Differences

This shows you the differences between two versions of the page.

--- 2015:groups:tools:lhaad:proposal [2015/06/28 20:46]
suchita.kulkarni [cutflow]
+++ 2015:groups:tools:lhaad:proposal [2015/07/06 12:27] (current)
daniel.schmeier
@@ Line 185: / Line 185: @@
 ==== results =====
 ==== cutflow =====
+<code autoconf>
 info MCsamples
-  # Human readable info regarding what programs were used to make what
+  ### All information concerning signal and background generation goes here
-  # sample suggested format: Signal program extra details (extras are
-  # stored in description for xml
   signal Sherpa1.4.1 stop-pair
   background POWHEG ttbar mtop = 172.5 NLO
-  doc _link_to_file_with_details
+  table maasinfo
+  doc http://singalgenerator.generate
+  doc _benchmark_SLHA_
+  doc _MG5_model_files_
+ </code>
 ==== table =====
+<code autoconf>
+table massinfo
+   cut     pdgid      mass
+   tN_diag 1000022    1
+           1000006    700
+</code>
 ====== Examples ======
 ==== ATLAS, 1 Lepton Stop Search ====
 [[http://arxiv.org/abs/1407.0583|Link]]
+Issues:
+  - pt-selection, identification, overlap removal, isolation are sometimes done in alternating order. This can lead to a plethora of detector-obj.
+  - cuts can be very hard to read and even hard to parse. Maybe one could improve on that
+<code autoconf>
+info analysis
+  # Details about experiment
+  id SUSY-2013-15
+  publication JHEP11(2014)118
+  sqrtS 8.0
+  lumi 20.0
+  arXiv 1407.0583
+  hepdata https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2013-15/
+info units
+  energy GeV
+  length mm
+  xsec pb
+</code>
+<code autoconf>
+function mT
+  ### transverse mass
+  arg1 tlorentzvector # visible particle
+  arg2 tlorentzvector # missing energy vector
+  arg3 float          # mass
+  return float        # transverse mass
+  code http://google.de
+  doc http://google.de
+function amT2
+  ### asymmetric stransverse mass
+  arg1 tlorentzvector # visible particle
+  arg2 tlorentzvector # missing energy vector
+  arg3 float          # mass
+  return float        # asymmetric stransverse mass
+  code http://google.de
+  doc http://google.de
+function mT2tau
+  ### Sums up activity in the vicinity of a given candidate
+  arg1 detectorobj # a single electron, muon or photon
+  arg2 string      # "calo", "tracks", "eflow"
+  arg3 float       # dR cone to be probed
+  arg4 ptmin       # minpt of objects to be counted
+  arg5 bool        # divide by candidate's pt?
+  return float # sum of pT of the respective surrounding objects
+  code http://google.de
+  doc http://google.de
+function mHadTop
+  ### Sums up activity in the vicinity of a given candidate
+  arg1 detectorobj # a single electron, muon or photon
+  arg2 string      # "calo", "tracks", "eflow"
+  arg3 float       # dR cone to be probed
+  arg4 ptmin       # minpt of objects to be counted
+  arg5 bool        # divide by candidate's pt?
+  return float # sum of pT of the respective surrounding objects
+  code http://google.de
+  doc http://google.de
+function HTMissSig
+  ### Sums up activity in the vicinity of a given candidate
+  arg1 detectorobj # a single electron, muon or photon
+  arg2 string      # "calo", "tracks", "eflow"
+  arg3 float       # dR cone to be probed
+  arg4 ptmin       # minpt of objects to be counted
+  arg5 bool        # divide by candidate's pt?
+  return float # sum of pT of the respective surrounding objects
+  code http://google.de
+  doc http://google.de
+function HT
+  ### Sums up the scalar pt of the leading n objects in the given list
+  arg1 detectorobj-list  # a list of objects
+  arg2 integer           # the leading n objects of the list should be counted
+  return float           # scalarHT
+function isBJet
+  ### Checks if a given jet is tagged w.r.t to the given working point efficiency
+  arg1 detectorobj # a single jet which contains btag information
+  arg2 float       # the working point signal efficiency within [0, 1]
+  return bool      # 'true' if tagged, else false
+  code
+  doc
+function isTauJet
+  ### Checks if a given jet is tagged w.r.t to the given working point efficiency
+  arg1 detectorobj # a single jet which contains btag information
+  arg2 string      # the working point, "loose", "medium", "tight"
+  return bool      # 'true' if tagged, else false
+  code
+  doc
+function isIdentifiedElec
+  ### Checks if a given electron is tagged w.r.t a given ID
+  arg1 detectorobj # a single electron which contains rec+id information
+  arg2 string      # the working point, "loose", "medium", "tight"
+  return bool      # 'true' if tagged, else false
+  code
+  doc
+function isIdentifiedMu
+  ### Checks if a given muon is tagged w.r.t a given ID
+  arg1 detectorobj # a single muon which contains rec+id information
+  arg2 string      # the working point, "combined"
+  return bool      # 'true' if tagged, else false
+  code
+  doc
+function isIsolated
+  ### Checks surroundings of an object
+  arg1 detectorobj # electron, muon, photon
+  arg2 string      # isolation test, "tracks", "calo", "eflow"
+  arg3 float       # dR to object to count for isolation
+  arg4 float       # ptmin of object to count for isolation
+  arg5 bool        # if true, sum(pt) is divided by pt(cand)
+  arg6 float       # maximum allowed value of sum(pt) or sum(pt)/pt(cand)
+  return bool      # 'true' if sum(pt) < maxval, else false
+  code
+  doc
+function overlaps
+  ### Checks if the candidate overlaps with any object of the list provided
+  arg1 detectorobj      # to be tested candidate
+  arg2 detectorobj-list # to be tested potential neighbours
+  arg3 float            # dR cone to be probed
+  return bool           # true if any of the neighbours is closer than dR to the candidate
+  code http://overlap.de
+  doc http://overlap.de
+</code>
+Now for the detector objects
+<code autoconf>
+detectorobj jets
+  ### clustered jets from the calorimeter cells
+  take external
+  algorithm anti-kt
+  R 0.4
+  ptmin 20
+  etamax 2.5
+  code http://jets.jet
+  doc http://checkmate.jets.de
+detectorobj b_jets
+  ### jets with btag
+  take jets
+  select isBJet(b_jets.?, 70)
+detectorobj nob_jets
+  ### jets without btag
+  take jets
+  reject isBJet(b_jets.?, 70)
+detectorobj tau_jets_l
+  ### jets with loose tau tag
+  take jets
+  reject isTauJet(tau_jets_l.?, "loose")
+detectorobj tau_jets_t
+  ### jets with tight tau tag
+  take tau_jets_l
+  reject isTauJet(tau_jets_t.?, "tight")
+detectorobj elecs_rec
+  ### reconstructed electrons
+  take external
+detectorobj elecs_l
+  ### loosely reconstructed electrons
+  take elecs_rec
+  select elecs_l.?.pt>7
+  select elecs_l.?.eta>-2.47
+  select elecs_l.?.eta<2.47
+detectorobj elecs_m
+  ### medium electrons
+  take elecs_l
+  select isIdentifiedEl(elecs_m.?, "medium")
+  select elecs_m.?.pt>10
+  code http://elecs.el/medium
+  doc http://checkmate.elecs.el/medium
+detectorobj muons_rec
+  ### reconstructed muons
+  take external
+detectorobj muons_l
+  take muons_rec
+  select isIdentifiedMu(muons_l.?, "loose")
+  select muons_l.?.pt>6
+  select muons_l.?.eta>-2.4
+  select muons_l.?.eta<2.4
+detectorobj muons_m
+  take muons_l
+  select isIdentifiedMu(muons_m.?, "medium")
+  select muons_m.?.pt>10
+detectorobj nob_jets_iso
+  ### isolated jets
+  take nob_jets
+  reject overlaps(nob_jets.?, elecs_m, 0.2)
+detectorobj elecs_t_iso
+  ### isolated electrons
+  take elecs_m
+  reject overlaps(elecs_m.?, nob_jets, 0.4)
+  reject overlaps(elecs_m.?, b_jets, 0.2)
+  reject overlaps(elecs_m.?, tau_jets_t, 0.2)
+  select elecs_t_iso.?.pt>25
+  select isIdentifiedEl(elecs_t_iso.?, "tight")
+  select isIsolated(elecs_t_iso.?, "tracks", 0.2, 0.5, true, 0.1)
+detectorobj muons_t_iso
+  ### isolated muons
+  take muons_m
+  reject overlaps(muons_m.?, jets, 0.4)
+  select isIsolated(muons_m.?, "tracks", 0.2, 0.5, false, 1.8)
+detectorobj leptons_l
+  ### loose leptons
+  take muons_l
+  take elecs_l
+  select leptons_l.?.pt>10
+detectorobj leptons
+  ### signal leptons
+  take elecs_t_iso
+  take muons_m_iso
+  select leptons.?.pt>25
+detectorobj etmiss
+  ### missing et
+  take external
+</code>
+<code autoconf>
+cut  common
+  select leptons.n=1
+  select leptons_l.n=1
+  select jets.n>=4
+  select etmiss.pt>100
+cut dPhi12
+  select etmiss.dphi(jet.1)>0.8
+  select etmiss.dphi(jet.2)>0.8
+cut leadjets_60to25
+  jets.1.pt>60
+  jets.2.pt>60
+  jets.3.pt>40
+  jets.4.pt>25
+cut leadjets_80to25
+  jets.1.pt>80
+  jets.2.pt>60
+  jets.3.pt>40
+  jets.4.pt>25
+cut leadjets_100to25
+  jets.1.pt>100
+  jets.2.pt>80
+  jets.3.pt>40
+  jets.4.pt>25
+cut leading_bjet
+  select isBJet(jets.1, 70)||isBJet(jets.2, 70)||isBJet(jets.3, 70)||isBJet(jets.4, 70)
+cut tN_diag
+  select common
+  select leadjets_60to25
+  select leading_bjet
+  select mT(leptons.1,etmiss)>100
+  select mHadTop(?,?)>130
+  select mHadTop(?,?)<205
+  select tau_jets_t.n=0
+  select b_jets.1.dR<2.5 ????
+  select etmiss.pt/HT(jets.1,jets.2,jets.3,jets.4)>5
+  select dPhi12
+CUT tN_med
+  select common
+  select leadjets_80to25
+  select leading_bjet
+  select etmiss.pt>200
+  select mT>140
+  select amT2>170
+  select mHadTop>130
+  select mHadTop<195
+  select HTMissSig>12.5
+  select dPhi12
+CUT tN_high
+  select common
+  select leadjets_80to25
+  select leading_bjet
+  select etmiss.pt>320
+  select mT>200
+  select amT2>170
+  select mT2tau>120
+  select mHadTop>130
+  select mHadTop<250
+  select dRbl<3.0
+  select HtMissSig>12.5
+</code>

Les Houches

User Tools

Site Tools

Differences

Page Tools