L1CAL * l1c_phit[l1c_size]/F * Calorimeter tower phi bin (total)
* JCCA * jc7_size/I * Number of jets in event
* JCCA * jc7_E[jc7_size]/F * Jet energy
* JCCA * jc7_Ecor[jc7_size]/D * Jet energy*JES
* JCCA * jc7_JES[jc7_size]/F * Jet energy scale
* JCCA * jc7_stat[jc7_size]/F * JES stat. error
* JCCA * jc7_syst[jc7_size]/F * JES syst. error
* JCCA * jc7_PT[jc7_size]/F * Jet vector PT
* JCCA * jc7_Px[jc7_size]/F * Jet momentum vector (x component)
* JCCA * jc7_Py[jc7_size]/F * Jet momentum vector (y component)
* JCCA * jc7_Pz[jc7_size]/F * Jet momentum vector (z component)
* JCCA * jc7_Eta[jc7_size]/F * Jet pseudorapidity
* JCCA * jc7_EtaD[jc7_size]/F * Detector eta bin
* JCCA * jc7_EtaW[jc7_size]/F * PT-weighted RMS width of jet in eta
* JCCA * jc7_Phi[jc7_size]/F * Jet phi
* JCCA * jc7_PhiD[jc7_size]/F * Detector phi bin
* JCCA * jc7_PhiW[jc7_size]/F * PT-weighted RMS width of jet in phi
* JCCA * jc7_EMF[jc7_size]/F * EM fraction
* JCCA * jc7_CHF[jc7_size]/F * CH fraction
* JCCA * jc7_ICDF[jc7_size]/F * ICD fraction
* JCCA * jc7_ICDMGF[jc7_size]/F * ICD MG fraction
* JCCA * jc7_CCMGF[jc7_size]/F * CC MG fraction
* JCCA * jc7_ECMGF[jc7_size]/F * EC MG fraction
* JCCA * jc7_EM1F[jc7_size]/F * EM1 fraction
* JCCA * jc7_EM2F[jc7_size]/F * EM2 fraction
* JCCA * jc7_EM3F[jc7_size]/F * EM3 fraction
* JCCA * jc7_EM4F[jc7_size]/F * EM4 fraction
* JCCA * jc7_FH1F[jc7_size]/F * FH1 fraction
* JCCA * jc7_FH2F[jc7_size]/F * FH2 fraction
* JCCA * jc7_FH3F[jc7_size]/F * FH3+FH4 fraction
* JCCA * jc7_NTwr[jc7_size]/S * Total number of towers in jet
* JCCA * jc7_HotF[jc7_size]/F * Fraction of jet PT in hottest cell
* JCCA * jc7_n90[jc7_size]/S * Number of towers comprizing >=90% of jet scalar ET
* JCCA * jc7_f90[jc7_size]/F * n90/NTwr
* JCCA * jc7_SMW[jc7_size]/S * split/merge word = #merges + 100*#splits
* JCMG * mc7_size/I * Number of jets in event
* JCMG * mc7_E[mc7_size]/F * Jet energy
* JCMG * mc7_Ecor[mc7_size]/D * Jet energy*JES
* JCMG * mc7_JES[mc7_size]/F * Jet energy scale
* JCMG * mc7_stat[mc7_size]/F * JES stat. error
* JCMG * mc7_syst[mc7_size]/F * JES syst. error
* JCMG * mc7_PT[mc7_size]/F * Jet vector PT
* JCMG * mc7_Px[mc7_size]/F * Jet momentum vector (x component)
* JCMG * mc7_Py[mc7_size]/F * Jet momentum vector (y component)
* JCMG * mc7_Pz[mc7_size]/F * Jet momentum vector (z component)
* JCMG * mc7_Eta[mc7_size]/F * Jet pseudorapidity
* JCMG * mc7_EtaD[mc7_size]/F * Detector eta bin
* JCMG * mc7_EtaW[mc7_size]/F * PT-weighted RMS width of jet in eta
* JCMG * mc7_Phi[mc7_size]/F * Jet phi
* JCMG * mc7_PhiD[mc7_size]/F * Detector phi bin
* JCMG * mc7_PhiW[mc7_size]/F * PT-weighted RMS width of jet in phi
* JCMG * mc7_EMF[mc7_size]/F * EM fraction
* JCMG * mc7_CHF[mc7_size]/F * CH fraction
* JCMG * mc7_ICDF[mc7_size]/F * ICD fraction
* JCMG * mc7_ICDMGF[mc7_size]/F * ICD MG fraction
* JCMG * mc7_CCMGF[mc7_size]/F * CC MG fraction
* JCMG * mc7_ECMGF[mc7_size]/F * EC MG fraction
* JCMG * mc7_EM1F[mc7_size]/F * EM1 fraction
* JCMG * mc7_EM2F[mc7_size]/F * EM2 fraction
* JCMG * mc7_EM3F[mc7_size]/F * EM3 fraction
* JCMG * mc7_EM4F[mc7_size]/F * EM4 fraction
* JCMG * mc7_FH1F[mc7_size]/F * FH1 fraction
* JCMG * mc7_FH2F[mc7_size]/F * FH2 fraction
* JCMG * mc7_FH3F[mc7_size]/F * FH3+FH4 fraction
* JCMG * mc7_NTwr[mc7_size]/S * Total number of towers in jet
* JCMG * mc7_HotF[mc7_size]/F * Fraction of jet PT in hottest cell
* JCMG * mc7_n90[mc7_size]/S * Number of towers comprizing >=90% of jet scalar ET
* JCMG * mc7_f90[mc7_size]/F * n90/NTwr
* JCMG * mc7_SMW[mc7_size]/S * split/merge word = #merges + 100*#splits
* JCCB * jc5_size/I * Number of jets in event
* JCCB * jc5_E[jc5_size]/F * Jet energy
* JCCB * jc5_Ecor[jc5_size]/D * Jet energy*JES
* JCCB * jc5_JES[jc5_size]/F * Jet energy scale
* JCCB * jc5_stat[jc5_size]/F * JES stat. error
* JCCB * jc5_syst[jc5_size]/F * JES syst. error
* JCCB * jc5_PT[jc5_size]/F * Jet vector PT
* JCCB * jc5_Px[jc5_size]/F * Jet momentum vector (x component)
* JCCB * jc5_Py[jc5_size]/F * Jet momentum vector (y component)
* JCCB * jc5_Pz[jc5_size]/F * Jet momentum vector (z component)
* JCCB * jc5_Eta[jc5_size]/F * Jet pseudorapidity
* JCCB * jc5_EtaD[jc5_size]/F * Detector eta bin
* JCCB * jc5_EtaW[jc5_size]/F * PT-weighted RMS width of jet in eta
* JCCB * jc5_Phi[jc5_size]/F * Jet phi
* JCCB * jc5_PhiD[jc5_size]/F * Detector phi bin
* JCCB * jc5_PhiW[jc5_size]/F * PT-weighted RMS width of jet in phi
* JCCB * jc5_EMF[jc5_size]/F * EM fraction
* JCCB * jc5_CHF[jc5_size]/F * CH fraction
* JCCB * jc5_ICDF[jc5_size]/F * ICD fraction
* JCCB * jc5_ICDMGF[jc5_size]/F * ICD MG fraction
* JCCB * jc5_CCMGF[jc5_size]/F * CC MG fraction
* JCCB * jc5_ECMGF[jc5_size]/F * EC MG fraction
* JCCB * jc5_EM1F[jc5_size]/F * EM1 fraction
* JCCB * jc5_EM2F[jc5_size]/F * EM2 fraction
* JCCB * jc5_EM3F[jc5_size]/F * EM3 fraction
* JCCB * jc5_EM4F[jc5_size]/F * EM4 fraction
* JCCB * jc5_FH1F[jc5_size]/F * FH1 fraction
* JCCB * jc5_FH2F[jc5_size]/F * FH2 fraction
* JCCB * jc5_FH3F[jc5_size]/F * FH3+FH4 fraction
* JCCB * jc5_NTwr[jc5_size]/S * Total number of towers in jet
* JCCB * jc5_HotF[jc5_size]/F * Fraction of jet PT in hottest cell
* JCCB * jc5_n90[jc5_size]/S * Number of towers comprizing >=90% of jet scalar ET
* JCCB * jc5_f90[jc5_size]/F * n90/NTwr
* JCCB * jc5_SMW[jc5_size]/S * split/merge word = #merges + 100*#splits
* JCMB * mc5_size/I * Number of jets in event
* JCMB * mc5_E[mc5_size]/F * Jet energy
* JCMB * mc5_Ecor[mc5_size]/D * Jet energy*JES
* JCMB * mc5_JES[mc5_size]/F * Jet energy scale
* JCMB * mc5_stat[mc5_size]/F * JES stat. error
* JCMB * mc5_syst[mc5_size]/F * JES syst. error
* JCMB * mc5_PT[mc5_size]/F * Jet vector PT
* JCMB * mc5_Px[mc5_size]/F * Jet momentum vector (x component)
* JCMB * mc5_Py[mc5_size]/F * Jet momentum vector (y component)
* JCMB * mc5_Pz[mc5_size]/F * Jet momentum vector (z component)
* JCMB * mc5_Eta[mc5_size]/F * Jet pseudorapidity
* JCMB * mc5_EtaD[mc5_size]/F * Detector eta bin
* JCMB * mc5_EtaW[mc5_size]/F * PT-weighted RMS width of jet in eta
* JCMB * mc5_Phi[mc5_size]/F * Jet phi
* JCMB * mc5_PhiD[mc5_size]/F * Detector phi bin
* JCMB * mc5_PhiW[mc5_size]/F * PT-weighted RMS width of jet in phi
* JCMB * mc5_EMF[mc5_size]/F * EM fraction
* JCMB * mc5_CHF[mc5_size]/F * CH fraction
* JCMB * mc5_ICDF[mc5_size]/F * ICD fraction
* JCMB * mc5_ICDMGF[mc5_size]/F * ICD MG fraction
* JCMB * mc5_CCMGF[mc5_size]/F * CC MG fraction
* JCMB * mc5_ECMGF[mc5_size]/F * EC MG fraction
* JCMB * mc5_EM1F[mc5_size]/F * EM1 fraction
* JCMB * mc5_EM2F[mc5_size]/F * EM2 fraction
* JCMB * mc5_EM3F[mc5_size]/F * EM3 fraction
* JCMB * mc5_EM4F[mc5_size]/F * EM4 fraction
* JCMB * mc5_FH1F[mc5_size]/F * FH1 fraction
* JCMB * mc5_FH2F[mc5_size]/F * FH2 fraction
* JCMB * mc5_FH3F[mc5_size]/F * FH3+FH4 fraction
* JCMB * mc5_NTwr[mc5_size]/S * Total number of towers in jet
* JCMB * mc5_HotF[mc5_size]/F * Fraction of jet PT in hottest cell
* JCMB * mc5_n90[mc5_size]/S * Number of towers comprizing >=90% of jet scalar ET
* JCMB * mc5_f90[mc5_size]/F * n90/NTwr
* JCMB * mc5_SMW[mc5_size]/S * split/merge word = #merges + 100*#splits
* JKCA * jk1_size/I * Number of jets in event
* JKCA * jk1_E[jk1_size]/F * Jet energy
* JKCA * jk1_Ecor[jk1_size]/D * Jet energy*JES
* JKCA * jk1_JES[jk1_size]/F * Jet energy scale
* JKCA * jk1_stat[jk1_size]/F * JES stat. error
* JKCA * jk1_syst[jk1_size]/F * JES syst. error
* JKCA * jk1_PT[jk1_size]/F * Jet vector PT
* JKCA * jk1_Px[jk1_size]/F * Jet momentum vector (x component)
* JKCA * jk1_Py[jk1_size]/F * Jet momentum vector (y component)
* JKCA * jk1_Pz[jk1_size]/F * Jet momentum vector (z component)
* JKCA * jk1_Eta[jk1_size]/F * Jet pseudorapidity
* JKCA * jk1_EtaD[jk1_size]/F * Detector eta bin
* JKCA * jk1_EtaW[jk1_size]/F * PT-weighted RMS width of jet in eta
* JKCA * jk1_Phi[jk1_size]/F * Jet phi
* JKCA * jk1_PhiD[jk1_size]/F * Detector phi bin
* JKCA * jk1_PhiW[jk1_size]/F * PT-weighted RMS width of jet in phi
* JKCA * jk1_EMF[jk1_size]/F * EM fraction
* JKCA * jk1_CHF[jk1_size]/F * CH fraction
* JKCA * jk1_ICDF[jk1_size]/F * ICD fraction
* JKCA * jk1_ICDMGF[jk1_size]/F * ICD MG fraction
* JKCA * jk1_CCMGF[jk1_size]/F * CC MG fraction
* JKCA * jk1_ECMGF[jk1_size]/F * EC MG fraction
* JKCA * jk1_EM1F[jk1_size]/F * EM1 fraction
* JKCA * jk1_EM2F[jk1_size]/F * EM2 fraction
* JKCA * jk1_EM3F[jk1_size]/F * EM3 fraction
* JKCA * jk1_EM4F[jk1_size]/F * EM4 fraction
* JKCA * jk1_FH1F[jk1_size]/F * FH1 fraction
* JKCA * jk1_FH2F[jk1_size]/F * FH2 fraction
* JKCA * jk1_FH3F[jk1_size]/F * FH3+FH4 fraction
* JKCA * jk1_NTwr[jk1_size]/S * Total number of towers in jet
* JKCA * jk1_HotF[jk1_size]/F * Fraction of jet PT in hottest cell
* JKCA * jk1_n90[jk1_size]/S * Number of towers comprizing >=90% of jet scalar ET
* JKCA * jk1_f90[jk1_size]/F * n90/NTwr
* JKCA * jk1_SMW[jk1_size]/S * split/merge word = #merges + 100*#splits
* EM0 * em0_size/I * Number of EM particles in event
* EM0 * em0_id[em0_size]/S * EM particle ID
* EM0 * em0_E[em0_size]/F * EM particle energy (track and/or calorimeter)
* EM0 * em0_PT[em0_size]/F * EM particle vector PT
* EM0 * em0_Px[em0_size]/F * EM particle momentum vector (x component)
* EM0 * em0_Py[em0_size]/F * EM particle momentum vector (y component)
* EM0 * em0_Pz[em0_size]/F * EM particle momentum vector (z component)
* EM0 * em0_Eta[em0_size]/F * EM particle eta
* EM0 * em0_Phi[em0_size]/F * EM particle phi
* EM0 * em0_EC[em0_size]/F * EM particle energy (calorimeter only)
* EM0 * em0_PTC[em0_size]/F * EM particle vector PT
* EM0 * em0_PxC[em0_size]/F * EM particle momentum vector (x component)
* EM0 * em0_PyC[em0_size]/F * EM particle momentum vector (y component)
* EM0 * em0_PzC[em0_size]/F * EM particle momentum vector (z component)
* EM0 * em0_EtaC[em0_size]/F * EM particle eta
* EM0 * em0_PhiC[em0_size]/F * EM particle phi
* EM0 * em0_EtaD[em0_size]/F * Calorimeter eta bin
* EM0 * em0_PhiD[em0_size]/F * Calorimeter phi bin
* EM0 * em0_EMF[em0_size]/F * EM fraction
* EM0 * em0_HMx41[em0_size]/F * Chi2 from 41x41 H-matrix
* EM0 * em0_HMx8[em0_size]/F * Chi2 from 8x8 H-matrix
* EM0 * em0_Iso[em0_size]/F * Isolation
* EM0 * em0_hasTrk[em0_size]/S * 1 if matched track
* EM0 * em0_TrkChi2[em0_size]/F* Track matching chi2
* EM0 * em0_Fidu[em0_size]/S * 1 if in fidutial eta & phi region
* EM0 * em0_EtaF[em0_size]/S * 1 if in fidutial eta region
* EM0 * em0_PhiF[em0_size]/S * 1 if in fidutial phi region
* EM * em_size/I * Number of EM particles in event
* EM * em_id[em_size]/S * EM particle ID
* EM * em_E[em_size]/F * EM particle energy (track and/or calorimeter)
* EM * em_PT[em_size]/F * EM particle vector PT
* EM * em_Px[em_size]/F * EM particle momentum vector (x component)
* EM * em_Py[em_size]/F * EM particle momentum vector (y component)
* EM * em_Pz[em_size]/F * EM particle momentum vector (z component)
* EM * em_Eta[em_size]/F * EM particle eta
* EM * em_Phi[em_size]/F * EM particle phi
* EM * em_EC[em_size]/F * EM particle energy (calorimeter only)
* EM * em_PTC[em_size]/F * EM particle vector PT
* EM * em_PxC[em_size]/F * EM particle momentum vector (x component)
* EM * em_PyC[em_size]/F * EM particle momentum vector (y component)
* EM * em_PzC[em_size]/F * EM particle momentum vector (z component)
* EM * em_EtaC[em_size]/F * EM particle eta
* EM * em_PhiC[em_size]/F * EM particle phi
* EM * em_EtaD[em_size]/F * Calorimeter eta bin
* EM * em_PhiD[em_size]/F * Calorimeter phi bin
* EM * em_EMF[em_size]/F * EM fraction
* EM * em_HMx41[em_size]/F * Chi2 from 41x41 H-matrix
* EM * em_HMx8[em_size]/F * Chi2 from 8x8 H-matrix
* EM * em_Iso[em_size]/F * Isolation
* EM * em_hasTrk[em_size]/S * 1 if matched track
* EM * em_TrkChi2[em_size]/F * Track matching chi2
* EM * em_Fidu[em_size]/S * 1 if in fidutial eta & phi region
* EM * em_EtaF[em_size]/S * 1 if in fidutial eta region
* EM * em_PhiF[em_size]/S * 1 if in fidutial phi region
* MET0 * setc/F * SET/MET for CAL + ICD Cells
* MET0 * metc/F *
* MET0 * metcx/F *
* MET0 * metcy/F *
* MET0 * setcm/F * SET/MET for CAL + ICD Cells + Muon correction
* MET0 * metcm/F *
* MET0 * metcmx/F *
* MET0 * metcmy/F *
* MET0 * sett/F * SET/MET for CAL + ICD Towers
* MET0 * mett/F *
* MET0 * mettx/F *
* MET0 * metty/F *
* MET0 * settm/F * SET/MET for CAL + ICD Towers + Muon correction
* MET0 * mettm/F *
* MET0 * mettmx/F *
* MET0 * mettmy/F *
* MET * setc/F * SET/MET for CAL + ICD Cells
* MET * metc/F *
* MET * metcx/F *
* MET * metcy/F *
* MET * setcm/F * SET/MET for CAL + ICD Cells + Muon correction
* MET * metcm/F *
* MET * metcmx/F *
* MET * metcmy/F *
* MET * sett/F * SET/MET for CAL + ICD Towers
* MET * mett/F *
* MET * mettx/F *
* MET * metty/F *
* MET * settm/F * SET/MET for CAL + ICD Towers + Muon correction
* MET * mettm/F *
* MET * mettmx/F *
* MET * mettmy/F *
* PVSEL * ps_size/I * Number of primary vertexes in event
* PVSEL * ps_x[ps_size]/D * Vertex x-coordinate
* PVSEL * ps_y[ps_size]/D * Vertex y-coordinate
* PVSEL * ps_z[ps_size]/D * Vertex z-coordinate
* PVSEL * ps_sigx[ps_size]/D * Uncertainty in vertex x-coord
* PVSEL * ps_sigy[ps_size]/D * Uncertainty in vertex y-coord
* PVSEL * ps_sigz[ps_size]/D * Uncertainty in vertex z-coord
* PVSEL * ps_sigxy[ps_size]/D * Covariance of x and y position
* PVSEL * ps_sigxz[ps_size]/D * Covariance of x and z position
* PVSEL * ps_sigyz[ps_size]/D * Covariance of y and z position
* PVSEL * ps_chisq[ps_size]/D * Vertex chi-square
* PVSEL * ps_ndof[ps_size]/S * Ndof in vertex fit
* PVSEL * ps_ntrk[ps_size]/S * Number of tracks attached to vertex
Pavel DEMINE