BTagCSV primary dataset in MINIAOD format from RunG of 2016 (/BTagCSV/Run2016G-UL2016_MiniAODv2-v1/MINIAOD)

How were these data selected?

Events stored in this primary dataset were selected because of the presence of at least two jets, tagged as b-quark jets with combined secondary vertex.

Data taking / HLT
The collision data were assigned to different RAW datasets using the following HLT configuration.

Data processing
This MINIAOD dataset was processed from the RAW dataset by the following steps:

Step PAT
Release: CMSSW_10_6_25
Global tag: 106X_dataRun2_v35
Configuration file for PAT step ReReco-Run2016G-BTagCSV-UL2016_MiniAODv2
Output dataset: /BTagCSV/Run2016G-UL2016_MiniAODv2-v1/MINIAOD

HLT trigger paths
The possible HLT trigger paths in this dataset are:
HLT_DoubleJet90_Double30_DoubleBTagCSV_p087
HLT_DoubleJet90_Double30_TripleBTagCSV_p087
HLT_DoubleJetsC100_DoubleBTagCSV_p014_DoublePFJetsC100MaxDeta1p6
HLT_DoubleJetsC100_DoubleBTagCSV_p026_DoublePFJetsC160
HLT_DoubleJetsC100_SingleBTagCSV_p014_SinglePFJetC350
HLT_DoubleJetsC100_SingleBTagCSV_p014
HLT_DoubleJetsC100_SingleBTagCSV_p026_SinglePFJetC350
HLT_DoubleJetsC100_SingleBTagCSV_p026
HLT_DoubleJetsC112_DoubleBTagCSV_p014_DoublePFJetsC112MaxDeta1p6
HLT_DoubleJetsC112_DoubleBTagCSV_p026_DoublePFJetsC172
HLT_QuadJet45_DoubleBTagCSV_p087
HLT_QuadJet45_TripleBTagCSV_p087
HLT_QuadPFJet_BTagCSV_p016_VBF_Mqq460
HLT_QuadPFJet_BTagCSV_p016_VBF_Mqq500
HLT_QuadPFJet_BTagCSV_p016_p11_VBF_Mqq200
HLT_QuadPFJet_BTagCSV_p016_p11_VBF_Mqq240
HLT_Rsq0p02_MR300_TriPFJet80_60_40_BTagCSV_p063_p20_Mbb60_200
HLT_Rsq0p02_MR300_TriPFJet80_60_40_DoubleBTagCSV_p063_Mbb60_200
HLT_Rsq0p02_MR400_TriPFJet80_60_40_DoubleBTagCSV_p063_Mbb60_200
HLT_Rsq0p02_MR450_TriPFJet80_60_40_DoubleBTagCSV_p063_Mbb60_200
HLT_Rsq0p02_MR500_TriPFJet80_60_40_DoubleBTagCSV_p063_Mbb60_200
HLT_Rsq0p02_MR550_TriPFJet80_60_40_DoubleBTagCSV_p063_Mbb60_200

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 the CMS Open Data container or the CMS Virtual Machine. See the instructions for setting up one of the two alternative environments and getting started in

Running CMS analysis code using Docker

How to install the CMS Virtual Machine

Getting started with CMS open data

Files and indexes

Disclaimer

These open data are released under the Creative Commons Zero v1.0 Universal license.

Neither the experiment(s) ( CMS ) nor CERN endorse any works, scientific or otherwise, produced using these data.

This release has a unique DOI that you are requested to cite in any applications or publications.