[gate-users] Core Dump after simulation aborted
Ananth Ravi
ananth.ravi at sw.ca
Fri Jan 7 21:19:31 CET 2005
Hi All,
Sorry about my last posting, my problem description was scrubbed and my
supplemental macro was posted instead.
The intended content of my e-mail message is:
Recently my simulations have begin to abort after a few thousand
events. I have been attempting to solve this problem on my own with no
success. I had initially posted this problem thinking it was related to
the way i initialize my random number. But my simulations still crash
even if this factor is eliminated. What is even more curious is that I
am able to run the benchmarks with no problems.
Has anyone seen such a core dump, or does anyone know what might be
wrong. I cant seem to understand what might be wrong simply by looking
at the dump. I am attaching my macro along with this posting in case
that help shed some extra insight.
Any suggestions would be greatly appreciated.
Thanks,
Ananth
Below is a sample of the dump that I recieve:.
[digitizer/Singles/spblurring::ProcessPulseList]: processing input list
with 1 e ntries
[digitizer/Singles/spblurring::ProcessPulseList]: returning output
pulse-list wi th 1 entries
----GatePulse----
Run 0
Event 206599
Src 0 [ -4.98215 5.04027 6.03481 mm ]
Time 350.071 mus
Energy 21.8151 keV
localPos [ -0.0677752 9.90138 9.52104 mm ]
globalPos [ 7.11117 14.2026 0.952104 cm ]
-> ( R=15.8834 cm , phi=63.403 deg,z=9.52104 mm )
VolumeID Vol(0 -> world-0/world_P-0 ->
SPECThead-2/SPECThea d_P-2 -> crystal-0/crystal_P-1)
OutputID 2 0 0
#Compton 0
#Rayleigh 0
scannerPos [ 14.15 0 0 cm ]
scannerRotAngle 0 deg
-----------------
*** Break *** segmentation violation
Generating stack trace...
0x0819fb43 in GateAnalysis::RecordEndOfEvent(G4Event const*) + 0xc35
from ./Gat e
0x08173f42 in GateOutputMgr::RecordEndOfEvent(G4Event const*) + 0x86
from ./Gat e
0x0816d1e2 in GateEventAction::EndOfEventAction(G4Event const*) + 0x140
from ./ Gate
0x083744de in G4EventManager::ProcessOneEvent(G4Event*) + 0x764 from ./Gate
0x083609e1 in G4RunManager::DoEventLoop(int, char const*, int) + 0xf9
from ./Ga te
0x08360307 in G4RunManager::BeamOn(int, char const*, int) + 0x3b from
./Gate
0x0816071f in GateApplicationMgr::StartDAQ() + 0x1a7 from ./Gate
0x081a2bae in GateApplicationMgrMessenger::SetNewValue(G4UIcommand*,
G4String) + 0x110 from ./Gate
0x08755f32 in G4UIcommand::DoIt(G4String) + 0x1774 from ./Gate
0x087640ea in G4UImanager::ApplyCommand(char const*) + 0xb34 from ./Gate
0x087635b4 in G4UImanager::ApplyCommand(G4String) + 0x22 from ./Gate
0x08350086 in G4UIterminal::ExecuteCommand(G4String) + 0x42 from ./Gate
0x0834fc19 in G4UIterminal::SessionStart() + 0x4d from ./Gate
0x0815ed44 in main + 0x6a6 from ./Gate
0xb611979d in __libc_start_main + 0xed from /lib/tls/libc.so.6
0x0815df49 in TFile::TFile(char const*, char const*, char const*, int)
+ 0x41 f rom ./Gate
Aborted
>Skipped content of type multipart/alternative-------------- next part --------------
>
>
># SPECT flexibility benchmark
># finalized 13/9/2003
># OpenGate Collaboration
>
>
># VISUALISATION
>#/vis/open OGLSX
>#/vis/viewer/zoom 1.25
>#/vis/viewer/zoom 0.5
>#/vis/viewer/set/viewpointThetaPhi 60 60 deg
>#/vis/viewer/set/style surface
>#/vis/drawVolume
>
># GEOMETRY
># Set the geometry in auto-update mode, so that we see the geometry being build
>/gate/geometry/enableAutoUpdate
>
>
># World
># Define the world dimensions
>/gate/world/geometry/setXLength 30 cm
>/gate/world/geometry/setYLength 30 cm
>/gate/world/geometry/setZLength 30 cm
>/gate/world/setMaterial Air
>
># Scanner Head
># Create a new box representing the main head-volume
># SPECThead is the name of the predefined SPECT system
># Create the SPECT system, which will yield an Interfile output of projection data
>/gate/world/daughters/name SPECThead
>/gate/world/daughters/insert box
>
># Define the dimensions of the main volume
>/gate/SPECThead/geometry/setXLength 4.3 cm
>/gate/SPECThead/geometry/setYLength 5. cm
>/gate/SPECThead/geometry/setZLength 5. cm
>
># Define the position of the main volume
># Move the head 9 cm away from the Z axis, which is the rotation axis and the replication axis
>/gate/SPECThead/placement/setTranslation 141.5 0. 0. mm
>
># Set the material associated with the main volume
>/gate/SPECThead/setMaterial Air
>/gate/SPECThead/attachPhantomSD
>
>
># Replicate the head (around the Z axis by default) to get a four-head system (heads at 90 degrees)
>/gate/SPECThead/repeaters/insert ring
>/gate/SPECThead/ring/setRepeatNumber 12
>/gate/SPECThead/ring/setAngularSpan 360. deg
>/gate/SPECThead/ring/setFirstAngle 0 deg
>/vis/viewer/zoom 2
>/vis/viewer/set/viewpointThetaPhi 30 30 deg
>
>
># Define the rotation speed of the head
># Define the orbiting around the Z axis
>#/gate/SPECThead/moves/insert orbiting
>#/gate/SPECThead/orbiting/setSpeed 0.15 deg/s
>#/gate/SPECThead/orbiting/setPoint1 0 0 0 cm
>#/gate/SPECThead/orbiting/setPoint2 0 0 1 cm
>
># Define some visualisation options
>/gate/SPECThead/vis/forceWireframe
>
>
># Collimator
># Create a full volume defining the shape of the collimator
>/gate/SPECThead/daughters/name collimator
>/gate/SPECThead/daughters/insert box
>
># Define the dimensions of the collimator volume
>/gate/collimator/geometry/setXLength 3.8 cm
>/gate/collimator/geometry/setYLength 5 cm
>/gate/collimator/geometry/setZLength 5. cm
>
># Define the position of the collimator volume
>/gate/collimator/placement/setTranslation -0.25 0. 0. cm
>
># Set the material of the collimator volume
>/gate/collimator/setMaterial Lead
>
># Define some visualisation options
>/gate/collimator/vis/setColor red
>/gate/collimator/vis/forceSolid
>
># Attach PhantomSD to record Compton interactions in the collimator volume
>/gate/collimator/attachPhantomSD
>
># Insert the first hole of air in the collimator
>/gate/collimator/daughters/name hole
>/gate/collimator/daughters/insert hexagone
>/gate/hole/geometry/setHeight 3.8 cm
>/gate/hole/geometry/setRadius .6 mm
>/gate/hole/placement/setRotationAxis 0 1 0
>/gate/hole/placement/setRotationAngle 90 deg
>/gate/hole/setMaterial Air
>/gate/hole/vis/setColor blue
>
># Repeat the hole in ane array
>/gate/hole/repeaters/insert cubicArray
>/gate/hole/cubicArray/setRepeatNumberX 1
>/gate/hole/cubicArray/setRepeatNumberY 35
>/gate/hole/cubicArray/setRepeatNumberZ 21
>/gate/hole/cubicArray/setRepeatVector 0. 1.4 2.4248 mm
># Repeat these holes in a linear
>/gate/hole/repeaters/insert linear
>/gate/hole/linear/setRepeatNumber 2
>/gate/hole/linear/setRepeatVector 0. 0.7 1.2124 mm
>
>
># Crystal
># Create the crystal volume
>/gate/SPECThead/daughters/name crystal
>/gate/SPECThead/daughters/insert box
>
># Define the dimensions of the crystal volume
>/gate/crystal/geometry/setXLength 1. mm
>/gate/crystal/geometry/setYLength 5 cm
>/gate/crystal/geometry/setZLength 5 cm
>
># Define the position of the crystal volume
>/gate/crystal/placement/setTranslation 1.7 0. 0. cm
>
># Set the material associated with the crystal volume
>/gate/crystal/setMaterial NaI
>
># Define some visualisation options
>/gate/crystal/vis/setColor yellow
>
># Back-compartment
># Create the back-compartment volume
>/gate/SPECThead/daughters/name compartment
>/gate/SPECThead/daughters/insert box
>
># Define the dimensions of the back-compartment volume
>/gate/compartment/geometry/setXLength 0.4 cm
>/gate/compartment/geometry/setYLength 5 cm
>/gate/compartment/geometry/setZLength 5 cm
>
># Define the position of the back-compartment volume
>/gate/compartment/placement/setTranslation 1.95 0. 0. cm
>
># Set the material of the back-compartment volume
>/gate/compartment/setMaterial Glass
>
># Define some visualisation options
>/gate/compartment/vis/setColor grey
>
>#Attach PhantomSD to record Compton interactions in the back-compartment volume
>/gate/compartment/attachPhantomSD
>
># PHANTOM
># Create the phantom volume
>/gate/world/daughters/name Phantom
>/gate/world/daughters/insert sphere
>
># Define the dimensions of the phantom volume
>/gate/Phantom/geometry/setRmax 4. cm
>/gate/Phantom/geometry/setRmin 0. cm
>
>
># Set the material corresponding to the phantom volume
>/gate/Phantom/setMaterial Breast
>
>
># Define some visualisation options
>/gate/Phantom/vis/setColor white
>/gate/Phantom/vis/forceWireframe
>
># Attach PhantomSD to record Compton interactions in the phantom volume
>/gate/Phantom/attachPhantomSD
>
># SOURCE
># Add an extra object for source confinement
>/gate/Phantom/daughters/name seed
>/gate/Phantom/daughters/insert cylinder
>
># Define the dimensions of the source volume
>/gate/seed/geometry/setRmax .4 mm
>/gate/seed/geometry/setRmin 0.0 mm
>/gate/seed/geometry/setHeight 5. mm
>/gate/seed/setMaterial Titanium
>/gate/seed/vis/setColor magenta
>/gate/seed/repeaters/insert cubicArray
>/gate/seed/cubicArray/setRepeatNumberX 2
>/gate/seed/cubicArray/setRepeatNumberY 2
>/gate/seed/cubicArray/setRepeatNumberZ 2
>/gate/seed/cubicArray/setRepeatVector 1. 1. 1. cm
>/gate/seed/attachPhantomSD
>/gate/seed/vis/forceWireframe
>/gate/seed/daughters/name marker
>/gate/seed/daughters/insert cylinder
>/gate/marker/geometry/setRmax .32 mm
>/gate/marker/geometry/setRmin 0.0 mm
>/gate/marker/geometry/setHeight 1.2 mm
>/gate/marker/setMaterial Tungsten
>/gate/seed/daughters/name airgap
>/gate/seed/daughters/insert cylinder
>/gate/airgap/geometry/setRmax .32 mm
>/gate/airgap/geometry/setRmin 0.0 mm
>/gate/airgap/geometry/setHeight 1.82 mm
>/gate/airgap/repeaters/insert linear
>/gate/airgap/linear/setRepeatNumber 2
>/gate/airgap/linear/setRepeatVector 0. 0. 3.02 mm
>/gate/airgap/setMaterial Air
>/gate/airgap/attachPhantomSD
>
># SENSITIVE DETECTORS
># GATE provides two sensitive detectors, which have two different functions
># Using them properly is very important for getting accurate results
>
># Crystal SD
># The crystal SD makes it possible to record hits in a sensitive volume (e.g.,. in a scintillation crystal)
># It must be attached to any volume for which hit-data must be obtained
># For recording hits in the NaI volume only, the name of which is crystal, this volume is attached
># to the crystal SD
>/gate/crystal/attachCrystalSD
>
># Phantom SD
># The phantom SD makes it possible to record Compton events in the volumes within the field of view
># This can provide information for result analysis to discriminate between
># scattered and unscattered photons
># It must be attached to each and every volume for whom Compton interactions have to be recorded
>/gate/Phantom/attachPhantomSD
>
>
># DIGITIZER
># The digitizer tracks what happens in the detection system and in the electronics
># Build a digitizer that first computes the centroid of interactions
>/gate/digitizer/Singles/insert adder
>/gate/digitizer/Singles/insert blurring
>/gate/digitizer/Singles/blurring/setResolution 0.20
>/gate/digitizer/Singles/blurring/setEnergyOfReference 22. keV
>/gate/digitizer/Singles/insert spblurring
>/gate/digitizer/Singles/spblurring/setSpresolution 1.6 mm
>/gate/digitizer/Singles/spblurring/verbose 1
>/gate/digitizer/Singles/insert thresholder
>/gate/digitizer/Singles/thresholder/setThreshold 16. keV
>/gate/digitizer/Singles/insert upholder
>/gate/digitizer/Singles/upholder/setUphold 48. keV
>
># SYSTEM
># The system acts as an interpretor between the GATE geometry and data outputs for reconstruction
># in our case, the Interfile writer
># A system must know which components of the geometry are parts of the scanner, and what
># their role are.
># For the moment, there is only a system SPECThead, which was built when the SPECThead volume
># was inserted.
>
>
># The SPECThead system is made of three levels: base (for the head), crystal (for the crystal and crystal matrix)
># and pixel (for individual crystals for pixellated gamma camera)
># For now, only the base of the system is attached to a volume: the volume SPECThead
># For the system to get information about your crystal, the level crystal must be attached to the volume
># that has been defined for the scintillating crystal (crystal)
>/gate/systems/SPECThead/crystal/attach crystal
>/gate/digitizer/Singles/insert deadtime
>/gate/digitizer/Singles/deadtime/setDeadTime 0.5 mus
>/gate/digitizer/Singles/deadtime/setMode paralysable
>/gate/digitizer/Singles/deadtime/chooseDTVolume crystal
>
># Look at the system
>/gate/systems/SPECThead/describe
># PHYSICS
># Select the processes to consider
>/gate/physics/gamma/selectRayleigh lowenergy
>/gate/physics/gamma/selectPhotoelectric lowenergy
>/gate/physics/gamma/selectCompton lowenergy
>/gate/physics/gamma/selectGammaConversion inactive
>/gate/physics/gamma/listProcesses
>
>#Set some cuts to speed up the simulation
># X-rays are traked until their energy fell under 20 keV
>/gate/physics/setXRayCut 200. keV
>#Cut in order not to follow the secondary electrons
>/gate/physics/setElectronCut 1. km
>/gate/physics/setDeltaRayCut 1. GeV
>
>
># INITIALIZE
># Physics initialization
>/run/initialize
>
>/gate/source/addSource Palad1
>/gate/source/Palad1/gps/type Volume
>/gate/source/Palad1/gps/shape Cylinder
>/gate/source/Palad1/gps/radius .4 mm
>/gate/source/Palad1/gps/halfz 2.5 mm
>/gate/source/Palad1/gps/particle gamma
>/gate/source/Palad1/gps/centre -.5 .5 .5 cm
>/gate/source/Palad1/gps/energytype Mono
>/gate/source/Palad1/gps/monoenergy 22. keV
>/gate/source/Palad1/setActivity 0.002 Ci
>/gate/source/Palad1/gps/confine NULL
>/gate/source/Palad1/gps/angtype iso
>/gate/source/Palad1/gps/mintheta 0. deg
>/gate/source/Palad1/gps/maxtheta 180. deg
>/gate/source/Palad1/gps/minphi 0. deg
>/gate/source/Palad1/gps/maxphi 360. deg
>
>/gate/source/addSource Palad2
>/gate/source/Palad2/gps/type Volume
>/gate/source/Palad2/gps/shape Cylinder
>/gate/source/Palad2/gps/radius .4 mm
>/gate/source/Palad2/gps/halfz 2.5 mm
>/gate/source/Palad2/gps/particle gamma
>/gate/source/Palad2/gps/centre -.5 -.5 .5 cm
>/gate/source/Palad2/gps/energytype Mono
>/gate/source/Palad2/gps/monoenergy 22. keV
>/gate/source/Palad2/setActivity 0.002 Ci
>/gate/source/Palad2/gps/confine NULL
>/gate/source/Palad2/gps/angtype iso
>/gate/source/Palad2/gps/mintheta 0. deg
>/gate/source/Palad2/gps/maxtheta 180. deg
>/gate/source/Palad2/gps/minphi 0. deg
>/gate/source/Palad2/gps/maxphi 360. deg
>
>/gate/source/addSource Palad3
>/gate/source/Palad3/gps/type Volume
>/gate/source/Palad3/gps/shape Cylinder
>/gate/source/Palad3/gps/radius .4 mm
>/gate/source/Palad3/gps/halfz 2.5 mm
>/gate/source/Palad3/gps/particle gamma
>/gate/source/Palad3/gps/centre .5 .5 0.5 cm
>/gate/source/Palad3/gps/energytype Mono
>/gate/source/Palad3/gps/monoenergy 22. keV
>/gate/source/Palad3/setActivity 0.002 Ci
>/gate/source/Palad3/gps/confine NULL
>/gate/source/Palad3/gps/angtype iso
>/gate/source/Palad3/gps/mintheta 0. deg
>/gate/source/Palad3/gps/maxtheta 180. deg
>/gate/source/Palad3/gps/minphi 0. deg
>/gate/source/Palad3/gps/maxphi 360. deg
>
>/gate/source/addSource Palad4
>/gate/source/Palad4/gps/type Volume
>/gate/source/Palad4/gps/shape Cylinder
>/gate/source/Palad4/gps/radius .4 mm
>/gate/source/Palad4/gps/halfz 2.5 mm
>/gate/source/Palad4/gps/particle gamma
>/gate/source/Palad4/gps/centre .5 -.5 0.5 cm
>/gate/source/Palad4/gps/energytype Mono
>/gate/source/Palad4/gps/monoenergy 22. keV
>/gate/source/Palad4/setActivity 0.002 Ci
>/gate/source/Palad4/gps/confine NULL
>/gate/source/Palad4/gps/angtype iso
>/gate/source/Palad4/gps/mintheta 0. deg
>/gate/source/Palad4/gps/maxtheta 180. deg
>/gate/source/Palad4/gps/minphi 0. deg
>/gate/source/Palad4/gps/maxphi 360. deg
>
>/gate/source/addSource Palad5
>/gate/source/Palad5/gps/type Volume
>/gate/source/Palad5/gps/shape Cylinder
>/gate/source/Palad5/gps/radius .4 mm
>/gate/source/Palad5/gps/halfz 2.5 mm
>/gate/source/Palad5/gps/particle gamma
>/gate/source/Palad5/gps/centre -.5 .5 -.5 cm
>/gate/source/Palad5/gps/energytype Mono
>/gate/source/Palad5/gps/monoenergy 22. keV
>/gate/source/Palad5/setActivity 0.002 Ci
>/gate/source/Palad5/gps/confine NULL
>/gate/source/Palad5/gps/angtype iso
>/gate/source/Palad5/gps/mintheta 0. deg
>/gate/source/Palad5/gps/maxtheta 180. deg
>/gate/source/Palad5/gps/minphi 0. deg
>/gate/source/Palad5/gps/maxphi 360. deg
>
>/gate/source/addSource Palad6
>/gate/source/Palad6/gps/type Volume
>/gate/source/Palad6/gps/shape Cylinder
>/gate/source/Palad6/gps/radius .4 mm
>/gate/source/Palad6/gps/halfz 2.5 mm
>/gate/source/Palad6/gps/particle gamma
>/gate/source/Palad6/gps/centre -.5 -.5 -.5 cm
>/gate/source/Palad6/gps/energytype Mono
>/gate/source/Palad6/gps/monoenergy 22. keV
>/gate/source/Palad6/setActivity 0.002 Ci
>/gate/source/Palad6/gps/confine NULL
>/gate/source/Palad6/gps/angtype iso
>/gate/source/Palad6/gps/mintheta 0. deg
>/gate/source/Palad6/gps/maxtheta 180. deg
>/gate/source/Palad6/gps/minphi 0. deg
>/gate/source/Palad6/gps/maxphi 360. deg
>
>/gate/source/addSource Palad7
>/gate/source/Palad7/gps/type Volume
>/gate/source/Palad7/gps/shape Cylinder
>/gate/source/Palad7/gps/radius .4 mm
>/gate/source/Palad7/gps/halfz 2.5 mm
>/gate/source/Palad7/gps/particle gamma
>/gate/source/Palad7/gps/centre .5 .5 -0.5 cm
>/gate/source/Palad7/gps/energytype Mono
>/gate/source/Palad7/gps/monoenergy 22. keV
>/gate/source/Palad7/setActivity 0.002 Ci
>/gate/source/Palad7/gps/confine NULL
>/gate/source/Palad7/gps/angtype iso
>/gate/source/Palad7/gps/mintheta 0. deg
>/gate/source/Palad7/gps/maxtheta 180. deg
>/gate/source/Palad7/gps/minphi 0. deg
>/gate/source/Palad7/gps/maxphi 360. deg
>
>/gate/source/addSource Palad8
>/gate/source/Palad8/gps/type Volume
>/gate/source/Palad8/gps/shape Cylinder
>/gate/source/Palad8/gps/radius .4 mm
>/gate/source/Palad8/gps/halfz 2.5 mm
>/gate/source/Palad8/gps/particle gamma
>/gate/source/Palad8/gps/centre .5 -.5 -0.5 cm
>/gate/source/Palad8/gps/energytype Mono
>/gate/source/Palad8/gps/monoenergy 22. keV
>/gate/source/Palad8/setActivity 0.002 Ci
>/gate/source/Palad8/gps/confine NULL
>/gate/source/Palad8/gps/angtype iso
>/gate/source/Palad8/gps/mintheta 0. deg
>/gate/source/Palad8/gps/maxtheta 180. deg
>/gate/source/Palad8/gps/minphi 0. deg
>/gate/source/Palad8/gps/maxphi 360. deg
>
>
>
># OUTPUT
># Select the options of the data output
># As there are several modules, settings have to be defined for each module, especially in SPECT, where there
># are a lots of hits for only a few counts, so it's better to limit the amount of data produced
># Here the SingleDigi output can be used if you have your own program to process the data
>
>/gate/output/root/enable
>/gate/output/root/setROOTHitsFlag 0
>/gate/output/root/setROOTSinglesFlag 0
>/gate/output/root/setROOTCoincidencesFlag 0
>/gate/output/root/setRootNtupleFlag 0
>/gate/output/root/setRootSinglesAdderFlag 0
>/gate/output/root/setRootSinglesBlurringFlag 0
>/gate/output/root/setRootSinglesSpblurringFlag 0
>/gate/output/root/setRootSinglesThresholderFlag 0
>/gate/output/root/setRootSinglesUpholderFlag 0
># RANDOM
># Change the root of the random module to run different simulations
>/gate/output/root/setSaveRndmFlag 1
>#/random/setSavingFlag 1
>#/random/resetEngineFrom status001.rndm
>
>
>/gate/output/ascii/setOutFileHitsFlag 0
>/gate/output/ascii/setOutFileSinglesFlag 1
>/gate/output/ascii/setOutFileCoincidencesFlag 0
>/gate/output/ascii/setOutFileSinglesAdderFlag 1
>/gate/output/ascii/setOutFileSinglesSpblurringFlag 0
>/gate/output/ascii/setOutFileSinglesBlurringFlag 0
>/gate/output/ascii/setOutFileSinglesThresholderFlag 0
>/gate/output/ascii/setOutFileSinglesUpholderFlag 0
>
># PROJECTION
># Makes a set of projections from the crystal hits
># Define the binning the projection module to be used
>/gate/output/projection/pixelSizeX 390.625 mum
>/gate/output/projection/pixelSizeY 390.625 mum
>/gate/output/projection/pixelNumberX 128
>/gate/output/projection/pixelNumberY 128
>
># Specify the projection plane (XY, YZ or ZX)
>/gate/output/projection/projectionPlane YZ
>
>
># EXPERIMENT
># Define the parameters of the experiment (start time, stop time and time slice)
># The number of projections depends on the number of time slice, the rotation speed of the system and the
># number of heads
># Here, define a total acquisition of 8 seconds by step of 0.05 seconds
># This will give 8 projections by head by table position
>/gate/application/setTimeSlice .5 s
>/gate/application/setTimeStart 0. s
>/gate/application/setTimeStop .5 s
>
>
>
># VERBOSITY
>/control/verbose 0
>/grdm/verbose 0
>/run/verbose 0
>/event/verbose 0
>/tracking/verbose 0
>/gate/application/verbose 0
>/gate/generator/verbose 0
>/gate/stacking/verbose 0
>/gate/event/verbose 0
>/gate/source/verbose 0
>/gate/output/projection/verbose 0
>/gate/output/verbose 2
>
># LET'S RUN THE SIMULATION!
>/gate/application/startDAQ
>
>
>
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