MarlinStdRecoMiniDST.xml

<marlin>

<execute>
  <processor name="InitDD4hep"/>
  <processor name="Statusmonitor"/>
  <!--processor name="FastJetOverlay"/>
  <processor name="ExpandJet"/-->
  <processor name="Thrust"/>
  <processor name="Sphere"/>
  <processor name="Fox"/>
  <processor name="IsolatedMuonTagging"/>
  <processor name="IsolatedElectronTagging"/>
  <processor name="IsolatedTauTagging"/>
  <processor name="IsolatedPhotonTagging"/>
  <processor name="JC2FT"/>
  <processor name="EF2"/>
  <processor name="JC3FT"/>
  <processor name="EF3"/>
  <processor name="JC4FT"/>
  <processor name="EF4"/>
  <processor name="JC5FT"/>
  <processor name="EF5"/>
  <processor name="JC6FT"/>
  <processor name="EF6"/>
  <if condition="${RundEdxCorrections}">
    <processor name="ComputeCorrectAngulardEdX"/>
    <processor name="LikelihoodPID"/>
    <processor name="LeptonID"/>
    <processor name="ComprehensivePID"/>
  </if>
  <processor name="LCIOOutputProcessor"/>
</execute>

<global>
  <parameter name="LCIOInputFiles">
    INPUTNAME
  </parameter>
  <parameter name="MaxRecordNumber" value="0" />
  <parameter name="SkipNEvents" value="0" />
  <parameter name="SupressCheck" value="false" />
  <parameter name="Verbosity" options="DEBUG0-4,MESSAGE0-4,WARNING0-4,ERROR0-4,SILENT">ERROR</parameter>
</global>

<constants>
  <constant name="OutputFile" value="mini-DST.slcio"/>
  <constant name="ProductionDir" value="."/>
  <constant name="RundEdxCorrections" value="true"/>
  <constant name="lcgeo_DIR" value=$lcgeo_DIR/>

  <constant name="LCFIPlusConfig_DIR" value="./LCFIPlusConfig"/>
  <constant name="LCFIPlusVertexPrefix" value="ildl5_4q250_ZZ"/>
  <constant name="LCFIPlusD0ProbFile" value="${LCFIPlusConfig_DIR}/vtxprob/d0probv2_${LCFIPlusVertexPrefix}.root"/>
  <constant name="LCFIPlusZ0ProbFile" value="${LCFIPlusConfig_DIR}/vtxprob/z0probv2_${LCFIPlusVertexPrefix}.root"/>
  <constant name="LCFIPlusWeightsPrefix" value="4q250_v04_p00_ildl5"/>
  <constant name="LCFIPlusWeightsDir" value="${LCFIPlusConfig_DIR}/lcfiweights/4q250_ZZ_v4_p00_ildl5"/>

  <constant name="IsolatedLeptonTagging_DIR" value="./IsolatedLeptonTagging"/>
  <constant name="ElectronIsolationWeightsDir" value="${IsolatedLeptonTagging_DIR}/weights/e1e1h_gg_qqqq_250"/>
  <constant name="MuonIsolationWeightsDir" value="${IsolatedLeptonTagging_DIR}/weights/e2e2h_gg_qqqq_250"/>
</constants>

<processor name="InitDD4hep" type="InitializeDD4hep">
  <parameter name="DD4hepXMLFile" type="string"> ${lcgeo_DIR}/ILD/compact/ILD_l5_v02/ILD_l5_v02.xml </parameter>
  <parameter name="Verbosity"> SILENT </parameter>
</processor>

<processor name="Statusmonitor" type="Statusmonitor">
    <!--Statusmonitor prints out information on running Marlin Job: Prints number of runs run and current number of the event. Counting is sequential and not the run or event ID.-->
    <!--Print the event number every N events-->
    <parameter name="HowOften" type="int"> 1000 </parameter>
    <!--verbosity level of this processor ("DEBUG0-4,MESSAGE0-4,WARNING0-4,ERROR0-4,SILENT")-->
    <!-- <parameter name="Verbosity" type="string">MESSAGE </parameter> -->
</processor>


<processor name="FastJetOverlay" type="FastJetProcessor">
  <parameter name="recParticleIn" type="string" lcioInType="ReconstructedParticle"> PandoraPFOs </parameter>
  <parameter name="jetOut" type="string" lcioOutType="ReconstructedParticle"> PFOsminusoverlayJets </parameter>
  <parameter name="algorithm" type="StringVec"> ee_genkt_algorithm 3.0 1.0 </parameter>
  <parameter name="clusteringMode" type="StringVec"> ExclusiveNJets 2 </parameter>
  <parameter name="recombinationScheme" type="string">E_scheme </parameter>
</processor>

<processor name="ExpandJet" type="ExpandJetProcessor">
  <parameter name="InputCollection" type="string"> PFOsminusoverlayJets </parameter>
  <parameter name="OutputCollection" type="string"> PFOsminusoverlay </parameter>
</processor>

<processor name="Thrust" type="ThrustReconstruction">
 <!--Calculates thrust axis and thrust value of event using different algorithms-->  <!--Name of collection of reconstructed particles used for thrust reconstruction-->
  <parameter name="inputCollectionName" type="string" lcioInType="ReconstructedParticle"> PandoraPFOs </parameter>
  <!--parameter name="inputCollectionName" type="string" lcioInType="ReconstructedParticle"> PandoraPFOsNew </parameter-->
  <!--Type of thrust reconstruction algorithm to be used:  1 : Tasso algorithm  2 : JetSet algorithm-->
  <parameter name="typeOfThrustFinder" type="int"> 2 </parameter>
</processor>

<processor name="Sphere" type="Sphere">
  <parameter name="CollectionName" type="string" lcioInType="ReconstructedParticle"> PandoraPFOs </parameter>
  <parameter name="r_value" type="float"> 2.0 </parameter>
</processor>

<processor name="Fox" type="Fox">
  <parameter name="NameOfReconstructedParticlesCollection" type="string" lcioInType="ReconstructedParticle"> PandoraPFOs </parameter>
</processor>

<processor name="IsolatedMuonTagging" type="IsolatedLeptonTaggingProcessor">
  <!--IsolatedLeptonTaggingProcessor does whatever it does ...-->
  <!--cosine of the larger cone-->
  <parameter name="CosConeLarge" type="float">0.95 </parameter>
  <!--cosine of the smaller cone-->
  <parameter name="CosConeSmall" type="float">0.98 </parameter>
  <!--Cut on the mva output of isolated electron selection-->
  <parameter name="CutOnTheISOElectronMVA" type="float"> 2 </parameter>
  <!--Cut on the mva output of isolated muon selection-->
  <parameter name="CutOnTheISOMuonMVA" type="float">0.7 </parameter>
  <!--Directory of Weights for the Isolated Electron MVA Classification-->
  <parameter name="DirOfISOElectronWeights" type="string">
  ${ElectronIsolationWeightsDir}
  </parameter>
  <!--Directory of Weights for the Isolated Muon MVA Classification-->
  <parameter name="DirOfISOMuonWeights" type="string">
  ${MuonIsolationWeightsDir}
  </parameter>

  <!--Name of the PandoraPFOs collection-->
  <parameter name="InputPandoraPFOsCollection" type="string" lcioInType="ReconstructedParticle"> PandoraPFOs </parameter>
  <!--Name of the Primary Vertex collection-->
  <parameter name="InputPrimaryVertexCollection" type="string" lcioInType="ReconstructedParticle"> PrimaryVertex </parameter>
  <!--flag to select one most like isolated lepton-->
  <parameter name="IsSelectingOneIsoLep" type="bool"> false </parameter>
  <!--Maximum d0 significance for electron-->
  <parameter name="MaxD0SigForElectron" type="float">50 </parameter>
  <!--Maximum D0 significance for muon-->
  <parameter name="MaxD0SigForMuon" type="float">20 </parameter>
  <!--Maximum ratio of energy in calorimeters over momentum for electron-->
  <parameter name="MaxEOverPForElectron" type="float">1.3 </parameter>
  <!--Maximum ratio of energy in calorimeters over momentum for muon-->
  <parameter name="MaxEOverPForMuon" type="float">0.3 </parameter>
  <!--Maximum Z0 significance for electron-->
  <parameter name="MaxZ0SigForElectron" type="float">50 </parameter>
  <!--Maximum Z0 significance for muon-->
  <parameter name="MaxZ0SigForMuon" type="float">20 </parameter>
  <!--minimum ratio of energy in calorimeters over momentum for electron-->
  <parameter name="MinEOverPForElectron" type="float">0.5 </parameter>
  <!--minimum ratio of energy in ecal over energy in ecal+hcal-->
  <parameter name="MinEecalOverTotEForElectron" type="float">0.9 </parameter>
  <!--use yoke for muon ID-->
  <parameter name="UseYokeForMuonID" type="bool"> true </parameter>
  <!--Minimum energy in yoke for electron-->
  <parameter name="MinEyokeForMuon" type="float">1.2 </parameter>
  <!--Minimum momentum for electron-->
  <parameter name="MinPForElectron" type="float">5 </parameter>
  <!--Minimum momentum for muon-->
  <parameter name="MinPForMuon" type="float">5 </parameter>
  <!--use impact parameters-->
  <parameter name="UseIP" type="bool"> true </parameter>
  <!--Name of collection with the selected isolated lepton-->
  <parameter name="OutputIsoLeptonsCollection" type="string" lcioOutType="ReconstructedParticle"> IsolatedMuons </parameter>
  <!--Name of the new PFOs collection without isolated lepton-->
  <parameter name="OutputPFOsWithoutIsoLepCollection" type="string" lcioOutType="ReconstructedParticle"> PFOsminusmu </parameter>
  <!--verbosity level of this processor ("DEBUG0-4,MESSAGE0-4,WARNING0-4,ERROR0-4,SILENT")-->
  <parameter name="Verbosity" type="string"> SILENT </parameter>
</processor>

<processor name="IsolatedElectronTagging" type="IsolatedLeptonTaggingProcessor">
  <!--IsolatedLeptonTaggingProcessor does whatever it does ...-->
  <!--cosine of the larger cone-->
  <parameter name="CosConeLarge" type="float">0.95 </parameter>
  <!--cosine of the smaller cone-->
  <parameter name="CosConeSmall" type="float">0.98 </parameter>
  <!--Cut on the mva output of isolated electron selection-->
  <parameter name="CutOnTheISOElectronMVA" type="float"> 0.5 </parameter>
  <!--Cut on the mva output of isolated muon selection-->
  <parameter name="CutOnTheISOMuonMVA" type="float"> 2 </parameter>
  <!--Directory of Weights for the Isolated Electron MVA Classification-->
  <parameter name="DirOfISOElectronWeights" type="string">
  ${ElectronIsolationWeightsDir}
  </parameter>
  <!--Directory of Weights for the Isolated Muon MVA Classification-->
  <parameter name="DirOfISOMuonWeights" type="string">
  ${MuonIsolationWeightsDir}
  </parameter>
  <!--Name of the PandoraPFOs collection-->
  <parameter name="InputPandoraPFOsCollection" type="string" lcioInType="ReconstructedParticle"> PFOsminusmu </parameter>
  <!--Name of the Primary Vertex collection-->
  <parameter name="InputPrimaryVertexCollection" type="string" lcioInType="ReconstructedParticle"> PrimaryVertex </parameter>
  <!--flag to select one most like isolated lepton-->
  <parameter name="IsSelectingOneIsoLep" type="bool"> false </parameter>
  <!--Maximum d0 significance for electron-->
  <parameter name="MaxD0SigForElectron" type="float"> 10 </parameter>
  <!--Maximum D0 significance for muon-->
  <parameter name="MaxD0SigForMuon" type="float"> 10 </parameter>
  <!--Maximum ratio of energy in calorimeters over momentum for electron-->
  <parameter name="MaxEOverPForElectron" type="float">1.3 </parameter>
  <!--Maximum ratio of energy in calorimeters over momentum for muon-->
  <parameter name="MaxEOverPForMuon" type="float">0.3 </parameter>
  <!--Maximum Z0 significance for electron-->
  <parameter name="MaxZ0SigForElectron" type="float"> 10 </parameter>
  <!--Maximum Z0 significance for muon-->
  <parameter name="MaxZ0SigForMuon" type="float"> 10 </parameter>
  <!--minimum ratio of energy in calorimeters over momentum for electron-->
  <parameter name="MinEOverPForElectron" type="float">0.5 </parameter>
  <!--minimum ratio of energy in ecal over energy in ecal+hcal-->
  <parameter name="MinEecalOverTotEForElectron" type="float">0.9 </parameter>
  <!--use yoke for muon ID-->
  <parameter name="UseYokeForMuonID" type="bool"> true </parameter>
  <!--Minimum energy in yoke for electron-->
  <parameter name="MinEyokeForMuon" type="float">1.2 </parameter>
  <!--Minimum momentum for electron-->
  <parameter name="MinPForElectron" type="float">5 </parameter>
  <!--Minimum momentum for muon-->
  <parameter name="MinPForMuon" type="float">5 </parameter>
  <!--use impact parameters-->
  <parameter name="UseIP" type="bool"> true </parameter>
  <!--Name of collection with the selected isolated lepton-->
  <parameter name="OutputIsoLeptonsCollection" type="string" lcioOutType="ReconstructedParticle"> IsolatedElectrons </parameter>
  <!--Name of the new PFOs collection without isolated lepton-->
  <parameter name="OutputPFOsWithoutIsoLepCollection" type="string" lcioOutType="ReconstructedParticle"> PFOsminuse </parameter>
  <!--verbosity level of this processor ("DEBUG0-4,MESSAGE0-4,WARNING0-4,ERROR0-4,SILENT")-->
  <parameter name="Verbosity" type="string"> SILENT </parameter>
</processor>

<processor name="IsolatedTauTagging" type="TaJetClustering">
  <!--Input PFO collection-->
  <parameter name="PFOCollection" type="string" lcioInType="ReconstructedParticle"> PFOsminuse </parameter>
  <!--Tau output collection-->
  <parameter name="OutputTauCollection" type="string" lcioOutType="ReconstructedParticle"> IsolatedTaus </parameter>
  <!--Remained PFO collection not clustered-->
  <parameter name="RemainPFOCollection" type="string" lcioOutType="ReconstructedParticle"> PFOsminustau </parameter>
  <!--Tau mass for tau clustering [GeV]-->
  <parameter name="TauMass" type="double">2 </parameter>
  <!--Allowed cosine angle to be clustered-->
  <parameter name="TauCosAngle" type="double">0.98 </parameter>
  <!-- Skip ANY Primary and Cone cuts if true: should be only used in lepton-only final states! -->
  <parameter name="NoSelection" type="int">0 </parameter>
  <!--Primary cut include IMPLICIT selection of accepting only 1 or 3 tracks in jets: this loosen the counting of low energy tracks-->
  <parameter name="AcceptFlexibleLowEnergyTrack" type="int">1 </parameter>
  <!--Minimum jet energy to be accepted as taus-->
  <parameter name="MinimumJetEnergy" type="double">3 </parameter>
  <!--Minimum track energy to be accepted as taus-->
  <parameter name="MinimumTrackEnergy" type="double">2 </parameter>
  <!--Minimum track energy to be counted-->
  <parameter name="MinimumTrackEnergyAssoc" type="double">2 </parameter>
  <!--Minimum cosine angle for cone-->
  <parameter name="ConeMinCosAngle" type="double">0.9 </parameter>
  <!--Maximum cosine angle for cone-->
  <parameter name="ConeMaxCosAngle" type="double">1 </parameter>
  <!--Energy fraction of cone compared to central-->
  <parameter name="ConeMaxEnergyFrac" type="double">0.1 </parameter>
</processor>

<processor name="IsolatedPhotonTagging" type="IsolatedPhotonTaggingProcessor">
  <parameter name="InputPandoraPFOsCollection" type="string" lcioInType="ReconstructedParticle"> PFOsminustau </parameter>
  <parameter name="OutputPFOsWithoutIsoPhotonCollection" type="string" lcioInType="ReconstructedParticle"> PFOsminusphoton </parameter>
  <parameter name="OutputIsoPhotonsCollection" type="string" lcioInType="ReconstructedParticle"> IsolatedPhotons </parameter>
  <parameter name="DirOfIsoPhotonWeights" type="string"> isolated_photon_weights </parameter>
  <parameter name="CutOnTheISOPhotonMVA" type="float"> 0.5 </parameter>
  <parameter name="IsSelectingOneIsoPhoton" type="bool"> false </parameter>
  <parameter name="MinEForPhoton" type="float"> 5. </parameter>
  <parameter name="CosConeSmall" type="float"> 0.98 </parameter>
  <parameter name="CosConeLarge" type="float"> 0.95 </parameter>
</processor>

<processor name="JC2FT" type="LcfiplusProcessor">
  <!-- run primary and secondary vertex finders -->
  <parameter name="Algorithms" type="stringVec"> JetClustering JetVertexRefiner FlavorTag ReadMVA</parameter>

  <!-- general parameters -->
  <parameter name="PFOCollection" type="string" value="PFOsminusphoton" /> <!-- input PFO collection -->
  <parameter name="UseMCP" type="int" value="0" /> <!-- MC info not used -->
  <parameter name="MCPCollection" type="string" value="" /> <!-- not used -->
  <parameter name="MCPFORelation" type="string" value="" /> <!-- not used -->
  <parameter name="ReadSubdetectorEnergies" type="int" value="1"/> <!-- true for ILD -->
  <parameter name="UpdateVertexRPDaughters" type="int" value="0"/> <!-- false for non-updative PandoraPFOs -->
  <parameter name="TrackHitOrdering" type="int" value="1"/> <!-- Track hit ordering: 0=ILD-LOI,SID-DBD, 1=ILD-DBD -->
  <parameter name="PrintEventNumber" type="int" value="0"/> <!-- 0 for not printing event number, n for printing every n events -->

  <!-- jet clustering parameters -->
  <parameter name="JetClustering.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetClustering.InputVertexCollectionName" type="string" value="BuildUpVertex" /> <!-- vertex collections to be used in JC -->
  <parameter name="JetClustering.OutputJetCollectionName" type="stringVec" value="Vertex2Jets" /> <!-- output collection name, may be multiple -->
  <parameter name="JetClustering.NJetsRequested" type="intVec" value="2" /> <!-- Multiple NJets can be specified -->
  <parameter name="JetClustering.YCut" type="doubleVec" value="0." /> <!-- specify 0 if not used -->

  <parameter name="JetClustering.JetAlgorithm" type="string" value="DurhamVertex" /> <!-- jet algorithm -->
  <parameter name="JetClustering.UseBeamJets" type="int" value="0" /> <!-- beam jet rejection -->
  <!--parameter name="JetClustering.RParameter" type="float" value="1.0" />
  <parameter name="JetClustering.BetaParameter" type="float" value="1.0" />
  <parameter name="JetClustering.GammaParameter" type="float" value="1.0" /-->

  <parameter name="JetClustering.UseMuonID" type="int" value="1" /> <!-- jet-muon ID for jet clustering -->
  <parameter name="JetClustering.MuonIDExternal" type="int" value="0" /> <!-- true to use LikelihoodPID, false for good-old simple one -->
  <parameter name="JetClustering.MuonIDMinimumD0Significance" type="double" value="5." /> <!-- min D0 significance -->
  <parameter name="JetClustering.MuonIDMinimumZ0Significance" type="double" value="5." /> <!-- min Z0 significance -->
  <parameter name="JetClustering.MuonIDMaximum3DImpactParameter" type="double" value="5." /> <!-- max 3D significance -->
  <parameter name="JetClustering.MuonIDMinimumProbability" type="double" value="0.5" /> <!-- min PID probability, only for external -->

  <parameter name="JetClustering.VertexSelectionMinimumDistance" type="double" value="0.3" /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionMaximumDistance" type="double" value="30." /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionK0MassWidth" type="double" value="0.02" /> <!-- in GeV -->

  <!-- vertex refiner parameters -->
  <parameter name="JetVertexRefiner.InputJetCollectionName" type="string" value="Vertex2Jets" />
  <parameter name="JetVertexRefiner.OutputJetCollectionName" type="string" value="Refined2Jets" />
  <parameter name="JetVertexRefiner.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetVertexRefiner.InputVertexCollectionName" type="string" value="BuildUpVertex" />
  <parameter name="JetVertexRefiner.V0VertexCollectionName" type="string" value="BuildUpVertex_V0" />
  <parameter name="JetVertexRefiner.OutputVertexCollectionName" type="string" value="RefinedVertex2Jets" />

  <parameter name="JetVertexRefiner.MinPosSingle" type="double" value="0.3" />
  <parameter name="JetVertexRefiner.MaxPosSingle" type="double" value="30." />
  <parameter name="JetVertexRefiner.MinEnergySingle" type="double" value="1." />
  <parameter name="JetVertexRefiner.MaxAngleSingle" type="double" value="0.5" />
  <parameter name="JetVertexRefiner.MaxSeparationPerPosSingle" type="double" value="0.1" />
  <parameter name="JetVertexRefiner.mind0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.minz0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.OneVertexProbThreshold" type="double" value="0.001" />
  <parameter name="JetVertexRefiner.MaxCharmFlightLengthPerJetEnergy" type="double" value="0.1" />

  <!-- FlavorTag parameters -->
  <parameter name="PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="FlavorTag.JetCollectionName" type="string" value="Refined2Jets" />
  <parameter name="MakeNtuple.AuxiliaryInfo" type="int" value="-1" />
  <parameter name="FlavorTag.WeightsDirectory" type="string" value="${LCFIPlusWeightsDir}"/>
  <parameter name="FlavorTag.WeightsPrefix" type="string" value="${LCFIPlusWeightsPrefix}" />
  <parameter name="FlavorTag.BookName" type="string" value="bdt" />
  <parameter name="FlavorTag.PIDAlgo" type="string" value="lcfiplus" />
  <parameter name="FlavorTag.D0ProbFileName" type="string" value="${LCFIPlusD0ProbFile}"/>
  <parameter name="FlavorTag.Z0ProbFileName" type="string" value="${LCFIPlusZ0ProbFile}"/>

  <parameter name="FlavorTag.CategoryDefinition1" type="string">nvtx==0</parameter>
  <parameter name="FlavorTag.CategoryPreselection1" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables1" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr25sigma jprobz25sigma
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2 nmuon nelectron trkmass
  </parameter>
  <parameter name="FlavorTag.CategorySpectators1" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition2" type="string">nvtx==1&&nvtxall==1</parameter>
  <parameter name="FlavorTag.CategoryPreselection2" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables2" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2
    trkmass nelectron nmuon
  </parameter>
  <parameter name="FlavorTag.CategorySpectators2" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition3" type="string">nvtx==1&&nvtxall==2</parameter>
  <parameter name="FlavorTag.CategoryPreselection3" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables3" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    1vtxprob vtxlen12all_jete vtxmassall
  </parameter>
  <parameter name="FlavorTag.CategorySpectators3" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition4" type="string">nvtx>=2</parameter>
  <parameter name="FlavorTag.CategoryPreselection4" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables4" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    vtxlen2_jete vtxsig2_jete vtxdirang2_jete vtxmom2_jete vtxmass2 vtxmult2
    vtxlen12_jete vtxsig12_jete vtxdirang12_jete vtxmom_jete vtxmass vtxmult
    1vtxprob
  </parameter>
  <parameter name="FlavorTag.CategorySpectators4" type="stringVec">
    aux nvtx
  </parameter>
</processor>

<processor name="EF2" type="ErrorFlow">
  <parameter name="InputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined2Jets </parameter>
  <parameter name="OutputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined2JetsEF </parameter>
  <parameter name="InputMCTruthLinkCollection" type="string" lcioInType="LCRelation"> RecoMCTruthLink </parameter>
</processor>

<processor name="JC3FT" type="LcfiplusProcessor">
  <!-- run primary and secondary vertex finders -->
  <parameter name="Algorithms" type="stringVec"> JetClustering JetVertexRefiner FlavorTag ReadMVA</parameter>

  <!-- general parameters -->
  <parameter name="PFOCollection" type="string" value="PFOsminusphoton" /> <!-- input PFO collection -->
  <parameter name="UseMCP" type="int" value="0" /> <!-- MC info not used -->
  <parameter name="MCPCollection" type="string" value="" /> <!-- not used -->
  <parameter name="MCPFORelation" type="string" value="" /> <!-- not used -->
  <parameter name="ReadSubdetectorEnergies" type="int" value="1"/> <!-- true for ILD -->
  <parameter name="UpdateVertexRPDaughters" type="int" value="0"/> <!-- false for non-updative PandoraPFOs -->
  <parameter name="TrackHitOrdering" type="int" value="1"/> <!-- Track hit ordering: 0=ILD-LOI,SID-DBD, 1=ILD-DBD -->
  <parameter name="PrintEventNumber" type="int" value="0"/> <!-- 0 for not printing event number, n for printing every n events -->

  <!-- jet clustering parameters -->
  <parameter name="JetClustering.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetClustering.InputVertexCollectionName" type="string" value="BuildUpVertex" /> <!-- vertex collections to be used in JC -->
  <parameter name="JetClustering.OutputJetCollectionName" type="stringVec" value="Vertex3Jets" /> <!-- output collection name, may be multiple -->
  <parameter name="JetClustering.NJetsRequested" type="intVec" value="3" /> <!-- Multiple NJets can be specified -->
  <parameter name="JetClustering.YCut" type="doubleVec" value="0." /> <!-- specify 0 if not used -->

  <parameter name="JetClustering.JetAlgorithm" type="string" value="DurhamVertex" /> <!-- jet algorithm -->
  <parameter name="JetClustering.UseBeamJets" type="int" value="0" /> <!-- beam jet rejection -->
  <!--parameter name="JetClustering.RParameter" type="float" value="1.0" />
  <parameter name="JetClustering.BetaParameter" type="float" value="1.0" />
  <parameter name="JetClustering.GammaParameter" type="float" value="1.0" /-->

  <parameter name="JetClustering.UseMuonID" type="int" value="1" /> <!-- jet-muon ID for jet clustering -->
  <parameter name="JetClustering.MuonIDExternal" type="int" value="0" /> <!-- true to use LikelihoodPID, false for good-old simple one -->
  <parameter name="JetClustering.MuonIDMinimumD0Significance" type="double" value="5." /> <!-- min D0 significance -->
  <parameter name="JetClustering.MuonIDMinimumZ0Significance" type="double" value="5." /> <!-- min Z0 significance -->
  <parameter name="JetClustering.MuonIDMaximum3DImpactParameter" type="double" value="5." /> <!-- max 3D significance -->
  <parameter name="JetClustering.MuonIDMinimumProbability" type="double" value="0.5" /> <!-- min PID probability, only for external -->

  <parameter name="JetClustering.VertexSelectionMinimumDistance" type="double" value="0.3" /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionMaximumDistance" type="double" value="30." /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionK0MassWidth" type="double" value="0.02" /> <!-- in GeV -->
  <parameter name="JetClustering.YAddedForJetVertexVertex" type="double" value="100"/> <!-- add penalty for combining vertices -->
  <parameter name="JetClustering.YAddedForJetLeptonVertex" type="double" value="100"/> <!-- add penalty for combining lepton and vertex -->
  <parameter name="JetClustering.YAddedForJetLeptonLepton" type="double" value="100"/> <!-- add penalty for combining leptons -->

  <!-- vertex refiner parameters -->
  <parameter name="JetVertexRefiner.InputJetCollectionName" type="string" value="Vertex3Jets" />
  <parameter name="JetVertexRefiner.OutputJetCollectionName" type="string" value="Refined3Jets" />
  <parameter name="JetVertexRefiner.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetVertexRefiner.InputVertexCollectionName" type="string" value="BuildUpVertex" />
  <parameter name="JetVertexRefiner.V0VertexCollectionName" type="string" value="BuildUpVertex_V0" />
  <parameter name="JetVertexRefiner.OutputVertexCollectionName" type="string" value="RefinedVertex3Jets" />

  <parameter name="JetVertexRefiner.MinPosSingle" type="double" value="0.3" />
  <parameter name="JetVertexRefiner.MaxPosSingle" type="double" value="30." />
  <parameter name="JetVertexRefiner.MinEnergySingle" type="double" value="1." />
  <parameter name="JetVertexRefiner.MaxAngleSingle" type="double" value="0.5" />
  <parameter name="JetVertexRefiner.MaxSeparationPerPosSingle" type="double" value="0.1" />
  <parameter name="JetVertexRefiner.mind0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.minz0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.OneVertexProbThreshold" type="double" value="0.001" />
  <parameter name="JetVertexRefiner.MaxCharmFlightLengthPerJetEnergy" type="double" value="0.1" />

  <!-- FlavorTag parameters -->
  <parameter name="PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="FlavorTag.JetCollectionName" type="string" value="Refined3Jets" />
  <parameter name="MakeNtuple.AuxiliaryInfo" type="int" value="-1" />

  <parameter name="FlavorTag.WeightsDirectory" type="string" value="${LCFIPlusWeightsDir}"/>
  <parameter name="FlavorTag.WeightsPrefix" type="string" value="${LCFIPlusWeightsPrefix}" />
  <parameter name="FlavorTag.BookName" type="string" value="bdt" />
  <parameter name="FlavorTag.PIDAlgo" type="string" value="lcfiplus" />
  <parameter name="FlavorTag.D0ProbFileName" type="string" value="${LCFIPlusD0ProbFile}"/>
  <parameter name="FlavorTag.Z0ProbFileName" type="string" value="${LCFIPlusZ0ProbFile}"/>

  <parameter name="FlavorTag.CategoryDefinition1" type="string">nvtx==0</parameter>
  <parameter name="FlavorTag.CategoryPreselection1" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables1" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr25sigma jprobz25sigma
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2 nmuon nelectron trkmass
  </parameter>
  <parameter name="FlavorTag.CategorySpectators1" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition2" type="string">nvtx==1&&nvtxall==1</parameter>
  <parameter name="FlavorTag.CategoryPreselection2" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables2" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2
    trkmass nelectron nmuon
  </parameter>
  <parameter name="FlavorTag.CategorySpectators2" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition3" type="string">nvtx==1&&nvtxall==2</parameter>
  <parameter name="FlavorTag.CategoryPreselection3" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables3" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    1vtxprob vtxlen12all_jete vtxmassall
  </parameter>
  <parameter name="FlavorTag.CategorySpectators3" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition4" type="string">nvtx>=2</parameter>
  <parameter name="FlavorTag.CategoryPreselection4" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables4" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    vtxlen2_jete vtxsig2_jete vtxdirang2_jete vtxmom2_jete vtxmass2 vtxmult2
    vtxlen12_jete vtxsig12_jete vtxdirang12_jete vtxmom_jete vtxmass vtxmult
    1vtxprob
  </parameter>
  <parameter name="FlavorTag.CategorySpectators4" type="stringVec">
    aux nvtx
  </parameter>
</processor>

<processor name="EF3" type="ErrorFlow">
  <parameter name="InputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined3Jets </parameter>
  <parameter name="OutputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined3JetsEF </parameter>
  <parameter name="InputMCTruthLinkCollection" type="string" lcioInType="LCRelation"> RecoMCTruthLink </parameter>
</processor>

<processor name="JC4FT" type="LcfiplusProcessor">
  <!-- run primary and secondary vertex finders -->
  <parameter name="Algorithms" type="stringVec"> JetClustering JetVertexRefiner FlavorTag ReadMVA</parameter>

  <!-- general parameters -->
  <parameter name="PFOCollection" type="string" value="PFOsminusphoton" /> <!-- input PFO collection -->
  <parameter name="UseMCP" type="int" value="0" /> <!-- MC info not used -->
  <parameter name="MCPCollection" type="string" value="" /> <!-- not used -->
  <parameter name="MCPFORelation" type="string" value="" /> <!-- not used -->
  <parameter name="ReadSubdetectorEnergies" type="int" value="1"/> <!-- true for ILD -->
  <parameter name="UpdateVertexRPDaughters" type="int" value="0"/> <!-- false for non-updative PandoraPFOs -->
  <parameter name="TrackHitOrdering" type="int" value="1"/> <!-- Track hit ordering: 0=ILD-LOI,SID-DBD, 1=ILD-DBD -->
  <parameter name="PrintEventNumber" type="int" value="0"/> <!-- 0 for not printing event number, n for printing every n events -->

  <!-- jet clustering parameters -->
  <parameter name="JetClustering.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetClustering.InputVertexCollectionName" type="string" value="BuildUpVertex" /> <!-- vertex collections to be used in JC -->
  <parameter name="JetClustering.OutputJetCollectionName" type="stringVec" value="Vertex4Jets" /> <!-- output collection name, may be multiple -->
  <parameter name="JetClustering.NJetsRequested" type="intVec" value="4" /> <!-- Multiple NJets can be specified -->
  <parameter name="JetClustering.YCut" type="doubleVec" value="0." /> <!-- specify 0 if not used -->

  <parameter name="JetClustering.JetAlgorithm" type="string" value="DurhamVertex" /> <!-- jet algorithm -->
  <parameter name="JetClustering.UseBeamJets" type="int" value="0" /> <!-- beam jet rejection -->
  <!--parameter name="JetClustering.RParameter" type="float" value="1.0" />
  <parameter name="JetClustering.BetaParameter" type="float" value="1.0" />
  <parameter name="JetClustering.GammaParameter" type="float" value="1.0" /-->

  <parameter name="JetClustering.UseMuonID" type="int" value="1" /> <!-- jet-muon ID for jet clustering -->
  <parameter name="JetClustering.MuonIDExternal" type="int" value="0" /> <!-- true to use LikelihoodPID, false for good-old simple one -->
  <parameter name="JetClustering.MuonIDMinimumD0Significance" type="double" value="5." /> <!-- min D0 significance -->
  <parameter name="JetClustering.MuonIDMinimumZ0Significance" type="double" value="5." /> <!-- min Z0 significance -->
  <parameter name="JetClustering.MuonIDMaximum3DImpactParameter" type="double" value="5." /> <!-- max 3D significance -->
  <parameter name="JetClustering.MuonIDMinimumProbability" type="double" value="0.5" /> <!-- min PID probability, only for external -->

  <parameter name="JetClustering.VertexSelectionMinimumDistance" type="double" value="0.3" /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionMaximumDistance" type="double" value="30." /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionK0MassWidth" type="double" value="0.02" /> <!-- in GeV -->
  <parameter name="JetClustering.YAddedForJetVertexVertex" type="double" value="100"/> <!-- add penalty for combining vertices -->
  <parameter name="JetClustering.YAddedForJetLeptonVertex" type="double" value="100"/> <!-- add penalty for combining lepton and vertex -->
  <parameter name="JetClustering.YAddedForJetLeptonLepton" type="double" value="100"/> <!-- add penalty for combining leptons -->

  <!-- vertex refiner parameters -->
  <parameter name="JetVertexRefiner.InputJetCollectionName" type="string" value="Vertex4Jets" />
  <parameter name="JetVertexRefiner.OutputJetCollectionName" type="string" value="Refined4Jets" />
  <parameter name="JetVertexRefiner.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetVertexRefiner.InputVertexCollectionName" type="string" value="BuildUpVertex" />
  <parameter name="JetVertexRefiner.V0VertexCollectionName" type="string" value="BuildUpVertex_V0" />
  <parameter name="JetVertexRefiner.OutputVertexCollectionName" type="string" value="RefinedVertex4Jets" />

  <parameter name="JetVertexRefiner.MinPosSingle" type="double" value="0.3" />
  <parameter name="JetVertexRefiner.MaxPosSingle" type="double" value="30." />
  <parameter name="JetVertexRefiner.MinEnergySingle" type="double" value="1." />
  <parameter name="JetVertexRefiner.MaxAngleSingle" type="double" value="0.5" />
  <parameter name="JetVertexRefiner.MaxSeparationPerPosSingle" type="double" value="0.1" />
  <parameter name="JetVertexRefiner.mind0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.minz0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.OneVertexProbThreshold" type="double" value="0.001" />
  <parameter name="JetVertexRefiner.MaxCharmFlightLengthPerJetEnergy" type="double" value="0.1" />

  <!-- FlavorTag parameters -->
  <parameter name="PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="FlavorTag.JetCollectionName" type="string" value="Refined4Jets" />
  <parameter name="MakeNtuple.AuxiliaryInfo" type="int" value="-1" />

  <parameter name="FlavorTag.WeightsDirectory" type="string" value="${LCFIPlusWeightsDir}"/>
  <parameter name="FlavorTag.WeightsPrefix" type="string" value="${LCFIPlusWeightsPrefix}" />
  <parameter name="FlavorTag.BookName" type="string" value="bdt" />
  <parameter name="FlavorTag.PIDAlgo" type="string" value="lcfiplus" />
  <parameter name="FlavorTag.D0ProbFileName" type="string" value="${LCFIPlusD0ProbFile}"/>
  <parameter name="FlavorTag.Z0ProbFileName" type="string" value="${LCFIPlusZ0ProbFile}"/>

  <parameter name="FlavorTag.CategoryDefinition1" type="string">nvtx==0</parameter>
  <parameter name="FlavorTag.CategoryPreselection1" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables1" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr25sigma jprobz25sigma
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2 nmuon nelectron trkmass
  </parameter>
  <parameter name="FlavorTag.CategorySpectators1" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition2" type="string">nvtx==1&&nvtxall==1</parameter>
  <parameter name="FlavorTag.CategoryPreselection2" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables2" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2
    trkmass nelectron nmuon
  </parameter>
  <parameter name="FlavorTag.CategorySpectators2" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition3" type="string">nvtx==1&&nvtxall==2</parameter>
  <parameter name="FlavorTag.CategoryPreselection3" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables3" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    1vtxprob vtxlen12all_jete vtxmassall
  </parameter>
  <parameter name="FlavorTag.CategorySpectators3" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition4" type="string">nvtx>=2</parameter>
  <parameter name="FlavorTag.CategoryPreselection4" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables4" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    vtxlen2_jete vtxsig2_jete vtxdirang2_jete vtxmom2_jete vtxmass2 vtxmult2
    vtxlen12_jete vtxsig12_jete vtxdirang12_jete vtxmom_jete vtxmass vtxmult
    1vtxprob
  </parameter>
  <parameter name="FlavorTag.CategorySpectators4" type="stringVec">
    aux nvtx
  </parameter>
</processor>

<processor name="EF4" type="ErrorFlow">
  <parameter name="InputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined4Jets </parameter>
  <parameter name="OutputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined4JetsEF </parameter>
  <parameter name="InputMCTruthLinkCollection" type="string" lcioInType="LCRelation"> RecoMCTruthLink </parameter>
</processor>

<processor name="JC5FT" type="LcfiplusProcessor">
  <!-- run primary and secondary vertex finders -->
  <parameter name="Algorithms" type="stringVec"> JetClustering JetVertexRefiner FlavorTag ReadMVA</parameter>

  <!-- general parameters -->
  <parameter name="PFOCollection" type="string" value="PFOsminusphoton" /> <!-- input PFO collection -->
  <parameter name="UseMCP" type="int" value="0" /> <!-- MC info not used -->
  <parameter name="MCPCollection" type="string" value="" /> <!-- not used -->
  <parameter name="MCPFORelation" type="string" value="" /> <!-- not used -->
  <parameter name="ReadSubdetectorEnergies" type="int" value="1"/> <!-- true for ILD -->
  <parameter name="UpdateVertexRPDaughters" type="int" value="0"/> <!-- false for non-updative PandoraPFOs -->
  <parameter name="TrackHitOrdering" type="int" value="1"/> <!-- Track hit ordering: 0=ILD-LOI,SID-DBD, 1=ILD-DBD -->
  <parameter name="PrintEventNumber" type="int" value="0"/> <!-- 0 for not printing event number, n for printing every n events -->

  <!-- jet clustering parameters -->
  <parameter name="JetClustering.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetClustering.InputVertexCollectionName" type="string" value="BuildUpVertex" /> <!-- vertex collections to be used in JC -->
  <parameter name="JetClustering.OutputJetCollectionName" type="stringVec" value="Vertex5Jets" /> <!-- output collection name, may be multiple -->
  <parameter name="JetClustering.NJetsRequested" type="intVec" value="5" /> <!-- Multiple NJets can be specified -->
  <parameter name="JetClustering.YCut" type="doubleVec" value="0." /> <!-- specify 0 if not used -->

  <parameter name="JetClustering.JetAlgorithm" type="string" value="DurhamVertex" /> <!-- jet algorithm -->
  <parameter name="JetClustering.UseBeamJets" type="int" value="0" /> <!-- beam jet rejection -->
  <!--parameter name="JetClustering.RParameter" type="float" value="1.0" />
  <parameter name="JetClustering.BetaParameter" type="float" value="1.0" />
  <parameter name="JetClustering.GammaParameter" type="float" value="1.0" /-->

  <parameter name="JetClustering.UseMuonID" type="int" value="1" /> <!-- jet-muon ID for jet clustering -->
  <parameter name="JetClustering.MuonIDExternal" type="int" value="0" /> <!-- true to use LikelihoodPID, false for good-old simple one -->
  <parameter name="JetClustering.MuonIDMinimumD0Significance" type="double" value="5." /> <!-- min D0 significance -->
  <parameter name="JetClustering.MuonIDMinimumZ0Significance" type="double" value="5." /> <!-- min Z0 significance -->
  <parameter name="JetClustering.MuonIDMaximum3DImpactParameter" type="double" value="5." /> <!-- max 3D significance -->
  <parameter name="JetClustering.MuonIDMinimumProbability" type="double" value="0.5" /> <!-- min PID probability, only for external -->

  <parameter name="JetClustering.VertexSelectionMinimumDistance" type="double" value="0.3" /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionMaximumDistance" type="double" value="30." /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionK0MassWidth" type="double" value="0.02" /> <!-- in GeV -->
  <parameter name="JetClustering.YAddedForJetVertexVertex" type="double" value="100"/> <!-- add penalty for combining vertices -->
  <parameter name="JetClustering.YAddedForJetLeptonVertex" type="double" value="100"/> <!-- add penalty for combining lepton and vertex -->
  <parameter name="JetClustering.YAddedForJetLeptonLepton" type="double" value="100"/> <!-- add penalty for combining leptons -->

  <!-- vertex refiner parameters -->
  <parameter name="JetVertexRefiner.InputJetCollectionName" type="string" value="Vertex5Jets" />
  <parameter name="JetVertexRefiner.OutputJetCollectionName" type="string" value="Refined5Jets" />
  <parameter name="JetVertexRefiner.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetVertexRefiner.InputVertexCollectionName" type="string" value="BuildUpVertex" />
  <parameter name="JetVertexRefiner.V0VertexCollectionName" type="string" value="BuildUpVertex_V0" />
  <parameter name="JetVertexRefiner.OutputVertexCollectionName" type="string" value="RefinedVertex5Jets" />

  <parameter name="JetVertexRefiner.MinPosSingle" type="double" value="0.3" />
  <parameter name="JetVertexRefiner.MaxPosSingle" type="double" value="30." />
  <parameter name="JetVertexRefiner.MinEnergySingle" type="double" value="1." />
  <parameter name="JetVertexRefiner.MaxAngleSingle" type="double" value="0.5" />
  <parameter name="JetVertexRefiner.MaxSeparationPerPosSingle" type="double" value="0.1" />
  <parameter name="JetVertexRefiner.mind0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.minz0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.OneVertexProbThreshold" type="double" value="0.001" />
  <parameter name="JetVertexRefiner.MaxCharmFlightLengthPerJetEnergy" type="double" value="0.1" />

  <!-- FlavorTag parameters -->
  <parameter name="PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="FlavorTag.JetCollectionName" type="string" value="Refined5Jets" />
  <parameter name="MakeNtuple.AuxiliaryInfo" type="int" value="-1" />

  <parameter name="FlavorTag.WeightsDirectory" type="string" value="${LCFIPlusWeightsDir}"/>
  <parameter name="FlavorTag.WeightsPrefix" type="string" value="${LCFIPlusWeightsPrefix}" />
  <parameter name="FlavorTag.BookName" type="string" value="bdt" />
  <parameter name="FlavorTag.PIDAlgo" type="string" value="lcfiplus" />
  <parameter name="FlavorTag.D0ProbFileName" type="string" value="${LCFIPlusD0ProbFile}"/>
  <parameter name="FlavorTag.Z0ProbFileName" type="string" value="${LCFIPlusZ0ProbFile}"/>

  <parameter name="FlavorTag.CategoryDefinition1" type="string">nvtx==0</parameter>
  <parameter name="FlavorTag.CategoryPreselection1" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables1" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr25sigma jprobz25sigma
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2 nmuon nelectron trkmass
  </parameter>
  <parameter name="FlavorTag.CategorySpectators1" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition2" type="string">nvtx==1&&nvtxall==1</parameter>
  <parameter name="FlavorTag.CategoryPreselection2" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables2" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2
    trkmass nelectron nmuon
  </parameter>
  <parameter name="FlavorTag.CategorySpectators2" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition3" type="string">nvtx==1&&nvtxall==2</parameter>
  <parameter name="FlavorTag.CategoryPreselection3" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables3" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    1vtxprob vtxlen12all_jete vtxmassall
  </parameter>
  <parameter name="FlavorTag.CategorySpectators3" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition4" type="string">nvtx>=2</parameter>
  <parameter name="FlavorTag.CategoryPreselection4" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables4" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    vtxlen2_jete vtxsig2_jete vtxdirang2_jete vtxmom2_jete vtxmass2 vtxmult2
    vtxlen12_jete vtxsig12_jete vtxdirang12_jete vtxmom_jete vtxmass vtxmult
    1vtxprob
  </parameter>
  <parameter name="FlavorTag.CategorySpectators4" type="stringVec">
    aux nvtx
  </parameter>
</processor>

<processor name="EF5" type="ErrorFlow">
  <parameter name="InputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined5Jets </parameter>
  <parameter name="OutputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined5JetsEF </parameter>
  <parameter name="InputMCTruthLinkCollection" type="string" lcioInType="LCRelation"> RecoMCTruthLink </parameter>
</processor>

<processor name="JC6FT" type="LcfiplusProcessor">
  <!-- run primary and secondary vertex finders -->
  <parameter name="Algorithms" type="stringVec"> JetClustering JetVertexRefiner FlavorTag ReadMVA</parameter>

  <!-- general parameters -->
  <parameter name="PFOCollection" type="string" value="PFOsminusphoton" /> <!-- input PFO collection -->
  <parameter name="UseMCP" type="int" value="0" /> <!-- MC info not used -->
  <parameter name="MCPCollection" type="string" value="" /> <!-- not used -->
  <parameter name="MCPFORelation" type="string" value="" /> <!-- not used -->
  <parameter name="ReadSubdetectorEnergies" type="int" value="1"/> <!-- true for ILD -->
  <parameter name="UpdateVertexRPDaughters" type="int" value="0"/> <!-- false for non-updative PandoraPFOs -->
  <parameter name="TrackHitOrdering" type="int" value="1"/> <!-- Track hit ordering: 0=ILD-LOI,SID-DBD, 1=ILD-DBD -->
  <parameter name="PrintEventNumber" type="int" value="0"/> <!-- 0 for not printing event number, n for printing every n events -->

  <!-- jet clustering parameters -->
  <parameter name="JetClustering.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetClustering.InputVertexCollectionName" type="string" value="BuildUpVertex" /> <!-- vertex collections to be used in JC -->
  <parameter name="JetClustering.OutputJetCollectionName" type="stringVec" value="Vertex6Jets" /> <!-- output collection name, may be multiple -->
  <parameter name="JetClustering.NJetsRequested" type="intVec" value="6" /> <!-- Multiple NJets can be specified -->
  <parameter name="JetClustering.YCut" type="doubleVec" value="0." /> <!-- specify 0 if not used -->

  <parameter name="JetClustering.JetAlgorithm" type="string" value="DurhamVertex" /> <!-- jet algorithm -->
  <parameter name="JetClustering.UseBeamJets" type="int" value="0" /> <!-- beam jet rejection -->
  <!--parameter name="JetClustering.RParameter" type="float" value="1.0" />
  <parameter name="JetClustering.BetaParameter" type="float" value="1.0" />
  <parameter name="JetClustering.GammaParameter" type="float" value="1.0" /-->

  <parameter name="JetClustering.UseMuonID" type="int" value="1" /> <!-- jet-muon ID for jet clustering -->
  <parameter name="JetClustering.MuonIDExternal" type="int" value="0" /> <!-- true to use LikelihoodPID, false for good-old simple one -->
  <parameter name="JetClustering.MuonIDMinimumD0Significance" type="double" value="5." /> <!-- min D0 significance -->
  <parameter name="JetClustering.MuonIDMinimumZ0Significance" type="double" value="5." /> <!-- min Z0 significance -->
  <parameter name="JetClustering.MuonIDMaximum3DImpactParameter" type="double" value="5." /> <!-- max 3D significance -->
  <parameter name="JetClustering.MuonIDMinimumProbability" type="double" value="0.5" /> <!-- min PID probability, only for external -->

  <parameter name="JetClustering.VertexSelectionMinimumDistance" type="double" value="0.3" /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionMaximumDistance" type="double" value="30." /> <!-- in mm -->
  <parameter name="JetClustering.VertexSelectionK0MassWidth" type="double" value="0.02" /> <!-- in GeV -->
  <parameter name="JetClustering.YAddedForJetVertexVertex" type="double" value="100"/> <!-- add penalty for combining vertices -->
  <parameter name="JetClustering.YAddedForJetLeptonVertex" type="double" value="100"/> <!-- add penalty for combining lepton and vertex -->
  <parameter name="JetClustering.YAddedForJetLeptonLepton" type="double" value="100"/> <!-- add penalty for combining leptons -->

  <!-- vertex refiner parameters -->
  <parameter name="JetVertexRefiner.InputJetCollectionName" type="string" value="Vertex6Jets" />
  <parameter name="JetVertexRefiner.OutputJetCollectionName" type="string" value="Refined6Jets" />
  <parameter name="JetVertexRefiner.PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="JetVertexRefiner.InputVertexCollectionName" type="string" value="BuildUpVertex" />
  <parameter name="JetVertexRefiner.V0VertexCollectionName" type="string" value="BuildUpVertex_V0" />
  <parameter name="JetVertexRefiner.OutputVertexCollectionName" type="string" value="RefinedVertex6Jets" />

  <parameter name="JetVertexRefiner.MinPosSingle" type="double" value="0.3" />
  <parameter name="JetVertexRefiner.MaxPosSingle" type="double" value="30." />
  <parameter name="JetVertexRefiner.MinEnergySingle" type="double" value="1." />
  <parameter name="JetVertexRefiner.MaxAngleSingle" type="double" value="0.5" />
  <parameter name="JetVertexRefiner.MaxSeparationPerPosSingle" type="double" value="0.1" />
  <parameter name="JetVertexRefiner.mind0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.minz0sigSingle" type="double" value="5." />
  <parameter name="JetVertexRefiner.OneVertexProbThreshold" type="double" value="0.001" />
  <parameter name="JetVertexRefiner.MaxCharmFlightLengthPerJetEnergy" type="double" value="0.1" />

  <!-- FlavorTag parameters -->
  <parameter name="PrimaryVertexCollectionName" type="string" value="PrimaryVertex" />
  <parameter name="FlavorTag.JetCollectionName" type="string" value="Refined6Jets" />
  <parameter name="MakeNtuple.AuxiliaryInfo" type="int" value="-1" />

  <parameter name="FlavorTag.WeightsDirectory" type="string" value="${LCFIPlusWeightsDir}"/>
  <parameter name="FlavorTag.WeightsPrefix" type="string" value="${LCFIPlusWeightsPrefix}"/>
  <parameter name="FlavorTag.BookName" type="string" value="bdt" />
  <parameter name="FlavorTag.PIDAlgo" type="string" value="lcfiplus" />
  <parameter name="FlavorTag.D0ProbFileName" type="string" value="${LCFIPlusD0ProbFile}"/>
  <parameter name="FlavorTag.Z0ProbFileName" type="string" value="${LCFIPlusZ0ProbFile}"/>

  <parameter name="FlavorTag.CategoryDefinition1" type="string">nvtx==0</parameter>
  <parameter name="FlavorTag.CategoryPreselection1" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables1" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr25sigma jprobz25sigma
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2 nmuon nelectron trkmass
  </parameter>
  <parameter name="FlavorTag.CategorySpectators1" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition2" type="string">nvtx==1&&nvtxall==1</parameter>
  <parameter name="FlavorTag.CategoryPreselection2" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables2" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    d0bprob2 d0cprob2 d0qprob2 z0bprob2 z0cprob2 z0qprob2
    trkmass nelectron nmuon
  </parameter>
  <parameter name="FlavorTag.CategorySpectators2" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition3" type="string">nvtx==1&&nvtxall==2</parameter>
  <parameter name="FlavorTag.CategoryPreselection3" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables3" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    1vtxprob vtxlen12all_jete vtxmassall
  </parameter>
  <parameter name="FlavorTag.CategorySpectators3" type="stringVec">
    aux nvtx
  </parameter>

  <parameter name="FlavorTag.CategoryDefinition4" type="string">nvtx>=2</parameter>
  <parameter name="FlavorTag.CategoryPreselection4" type="string">trk1d0sig!=0</parameter>
  <parameter name="FlavorTag.CategoryVariables4" type="stringVec">
    trk1d0sig trk2d0sig trk1z0sig trk2z0sig trk1pt_jete trk2pt_jete jprobr2 jprobz2
    vtxlen1_jete vtxsig1_jete vtxdirang1_jete vtxmom1_jete vtxmass1 vtxmult1 vtxmasspc vtxprob
    vtxlen2_jete vtxsig2_jete vtxdirang2_jete vtxmom2_jete vtxmass2 vtxmult2
    vtxlen12_jete vtxsig12_jete vtxdirang12_jete vtxmom_jete vtxmass vtxmult
    1vtxprob
  </parameter>
  <parameter name="FlavorTag.CategorySpectators4" type="stringVec">
    aux nvtx
  </parameter>
</processor>

<processor name="EF6" type="ErrorFlow">
  <parameter name="InputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined6Jets </parameter>
  <parameter name="OutputPFOCollection" type="string" lcioInType="ReconstructedParticle"> Refined6JetsEF </parameter>
  <parameter name="InputMCTruthLinkCollection" type="string" lcioInType="LCRelation"> RecoMCTruthLink </parameter>
</processor>


<processor name="LCIOOutputProcessor" type="LCIOOutputProcessor">
  <!-- DST output: drop all hits, skim MCParticles and keep final Tracks, Clusters, Vertices and  ReconstructedParticles -->
  <parameter name="LCIOOutputFile" type="string" >
    ${OutputFile}
  </parameter>
  <parameter name="DropCollectionTypes" type="StringVec">
    Track
    Cluster
  </parameter>
  <parameter name="DropCollectionNames" type="StringVec">
    ClusterMCTruthLink
    MCTruthClusterLink
    MCTruthMarlinTrkTracksLink
    MarlinTrkTracksMCTruthLink
    DistilledPFOs
    GammaGammaCandidateEtaPrimes
    GammaGammaCandidateEtas
    GammaGammaCandidatePi0s
    GammaGammaParticles
    V0RecoParticles
    V0Vertices
    ProngRecoParticles
    ProngVertices
    KinkRecoParticles
    KinkVertices
    SplitRecoParticles
    SplitVertices
    BuildUpVertex_RP
    BuildUpVertex
    BuildUpVertex_V0_RP
    BuildUpVertex_V0
    PFOsminusmu
    PFOsminuse
    PFOsminustau
    PFOsminusphoton
    Vertex2Jets
    Vertex3Jets
    Vertex4Jets
    Vertex5Jets
    Vertex6Jets
    Refined2Jets_rel
    Refined3Jets_rel
    Refined4Jets_rel
    Refined5Jets_rel
    Refined6Jets_rel
    Refined2Jets_vtx
    Refined3Jets_vtx
    Refined4Jets_vtx
    Refined5Jets_vtx
    Refined6Jets_vtx
    Refined2Jets_vtx_RP
    Refined3Jets_vtx_RP
    Refined4Jets_vtx_RP
    Refined5Jets_vtx_RP
    Refined6Jets_vtx_RP
    RefinedVertex2Jets
    RefinedVertex3Jets
    RefinedVertex4Jets
    RefinedVertex5Jets
    RefinedVertex6Jets
    RefinedVertex2Jets_RP
    RefinedVertex3Jets_RP
    RefinedVertex4Jets_RP
    RefinedVertex5Jets_RP
    RefinedVertex6Jets_RP
    Refined2JetsEF
    Refined3JetsEF
    Refined4JetsEF
    Refined5JetsEF
    Refined6JetsEF
    BCALMCTruthLink
    MCTruthBcalLink
    MCTruthTrackLink
    TrackMCTruthLink
  </parameter>
  <parameter name="LCIOWriteMode" type="string" value="WRITE_NEW"/>
  <parameter name="CompressionLevel" type="int" value="6"/>
  <!--parameter name="SplitFileSizekB" type="int" value="1992294"/-->
</processor>

<processor name="ComputeCorrectAngulardEdX" type="AngularCorrection_dEdxProcessor">
  <!-- description not set by author -->
  <!--parameter for new angular correction dedx= uncorrected_dedx  / f, with f= pol3(lambda)-->
  <!-- Parameters for 2020 DST (and all generated with v02-02 and v02-02-01 -->
  <parameter name="AngularCorrectionParameters" type="FloatVec"> 0.970205 0.0007506 4.41781e-8 5.8222e-8 </parameter>
  <!--LDC track collection name-->
  <parameter name="LDCTrackCollection" type="string" lcioInType="Track">MarlinTrkTracks </parameter>
  <!--parameters used in the outdated angular correction outdated_dedx= uncorrected_dedx / f, with f = 1. / ( 1.0+[1]*cos(theta)*cos(theta)/[0] )-->
</processor>

<!-- Post reconstruction related : PID, Vertexing, Particle finding, cluster topology -->
<processor name="LikelihoodPID" type="LikelihoodPIDProcessor">
  <!--Performs particle identification-->
  <!--Debugging?-->
  <parameter name="Debug" type="int">0</parameter>
  <!--Boundaries for energy binning-->
  <parameter name="EnergyBoundaries" type="FloatVec">0 1.0e+07</parameter>
  <!--Name of files containing pdfs for charged particles-->
  <parameter name="FilePDFName" type="StringVec"> ${ProductionDir}/HighLevelReco/PIDFiles/LikelihoodPID_Standard_l5_v01.root </parameter>
  <!--Whether MVA low momentum mu/pi is used or not-->
  <parameter name="UseLowMomentumMuPiSeparation" type="bool">true</parameter>
  <!--The BDTG weights files for low momentum mu/pi separation-->
  <parameter name="FileWeightFormupiSeparationName" type="StringVec">${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_02GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_03GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_04GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_05GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_06GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_07GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_08GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_09GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_10GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_11GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_12GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_13GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_14GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_15GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_16GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_17GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_18GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_19GeVP_clusterinfo.weights.xml ${ProductionDir}/HighLevelReco/PIDFiles/LowMomMuPiSeparation/TMVAClassification_BDTG_l5_20GeVP_clusterinfo.weights.xml </parameter>
  <!--dE/dx parameters for each particle-->
  <!-- Parameters for 2020 DST (and all generated with v02-02 and v02-02-01 -->
  <parameter name="dEdxParameter_electron" type="FloatVec"> -0.00232937 -3.88424e+13 -37881.1 -1.56837 0 </parameter>
  <parameter name="dEdxParameter_muon" type="FloatVec"> 0.0717375 -16596.5 -4.84028e+07 0.356728 0.000371431 </parameter>
  <parameter name="dEdxParameter_pion" type="FloatVec"> 0.0733683 51678.4 8.19644e+07 0.453505 0.000404984 </parameter>
  <parameter name="dEdxParameter_kaon" type="FloatVec"> 0.0792784 3798.12 4.06952e+07 0.450671 0.00050169 </parameter>
  <parameter name="dEdxParameter_proton" type="FloatVec"> 0.0770318 1053.24 4.95076e+06 0.281489 0.000168616 </parameter>
  <!--dE/dx normalization-->
  <parameter name="dEdxNormalization" type="float">1.350e-7</parameter>
  <!--dE/dx error factor(7.55 for l5, 8.53 for s5)-->
  <parameter name="dEdxErrorFactor" type="float">7.55</parameter>
  <!-- Method: Maximum Likelihood(0), Bayesian(1), or risk based Bayesian(2)-->
  <parameter name="UseBayesian" type="int">2</parameter>
  <!-- Cost Matrix for risk based Bayesian(2)-->
  <parameter name="CostMatrix" type="FloatVec">1.0e-50 1.0 1.5 1.0 1.5 1.0 1.0e-50 3.0 1.0 1.0 1.0 1.0 1.0e-50 1.0 3.0 1.0 1.0 4.0 1.0e-50 2.0 1.0 1.0 5.0 1.0 1.0e-50</parameter>
  <!--Version to be added to the name of the calculated methods-->
  <parameter name="PIDMethodsToRun_version" type="string"> v2 </parameter>
  <!--Name of the PFO collection-->
  <parameter name="RecoParticleCollection" type="string"> PandoraPFOs </parameter>
</processor>

<processor name="LeptonID" type="LeptonIDProcessor">
  <!--verbosity level of this processor ("DEBUG0-4,MESSAGE0-4,WARNING0-4,ERROR0-4,SILENT")-->
  <parameter name="Verbosity" type="string"> MESSAGE </parameter>
  <parameter name="BuildTree" type="bool">false</parameter>
  <parameter name="EvalMVA" type="bool">true</parameter>
  <parameter name="weightfile">HighLevelReco/PIDFiles/CPID/LeptonID_multi_jet_dEdx_800t_3d_cm50r50_BDTG.weights.xml</parameter>
</processor>

<processor name="ComprehensivePID" type="ComprehensivePIDProcessor">

  <parameter name="PFOCollection" type="string" value="PandoraPFOs"/>
  <parameter name="RecoMCTruthLink" type="string" value="RecoMCTruthLink"/>

  <parameter name="modeExtract" type="bool" value="true" />
  <parameter name="modeTrain"   type="bool" value="false"/>
  <parameter name="modeInfer"   type="bool" value="true"/>

  <parameter name="TTreeFileName" type="string" value=""/>
  <parameter name="reffile" type="string" value="HighLevelReco/PIDFiles/CPID/Ref_singleP_12bins_conservative.txt"/>
  <parameter name="signalPDGs" type="FloatVec"  value="11 13 211 321 2212"/>
  <parameter name="backgroundPDGs" type="FloatVec"  value=""/>
  
  <parameter name="plotFolder" type="string" value="CPID_Plots"/>
  <parameter name="fileFormat" type="string" value=".png"/>

  <parameter name="momMin" type="float" value="1"/>
  <parameter name="momMax" type="float" value="100"/>
  <parameter name="momLog" type="bool" value="true"/>
  <parameter name="momNBins" type="float" value="12"/>

  <parameter name="cutD0" type="float" value="0"/>
  <parameter name="cutZ0" type="float" value="0"/>
  <parameter name="cutLamMin" type="float" value="0"/>
  <parameter name="cutLamMax" type="float" value="0"/>
  <parameter name="cutNTracksMin" type="int" value="1"/>
  <parameter name="cutNTracksMax" type="int" value="-1"/>
  
  <parameter name="inputAlgoSpecs" type="StringVec">
    dEdx_RCD:dEdx_RCD
    TOF:TOF100
    Pandora
    LeptonID
  </parameter>

  <parameter name="TOF100.S" type="StringVec" value="TOFEstimators100ps"/>
  
  <parameter name="dEdx_RCD.F" type="FloatVec">
    -1.28883368e-02   2.72959919e+01   1.10560871e+01 -1.74534200e+00  -9.84887586e-07
      6.49143971e-02   1.55775592e+03   9.31848047e+08  2.32201725e-01   2.50492066e-04
      6.54955215e-02   8.26239081e+04   1.92933904e+07  2.52743206e-01   2.26657525e-04
      7.52235689e-02   1.59710415e+04   1.79625604e+06  3.15315795e-01   2.30414997e-04
      7.92251260e-02   6.38129720e+04   3.82995071e+04  2.80793601e-01   7.14371743e-04
      1
  </parameter>

  <parameter name="trainModelSpecs" type="StringVec">
    TMVA_BDT_MC:TMVA_BDT_MC_12bins_singleP
  </parameter>
  <parameter name="trainingObservables" type="StringVec"> </parameter>

  <parameter name="TMVA_BDT_MC_12bins_singleP.S" type="StringVec">
    !V:!Silent:Color:DrawProgressBar:Transformations=I;D;P;G,D:AnalysisType=multiclass
    SplitMode=Random:NormMode=NumEvents:!V
    !V:!H:NTrees=1000:BoostType=Grad:Shrinkage=0.10:UseBaggedBoost:BaggedSampleFraction=0.50:nCuts=30:MaxDepth=5
    dEdx_RCD_piDis>-900&&dEdx_RCD_kaDis>-900
  </parameter>
  
</processor>

</marlin>