MOORE output consists of a Ntuple with location/ID = cbnt/222

Ntuples can be defined from jobOptions.txt file:

// Ntuples
NTupleSvc.Output     = { "FILE1 DATAFILE='ntuple.hbook' OPT='NEW'" };

// ----- CBNT_Athena algorithm
CBNT_Athena.Members = { "CBNT_EventInfo", "MooMakeNtupleKINE", "MooMakeNtuple"};
CBNT_Athena.NtupleLocID="/FILE1/CBNT/222";
CBNT_EventInfo.NtupleLocID="/FILE1/CBNT/222";
CBNT_Truth.NtupleLocID="/FILE1/CBNT/222";

MooMakeNtuple.NtupleLocID="/FILE1/CBNT/222";
MooMakeNtuple.maxNumberofRECO=500;
MooMakeNtuple.RoInumber = "noSeed";
MooMakeNtupleKINE.NtupleLocID="/FILE1/CBNT/222";
MooMakeNtupleKINE.maxNumberofKINE=50;

Ntupla variables

     
Run   run number of the event
Event   event number
nkinemo   number of generated tracks
xvtxgmo(nkinemo)   x of the generated vertex (in cm)
yvtxgmo(nkinemo)   y of the generated vertex (in cm)
zvtxgmo(nkinemo)   z of the generated vertex (in cm)
phigmo(nkinemo)   phi generated
cotthgmo(nkinemo)   cotangent of theta generated
ptigmo(nkinemo)   +- inverse of the generated pt (the sign refers to the muon charge)
nmuonmo   number of reconstructed tracks
trighmo(nmuonmo)   number of associated trigger hits
phihmo(nmuonmo)   number of associated phi hits
mdthmo(nmuonmo)   number of associated MDT hits
statimo(nmuonmo)   number of station layers fired
statrmo(nmuonmo)   number of station layers fired
xvtxrmo(nmuonmo)   x of the reconstructed vertex (in cm)
yvtxrmo(nmuonmo)   y of the reconstructed vertex (in cm)
zvtxrmo(nmuonmo)   z of the reconstructed vertex (in cm)
a0rmo(nmuonmo)   transverse impact of reconstructed track
z0rmo(nmuonmo)   z projection of transverse impact of reconstructed track
phirmo(nmuonmo)   phi reconstructed
cotthrmo(nmuonmo)   cotangent of theta reconstructed
ptirmo(nmuonmo)   +- inverse of the reconstructed pt (the sign refers to the muon charge)
chi2mo(nmuonmo)   chi square of the fit
chi2prmo(nmuonmo)   chi square probability of the fit
covrijmo(nmuonmo)   covariance matrix