diff --git a/DataQuality/DataQualityConfigurations/config/HLT/HLTOfflineShift/heavyions_run.config b/DataQuality/DataQualityConfigurations/config/HLT/HLTOfflineShift/heavyions_run.config
index c3155f7d675aad9b43af03ed3c0c2cdcf42ade4d..a9060d89ae6e2528bf08f20295b145613370f0c7 100644
--- a/DataQuality/DataQualityConfigurations/config/HLT/HLTOfflineShift/heavyions_run.config
+++ b/DataQuality/DataQualityConfigurations/config/HLT/HLTOfflineShift/heavyions_run.config
@@ -6,79 +6,20 @@
# HLT Offline Shifter
#######################
+#REMOVED as obsolete
+#Just kept algorithms
+
#######################
# Output
#######################
-output top_level {
-
- output HLT {
- output OfflineShifter {
- output Et-Pt-Spectra {
- output BPhys {
- }
-## output Egamma {
-## }
- output Jets {
- output a4ionemsubjesFS {
- }
- output j30_ion_L1TE50 {
- }
- output j50_ion_L1J10 {
- }
- output j100_ion_L1TE50 {
- }
- }
- output Muons {
- }
- }
- output Eta-Phi-Maps {
- output BPhys {
- }
- output Jets {
- output a4ionemsubjesFS {
- }
- output j30_ion_L1TE50 {
- }
- output j50_ion_L1J10 {
- }
- output j100_ion_L1TE50 {
- }
- }
-## output MET {
-## }
- output Muons {
- }
-## output Egamma {
-## }
- }
- output InvariantMasses {
- }
-## output Misc {
-## output Bjet {
-## }
-## output InDet {
-## }
-## output Muons {
-## }
-## output MET {
-## }
-## output Egamma {
-## }
-## output MinBias {
-## }
-## }
- output Multiplicities {
-## output Bjet {
-## }
- output Jets {
- }
- output Muons {
- }
- }
- }
- }
-}
+#output top_level {
+#
+# output HLT {
+# output OfflineShifter {
+# }
+# }
+#}
#######################
@@ -86,615 +27,6 @@ output top_level {
#######################
-#######################
-## Eta-Phi-Maps
-#######################
-
-dir HLT {
-
- dir BphysMon {
- dir shifter {
- dir BMuMu {
- hist TrigBphys_BMuMu_eta@Shifter {
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- output = HLT/OfflineShifter/Eta-Phi-Maps/BPhys
- description = Pseudorapidity of J/psi, the histogram is filled from a particular HLT_2muX_bDimu chain
- }
- }
- }
- }
-
-## dir EgammaSigTE {
-## dir OfflineElectron {
-## hist egEtaPhiMap@ElectronShifter {
-#### algorithm = HLT_PassInput
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Egamma
-## description = Histogram should not be empty. If it is, contact the egamma expert-on-call.
-## }
-## }
-## dir OfflinePhoton {
-## hist egEtaPhiMap@PhotonShifter {
-#### algorithm = HLT_PassInput
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Egamma
-## description = Histogram should not be empty. If it is, contact the egamma expert-on-call.
-## }
-## }
-## }
-
- dir JetMon {
- dir HLT {
- dir a4ionemsubjesFS {
- hist HLTJet_phi_vs_eta@a4ionemsubjesFSShifter {
- algorithm = HLTjet_Bins_Diff_FromAvg
- output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/a4ionemsubjesFS
- description = Eta vs Phi plot: this distribution should not show hotspots. Red means: at least one bin is at least 40 sigma above average. Check that there is sufficient statistics to claim a hotspot.
- }
- }
- dir j30_ion_L1TE50 {
- hist HLTJet_phi_vs_eta@j30_ion_L1TE50Shifter {
- algorithm = HLTjet_Bins_Diff_FromAvg
- output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/j30_ion_L1TE50
- description = Eta vs Phi plot: this distribution should not show hotspots. Red means: at least one bin is at least 40 sigma above average. Check that there is sufficient statistics to claim a hotspot.
- }
- }
- dir j50_ion_L1J10 {
- hist HLTJet_phi_vs_eta@j50_ion_L1J10Shifter {
- algorithm = HLTjet_Bins_Diff_FromAvg
- output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/j50_ion_L1J10
- description = Eta vs Phi plot: this distribution should not show hotspots. Red means: at least one bin is at least 40 sigma above average. Check that there is sufficient statistics to claim a hotspot.
- }
- }
- dir j100_ion_L1TE50 {
- hist HLTJet_phi_vs_eta@j100_ion_L1TE50Shifter {
- algorithm = HLTjet_Bins_Diff_FromAvg
- output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/j100_ion_L1TE50
- description = Eta vs Phi plot: this distribution should not show hotspots. Red means: at least one bin is at least 40 sigma above average. Check that there is sufficient statistics to claim a hotspot.
- }
- }
-
-## dir a10tcemsubFS {
-## hist HLTJet_phi_vs_eta@a10tcemsubFSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir a4tcemjesFS {
-## hist HLTJet_phi_vs_eta@a4tcemjesFSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir a4tcemjesPS {
-## hist HLTJet_phi_vs_eta@a4tcemjesPSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir a4tcemsubFS {
-## hist HLTJet_phi_vs_eta@a4tcemsubFSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-#### }
-## dir a4tcemsubjesFS {
-## hist HLTJet_phi_vs_eta@a4tcemsubjesFSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir a4tclcwjesFS {
-## hist HLTJet_phi_vs_eta@a4tclcwjesFSShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir j25 {
-## hist HLTJet_phi_vs_eta@j25Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/j25
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir j60 {
-## hist HLTJet_phi_vs_eta@j60Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets/j60
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
- }
-## dir OF {
-## dir AntiKt10LCTopoJets {
-## hist OFJet_phi_vs_eta@AntiKt10LCTopoJetsShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir AntiKt4EMTopoJets {
-## hist OFJet_phi_vs_eta@AntiKt4EMTopoJetsShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## dir AntiKt4LCTopoJets {
-## hist OFJet_phi_vs_eta@AntiKt4LCTopoJetsShifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Eta-Phi-Maps/Jets
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## }
-## }
- } ## end dir JetMon
-
-
-## dir METMon {
-## dir Shifter {
-## dir HLT {
-## hist HLT_MET_etaphi@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/MET
-## description = Particular attention should be paid in checking hot regions. The distribution should not show peaks.
-## }
-## hist HLT_MET_etaphi_etweight@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Eta-Phi-Maps/MET
-## description = Particular attention should be paid in checking hot regions. When HLT_MET_etaphi show peaks, this plot is a good check if the peaks are problematic or not. If this plot has no peak, it means the peaks in HLT_MET_etaphi are from low energy hot sopts and has no real harm. When HLT_MET_etaphi does not have peaks, it is all right even if this plot show peaks because those peaks are due to a few very high pt jets.
-## }
-## }
-## }
-## }
-
- dir MuonMon {
- dir muComb {
- hist muComb_eta_vs_phi@Shifter {
- description = The L2muonCB eta-phi map. There should be no hole.
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- algorithm = alg_eta_vs_phi
- output = HLT/OfflineShifter/Eta-Phi-Maps/Muons
- }
- }
- dir muFast {
- hist muFast_eta_vs_phi@Shifter {
- description = The L2muonSA eta-phi map. There should not be additional hole other than those in HLT/TRMUO/Shift/Etaphi.
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- algorithm = alg_eta_vs_phi
- output = HLT/OfflineShifter/Eta-Phi-Maps/Muons
- }
- }
- dir MuonEF {
- hist EFCB_eta_vs_phi@Shifter {
- description = The EFCB eta-phi map. There should be no hole.
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- algorithm = alg_eta_vs_phi
- output = HLT/OfflineShifter/Eta-Phi-Maps/Muons
- }
- }
- }
-
-
-
-
-####################
-## Et-Pt-Spectra
-####################
-
- dir BphysMon {
- dir shifter {
- dir Containers {
- dir HLT_xAOD__TrigBphysContainer_EFBMuMuFex {
- hist TrigBphys_HLT_xAOD__TrigBphysContainer_EFBMuMuFex_pTsum@Shifter {
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- output = HLT/OfflineShifter/Et-Pt-Spectra/BPhys
- description = Sum of J/psi muons pT from the EF container. May be slightly different from reference due to different menu (the container is used for a few chains at once)
- }
- }
-## dir HLT_xAOD__TrigBphysContainer_L2BMuMuFex {
-## hist TrigBphys_HLT_xAOD__TrigBphysContainer_L2BMuMuFex_pTsum@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/BPhys
-## description = Sum of J/psi muons pT from the L2 container. May be slightly different from reference due to different menu (the container is used for a few chains at once)
-## }
-## }
- }
- dir BMuMu {
- hist TrigBphys_BMuMu_pTsum@Shifter {
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- output = HLT/OfflineShifter/Et-Pt-Spectra/BPhys
- description = Sum of J/psi muons pT, the histogram is filled from a particular HLT_2muX_bDimu chain
- }
-## hist TrigBphys_BMuMu_eta@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/BPhys
-## description = Pseudorapidity of J/psi, the histogram is filled from a particular HLT_2muX_bDimu chain
-## }
- }
- }
- }
-
-
-## dir EgammaSigTE {
-## dir OfflineElectron {
-## hist egEt@ShifterElectron {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Egamma
-## description = Histogram should not be empty. If so, contact the egamma expert-on-call.
-## }
-## }
-## dir OfflinePhoton {
-## hist egEt@ShifterPhoton {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Egamma
-## description = Histogram should not be empty. If so, contact the egamma expert-on-call.
-## }
-## }
-## }
-
-
- dir JetMon {
- dir HLT {
- dir a4ionemsubjesFS {
- hist HLTJet_Et@a4ionemsubjesFSShifter {
- display = LogY
- algorithm = HLTjet_KolmogorovTest_MaxDist
- output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/a4ionemsubjesFS
- description = Red means: mean of the histogram different from reference. Et plot: This plot should be close to the reference. Red can be due to: [1] The histogram threshold is not the same as HLT threshold. [2] Slope of the histogram significantly different from reference. [3] Strange shape, i.e. bumps at high Et.
- }
- }
- dir j30_ion_L1TE50 {
- hist HLTJet_Et@j30_ion_L1TE50Shifter {
- display = LogY
- algorithm = HLTjet_KolmogorovTest_MaxDist
- output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/j30_ion_L1TE50
- description = Red means: mean of the histogram different from reference. Et plot: This plot should be close to the reference. Red can be due to: [1] The histogram threshold is not the same as HLT threshold. [2] Slope of the histogram significantly different from reference. [3] Strange shape, i.e. bumps at high Et.
- }
- }
- dir j50_ion_L1J10 {
- hist HLTJet_Et@j50_ion_L1J10Shifter {
- display = LogY
- algorithm = HLTjet_KolmogorovTest_MaxDist
- output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/j50_ion_L1J10
- description = Red means: mean of the histogram different from reference. Et plot: This plot should be close to the reference. Red can be due to: [1] The histogram threshold is not the same as HLT threshold. [2] Slope of the histogram significantly different from reference. [3] Strange shape, i.e. bumps at high Et.
- }
- }
- dir j100_ion_L1TE50 {
- hist HLTJet_Et@j100_ion_L1TE50Shifter {
- display = LogY
- algorithm = HLTjet_KolmogorovTest_MaxDist
- output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/j100_ion_L1TE50
- description = Red means: mean of the histogram different from reference. Et plot: This plot should be close to the reference. Red can be due to: [1] The histogram threshold is not the same as HLT threshold. [2] Slope of the histogram significantly different from reference. [3] Strange shape, i.e. bumps at high Et.
- }
- }
-
-## dir a10tcemsubFS {
-## hist HLTJet_HighEt@a10tcemsubFSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir a4tcemjesFS {
-## hist HLTJet_HighEt@a4tcemjesFSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir a4tcemjesPS {
-## hist HLTJet_HighEt@a4tcemjesPSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir a4tcemsubFS {
-## hist HLTJet_HighEt@a4tcemsubFSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir a4tcemsubjesFS {
-## hist HLTJet_HighEt@a4tcemsubjesFSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir a4tclcwjesFS {
-## hist HLTJet_HighEt@a4tclcwjesFSShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir j25 {
-## hist HLTJet_HighEt@j25Shifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/j25
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir j60 {
-## hist HLTJet_HighEt@j60Shifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets/j60
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
- } ## end dir HLT
-
-
-## dir OF {
-## dir AntiKt10LCTopoJets {
-## hist OFJet_HighEt@AntiKt10LCTopoJetsShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir AntiKt4EMTopoJets {
-## hist OFJet_HighEt@AntiKt4EMTopoJetsShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## dir AntiKt4LCTopoJets {
-## hist OFJet_HighEt@AntiKt4LCTopoJetsShifter {
-## display = LogY
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Et-Pt-Spectra/Jets
-## description = The distribution should not be broad. Check with reference when available.
-## }
-## }
-## }
- } ##end dir JetMon
-
- dir MuonMon {
- dir muComb {
- hist muComb_pt@Shifter {
- description = L2muonCB muon pt distribution. Check with reference when available.
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- algorithm = TRMUO_GatherData
- output = HLT/OfflineShifter/Et-Pt-Spectra/Muons
- }
- }
- dir muFast {
- hist muFast_pt@Shifter {
- description = L2muonSA muon pt distribution. Check with reference when available. There might be a spike at 100 GeV, which is the overflow and not a problem.
-## algorithm = HLT_PassInput
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
- algorithm = TRMUO_GatherData
- output = HLT/OfflineShifter/Et-Pt-Spectra/Muons
- }
- }
- dir MuonEF {
- hist EFCB_pt@Shifter {
- description = EFCB muon pt distribution. Check with reference when available.
-## algorithm = HLT_PassInput
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
- algorithm = TRMUO_GatherData
- output = HLT/OfflineShifter/Et-Pt-Spectra/Muons
- }
- }
- }
-
-
-
-#####################
-## InvariantMasses
-#####################
-
- dir BphysMon {
- dir shifter {
- dir Containers {
- dir HLT_xAOD__TrigBphysContainer_EFBMuMuFex {
- hist TrigBphys_HLT_xAOD__TrigBphysContainer_EFBMuMuFex_mass@Shifter {
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- output = HLT/OfflineShifter/InvariantMasses
- description = Dimuon invariant mass, the histogram is filled from the EF container which is used for a few chains at once
- }
- }
-## dir HLT_xAOD__TrigBphysContainer_L2BMuMuFex {
-## hist TrigBphys_HLT_xAOD__TrigBphysContainer_L2BMuMuFex_mass@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/InvariantMasses
-## description = Dimuon invariant mass, the histogram is filled from the L2 container which is used for a few chains at once
-## }
-## }
- }
- dir BMuMu {
- hist TrigBphys_BMuMu_mass@Shifter {
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
- output = HLT/OfflineShifter/InvariantMasses
- description = Dimuon invariant mass, the histogram is filled from a particular HLT_2muX_bDimu chain. Normally J/psi and Upsilon mass peaks should be seen
- }
- }
- }
- }
-
-####################
-## Misc
-####################
-
-
-## dir METMon {
-## dir Shifter {
-## dir HLT {
-## hist HLT_MET@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: No spikes, with a single peak structure at low MET and a falling distribution. Abnormal: Spike in MET, shifter should contact expert-on-call.
-## }
-## hist HLT_MEx@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: No spikes, with a single peak structure at 0. Abnormal: Spike other than the central peak, shifter should contact expert-on-call.
-## }
-## hist HLT_MEy@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: No spikes, with a single peak structure at 0. Abnormal: Spike other than the central peak, shifter should contact expert-on-call.
-## }
-## hist HLT_SumEt@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: No spikes, with a single peak structure at low SumEt and a falling distribution. Abnormal: Spike in MET, shifter should contact expert-on-call.
-## }
-## hist Eff_HLT_xe80@Shifter {
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-#### algorithm = HLT_PassInput
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: Near zero in lower MEt and a quick rise to 1.0 then flat at 1.0 in higher MEt. Abnormal: The rise does not reach 1.0 or go beyond 1.0, or the high MEt region is not flat, shifter should contact expert-on-call.
-## }
-## }
-## }
-## dir Expert {
-## dir HLT {
-## hist HLT_MET_status@Shifter {
-## display = TCanvas(1050,500),LogY
-## algorithm = HLTmet_AlgErrorBits
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: GlobalError bin is empty (not filled). Abnormal But Not Critical: 1. Bytestream conversion errors in some components (TileBar, Gap1,2,3, Ext1,2). 2. BadCellQuality in one or more components. Abnormal and Critical: Global Error bit is set "GlobError" or Missing Components - Cross check with compN_EF_MET_status@Shifter (in this folder).
-## }
-## hist HLT_MET_lin1@Shifter {
-## display = <AxisRange(0,100,"X")>,LogY
-#### algorithm = HLT_PassInput
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: No spikes, with a single dip structure and a falling distribution. Abnormal: Spike in EF_MET at low (< 10 GeV) MET shifter should contact expert-on-call.
-## }
-## hist compN_compEt_lin@Shifter {
-## display = TCanvas(1050,500)
-## algorithm = HLT_PassInput
-#### algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: All components (X bins) are filled. Abnormal: One or more components are empty.
-## }
-## hist compN_HLT_MET_status@Shifter {
-## display = TCanvas(1050,500),LogZ
-## algorithm = HLT_PassInput
-#### algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## output = HLT/OfflineShifter/Misc/MET
-## description = Normal: "Processed" Bit must always be set (and filled). Abnormal But Not Critical: 1. Bytestream conversion errors in some components (TileBar, Gap1,2,3, Ext1,2); 2. BadCellQuality in one or more components. Abnormal and Critical: Global Error bit is set "GlobError" or Missing components or Error in one or more components "CompError".
-## }
-## }
-## }
-## }
-
-## dir MinBiasMon {
-## dir IDMinbias {
-## dir mb_sptrk {
-## hist PixTot@OfflineShifter {
-## output = HLT/OfflineShifter/Misc/MinBias
-#### algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
-## description = TODO
-## }
-## hist SctTot@IffkubeShifter {
-## output = HLT/OfflineShifter/Misc/MinBias
-#### algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
-## description = TODO
-## }
-## }
-## }
-## dir MBTS {
-## dir mb_mbts_L1MBTS_2 {
-## hist Occupancy@OfflineShifter {
-## output = HLT/OfflineShifter/Misc/MinBias
-#### algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
-## algorithm = HLT_PassInput
-## description = TODO
-## }
-## }
-## }
-## }
-
-
-#################
-## Multiplicity
-#################
-
-
-
- dir JetMon {
- dir HLT {
- dir a4ionemsubjesFS {
- hist HLTJet_n@a4ionemsubjesFSShifter {
- display = LogY
- algorithm = HLTjet_KolmogorovTest_MaxDist
- output = HLT/OfflineShifter/Multiplicities/Jets
- description = Red means: mean of the histogram different from reference. NJet plot: this plot should be close to the reference. Red can be due to: [1] Low statistics wrt reference. [2] Current bunch spacing different from reference. [3] Strange shape. i.e. bumps at high multiplicity.
- }
- }
- } ## end dir HLT
- } ## end dir JetMon
-
- dir MuonMon {
- dir Common {
- hist Offline_Number_Of_Muon {
- description = Check with the reference when available.
-## algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
- algorithm = HLT_Histogram_Not_Empty_with_Ref&GatherData
- output = HLT/OfflineShifter/Multiplicities/Muons
- }
- }
- }
-}
-
-
##############
# Algorithms
@@ -731,13 +63,6 @@ algorithm ShifterFermiFit100_mu18_IDTrkNoCut_tight_pT_EF_eff {
MinStat = 1000
}
-##algorithm ShifterFermiFit100_tau125_IDTrkNoCut_pT_L2S_B_eff {
-## libname = libdqm_algorithms.so
-## name = Simple_fermi_Fit
-## thresholds = ShifterThreshold100_tau125_IDTrkNoCut_pT_L2S_B_eff
-## MinStat = 300
-##}
-
# mu22 Shifter
algorithm TRMUO_fermi_fit_mu22_ESid_muFast_upstream_Fit {
@@ -773,7 +98,6 @@ algorithm TRMUO_fermi_fit_mu22_ESid_MuGirlEF_upstream_Fit {
ImproveFit = 1.0
}
-## EBK added algorithm
algorithm HLT_All_Bins_Filled {
libname = libdqm_algorithms.so
name = All_Bins_Filled
@@ -788,10 +112,6 @@ thresholds ShifterThreshold {
warning = 0.90
error = 0.65
}
-# limits Threshold {
-# }
-# limits Resolution {
-# }
}
thresholds ShifterThresholdOff {
@@ -808,13 +128,6 @@ thresholds ShifterThreshold100 {
}
}
-##thresholds ShifterThreshold100_tau125_IDTrkNoCut_pT_L2S_B_eff {
-## limits Plateau {
-## warning = 85.0
-## error = 65.0
-## }
-##}
-
#for Shift mu22
@@ -883,37 +196,4 @@ thresholds th_TRMUO_fermi_fit_mu22_ESid_MuGirlEF_upstream {
}
-############ REMOVE before submitting!!! (Just added while HLTjet is masked #############
-
-##algorithm HLTjet_KolmogorovTest_MaxDist {
-## libname = libdqm_algorithms.so
-## name = KolmogorovTest_MaxDist
-## thresholds = HLTjet_KolmogorovThresh
-## MinStat = 100
-## reference = CentrallyManagedReferences
-##}
-##
-##algorithm HLTjet_Bins_Diff_FromAvg {
-## libname = libdqm_algorithms.so
-## name = Bins_Diff_FromAvg
-## thresholds = HLTjet_NBinsThresh
-## MinStat = 100
-## ignoreval = 0
-## GreaterThan = 1
-## LessThan = 0
-## NSigma = 40
-## reference = CentrallyManagedReferences
-##}
-##
-##thresholds HLTjet_KolmogorovThresh {
-## limits MaxDist {
-## warning = 0.05
-## error = 0.15
-## }
-##}
-##
-##thresholds HLTjet_NBinsThresh {
-## limits NBins {
-## error = 1
-## }
-##}
+