SoLID Simulation Zhiwen Zhao 2016/08/27.

Slides:



Advertisements
Similar presentations
CBM Calorimeter System CBM collaboration meeting, October 2008 I.Korolko(ITEP, Moscow)
Advertisements

Beam Delivery Simulation Development & BDS / MDI Applications L. Nevay, S. Boogert, H. Garcia-Morales, S. Gibson, J. Snuverink, L. Deacon Royal Holloway,
Jin Huang Los Alamos National Lab.  Cited from March collaboration Meeting EC group Internal Communication Jin Huang 2 Preshower ID power drop significantly.
14 User Documents and Examples I SLAC Geant4 Tutorial 3 November 2009 Dennis Wright Geant4 V9.2.p02.
14 Overview of Geant4 Examples 2 nd Finnish Geant4 Workshop 6-7 June 2005 Dennis Wright (SLAC)
17-19 Oct, 2007Geant4 Japan Oct, 2007Geant4 Japan Oct, 2007Geant4 Japan 2007 Geant4 Japan.
Photon reconstruction and calorimeter software Mikhail Prokudin.
SoLID EC Update Zhiwen Zhao 2012/05/22. Beam test update Coverage for PVDIS Road map.
Implementing a dual readout calorimeter in SLIC and testing Geant4 Physics Hans Wenzel Fermilab Friday, 2 nd October 2009 ALCPG 2009.
Project Overview How to get here…. Half Way to the Test Run October 18, 2012HPS Project Overview2 …starting from here? John Jaros HPS Collaboration Meeting.
SoLID simulation Zhiwen Zhao Uva SoLID Collaboration Meeting 2011/6/2 1.
Overview Maurizio Ungaro 1HPS Collaboration meetingOctober Status, Future of GEMC.
SIDIS Background and Trigger Zhiwen Zhao 2013/11/18 Created 2014/07/06 Updated.
SoLID HGC Update Zhiwen Zhao,Weizhi Xiong, Gary Swift Haiyan Gao,Garth Huber 2015/09/12 1.
Update on SBS Simulations Andrew Puckett and Freddy Obrecht University of Connecticut SBS Weekly Meeting 3/3/2015.
The CMS Simulation Software Julia Yarba, Fermilab on behalf of CMS Collaboration 22 m long, 15 m in diameter Over a million geometrical volumes Many complex.
Latifa Elouadrhiri Jefferson Lab Hall B 12 GeV Upgrade Drift Chamber Review Jefferson Lab March 6- 8, 2007 CLAS12 Drift Chambers Simulation and Event Reconstruction.
Thomas Jefferson National Accelerator Facility Page Hall B:User Software Contributions Gerard Gilfoyle University of Richmond 12 GeV Upgrade Software Review.
Address Recommendations Jian-ping Chen, JLab SoLID Collaboration Meeting May 14-15, 2015.
CBM ECAL simulation status Prokudin Mikhail ITEP.
SoLID simulation with GEMC Zhiwen Zhao 2015/03/26.
SoLID simulation Zhiwen Zhao UVa 2011/03/25 1. GEMC, written by Maurizio Ungaro, used for CLAS12 2.
Photon reconstruction and matching Prokudin Mikhail.
Dual Target Design for CLAS12 Omair Alam and Gerard Gilfoyle Department of Physics, University of Richmond Introduction One of the fundamental goals of.
ECAL software development Yuri Kharlov IHEP Protvino.
Study of SoLID Baffle, Background and Trigger Zhiwen Zhao UVa, ODU&JLab 2014/07/09 1.
SoLID DAQ A.Camsonne SoLID collaboration meeting November 8 th 2013.
SoLID Background Update Zhiwen Zhao UVa 2013/11/08 1.
Solid Software now and then Zhiwen Zhao 2015/03/19.
SoLID simulation thoughts Zhiwen Zhao 2015/04/02.
SoLID Simulation Update Zhiwen Zhao University of Virginia SoLID Collaboration Meeting 2011/10/14 Introduction GEMC Update Simulation Study Summary Introduction.
A N DY Status Commissioning with colliding beams L.C.Bland, for AnDY 27 March 2012 Time Meeting, BNL.
1 Simulations Purpose of the simulation codes Structure of the E866 simulation codes Issues of simulations for E906 Jen-Chieh Peng University of Illinois.
Update on SoLID Jian-ping Chen, Jefferson Lab SoLID Collaboration Meeting November 8-9, 2013.
HYDRA Framework. Setup of software environment Setup of software environment Using the documentation Using the documentation How to compile a program.
Monthly video-conference, 18/12/2003 P.Hristov1 Preparation for physics data challenge'04 P.Hristov Alice monthly off-line video-conference December 18,
The Ring Imaging Cherenkov Detectors for LHCb Antonis Papanestis CCLRC – RAL On behalf of the LHCb RICH group.
Update on EM Calorimeters
January 2009 offline detector review - 2 nd go 1 ● Offline – Geometry – Material budget – Simulation – Raw data – OCDB parameters – Reconstruction ● Calibration.
Background simulations: update and simulations of absorbed dose
The MiniBooNE Little Muon Counter Detector
Update on the GRB Triggered Shower Analysis
SLAC: SiD AHCAL Status and Update Ross McCoy, Andrew Myers, Andy White.
Simulation for DayaBay Detectors
Software development status in Rome
CLAS12 software workshop
User Documents and Examples I
Jin Huang Los Alamos National Lab
Simulation Updates on PVDIS EC
PVDIS Overview.
JLEIC Detector Simulation Forward Ion Detection
SoLID simulation with GEMC
SoLID Simulation Zhiwen Zhao (UVa) SoLID Jlab Physics Division
Use of Geant4 in experiment interactive frameworks AliRoot
GEANT Simulations and Track Reconstruction
SoLID SIDIS He3 Detection
Jupiter and Satellites
Geant4 in HARP V.Ivanchenko For the HARP Collaboration
Search for coincidences and study of cosmic rays spectrum
SoLID Simulation and Trigger Update
SoLID SIDIS_He3 trigger
SoLID SIDIS_He3 Hit and Occupancy
PVDIS baffle material and neutron shielding
New SoLID Setup Detector Layout Magnet dimension EC size Cables
SoLID HGC Update Zhiwen Zhao 2016/01/13.
SoLID JPsi_LH2 Hit and Occupancy
SIDIS trigger study Yuxiang Zhao.
August 19th 2013 Alexandre Camsonne
Agenda SICb Session Status of SICb software migration F.Ranjard
Zhiwen Zhao,UVa for EC group
Presentation transcript:

SoLID Simulation Zhiwen Zhao 2016/08/27

Review Comment (general simulation) End-to-end simulations with realistic subsystem responses and material budgets The development of a simulation framework with realistic reconstruction and analysis should be pursued with high priority and increased resources. Having a functional simulation and reconstruction routines as soon as possible should be a high priority in the software effort. Such software will pay off many times over in experimental design and avoiding pitfalls. Acceptances, efficiencies, and systematic uncertainties should be simulated for each of the core measurements.

all subsystems with various level of details in the unified simulation “solid_gemc”

Subsystems in simulation (non-detectors) Target systems have materials where beam and final particles pass Beamline are just Al pipes with BeO window, need real design Magnet has coil,cryo,iron flux return according to the 2D field model Baffle is pure lead neutron shielding, has for PVDIS, not for all others

Subsystems in simulation (detectors) GEM SIDIS GEM has all layers, no dead area SPD just a layer of scintilator MRPC has all layers, no dead area GEM one layer All these layer kind of detectors record hit pid,mom,position,vertex,energy deposition

Subsystems in simulation (detectors) LGC, has tank, window, gas, mirror,cone,PMT window with optical features HGC, has tank, window, gas, mirror, cone with optical features, no PMT window yet All these optical photon collecting detectors can record all hits too. LGC already fully digitized. HGC not yet.

Subsystems in simulation (detectors) has lead shield, preshower, shower with all layers No fibers, no PMT yet PVDIS FAEC layout is done according to ANL drawing, SIDIS FAEC and LAEC layout are done by removing modules from ANL drawing (design needed) Energy deposition sum in scintilator of preshower and shower are recorded for each module

Use simulation to study All files with production version and devel version are in SVN Documentation on wiki Official binary builds are on farm and we have streamline installation scripts for local machines, we also provide virtual machine ready to use we have a work flow from various generators to simulation output on farm with semi-auto scripts, anyone can run it with a little setup For any setup, a set of files are generated at a shared central location and used for studies like acceptance, efficiency, trigger, background, tracking etc. This ensures consistent results

Analysis simulation output Mainly use output root All detector responses are recorded in separated trees which follow same index for same event GEM digitization and tracking are separate codes, even though they read the same output file from simulation Some simple modulized script for general study analysis.C analysis_tree_solid_ec.C analysis_tree_solid_mrpc.C analysis_tree_solid_spd.C analysis_tree_solid_lgc.C analysis_tree_solid_hgc.C analysis_tree_solid_gem.C

Jpsi and PVDIS Acceptance Simple setup without secondary Only field effect, pass EC+GEM Jpsi and PVDIS Acceptance JPsi P(GeV) PVDIS e Theta(deg)

SIDIS Acceptance Simple setup without secondary Only field effect, pass EC+GEM SIDIS Acceptance NH3 3D He3 NH3 2D P(GeV) NH3 sheet of flam on GEM Theta(deg)

Test toward overall efficiency (PVDIS) setup with secondary Test toward overall efficiency (PVDIS) A simple test, not complete study Throw eDIS into PVDIS full setup, consider it’s accepted when it passes all GEM planes and entering EC In addtion, LGC has number of total photons > 10 Essentially it will need to involve from a simple into a full reconstruction code EC+GEM EC+GEM+LGC

Toward overall efficiency (SIDIS_He3) setup with secondary e- pi- EC+GEM A simple test, not complete study Throw eDIS or pimWiser into SIDIS_He3 full setup, consider it’s accepted when it passes all GEM planes and entering EC In addition, LGC or HGC has number of total photons > 10 P(GeV) Theta(deg)

Toward overall efficiency (SIDIS_He3) setup with secondary e- EC+GEM+LGC/HGC pi- In addition, LGC or HGC has number of total photons > 10 P(GeV) Theta(deg)

Simulation future plan Continue using and improving current software and setup for various studies fastMC: using acceptance,resolution,pid from detailed simulations, for SIDIS and Jpsi setup Test using “solid_gemc” as simulation engine for art framework gemc is very much modulized already solid_gemc uses gemc as library already Input format can be expended, existing Geant4 solid in simple form with attribute CLARA geometry service GDML with attribute (new) CAD with attribute (new) Mixed together

Update from Rakitha generator updates ECAL Simulation Updates Hall D generator code is now standalone code, separate from full Hall D simulation framework Generates events for PVIDS LH and LD, SIDIS 3He and J/Psi LH configurations to produce LUND files as input for solid_gemc ECAL Simulation Updates Finished PVDIS ECAL performance and trigger rates in remoll Working on SIDIS He3 performance and trigger in solid_gemc while adopting previous analysis tool Jpsi and SIDIS NH3 later Happy at Louisiana, staying away from flood

GEM Digitization and Occupancy Acceptance Zhiwen, Kalyan Done with simple setup, working on more supplicated setup PVDIS Q2 Bob Initial result SIDIS impact Tianbo and others J/psi bin migration and signal/background Michael and others Hadron generator Rakitha Done, producing file, adding e would be nice EC trigger PVDIS down, SIDIS ongoing, need Jpsi LGC trigger Michael PVDIS and SIDIS, under tuning SPD trigger Sanghwa MRPC trigger needed Overall trigger Yuxiang PVDIS done, SIDIS e under study, need SIDIS hadron, and Jpsi e DAQ deadtime Alex, Bob ongoing GEM response parameterization GEM Digitization and Occupancy Weizhi,Ole done with initial result, need UVa input to finalize tracking Baffle optimization Rich