1 Jupiter, Satellites and SimTools Akiya Miyamoto KEK 16-March-2005 Simulation Mini Workshop Based on acfa-sim-j activity.

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Presentation transcript:

1 Jupiter, Satellites and SimTools Akiya Miyamoto KEK 16-March-2005 Simulation Mini Workshop Based on acfa-sim-j activity

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 2 Contents Jupiter Satellites SimTools Summary

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 3 Overview of our tools lcbase : configuration files Leda : Analysis tools (Kalman fitter, 4vector and jet findinder utilities ) jsf : Root-based framework lclib : QuickSim and other fortran based utilities physsim : Helas-based generator Jupiter : Full simulation based on Geant4 Uranus : Data analysis packages Satellites : Data analysis packages for MC data  We use only C++, except old fortran tools.  Link to various tools at  All packages are kept in the CVS. Accessible from

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 4 Framework, QuickSim, Physsim Framework  JSF : Root based framework for physics and detector studies  Packages in JSF is reorganized to reduce dependences among codes.  Interfaces to StdHep and LCIO are implemented. Quick Simulator and lclib  Detector parameter set for “GLD” configuration is prepared and tuning of the parameters are in progress Physisim  Collection of event generators based on Helas.  Anlib packages (4 vector manipulation and jet clustering, etc.) are moved to Leda package

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 5 Jupiter/Satellites Concepts JUPITER JLC Unified Particle Interaction and Tracking EmulatoR IO Input/Output module set URANUS LEDA Monte-Calro Exact hits To Intermediate Simulated output Unified Reconstruction and ANalysis Utility Set Library Extention for Data Analysis METIS Satellites Geant4 based Simulator JSF/ROOT based Framework JSF: the analysis flow controller based on ROOT The release includes event generators, Quick Simulator, and simple event display MC truth generator Event Reconstruction Tools for simulation Tools For real data

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 6 Geometry in Jupiter Solenoid Hadron Calorimeter Muon/Iron Elemag. CalorimeterIT VTX Forward Cal. QC1 TPC

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 7 Calorimeter Geometry 40 cm 270 cm 210 cm Full One Tower EM + HD 27 X 0 6.1λ Default sensor size:  EM: 4cmx4cmx1mm, 38 layers  HD:12cmx12cmx2mm, 130 layers Replica  Phi direction : Tower and mini-tower Sandwitch structure of X/Y scinti structure can be defined.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 8 CPU time for Geometry initialization Originally, geometry definition of calorimeter takes quite long time.  For default configuration, ~2.5min, 1cmx1cm case > 1hour  Geant4.6.1 was used. Solution for speed up  For every geometry definition, G4 code checks name conflicts. To scan all existing geometry, takes are long time. CPU time was proportional to (Number of geometry) 2  To improve,  Remove name matching in G4HCtable::Register  Order of for loop in G4SDStructure::FindSubDirectory is reversed.  As a result,  20sec even with 1cmx1cm case.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 9 StdHep interface for Jupiter StdHep interface was prepared as JSF module.  JSFReadHepStd reads StdHep data and saves in JSFGenerator By executing Jupiter as a module of JSF, JSFJ4, StdHep data is used as an input of Jupiter simulation.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 10 Geometry definition in Jupiter Geometry definition  Still hard coded in the source, but  Addition/Deletion of sub-detector components are easy in Jupiter  Geometry parameters are all defined in J4XXXParameterList clases, so easy to maintain parameters  We’ve started to develop XML interface to implement very complecated geometry, but this work does not complete yet.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 11 Digitiation and Hit making Jupiter creates only Monte Calro truth hit points. Smearing/Digitization is performed later in Satellites, becasue Geant4 simulation is the most time consuming part. Detector hit classes (J4xxxHit) are delived from J4VHit  Standalone Jupiter:  J4xxxHit’s are written the ascii file.  Satellite job reads the file, and converted to S4xxxExactHit ( inherited from ROOT )  JSFJ4 = Jupiter in JSF environment (recent standard)  J4xxxHit’s are transferred to S4xxxExactHit and saved as a root file. We want to keep information of tracks which creates signal in calorimeter or muon detector  create a virtual detector to save information as XXX_Post hits.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 12 Output class of Jupiter Jupiter Hit classes are delived from J4VHit HitID,TrackID P, Edep Xpre, Xpost,… J4VHit G4VHit IsEM/IsHD IsBarrel/IsEndCAp CellID,… J4CALHit LayerID J4VTXHitJ4TPCHit PostHitID J4TPCPostHit

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 13 Role of TPC Post Hit TPC Outer Vessel Calorimeter

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 14 Status of Metis Current aim is to prepare a minimum set of Metis modules for studies of Particle Flow Algorithm. Novice users will be able to do physics analysis using information of PFO classes. As a first step, a cheated track finder and a cluster maker, etc are in preparation in order to know ultimate performance. Each module is independent, thus shall be easy to implement different reconstruction algorithm according to interests

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 15 make smeared TPC hits from exact hit make tracks from TPC make hybrid tracks ( TPC+IT+VTX) make smeared/merged CAL hits from exact hit make cluster from CAL hits make Particle Flow Objects jet clustering Jupiter result Physics study Metis Analysis Flow

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 16 Cheated PFO analysis ZH event at Ecm=500 GeV By K.Fujii(KEK), S.Yamamoto(GUAS), A.Yamaguchi(Tsukuba) - Exact hit points of TPC and CAL are displayed. -Hits belong to the same PFO are shown with the same color -A framework of event display in JSF is used.

X3D ROOT’s X3d view of the same event

X3D-Jet Same event, after a forced 4-jet clustering on PFObjects

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 19 How to get/use our tools Our software tools are maintained in CVS server,jlccvs.kek.jp. At  Description about how to download latest version.  Web interface to the CVS repository,   Snap shot of source codes.  Recently, we prepared SimTools web page for easy use of our packages.

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 20 SimTools SimTools is a collection of pre-compiled libraries of jsf, lclib, Leda, Jupiter, Satellites, Uranus and lcbase.  Build conditions  Compiled on Redhat 9.0, gcc  Using Root  Ready to use if your system meets these conditions.  Includes several examples in using JSF/QuickSim, Jupiter, and Satellites.  Source codes are also included Web page 

A.Miyamoto, Simulation Mini Workshop (16-17, March, 2005) 21 Summary We have developed software aiming to study detector performance based on full simulator, Geant4. Primary goal was to study detector performance in perfect conditions and to know critical factor which affect jet reconstruction.