Report via EVO – WG4 Alain Bellerive 1 Hello World !

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Presentation transcript:

Report via EVO – WG4 Alain Bellerive 1 Hello World !

Outline C++ GarfieldMainFrame New Garfield in C++ for MPGD The Geant4 Parameterization Framework List of WG4 activities Plan for an RD51 'Software School‘ Summary Discussion 2

C++ GarfieldMainFrame First version 2008 by Rob Veenhof C++ GarfieldMainFrame Basic C++ wrapper of Fortran code Basic objects (wires and planes) cell = new Cell(); dl = new DriftLine(); track = new Track(); To allow interface with ROOT Objects for Geant4 3

C++ GarfieldMainFrame First version 2008 by Rob Veenhof 4

New Garfield in C++ for MPGD Heinrich Schindler and Rob Veenhof In development (hopefully more soon)!!! Totally new C++ code specific for MPGD More robust Objects: AvalancheMC or AvalancheMicroscopic ComponentFieldMap FieldView 5

New Garfield in C++ for MPGD Heinrich Schindler and Rob Veenhof Allow specific study of MPGD: Field calculation (100 micron scale) Gas properties Calibration Understanding small scale physics Generic charge collection, transport and gain Avalanche, signals etc... Several application domains 6

Interface to Geant4 For the design of complex and large scale detectors Detector Construction/Geometry Visualization Accessibility Lots of built in features Transport through Gases –Accuracy –Speed Limited support for EM fields –Only uniform fields or user entered field maps Strengths:Weaknesses: Weaknesses severely limit simulations of gas detectors! 7

The Team A. Bellerive: Hardcoded (2007) S. Guindon: Interface with C++ GarfieldMainFrame (2008) N. Shiell & A. Bellerive: G4 FastSim GarfieldModel (2009) R. Veenhof: Author C++ GarfieldMainFrame P. Gumplinger: Consultant (TRIUMF lab) Plan: Release

Primary Particle Detector geometry Visualization Primary Particle Ionized electron Paths Trajectory Need to create Garfield Simulation in Geant4: Cell Gas DriftLine Track Want to do this using G4FastSimulationModel: Define constructors Define pure virtual functions isApplicable ModelTrigger DoIt 9 Allow Garfield to propagate primary and daughter particles in gas volume for Geant4 !!!

Example: Results Visualization of Electron Paths in Geant4: 10

Example: Code!!! Simple version of the code described in the RD51 talk: G4VFastSimulationModel which invokes GARFIELD to propagatea particle when it enters a gas detector. Get the file at: In your local GEANT directory, create a directory named N02 and copy G4MuonTube.tar.gz in this directory. All instruction in G4alainb_README 11

List of WG4 activities A little bit of management... Who does what!?! Coordinate the activities of WG4 Identify links between simulation and other WG’s Benchmark measurements and characterization Possibility to organize a ‘Software School’ in

List of WG4 activities A little bit of management... 13

List of WG4 activities 1. Simple programs (magboltz, garfield, maxwell) Algorithm Pattern Recognition / Track fitting Basic survey of other tools 2. Common data analysis framework of test beam data C++ ROOT based interface Resolution study Space and time residual analysis Pad response function determination n(electron) effective calculation Electronics (analytic pulse height calculation or simulation 14

Common C++ data analysis framework of test beam data e.g. LPTPC test beam data (simulation, track fitter, data analysis) Micromegas readout: Carleton (Dixit, YunHa, Turnbull+ students) & Saclay (David Attie + new students). GEM readout: Akira Sugiyawa (Saga) + students, Keisuke Fujii (KEK) TPC Silicon envelop: Stephen Hansel (Vienna) GEM + Timepix: Jochen Kaminski (Bonn) - To analyze Micromegas + Timepix: Jan Timmerman (NIKHEF) - To analyze ILC TPC Marlin simulation & analysis framework: Christoph Rosemann (DESY), Peter Wienemann (Bonn), Martin Killenberg(Bonn) 15

List of WG4 activities 3. Development of new tools for MPGD simulation C++ based Field calculation Calibration Gas properties Geometry and visualization (GEANT4) Understanding small scale physics Design large-scale (sLHC, ILC) Generic charge collection, transport and gain 16

List of WG4 activities 4. Applications (only a few listed here and identify links with industry as well as other national labs): Photon or neutron specific detectors Medical imaging – Nuclear – Underground - Collider GOSSIP Homeland security TimePix + SiProd + InGrid (integrated electronics & detector) Thick or large area MPGD 17

List of WG4 activities 5. Couple the simulation and measurements, construction and characterization Plan activities with other WG's Discharge Transparency Avalanche Timing Resistive anode MPGD hole size, shape, gap, etc... Two-track resolution Radiation damage 18

List of WG4 activities 6. Design of electronics (coupled with expensive commercial tools) Electronic Design Automation (EDA) software Xilinx and Altera IDE suites with High level Data Link (HDL) simulator FPGA dynamic probe Schematics tool Analog circuit simulation Signal integrity analysis Most recent version of Labviews Conceptual logic of Application-Specific Integrated Circuit (ASIC) 19

Summary 20 Plan of Activities C++ specific (interface with ROOT, Geant4) Itemized WG4 (seek feedback) / Management Future: identify links between simulation and other WG’s and survey the needs Software School (October 2010 ???) WHO and WHY (contents and contacts) How to get funding agency to acknowledge RD51

Discussion 21