DoubleEG primary dataset in NANOAOD format from RunG of 2016 (/DoubleEG/Run2016G-UL2016_MiniAODv2_NanoAODv9-v1/NANOAOD)
/DoubleEG/Run2016G-UL2016_MiniAODv2_NanoAODv9-v1/NANOAOD, CMS Collaboration
Cite as: CMS Collaboration (2024). DoubleEG primary dataset in NANOAOD format from RunG of 2016 (/DoubleEG/Run2016G-UL2016_MiniAODv2_NanoAODv9-v1/NANOAOD). CERN Open Data Portal. DOI:10.7483/OPENDATA.CMS.1L0M.8KNQ
Dataset Collision CMS 13TeV pp CERN-LHC
Description
DoubleEG primary dataset in NANOAOD format from RunG of 2016. Run period from run number 278820 to 280385.
The list of validated runs, which must be applied to all analyses, either with the full validation or for an analysis requiring only muons, can be found in:
Related datasets
The corresponding MINIAOD dataset:Dataset characteristics
78797031 events. 47 files. 70.5 GiB in total.System details
NANOAOD datasets are in the ROOT tree format and their analysis does not require the use of CMSSW or CMS open data environments. They can be analysed with common ROOT and Python tools.
Recommended container image for analyses is available in the following locations (see guide):
gitlab-registry.cern.ch/cms-cloud/root-vncgitlab-registry.cern.ch/cms-cloud/python-vnc
Dataset semantics
Variable listHow were these data selected?
Events stored in this primary dataset were selected because of the presence of different combinations of energetic photons, electrons and/or jets.
Data taking / HLT
The collision data were assigned to different RAW datasets using the following HLT configuration.
Data processing
This NANOAOD dataset was processed from the RAW dataset by the following steps:
Step NANO
Release: CMSSW_10_6_26
Global tag: 106X_dataRun2_v35
Configuration file for NANO step ReReco-Run2016G-DoubleEG-UL2016_MiniAODv2_NanoAODv9
Output dataset: /DoubleEG/Run2016G-UL2016_MiniAODv2_NanoAODv9-v1/NANOAOD
Step PAT
Release: CMSSW_10_6_25
Global tag: 106X_dataRun2_v35
Configuration file for PAT step ReReco-Run2016G-DoubleEG-UL2016_MiniAODv2
Output dataset: /DoubleEG/Run2016G-UL2016_MiniAODv2-v1/MINIAOD
Step RECO
Release: CMSSW_10_6_8_patch1
Global tag: 106X_dataRun2_v27
Configuration file for RECO step recoskim_Run2016G_DoubleEG
Output dataset: /DoubleEG/Run2016G-21Feb2020_UL2016-v1/AOD
HLT trigger paths
The possible HLT trigger paths in this dataset are:
HLT_Diphoton30EB_18EB_R9Id_OR_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55
HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55
HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_DoublePixelSeedMatch_Mass70
HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90
HLT_Diphoton30_18_Solid_R9Id_AND_IsoCaloId_AND_HE_R9Id_Mass55
HLT_DoubleEle24_22_eta2p1_WPLoose_Gsf
HLT_DoubleEle33_CaloIdL_GsfTrkIdVL_MW
HLT_DoubleEle33_CaloIdL_GsfTrkIdVL
HLT_DoubleEle33_CaloIdL_MW
HLT_DoubleEle33_CaloIdL
HLT_DoubleEle37_Ele27_CaloIdL_GsfTrkIdVL
HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_PFHT250
HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_PFHT300
HLT_DoublePhoton60
HLT_DoublePhoton85
HLT_ECALHT800
HLT_Ele10_CaloIdM_TrackIdM_CentralPFJet30_BTagCSV_p13
HLT_Ele12_CaloIdL_TrackIdL_IsoVL_PFJet30
HLT_Ele12_CaloIdL_TrackIdL_IsoVL
HLT_Ele12_CaloIdM_TrackIdM_PFJet30
HLT_Ele16_Ele12_Ele8_CaloIdL_TrackIdL
HLT_Ele17_CaloIdL_GsfTrkIdVL
HLT_Ele17_CaloIdL_TrackIdL_IsoVL_PFJet30
HLT_Ele17_CaloIdL_TrackIdL_IsoVL
HLT_Ele17_CaloIdM_TrackIdM_PFJet30
HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ
HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL
HLT_Ele23_CaloIdL_TrackIdL_IsoVL_PFJet30
HLT_Ele23_CaloIdL_TrackIdL_IsoVL
HLT_Ele23_CaloIdM_TrackIdM_PFJet30
HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_L1JetTauSeeded
HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ
HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL
HLT_Ele27_HighEta_Ele20_Mass55
HLT_Ele30WP60_Ele8_Mass55
HLT_Ele30WP60_SC4_Mass55
HLT_Ele8_CaloIdL_TrackIdL_IsoVL_PFJet30
HLT_Ele8_CaloIdM_TrackIdM_PFJet30
HLT_Photon26_R9Id85_OR_CaloId24b40e_Iso50T80L_Photon16_AND_HE10_R9Id65_Eta2_Mass60
HLT_Photon36_R9Id85_OR_CaloId24b40e_Iso50T80L_Photon22_AND_HE10_R9Id65_Eta2_Mass15
HLT_Photon42_R9Id85_OR_CaloId24b40e_Iso50T80L_Photon25_AND_HE10_R9Id65_Eta2_Mass15
How were these data validated?
During data taking all the runs recorded by CMS are certified as good for physics analysis if all subdetectors, trigger, lumi and physics objects (tracking, electron, muon, photon, jet and MET) show the expected performance. Certification is based first on the offline shifters evaluation and later on the feedback provided by detector and Physics Object Group experts. Based on the above information, which is stored in a specific database called Run Registry, the Data Quality Monitoring group verifies the consistency of the certification and prepares a json file of certified runs to be used for physics analysis. For each reprocessing of the raw data, the above mentioned steps are repeated. For more information see:
The Data Quality Monitoring Software for the CMS experiment at the LHC: past, present and future
How can you use these data?
You can access these data through XRootD protocol or direct download, and they can be analysed with common ROOT and Python tools. See the instructions for getting started in
Disclaimer
The open data are released under the Creative Commons CC0 waiver. Neither the experiment(s) ( CMS ) nor CERN endorse any works, scientific or otherwise, produced using these data. All releases will have a unique DOI that you are requested to cite in any applications or publications.
