ArizonaFJetNtuples

Introduction

This twiki is meant to provide information regarding the ntuples produced by Arizona for the purpose of hadronically decaying W and top studies using large-R jets.

Pre-selection

• Use TopCommonObjects
  • Use mini-isolation for both e+jet and mu+jets
  • Large-R jet pt > 100 GeV
• Pass lepton trigger, trigger matching, pvtx, jet cleaning, and error flags
• No MET or $WTransMass (MTW) cuts
• Exactly 1 lepton, e or mu
• >= 1 akt-4 jets within dR < 1.5 from lepton
• >= 1 akt-4 jet with mv1 > 0.1340 (85%) OR mv1c > 0.4051 (80%)
• >= 1 large-R jet (from any available collection) with pt > 100 GeV

Selection

MC normalization

xsec, kf, and ninit are stored as branches for easy MC normalization

Scale each event with lumi * xsec * kf / ninit

If entire MC sample is not available, use h_cutflow_EJB_weighted_mcw->GetBinContent(1) from a combined file for the sample instead of ninit.

Weights

weight_total contains the following weights:

• MC (only needed for MC@NLO)
• pileup
• lepton scale
• pvtx
• b-tagging

SF_btagMV170: b-tag weight, there are 6 operating points available

weight_ews: TtbarWeakCorrections applied to ttbar

weight_tpt: $PowHeg+Pythia top Pt reweighting

single top weight: mc12_8TeV.110090.PowhegPythia_P2011C_singletop_tchan_lept_top.merge.NTUP_COMMON.e2575_s1773_s1776_r4485_r4540_p1575/ and mc12_8TeV.110091.PowhegPythia_P2011C_singletop_tchan_lept_antitop.merge.NTUP_COMMON.e2575_s1773_s1776_r4485_r4540_p1575/ require an additional event weight of e9 to correct MC weight

Lepton/Trigger scale factors

Nominal:

weight_total * (SF_btagMV170 / weight_btagScale) * weight_ews * weight_tpt

Lepton variation:

weight_total * (SF_btagMV170 / weight_btagScale) * weight_ews * weight_tpt * (SF_el_ElScaleUp * SF_mu_ElScaleUp * SF_elTrig_ElScaleUp * SF_muTrig_ElScaleUp * SF_dmuTrig_ElScaleUp) / weight_lepScale

Trigger SF variation:

weight_total * (SF_btagMV170 / weight_btagScale) * weight_ews * weight_tpt * (SF_elTrig_TrigUp * SF_muTrig_TrigUp) / (SF_elTrig * SF_muTrig)

Lepton SF variation:

IsoUp/Down weight_total * (SF_btagMV170 / weight_btagScale) * weight_ews * weight_tpt * (SF_elIdIso_SFUp * SF_muIso_SFUp) / (SF_elIdIso * SF_muIso)

RecoUp/Down weight_total * (SF_btagMV170 / weight_btagScale) * weight_ews * weight_tpt * (SF_elReco_SFUp * SF_muReco_SFUp) / (SF_muReco * SF_elReco)

W Pt reweighting

Tool found here: ~jmontejo/public/ZpT_reweighting_tool

m_VpTReweight = new ZpTReweighting();
m_VpTReweight->set_ZPTweights("2jin_0bjex");
m_ev->evweight_VpTWeight = m_VpTReweight->get_ZPTreweighting(m_ev->get_truth_VpT());
if(m_ev->hfor==3) m_ev->evweight_VpTWeightHF = 0.95;
else m_ev->evweight_VpTWeightHF = 1.52;

W+jets SFs

These scale factors are derived in the ttbar lepton+jets resonances search using the charge asymmetry method.

Heavy Flavor SFs

To be added very soon

Normalization with NNLO corrections

Derive and apply NNLO corrections to each of the el and mu channel W+Jets samples as so:

k_pos = A/C * ((1+R)/(1+R*(A/C))) k_neg = ((1+R)/(1+R*(A/C)))

Where A = 1.415=0, =C = 1.447, and R = W_pos / W_neg

Then apply the following SFs to W+Jets samples

SF_el = 0.89 SF_mu = 0.82

Normalization without NNLO corrections

To be added very soon

Selection example

(MuonsN = 1) && (ElectronsN = 0) && (MuonsIsIsolated = 1) && (IsTrigMatch_mu = 1) && (IsBoosted = 1) && (HFORtype < 4) && (NBjets > 0) && (passJetCut) && (passFJetCut) && (passMETMTWCut)

Where NBjets is the sum of akt4 jets passing your favorite b-tag requirement.

passJetCut is the requirement that there exists at least 1 akt-4 jet with pt > 25 GeV and dR(lep,jet) < 1.5. The highest pt of these jets is considered the leptonic top jet (ltjet).

passFJetCut is the requirement that there is a large-R jet with dR(fjet,ltjet) > 1.5 and dPhi(fjet,lep) > 2.3

passMETMTWCut is your favorite MET and MTW cut(s) using EtMiss and WTransMass

HFOR

Only relevant for W+jets. Reject events with HFORtype > 3

B-Tagging

Use JetsMV1 or JetsMV1C as desired

Leptons

There is no lepton isolation pre-selection. In order to select events with an isolated lepton use MuonsIsIsolated/ElectronsIsIsolated = true

Trigger matching

Use IsTrigMatch_el/mu = 1

Delayed stream

Events passing emulated large-R jet trigger are included in MC to be used with delayed muon stream data (not processed). Use IsBoosted = 1 or IsDelayedBoosted = 0 to remove these events

If you do use the delayed stream, MC with IsDelayedBoosted = 1 need to be normalized to lumi = 17356 pb-1

True event type

If using truth matching, use TruEventType ! = 3 to remove dilepton events

Multijet estimation

New prescription under study

The multijet estimation is found separately for each channel due to the fact that lepton isolation may vary between electrons and muons.

Leptonic top jet

The highest pt akt-4 jet that lies within dR(jet,lep) < 1.5 is considered the leptonic top jet, ltjet. Require all events to have a leptonic top jet.

Large-R jet isolation requirement

Define an isolated large-R jet as having dR(large-R,ltjet) > 1.5

Signal region

Require lepton isolation and that there is at least 1 isolated large-R jet.

CR1

Invert lepton isolation

CR2

Require lepton isolation and invert large-R jet isolation, requiring exactly 0 isolated large-R jets

CR3

Invert both lepton and large-R jet isolation

Recipe

Get QCD templates from CR1, defined as data - MC.

Scale templates to nCR2/nCR3, where nCR2 and nCR3 are the data - MC yields from the respective control region before MET and MTW cuts are applied.

Validation

Closure tests are still needed

Branches

• sampName: Name of individual sample, ie. WenuNp0
• bkgName: Name of background, ie. wjets
• Leptons*: Electrons* + Muons*
• Jets*: Akt-4 jets
• bJetsN: Akt-4 jets passing mv1 b-tagging at 70%
• BuiltCandAkt10Jets*: Trimmed R = 30 akt-10 jets
• BuiltCandAkt10TrimF5R20Jets*: Trimmed R = 20 akt-10 jets
• BuiltCandCamKt10PrunR50Z15Jets*: Pruned R = 50 Z = 15 C/A 10 jets
• BuiltCandCamKt12BDRSM100R30Y15Jets*: Split/filtered R = 30 Y = 15 C/A 12 jets
• TruEventType: 0 = e+jets, 1 = mu+jets, 2 = tau+jets, 3 = dilepton
• Tru*: Truth particles, always filled for ttbar and sometimes for single top (be careful)
• TruW: Truth W not decaying from a top. To be used for W+jets pt reweighting and for single top Wt channel truth matching
• TruRawAkt10*: Untrimmed truth akt-10 jets to be used to stitch pt filtered W+jets samples to inclusive samples
• TruAkt10*: Trimmed truth akt-10 jets with pt > 75 GeV
• TruCA12*: Split/filtered truth CA-12 jets with pt > 75 GeV

Systematics

Unless a quantity is explicitly affected by a systematic, use the nominal value

Object systematics

Variations

ElScaleUp/Down
ElResUp/Down
MuScaleUp/Down
MuResUp/Down
MuIdUp/Down
JESUp/Down
JER

Affected quantities

Electrons
Muons
Akt4 jets
WTransMass
SF_el
SF_mu
SF_elTrig
SF_muTrig
IsTrigMatch_el/mu

MET systematics

Variations

METResUp/Down
METSCUp/Down

Affected quantities

EtMiss
EtMiss_phi
WTransMass

Lepton SF systematics

Each component of the lepton SFs is stored individually, but combining them properly will take some work. The process will be posted here asap.

Variations

SFUp/Down

Affected quantities

SF_elReco
SF_elId
SF_elIso
SF_elIdIso
SF_muReco
SF_muIso

Trigger SF systematics

Variations

TrigUp/Down

Affected quantities

SF_elTrig
SF_muTrig

Large-R JES systematics

Storing all the substructure variables for each systematic would be cumbersome. To ensure correct jet substructure, dR matching to nominal jets is necessary.

Variations

BJESUp/Down
BJER
BJMSUp/Down
BJMR

Affected quantities

Large-R jet 4-vectors

Large-R substructure systematics

To be implemented using UJUncertaintyProvider offline

The respective substructure quantities

Example analysis code

To be added soon

Production code

Framework developed by Xiaowen Lei

svn+ssh://@svn.cern.ch/reps/atlasinst/Institutes/Arizona/xlei/TopLJetsResAnaArea/trunk TopLJetsResAnaArea

See README.txt for thorough instructions, but here is a brief overview:

rm -rf TopCommonScales/include/QCDMMScalesTool.h
rm -rf TopCommonScales/src/QCDMMScalesTool.cxx

Build

source ./scripts/setup.sh first
./scripts/build_root_core.sh first
./scripts/compile.sh first

Leave off first after the first time you compile.

Modify

TopLJetsResonance/src/TtbarResCycle.cxx controls the main cycle.

TopLJetsResonance/src/TtbarResCycleTree.cxx handles the output tree.

TopCommonObjects/src/LargeRJetSelectorTool.cxx is used to select/build large-R jets.

Run

sframe_main TopLJetsResonance/config/JMRConfig_mc.xml

Step 2 code

This is still in progress so the instructions may change over time

svn+ssh://svn.cern.ch/reps/atlasinst/Institutes/Arizona/TopResonances/D5PDMacros

Modify code

src/WTag.cxx and include/WTag.h are the latest working examples. samps.h and ttres.h are important helper files as well.

To modify your input file lists:

cd inputs/Spring2014_8TeV/res/jmr/mc/ (or /data/) source makelists.sh

It is best to merge the output ntuples for each sample using the attached merge.sh scripts. This will reduce the processing time.

Compile

source setup.sh

make wtag

Run

./bin/wtag.exe NOM

Ntuples in Arizona Tier3 Cluster

• MC: /export/share/data1/jveatch/dataset/data/TopAnalysis/rel18/d4pd/jmr/mc/2014.10.30/merge/
• data: /export/share/data1/jveatch/dataset/data/TopAnalysis/rel18/d4pd/jmr/data/2014.10.08/merge/

Samples Processed

Dataset names

Datasets that have the same date but end with a different version number are produced with identical code. The multiple versioning is sometimes necessary due to a quirk with JEDI. If there are multiple versions of the same sample number with the same date, use the later version number.

MC

Due to Panda errors, it was necessary to run several versions. There is no overlap between any version, download them all for the comeplete set of MC.

group10.perf-jets.mc12_8TeV*jmr.2015.01.28.v01*root*
group10.perf-jets.mc12_8TeV*jmr.2015.01.28.v02*root*

data

group10.perf-jets.data12_8TeV*Egamma.jmr.2015.01.29.v01*/
group10.perf-jets.data12_8TeV*Muons.jmr.2015.01.29.v01*/

ttbar

mc12_8TeV.117050.PowhegPythia_P2011C_ttbar.merge.NTUP_COMMON.e1728_s1581_s1586_r3658_r3549_p1562/

mc12_8TeV.110898.Pythia8_AU2MSTW2008LO_EWttbar.merge.NTUP_COMMON.e2512_s1499_s1504_r3658_r3549_p1575/

systematics/cross-check samples

cp zpt/libZpTReweighting.a lib/.
mc12_8TeV.117050.PowhegPythia_P2011C_ttbar.merge.NTUP_COMMON.e1727_a188_a171_r3549_p1575/
mc12_8TeV.105200.McAtNloJimmy_CT10_ttbar_LeptonFilter.merge.NTUP_COMMON.e1513_s1499_s1504_r3945_r3549_p1562/
mc12_8TeV.105200.McAtNloJimmy_CT10_ttbar_LeptonFilter.merge.NTUP_COMMON.e1513_a159_a171_r3549_p1562/
mc12_8TeV.117840.TTbar_MT1700_nonallhad_PowHeg_Pythia_P2011C.merge.NTUP_COMMON.e2051_s1581_s1586_r3658_r3549_p1562/
mc12_8TeV.117842.TTbar_MT1750_nonallhad_PowHeg_Pythia_P2011C.merge.NTUP_COMMON.e2051_s1581_s1586_r3658_r3549_p1562/
mc12_8TeV.105860.PowhegJimmy_AUET2CT10_ttbar_LeptonFilter.merge.NTUP_COMMON.e1576_a159_a171_r3549_p1575/
mc12_8TeV.105861.PowhegPythia_AUET2BCT10_ttbar_LeptonFilter.merge.NTUP_COMMON.e1317_a159_a165_r3549_p1575/
mc12_8TeV.117209.AcerMCPythia_AUET2BCTEQ6L1_MorePS_ttbar_noallhad.merge.NTUP_COMMON.e1378_a159_a171_r3549_p1575/
mc12_8TeV.117210.AcerMCPythia_AUET2BCTEQ6L1_LessPS_ttbar_noallhad.merge.NTUP_COMMON.e1378_a159_a171_r3549_p1575/

ttbar+V (MadGraph+Pythia)

mc12_8TeV.119353.MadGraphPythia_AUET2BCTEQ6L1_ttbarW.merge.NTUP_COMMON.e1352_s1499_s1504_r3658_r3549_p1575/
mc12_8TeV.119354.MadGraphPythia_AUET2BCTEQ6L1_ttbarWj.merge.NTUP_COMMON.e1352_s1499_s1504_r3658_r3549_p1575/
mc12_8TeV.119355.MadGraphPythia_AUET2BCTEQ6L1_ttbarZ.merge.NTUP_COMMON.e1352_s1499_s1504_r3658_r3549_p1575/
mc12_8TeV.119356.MadGraphPythia_AUET2BCTEQ6L1_ttbarZj.merge.NTUP_COMMON.e1352_s1499_s1504_r3658_r3549_p1575/

W+jets (Alpgen+Pyhia)

mc12_8TeV.147025.AlpgenPythia_Auto_P2011C_WenuNp0.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147026.AlpgenPythia_Auto_P2011C_WenuNp1.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147027.AlpgenPythia_Auto_P2011C_WenuNp2.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147028.AlpgenPythia_Auto_P2011C_WenuNp3.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1562/
mc12_8TeV.147029.AlpgenPythia_Auto_P2011C_WenuNp4.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147030.AlpgenPythia_Auto_P2011C_WenuNp5incl.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147033.AlpgenPythia_Auto_P2011C_WmunuNp0.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147034.AlpgenPythia_Auto_P2011C_WmunuNp1.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147035.AlpgenPythia_Auto_P2011C_WmunuNp2.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147036.AlpgenPythia_Auto_P2011C_WmunuNp3.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147037.AlpgenPythia_Auto_P2011C_WmunuNp4.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147038.AlpgenPythia_Auto_P2011C_WmunuNp5incl.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147041.AlpgenPythia_Auto_P2011C_WtaunuNp0.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147042.AlpgenPythia_Auto_P2011C_WtaunuNp1.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147043.AlpgenPythia_Auto_P2011C_WtaunuNp2.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147044.AlpgenPythia_Auto_P2011C_WtaunuNp3.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147045.AlpgenPythia_Auto_P2011C_WtaunuNp4.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147046.AlpgenPythia_Auto_P2011C_WtaunuNp5incl.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/

mc12_8TeV.200056.AlpgenPythia_Auto_P2011C_WcNp0.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200057.AlpgenPythia_Auto_P2011C_WcNp1.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200058.AlpgenPythia_Auto_P2011C_WcNp2.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200059.AlpgenPythia_Auto_P2011C_WcNp3.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200060.AlpgenPythia_Auto_P2011C_WcNp4incl.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200156.AlpgenPythia_Auto_P2011C_WccNp0.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200157.AlpgenPythia_Auto_P2011C_WccNp1.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200158.AlpgenPythia_Auto_P2011C_WccNp2.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200159.AlpgenPythia_Auto_P2011C_WccNp3incl.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200256.AlpgenPythia_Auto_P2011C_WbbNp0.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200257.AlpgenPythia_Auto_P2011C_WbbNp1.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200258.AlpgenPythia_Auto_P2011C_WbbNp2.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200259.AlpgenPythia_Auto_P2011C_WbbNp3incl.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/

W+jets Akt10 filtered samples (Alpgen+Pyhia)

Use these samples only for boosted analysis requiring 1-lepton and a truth-level ungroomed jet with pt>250GeV. These samples are of same processes as the inclusive samples above, thus safe to be stitched together if lower pt range is desired.

mc12_8TeV.190001.AlpgenPythia_Auto_P2011C_WenuNp1_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190002.AlpgenPythia_Auto_P2011C_WenuNp2_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190003.AlpgenPythia_Auto_P2011C_WenuNp3_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190004.AlpgenPythia_Auto_P2011C_WenuNp4_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190005.AlpgenPythia_Auto_P2011C_WenuNp5_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190011.AlpgenPythia_Auto_P2011C_WmunuNp1_Akt10Pt250.merge.NTUP_COMMON.e2328_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190012.AlpgenPythia_Auto_P2011C_WmunuNp2_Akt10Pt250.merge.NTUP_COMMON.e2328_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190013.AlpgenPythia_Auto_P2011C_WmunuNp3_Akt10Pt250.merge.NTUP_COMMON.e2328_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190014.AlpgenPythia_Auto_P2011C_WmunuNp4_Akt10Pt250.merge.NTUP_COMMON.e2328_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190015.AlpgenPythia_Auto_P2011C_WmunuNp5_Akt10Pt250.merge.NTUP_COMMON.e2328_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190021.AlpgenPythia_Auto_P2011C_WtaunuNp1_Akt10Pt250.merge.NTUP_COMMON.e2329_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190022.AlpgenPythia_Auto_P2011C_WtaunuNp2_Akt10Pt250.merge.NTUP_COMMON.e2329_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190023.AlpgenPythia_Auto_P2011C_WtaunuNp3_Akt10Pt250.merge.NTUP_COMMON.e2329_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190024.AlpgenPythia_Auto_P2011C_WtaunuNp4_Akt10Pt250.merge.NTUP_COMMON.e2329_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190025.AlpgenPythia_Auto_P2011C_WtaunuNp5_Akt10Pt250.merge.NTUP_COMMON.e2329_s1581_s1586_r4485_r4540_p1606/

mc12_8TeV.190030.AlpgenPythia_Auto_P2011C_WcNp0_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190031.AlpgenPythia_Auto_P2011C_WcNp1_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190032.AlpgenPythia_Auto_P2011C_WcNp2_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190033.AlpgenPythia_Auto_P2011C_WcNp3_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190034.AlpgenPythia_Auto_P2011C_WcNp4_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190040.AlpgenPythia_Auto_P2011C_WccNp0_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190041.AlpgenPythia_Auto_P2011C_WccNp1_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190042.AlpgenPythia_Auto_P2011C_WccNp2_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190043.AlpgenPythia_Auto_P2011C_WccNp3_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190050.AlpgenPythia_Auto_P2011C_WbbNp0_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190051.AlpgenPythia_Auto_P2011C_WbbNp1_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190052.AlpgenPythia_Auto_P2011C_WbbNp2_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/
mc12_8TeV.190053.AlpgenPythia_Auto_P2011C_WbbNp3_Akt10Pt250.merge.NTUP_COMMON.e2327_s1581_s1586_r4485_r4540_p1606/

Z+jets (Alpgen+Pyhia)

mc12_8TeV.147105.AlpgenPythia_Auto_P2011C_ZeeNp0.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147106.AlpgenPythia_Auto_P2011C_ZeeNp1.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147107.AlpgenPythia_Auto_P2011C_ZeeNp2.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147108.AlpgenPythia_Auto_P2011C_ZeeNp3.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147109.AlpgenPythia_Auto_P2011C_ZeeNp4.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147110.AlpgenPythia_Auto_P2011C_ZeeNp5incl.merge.NTUP_COMMON.e1879_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147113.AlpgenPythia_Auto_P2011C_ZmumuNp0.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147114.AlpgenPythia_Auto_P2011C_ZmumuNp1.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147115.AlpgenPythia_Auto_P2011C_ZmumuNp2.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147116.AlpgenPythia_Auto_P2011C_ZmumuNp3.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147117.AlpgenPythia_Auto_P2011C_ZmumuNp4.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147118.AlpgenPythia_Auto_P2011C_ZmumuNp5incl.merge.NTUP_COMMON.e1880_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147121.AlpgenPythia_Auto_P2011C_ZtautauNp0.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147122.AlpgenPythia_Auto_P2011C_ZtautauNp1.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147123.AlpgenPythia_Auto_P2011C_ZtautauNp2.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147124.AlpgenPythia_Auto_P2011C_ZtautauNp3.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147125.AlpgenPythia_Auto_P2011C_ZtautauNp4.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.147126.AlpgenPythia_Auto_P2011C_ZtautauNp5incl.merge.NTUP_COMMON.e1881_s1581_s1586_r3658_r3549_p1575/

mc12_8TeV.200332.AlpgenPythia_Auto_P2011C_ZeebbNp0.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200333.AlpgenPythia_Auto_P2011C_ZeebbNp1.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200334.AlpgenPythia_Auto_P2011C_ZeebbNp2.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200335.AlpgenPythia_Auto_P2011C_ZeebbNp3incl.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200340.AlpgenPythia_Auto_P2011C_ZmumubbNp0.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200341.AlpgenPythia_Auto_P2011C_ZmumubbNp1.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200342.AlpgenPythia_Auto_P2011C_ZmumubbNp2.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200343.AlpgenPythia_Auto_P2011C_ZmumubbNp3incl.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200348.AlpgenPythia_Auto_P2011C_ZtautaubbNp0.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200349.AlpgenPythia_Auto_P2011C_ZtautaubbNp1.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200350.AlpgenPythia_Auto_P2011C_ZtautaubbNp2.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200351.AlpgenPythia_Auto_P2011C_ZtautaubbNp3incl.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200432.AlpgenPythia_Auto_P2011C_ZeeccNp0.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200433.AlpgenPythia_Auto_P2011C_ZeeccNp1.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200434.AlpgenPythia_Auto_P2011C_ZeeccNp2.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200435.AlpgenPythia_Auto_P2011C_ZeeccNp3incl.merge.NTUP_COMMON.e2384_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200440.AlpgenPythia_Auto_P2011C_ZmumuccNp0.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200441.AlpgenPythia_Auto_P2011C_ZmumuccNp1.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200442.AlpgenPythia_Auto_P2011C_ZmumuccNp2escape.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200443.AlpgenPythia_Auto_P2011C_ZmumuccNp3incl.merge.NTUP_COMMON.e2385_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200448.AlpgenPythia_Auto_P2011C_ZtautauccNp0.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200449.AlpgenPythia_Auto_P2011C_ZtautauccNp1.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200450.AlpgenPythia_Auto_P2011C_ZtautauccNp2.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.200451.AlpgenPythia_Auto_P2011C_ZtautauccNp3incl.merge.NTUP_COMMON.e2386_s1581_s1586_r3658_r3549_p1575/

Single-top

mc12_8TeV.110090.PowhegPythia_P2011C_singletop_tchan_lept_top.merge.NTUP_COMMON.e2575_s1773_s1776_r4485_r4540_p1575/
mc12_8TeV.110091.PowhegPythia_P2011C_singletop_tchan_lept_antitop.merge.NTUP_COMMON.e2575_s1773_s1776_r4485_r4540_p1575/
mc12_8TeV.110119.PowhegPythia_P2011C_st_schan_lep.merge.NTUP_COMMON.e1720_s1581_s1586_r3658_r3549_p1575/
mc12_8TeV.110140.PowhegPythia_P2011C_st_Wtchan_incl_DR.merge.NTUP_COMMON.e1743_s1581_s1586_r3658_r3549_p1575/

Diboson

mc12_8TeV.183585.Sherpa_CT10_ZWtoeeqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183586.Sherpa_CT10_ZZtoeeqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183587.Sherpa_CT10_ZWtomumuqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183588.Sherpa_CT10_ZZtomumuqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183589.Sherpa_CT10_ZWtotautauqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183590.Sherpa_CT10_ZZtotautauqq_MassiveCB.merge.NTUP_COMMON.e2370_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183734.Sherpa_CT10_WWtoenuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183735.Sherpa_CT10_WZtoenuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183736.Sherpa_CT10_WWtomunuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183737.Sherpa_CT10_WZtomunuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183738.Sherpa_CT10_WWtotaunuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/
mc12_8TeV.183739.Sherpa_CT10_WZtotaunuqq_MassiveCB.merge.NTUP_COMMON.e2347_s1581_s1586_r4485_r4540_p1575/

WPrime

mc12_8TeV.158858.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m400.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158860.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m600.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158862.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m800.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158864.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m1000.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158866.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m1200.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158868.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m1400.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158870.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m1600.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158872.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m1800.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/
mc12_8TeV.158874.Pythia8_AU2MSTW2008LO_Wprime_WZ_llqq_m2000.merge.NTUP_COMMON.e1569_s1499_s1504_r3658_r3549_p1562/

Data

data12_8TeV.periodA.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1517_p1562/
data12_8TeV.periodB.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodC.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodD.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodE.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodG.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodH.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodI.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1562/
data12_8TeV.periodJ.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1562/
data12_8TeV.periodL.physics_Egamma.PhysCont.NTUP_COMMON.grp14_v01_p1562/

data12_8TeV.periodA.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1517_p1562/
data12_8TeV.periodB.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodC.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodD.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodE.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodG.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodH.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1278_p1562/
data12_8TeV.periodI.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1562/
data12_8TeV.periodJ.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1562/
data12_8TeV.periodL.physics_Muons.PhysCont.NTUP_COMMON.grp14_v01_p1562/

Major updates:
-- JasonVeatch - 09 Oct 2014

%RESPONSIBLE% JasonVeatch
%REVIEW% Never reviewed

• merge_data.sh: Scripts to merge ntuples by sample

• merge_MC.sh: Scripts to merge ntuples by sample