#$Id: DaVinci_Ganga.py,v 1.70 2010-09-07 15:53:14 jpalac Exp $ #============================================================================== # Example ganga job submission file #============================================================================== # # Set ganga environment first with (e.g. lxplus) # > GangaEnv # Then choose your ganga version (default version is normally the best option) # # NB : This file is for the ganga 5 releases # # To submit you start ganga with the command "ganga" and then # at the ganga prompt type # # [In] 1 : ganga DaVinci_Ganga.py # # As an alternative you can also submit the job directly from # the Unix prompt with the line # # [user@lxplus]~% ganga DaVinci_Ganga.py # # but in this way you will have the overhead of starting Ganga # for each job you submit. # #============================================================================== # # For more information on ganga see http://cern.ch/ganga # # In particular, if you think you have found a bug, or you wish to suggest # some improvement in functionality, please report this at # https://savannah.cern.ch/projects/ganga/ # # For Dirac jobs, you can monitor their status at # http://lhcb.pic.es/DIRAC/Monitoring/Analysis # # For any ganga object used below, more detailed information can be found by # running help(XXX) at the ganga prompt. I.e. # > help(Dirac) # For more information on the Dirac backend # #============================================================================== #------------------------------------------------------------------------------ # Make a new job object for DaVinci #------------------------------------------------------------------------------ j = Job( application = DaVinci( version = 'v36r5' ) ) #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # Define name for identifying the job (this name appears in the ganga job list) #------------------------------------------------------------------------------ j.name = 'Lb2Lcmunu_12_md' #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # The job configuration #------------------------------------------------------------------------------ # Define the configuration file(s) to use appOpts = j.application.user_release_area + '/DaVinci_' + j.application.version + '/Phys/DaVinci/options/' path = '/afs/cern.ch/work/e/egraveri/Analysis/ganga/Lb2Lcmunu/' j.application.optsfile = [ File(path + 'Lb2Lcmunu_S20_data_NEWJET_moreStates.py' ), File(path + 'DV2012.py'), File(path + 'LHCbCollision12Beam4000GeV-VeloClosed-MagDownRealDataReco14Stripping2090000000SEMILEPTONICDST.py') ] # Extra options # Appended to the end of the main options to override default settings #j.application.extraopts = '' #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # Input data # Can either be specified in the main configuration files (DaVinci.py etc.) or # locally here as an LHCbDataset #------------------------------------------------------------------------------ #j.inputdata = LHCbDataset( files = [ #'LFN:/lhcb/production/DC06/v1r0/00002000/DST/0000/00002000_00000004_3.dst' , #'LFN:/lhcb/production/DC06/v1r0/00002000/DST/0000/00002000_00000005_3.dst' ] ) #------------------------------------------------------------------------------ # Define a job splitter (very useful for many input data files) #------------------------------------------------------------------------------ # Use a single job, no splitting #j.splitter = None # Split jobs into 1 input file per job. max of 5 files in total j.splitter = SplitByFiles ( filesPerJob = 10, maxFiles = -1 ) # This Splitter will query the Logical File Catalog (LFC) to find # at which sites a particular file is stored. Subjobs will be created # so that all the data required for each subjob is stored in # at least one common location. This prevents the submission of jobs that # are unrunnable due to data availability. # Useful when using the Dirac backend (see below) #j.splitter = DiracSplitter ( filesPerJob = 1, maxFiles = 5 ) #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # Job merging (merge output from sub-jobs from job splitter, if used) #------------------------------------------------------------------------------ # No merging #j.merger = None # Root file merging. See help( RootMerger ) for more details #j.merger = RootMerger( files = ['DVNtuples.root','DVHistos.root'], ignorefailed = True ) # SmartMerger - Able to handle various file formats (including root files) # See help( SmartMerger ) for more details #j.merger = SmartMerger( files = ['DVNtuples.root', 'DVHistos.root'], ignorefailed = True ) #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # Output data #j.outputdata = ["stdout"] #------------------------------------------------------------------------------ # Add here any special input files. Normally not needed. #------------------------------------------------------------------------------ #j.inputsandbox = [] #------------------------------------------------------------------------------ #------------------------------------------------------------------------------ # Define where to run #------------------------------------------------------------------------------ # Run interactively on the local machine #j.backend = Interactive() # Run directly on the local machine, but in the background #j.backend = Local() # Submit to an LSF batch system, using the 8nm queue #j.backend = LSF( queue = '8nm' ) # Submit to a condor batch system #j.backend = Condor() # Submit to a PBS batch system #j.backend = PBS() # Submit to the grid. j.backend = Dirac() #------------------------------------------------------------------------------ j.outputfiles = [ DiracFile("Lb_Lcstarmunu.root") ] #------------------------------------------------------------------------------ # Submit the job #------------------------------------------------------------------------------ queues.add(j.submit) #------------------------------------------------------------------------------