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Simulation production PAC Jan2020

The following samples listed in this page are produced with POMS.

Standard configurations

stage standard configuration
filter filter_genie_active.fcl
G4 standard_g4_icarus.fcl
DetSim multitpc_detsim_icarus.fcl
McReco1 reco_icarus_driver_reco_multitpc_gauss.fcl
McReco2 reco_icarus_driver_reco_multitpc_raw.fcl

Samples

For the single particles and neutrino interaction sample, 50 events/job are generated to increase the number of neutrino events after the filter stage.
For the cosmic muon sample, 10 events/job are generated.

number of events goal reached completely or very near
number of events is becoming about "good enough" for some purposes
number of events goal is far away

How to access the ICARUS samples

Unless otherwise specified, each stage of a sample is stored in a separate dcache location and can be accessed directly by the analyzer in the location below:
OUTPUT_DIR=/pnfs/icarus/scratch/users/icaruspro/dropbox/mc1/poms_production/<sample name>.
OUTPUT_TESTDIR=/pnfs/icarus/scratch/users/icaruspro/dropbox/mc1/poms_test/<sample name>.
and will be available to analyzers for ~1 month period since the creation.

In the meantime, an automatic File Transmission Service (FTS) will also transfer the reco2 stage files to the tape-backed area located in:

/pnfs/icarus/archive/sam_managed_users/icaruspro/data/mc/<stage>/root/PACJan2020/<sample name>

A SAM dataset will be created with a unique name to identify each sample and will be updated throughout the production campaign. Click on each of the SAM definitions to see the summary of the number of files and event counts (in-progress).

Analyzers can also use the samweb command and samweb definition to locate the file as follows (e.g poms_reco_oscillated_nue_v08_13_02):

  1. List files using samweb list-files command:
    samweb list-files "defname:poms_reco_oscillated_nue_v08_13_02 with limit 1" 
    

    This will print the following reco file:
    reco-20ceb2e1-6544-4d7d-92b4-8809a86b3fb0.root
    
  2. Use the samweb locate-file command to find the location of the file:
    samweb locate-file reco-20ceb2e1-6544-4d7d-92b4-8809a86b3fb0.root
    

    This will print the following locations:
    enstore:/pnfs/icarus/archive/sam_managed_users/icaruspro/data/mc/reco/root/SBNworkshop2019/oscillated_nue/MCC1.1/v08_13_02
    dcache:/pnfs/icarus/scratch/users/icaruspro/dropbox/mc1/poms_production/MCC1_poms_icarus_prod_oscillated_nue_v08_13_02/reco
    
  3. You can also check for the summary of the files that has been created under their SAM definitions (as what is shown after you click the SAM definitions listed on the table below)
    samweb list-files --summary "defname:poms_prod_nu_bnb_reco2_v08_37_00" 
    

    This will print
    File count:    1999
    Total size:    2022922947415. (in Bytes)
    Event count:    54310
    

List of Sample Description

The root directory of the workshop sample location is: /pnfs/icarus/scratch/users/icaruspro/dropbox/mc1/poms_production/ followed by the folder for each sample and sub-folders of each stage in the production workflow of that sample as
listed in the table below.

Sample description N Events Requested Stage Workshop sample location SAM definition
Nominal BNB oscillated electron-neutrino 10,000 gen MCC1_poms_icarus_prod_nue_bnb_oscillated_v08_34_00/filter poms_prod_nue_bnb_oscillated_filter_v08_34_00
g4 MCC1_poms_icarus_prod_nue_bnb_oscillated_v08_34_00/g4 poms_prod_nue_bnb_oscillated_g4_v08_34_00
detsim MCC1_poms_icarus_prod_nue_bnb_oscillated_v08_34_00/detsim poms_prod_nue_bnb_oscillated_detsim_v08_34_00
reco1 MCC1_poms_icarus_prod_nue_bnb_oscillated_v08_37_00/reco1 poms_prod_nue_bnb_oscillated_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_nue_bnb_oscillated_v08_37_00/reco2 poms_prod_nue_bnb_oscillated_reco2_v08_37_00
photon + piplus sample 10,000 gen MCC1_poms_icarus_prod_photon_piplus_v08_34_00/gen poms_prod_photon_piplus_gen_v08_34_00
g4 MCC1_poms_icarus_prod_photon_piplus_v08_34_00/g4 poms_prod_photon_piplus_g4_v08_34_00
detsim MCC1_poms_icarus_prod_photon_piplus_v08_34_00/detsim poms_prod_photon_piplus_detsim_v08_34_00
reco1 MCC1_poms_icarus_prod_photon_piplus_v08_37_00/reco1 poms_prod_photon_piplus_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_photon_piplus_v08_37_00/reco2 poms_prod_photon_piplus_reco2_v08_37_00
electron + piplus sample 10,000 gen MCC1_poms_icarus_prod_electron_piplus_v08_34_00/gen poms_prod_electron_piplus_gen_v08_34_00
g4 MCC1_poms_icarus_prod_electron_piplus_v08_34_00/g4 poms_prod_electron_piplus_g4_v08_34_00
detsim MCC1_poms_icarus_prod_electron_piplus_v08_34_00/detsim poms_prod_electron_piplus_detsim_v08_34_00
reco1 MCC1_poms_icarus_prod_electron_piplus_v08_37_00/reco1 poms_prod_electron_piplus_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_electron_piplus_v08_37_00/reco2 poms_prod_electron_piplus_reco2_v08_37_00
muon bnb-like sample 10,000 gen MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/gen poms_prod_muon_bnblike_gen_v08_37_00
g4 MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/g4 poms_prod_muon_bnblike_g4_v08_37_00
detsim MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/detsim poms_prod_muon_bnblike_detsim_v08_37_00
reco1 MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/reco1 poms_prod_muon_bnblike_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/reco2 poms_prod_muon_bnblike_reco2_v08_37_00
muon bnb-like alternative noise sample 10,000 gen MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/gen poms_prod_muon_bnblike_gen_v08_37_00
g4 MCC1_poms_icarus_prod_muon_bnblike_v08_37_00/g4 poms_prod_muon_bnblike_g4_v08_37_00
detsim MCC1_poms_icarus_prod_muon_bnblike_alternativenoise_v08_37_00/detsim poms_prod_muon_bnblike_alternativenoise_detsim_v08_37_00
reco1 MCC1_poms_icarus_prod_muon_bnblike_alternativenoise_v08_37_00/reco1 poms_prod_muon_bnblike_alternativenoise_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_muon_bnblike_alternativenoise_v08_37_00/reco2 poms_prod_muon_bnblike_alternativenoise_reco2_v08_37_00
proton bnb-like sample 10,000 gen MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/gen poms_prod_proton_bnblike_gen_v08_37_00
g4 MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/g4 poms_prod_proton_bnblike_g4_v08_37_00
detsim MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/detsim poms_prod_proton_bnblike_detsim_v08_37_00
reco1 MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/reco1 poms_prod_proton_bnblike_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/reco2 poms_prod_proton_bnblike_reco2_v08_37_00
proton bnb-like alternative noise sample 10,000 gen MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/gen poms_prod_proton_bnblike_gen_v08_37_00
g4 MCC1_poms_icarus_prod_proton_bnblike_v08_37_00/g4 poms_prod_proton_bnblike_g4_v08_37_00
detsim MCC1_poms_icarus_prod_proton_bnblike_alternativenoise_v08_37_00/detsim poms_prod_proton_bnblike_alternativenoise_detsim_v08_37_00
reco1 MCC1_poms_icarus_prod_proton_bnblike_alternativenoise_v08_37_00/reco1 poms_prod_proton_bnblike_alternativenoise_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_proton_bnblike_alternativenoise_v08_37_00/reco2 poms_prod_proton_bnblike_alternativenoise_reco2_v08_37_00
cosmic muon (no SCE) sample 50,000 gen MCC1_poms_icarus_prod_cosmicmuon_v08_34_00/gen poms_icarus_cosmicmuon_gen_v08_34_00
g4 MCC1_poms_icarus_prod_cosmicmuon_v08_34_00/g4 poms_icarus_cosmicmuon_g4_v08_34_00
detsim MCC1_poms_icarus_prod_cosmicmuon_v08_34_00/detsim poms_icarus_cosmicmuon_detsim_v08_34_00
reco1 MCC1_poms_icarus_prod_cosmicmuon_v08_37_00/reco1 poms_prod_cosmicmuon_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_cosmicmuon_v08_37_00/reco2 poms_prod_cosmicmuon_reco2_v08_37_00
Nominal neutrino BNB sample 50,000 gen MCC1_poms_icarus_prod_nu_bnb_v08_37_00/gen poms_prod_nu_bnb_gen_v08_37_00
g4 MCC1_poms_icarus_prod_nu_bnb_v08_37_00/g4 poms_prod_nu_bnb_g4_v08_37_00
detsim MCC1_poms_icarus_prod_nu_bnb_v08_37_00/detsim poms_prod_nu_bnb_detsim_v08_37_00
reco1 MCC1_poms_icarus_prod_nu_bnb_v08_37_00/reco1 poms_prod_nu_bnb_reco1_v08_37_00
reco2 MCC1_poms_icarus_prod_nu_bnb_v08_37_00/reco2 poms_prod_nu_bnb_reco2_v08_37_00