The ILC Detector Simulation FAQ
General
What tools are available for ILC Detector Simulations?
Many tools are available for the simulation of ILC detectors and the analysis of results. There are three differents toolchains that can be used, corresponding to the LDC, SiD, and GLD detectors. The software suites corresponding to the first two detectors can simulate all 3 detector concepts, so there is no strict division on which tools should be used for a certain detector study.
The ALCPG and SLAC use the SLIC Simulations Package (C++) with the org.lcsim for reconstruction and analysis using Java. This system also uses the JAS3 graphical analysis environment. Much of the functionality within org.lcsim comes from the FreeHep Java Library.
There is a C++ framework developed under ECFA that uses Mokka for the simulator with the MARLIN tool for analysis and reconstruction.
Finally, the ACFA group has a suite of softare based on the ROOT framework.
Where can I get additional information about software packages?
The LCSim Software Index has links to all the primary tools for ILC Detector Simulations. The Portals Section lists sites that cover full suites of software.
Why are SLIC and org.lcsim the recommended software tools?
SLIC is the recommended simulator because it allows great flexibility and power in the specification of the detector geometry. LCDD provides a 100% runtime description of the detector and its associated properties, including the detailed volume hierarchy, assignment and properties of sensitive detectors, and the specification of detector component identifiers, among many other features. In practice, writing files in this standardized format is much easier than trying to author custom C++ code for each proposed full detector design and their subdetectors.
The org.lcsim package is recommended, because it uses the Java programming language, which is generally much easier to get started with and use than C++, especially for those with only partial time to devote to ILC research. Additionally, JAS3 provides a number of integrated tools such as the WIRED event display and an AIDA-compliant plotter.
The remainder of this FAQ focuses (almost exclusively) on the US/ALCPG/SLAC software suite based on SLIC and org.lcsim. The LCIO file format and its different language implementations ensure a basic level of interoperability between the three disparate systems should you want to "mix and match".
Feedback
Is there an forum for ILC detector simulation issues?
The linearcollider.org forum is an appropriate place to post your questions on detector simulations and reconstruction and analysis.
How do I file a bug report or make a feature request related to ILC software?
The SLAC Jira Bugtracker allows users to submit bug reports or make feature requests.
The projects relavent to ILC are ...
Each package will be covered in more detail within this FAQ.
How do I file a bug report or make feature request for auxiliary ILC software?
Several packages are used by org.lcsim that are not specific to ILC simulations. There is a separate FreeHep bugtracker for these projects. These Jira projects include ...
How do I get an account on the ILC or FreeHep Jira?
Contact Tony Johnson <tony_johnson@slac.stanford.edu> to obtain an account on either of these systems.
SLIC
What is SLIC?
SLIC stands for "Simulator for the Linear Collider". It is a full simulation package that uses the Geant4 Monte Carlo toolkit to simulate the passage of particles through the detector. SLIC outputs LCIO files that can be analysed using a variety of language bindings, including Java, C++, FORTRAN, and Python. SLIC uses a separate backend for the input of detector data called Linear Collider Detector Description (LCDD), which itself is based on the GDML project from CERN.
Where is SLIC's homepage?
The SLIC Confluence page is the best source for up-to-date information on this software package.
Who is the primary maintainer of SLIC?
Jeremy McCormick <jeremym@slac.stanford.edu> is the primary author and maintainer of SLIC. The handling of MCParticles in SLIC was based on earlier work by Ron Cassell <cassell@slac.stanford.edu> from a package called Linear Collider Simulator (LCS). Much work has also been done by Ron to verify and debug the LCIO output files.
At which HEP sites and labs is SLIC installed?
Fermilab: Here are instructions for Fermilab users on getting started with SLIC.
SLAC: Here are instructions for SLAC users on running slic from the public Unix machines at the lab. SLIC can be used on any of the load-balanced interactive Linux clusters, including noric, iris, and yakut.
NICADD: A copy of SLIC is available on the NICADD Linux clusters at /k2data/APPS/SimDist.
Installing SLIC
Which operating systems and compilers does SLIC support?
These are known working configurations of platform and compiler.
platform |
compiler |
compiler version |
---|---|---|
Linux |
g++ |
3.3, 3.4 |
OSX |
g++ |
4.0 |
Windows (Cygwin) |
g++ |
3.4 |
The only supported compiler is g++. Other versions may work, but these are the ones that are known to build successfully.
How do I get simulation binaries for my platform?
SimDist downloads contain binaries for Linux, OSX, and Windows.
These are located at ...
http://www.lcsim.org/dist/slic/
To download a Linux release, use these commands.
wget http://www.lcsim.org/dist/slic/slic-1_13_3-Linux-g%2B%2B-bin.tar.gz tar -zxvf slic-1_13_3-Linux-g++-bin.tar.gz
What is SimDist?
The SimDist package bundles together all the dependencies of SLIC into one project. This greatly simplifies the build process.
How do I run slic from SimDist?
SimDist has a run script at scripts/slic.sh which will setup the LD_LIBRARY_PATH to contain the Xerces lib directory and execute the current slic binary from the packages/slic/[slic_version] directory.
It is useable from anywhere on the host where it was installed.
/path/to/my/SimDist/scripts/slic.sh [options]
This script passes all arguments to slic, so use it as you would the normal binary.
How can I compile simulation binaries for my platform?
Follow the build instructions for the SimDist project to make binaries for your platform.
How do I build SLIC and the packages it depends on from scratch?
Building SLIC and its dependencies "from scratch" is not encouraged now that the SimDist project can manage this build procedure.
There are separate instructions for building on Linux and building on Windws if you must do this.
Running SLIC
Does SLIC have any runtime dependencies?
If you installed SLIC in the recommended way, the only runtime dependency would be the Xerces C++ shared library. The Xerces library directory needs to be added to the LD_LIBRARY_PATH (bash), so that the loader can find this library when slic executes.
export LD_LIBRARY_PATH=/path/to/my/xerces/install/lib:$LD_LIBRARY_PATH
If you see this error, it means that the LD_LIBRARY_PATH has not been set correctly.
./slic/bin/Linux-g++/slic: error while loading shared libraries: libxerces-c.so.27: cannot open shared object file: No such file or directory
The SimDist run script will set this variable automatically.
How do I run the simulator binary?
Assuming you are within the slic package's top directory you would run it with this command.
./bin/$G4SYSTEM/slic [options]
The G4SYSTEM variable depends on your platform. For instance, on Linux, it is set to Linux-g++, so the command would be ...
./bin/Linux-g++/slic [options]
How do I get help on the command-line syntax?
To see explanations of slic's command-line options, use the "-h" option.
slic -h
This will print slic usage and exit.
What command-line options does SLIC support?
Typing slic -h will print the available command-line options.
************************ * Command Line Options * ************************ Option Full Name Min Args Max Args Macro Command Description --------------------------------------------------------------------------------------------------------------------------- -h --help 0 0 /slic/usage Print SLIC usage. -n --interactive 0 0 /control/interactive Start a Geant4 interactive session. -v --version 0 0 /slic/version Print SLIC version. -m --macro 1 1 /control/execute Execute Geant4 commands from a file. -g --lcdd-url 1 1 /lcdd/url Set LCDD geometry file URL. -i --event-file 1 1 /generator/filename Set event input file full path. -o --lcio-file 1 1 /lcio/filename Set name of LCIO output file. -p --lcio-path 1 1 /lcio/path Set directory for LCIO output. -O --autoname 0 1 /lcio/autoname Automatically name the LCIO output file. -x --lcio-delete 0 0 /lcio/fileExists delete Delete an existing LCIO file. -r --run-events 1 1 /run/beamOn Run # of events. -s --skip-events 1 1 /generator/skipEvents Set number of events to skip. -l --physics-list 1 1 /physics/select Set Geant4 physics list. -L --log-file 0 0 /log/filename Set logfile name. -d --seed 0 1 /random/seed Set the random seed. (No argument seeds with time.)
Each option is mapped in a straightforward way to a corresponding Geant4 UI command, so the same exact commands can be executed either from the command prompt or in the Geant4 interactive terminal.
How do I find out about the SLIC version I am running?
The command
slic -v
prints the SLIC version, along with a lot of other information (probably too much).
Simulator for the Linear Collider; SLIC; v1r13p6; Jeremy McCormick and Ron Cassell; SLAC; Tue Apr 4 17:32:07 PDT 2006
The /slic/version command will do the same from a macro or UI terminal.
How do I get detailed information about the SLIC version I am running?
SLIC prints a splash screen as it starts up with the version, build date, and other information.
************************************************************* App : Simulator for the Linear Collider (SLIC) Version : v1r13p6 Date : Tue Apr 4 17:32:07 PDT 2006 Authors : Jeremy McCormick and Ron Cassell Inst : SLAC WWW : http://www.lcsim.org/software/slic Contact : jeremym@slac.stanford.edu *************************************************************
How do I find out the version of Geant4 that SLIC was built with?
The Geant4 toolkit prints a splash screen that SLIC displays when it starts up.
************************************************************* Geant4 version Name: geant4-08-00-patch-01 (10-February-2006) Copyright : Geant4 Collaboration Reference : NIM A 506 (2003), 250-303 WWW : http://cern.ch/geant4 *************************************************************
The Geant4 version in the figure above is 8.0.p01.
How do I get help on SLIC's custom Geant4 commands?
SLIC commands are added into various directories within the Geant4 UI hierarchy. From interactive mode, use this command to print information on a SLIC or LCDD command.
help [command]
Those directories containing only SLIC or LCDD commands are marked with SLIC or LCDD.
/lcio/ LCIO output commands. [SLIC]
Type
help [dir]
or
help [command]
for information about the user interface directory or command. Of course, this requires that the programmer actually put in some useful help string. Most commands and directories have such information.
How do I run a macro containing UI commands?
You can put Geant4 UI commands into one or more macro files that slic can execute. This is done with the "-m" switch. There can be any number of these switches given to slic at the commandline. For instance, this command will execute the two macros init.mac and run.mac.
slic -m init.mac -m run.mac
The macros are executed in the order given at the command-line.
If macros are interspersed throughout the command switches, then SLIC will also execute each command in order.
slic -m init.mac -x -o output -p myDir -m run.mac
First init.mac will be executed. Then the three commands corresonding to the "-xop" switches and finally run.mac presumably executes the /run/beamOn command.
How do I run in interactive mode?
SLIC can be started in interactive mode using the -n option or the /control/interactive UI command.
This command will start Geant4 in PreInit mode where the geometry is not loaded.
slic -n
Other commands may also be executed before the interactive mode starts.
slic -g myGeom.lcdd -n
The LCDD file will be constructed, so the simulator will start in Idle mode.
What is a typical command to run SLIC in batch mode?
The following command illustrates some of the options that could be used in a typical batch run.
slic -g myGeom.lcdd \ # geometry file -i events.stdhep \ # StdHep input file -p lcio/ \ # path for LCIO output file -o output.slcio \ # name of LCIO output file -x \ # delete existing LCIO file -r 1234 \ # seed the random engine -s 100 \ # number of events to skip -r 1000 # number of events to run
How can I check on the progress of my SLIC job(s)?
In bash, direct all output to a file, as follows.
slic &> job.log &
Now use the tail command to look at the output file as the job progresses.
tail -f job.log
The BeginEvent and EndEvent markers are the best indicators of the job's progress.
Most batch systems will provide logging services, and the tail command can be used on these files, too.
How do I run SLIC on the LSF batch system?
The bsub command is used to run SLIC on LSF.
This is an example of submitting a job to run 1000 events through the sid00 detector on the xlong batch queue.
bsub -q xlong -o `pwd`/job.log -e `pwd`/err.log time slic -g sid00.lcdd -i events.stdhep -o events_sid00 -r 1000
LSF accepts plain bash scripts to start jobs. Mine usually use a few for loops to run combinations of geometries with StdHep files.
for g in $(ls *.lcdd); do for s in $(ls stdhep/*.stdhep); do fname=$(basename ${s%.*})_$(basename ${g%.*}) bsub -o `pwd`/$fname.log -e `pwd`/$fname.err -q xlong time slic -g $g -i $i -o $fname done done
The stdhep directory should contain a symlink to the StdHep files used for input events.
Example LSF submission scripts can be found in Jeremy McCormick's jobs directory on the SLAC Linux machines at ~jeremym/work/jobs.
How do I run SLIC on the Condor batch system?
TODO: An old version works on Condor but probably not SimDist. I will get this running at NICADD.
Can I run SLIC on the Grid?
No. But I am working on it.
Why not?
Because getting things to run on the Grid is hard.
How can I make SLIC look for XML schemas in a local directory?
The current directory is always searched for the XSD files, first.
The GDML_SCHEMA_DIR environment variable may point to a single directory where all XSD files should be located. LCDD uses GDML for entity resolution, also, so the LCDD schemas can be placed in this directory, also.
How do I install the XML schemas to a local directory?
From the lcdd directory, execute make schema_install to copy all the GDML and LCDD schemas in the schemas directory to another existing directory.
How can I automatically set the name of the LCIO file?
The -O switch turns on SLIC's auto-naming feature, which will give the output file a reasonable name based on the event generator used and the name (or tag) of the geometry. The /lcio/autoname command is the corresponding UI command.
How can I customize SLIC's autonaming feature?
The autoname feature can be customized by providing arguments to the /lcio/autoname command. These specify fields that should be inserted in the automatically generated filename.
Here is a summary of these options.
field |
description |
---|---|
binary |
basename of the slic binary |
application |
the string 'SLIC' |
version |
SLIC's version string from VERSION |
geometry |
geometry tag from the LCDD header |
date |
current date |
event |
description of the current event from the generator |
eventNumber |
number of events |
run |
run number |
The following command illustrates the autoname feature.
/lcio/autoname event application version geometry
It would result in an automatically-generated name similar to neutrons_SLIC_v1r13p6_myGeometry.
How can I automatically delete an existing LCIO file?
The -x option or /lcio/fileExists delete option will cause an existing LCIO file to be overwritten.
How do I skip events in a StdHep file?
The -s option or /generator/skipEvents command take the number of events to skip as an argument. This is only applicable to file-based event sources such as StdHep or LCIO files.
How do I set the random seed?
The -r option or the /random/seed command controls the CLHEP random seed setting. Without an argument, the current time is used as a seed. Otherwise, an integer argument is used as the seed.
How do I dump the state of the CLHEP random engine?
Dumping random state is a built-in feature of Geant4.
Turn on the save feature.
/random/setSavingFlag true
This will cause the random state for each event to be saved to currentEvent.rndm.
To save the current event to a unique file, use this command.
/random/saveThisEvent
This copies currentEvent.rndm to runXXXevtYYY.rndm.
To do this for every event, put the saveThisEvent command in a macro called rndmSave.mac and run events in this fashion.
/run/beamOn 1000 rndmSave.mac
This will cause the random state to be dumped for every event.
How can I set the directory for the random dumps?
The /random/setDirectoryName command sets the base directory where the rndm files will be placed.
How do I load back the state of the random engine that I dumped previously?
To restore the random state, use this Geant4 UI command.
/random/resetEngineFrom currentEvent.rndm
This can be used to "replay" events of interest. This feature will probably be used with SLIC's skipEvents feature in order to jump to the event first before restoring its random state.
/random/resetEngineFrom run0event1000.rndm /generator/skipEvents 1000
How can I see which physics lists are available?
Execute the command /physics/printLists to see the available Geant4 physics lists.
How do I set the physics list?
The -l option or /physics/select command takes the name of the physics list to use as an argument.
/physics/select LHEP
This must happen in the PreInit stage. Once the simulator is in Idle state, the physics list is set permanently for that run, and SLIC must be restarted to use a different list.
How can I customize Geant4's stepping in the magnetic field?
A number of options are available for tweaking the handling of transportation through the magnetic field in the /field command directory.
The command selectStepper sets the integrator, where the argument can be one of the following.
G4ClassicalRK4 G4ExplicitEuler G4HelixExplicitEuler G4HelixHeum G4HelixImplicitEuler G4HelixSimpleRunge G4ImplicitEuler G4CashKarpRKF45 G4SimpleHeum G4SimpleRunge
The command setDeltaOneStep sets the maximum stepsize that will be taken in the field.
The command setDeltaIntersection sets the maximum distance from the chord line.
Refer to the Electromagnetic Fields Chapter of the Geant4 Application Guide for more details on these settings.
How do I set the maximum number of events?
The -r switch sets the number of events to run, and it corresponds to Geant4's built-in /run/beamOn command.
What event generators are available from within SLIC?
SLIC can read StdHep files using Willy Langeveld's lightweight XDR interface from Lelaps.
An MCParticles collection of an LCIO file can also be used as a source of events, which is useful for repeating events run in other simulation frameworks.
How do I use a StdHep file?
To select a StdHep file with physics events, use the -i switch or /generator/filename command followed by an absolute or relative path to the file. Any file with an extension of .stdhep or .xdr will be automatically interpretted as a StdHep file.
How do I use an LCIO file as an event source?
SLIC also accepts LCIO files as event sources. Use the commands as if the file were a StdHep source, and the LCIO generator will be automatically selected if the file has the extension of .slcio.
The LCIO event generator feature is an experimental feature that has not undergone much testing (e.g. There be bugs here!).
How do I use the General Particle Source (GPS)?
Geant4 includes a flexible and powerful particle generator called the General Particle Source or GPS.
Execute this command to select GPS as the event source.
/generator/select gps
Actually, GPS is the default, but this can be used to switch if another generator is being used (e.g. in interactive mode).
Refer to the GPS User's Guide for detailed instructions on using this tool.
There are also a few sample GPS macros in the slic CVS project at macros/gps*.mac_.
How do I use the particle gun?
Geant4 includes a simple particle gun that can be selected with this command.
/generator/select gun
However, GPS is the recommended single particle source, and the G4ParticleGun should be considered deprecated, in my opinion.
How can I print information about the current event generator?
Use the command /generator/dumpEvent to display information about the current generator and its event.
What GUIs are available for SLIC?
There are only a limited number of
SLIC Runner is a Java program that uses Swing.
TODO: Fix SLIC Runner to work with latest SLIC.
The built-in GUIs of Geant4 are available, including the XM interface.
LCIO
What is LCIO?
LCIO stands for Linear Collider IO. It is the standard data format for exchanging event data between different ILC software, including simulators and reconstruction and analysis tools.
What languages does LCIO support?
What simulation tools support LCIO?
Nearly all of the simulation tools support LCIO, including the following tools.
- SLIC
- Mokka
- JUPITER
- BRAHMS
SLIC is unique in that it can read LCIO files as a physics event source.
What reconstruction and analysis tools support LCIO?
The MARLIN tool and its associated MarlinReco processors all support the LCIO format.
The org.lcsim Java framework includes its own implementation of LCIO in the package org.lcsim.util.lcio. This is compatible with the Java implementation included in the LCIO CVS project.
If I don't want to generate files myself, are there LCIO files available that I can use to get started with my analysis?
A SLAC ftp site has LCIO files available, mostly generated using SLIC. Follow the ftp instructions to find and download the files that you want to use.
How do I request new LCIO files?
Contact Norman Graf <ngraf@slac.stanford.edu> if you want some LCIO files generated by SLIC that are not available from the ftp site.
What tool can I use to look at LCIO output from the command line?
LCIO comes with the dumpevent tool that dumps an LCIO file's contents from the command-line. Typically, this would be used with a pager.
$LCIO/bin/dumpevent outfile.slcio 0 1 | less
The above command dumps the direct event of outfile.slcio file starting at run number 0.
What tool can I use to look at LCIO output from within JAS3?
The LCSim Event Browser can be used to look at LCIO files from within JAS3 using org.lcsim.
The LCSim Event Browser instructions show how to use this tool.
How can I create detailed diagnostic histograms of LCIO output?
Where can I post my questions about LCIO?
Geometry using GDML and LCDD
What is GDML?
Where can I go for more information on GDML?
What is LCDD?
Where can I go for more information on LCDD?
Where can I find examples of LCDD?
What is the best way to create LCDD files?
How do I dump the current Geant4 geometry to GDML?
How do I check my geometry for overlaps?
How do I read an LCDD file using SLIC?
LCDD can read files either from the local file system or from a URL. The file location can be set with the -g option and its corresponding command /lcdd/url.
This is an example of reading a local file from the command line.
slic -g /path/to/myGeom.lcdd
This command reads the geometry from a URL.
slic -g http://www.lcsim.org/detectors/sid00/sid00.lcdd
If the -g option is specified from the command-line, SLIC assumes that the simulator should be initialized to the Idle state after the geometry is loaded.
How do I read a GDML file using SLIC?
The LCDD system supports reading both plain GDML and LCDD files from SLIC.
To read in a "plain" GDML file, simply use the "-g" option as you normally would ...
slic -g myGeom.gdml
The LCDD system will use the GDML schema instead of LCDD and the geometry should be loaded successfully.
Detector Visualization
How can I see a basic visualization of my events using Geant4?
How can I make a HepRep file using Geant4?
How do I use DAWN from within Geant4?
How can I make cuts using DAWN?
What other visualization options are available outside of using Geant4?
Compact Detector Description
What is the Compact Detector Description?
The compact description provides an abbreviated format for describing a full detector and its subcomponents to the org.lcsim reconstruction and analysis subsystem.
The compact detector description schema specifies the structure of this format as an XML schema (XSD file).
How does the compact format work?
Where is the standard location for compact XML files and their matching LCDD description?
Compact detectors are kept at this base url in zip files named with the detector tag.
http://www.lcsim.org/detectors
For instance, this is the location of the sid00 detector's resource file.
http://www.lcsim.org/detectors/sid00.zip
The org.lcsim conditions system will use this URL automatically. Otherwise, a tool like wget can be used to download it manually.
Where is the list of available compact descriptions?
A list of available compact detectors is kept at this URL.
http://www.lcsim.org/detectors/taglist.txt
This is list is updated periodically depending on the current detectors in LCDetectors.
How do I make org.lcsim use a custom detector that is not in the standard area at lcsim.org?
What is LCDetectors and how do I use it?
How do I convert compact detectors into LCDD using GeomConverter?
How do I create my own detector from the compact description?
How do I define the detector element?
How do I define the magnetic field element?
How do I define constants?
How do I define a new material?
How do I set physics limits?
How do I set the range cut?
How do I add detector conditions such as sampling fractions?
LCPhys
What is LCPhys?
Who is the maintainer of LCPhys?
Dennis Wright, who is also the current Hadronics Coordinator of the Geant4 project, maintains the LC Physics List.
What simulation packages use LCPhys?
LCPhys is used by all three of the main ILC simulation packages, SLIC, Mokka, and JUPITER.