Geant4 Cross Reference |
>> 1 $Id: README,v 1.7 2005/05/17 10:37:31 gcosmo Exp $ 1 ---------------------------------------------- 2 ------------------------------------------------------------------- 2 3 3 ========================================= 4 ========================================================= 4 Geant4 - an Object-Oriented Toolkit for S 5 Geant4 - an Object-Oriented Toolkit for Simulation in HEP 5 ========================================= 6 ========================================================= 6 7 7 Examples module 8 Examples module 8 --------------- 9 --------------- 9 10 10 This module collects three sets of user exampl 11 This module collects three sets of user examples aimed to demonstrate to 11 the user how to make correct use of the GEANT4 12 the user how to make correct use of the GEANT4 toolkit by implementing 12 in a correct way those user-classes which the 13 in a correct way those user-classes which the user is supposed to 13 customize in order to define his/her own simul 14 customize in order to define his/her own simulation setup. 14 << 15 One set of examples is oriented to "novice" users and covering all 15 The "basic" set of examples is oriented to nov << 16 possible general use-cases typical of an "application"-oriented kind of 16 the most typical use-cases of a Geant4 applica << 17 development. An "extended" set of examples require some additional 17 and ease of use. << 18 libraries besides of Geant4. This set covers some specific use cases 18 << 19 for actual detector simulation. An "advanced" set of examples covers 19 An "extended" set of examples may require some << 20 the use-cases typical of a "toolkit"-oriented kind of development, 20 of Geant4. This set covers many specific use c << 21 where real complete applications for different simulation studies are 21 simulation. << 22 provided; may require additional third party products to be built. 22 << 23 An "advanced" set of examples covers the use-c << 24 "toolkit"-oriented kind of development, where << 25 for different simulation studies are provided; << 26 party products to be built. << 27 << 28 Most of the examples can be run both in intera 23 Most of the examples can be run both in interactive and batch mode, and 29 input macro files (*.in) and reference output 24 input macro files (*.in) and reference output files (*.out) are provided. 30 See the detailed instructions how to build and << 25 Novice and most of the extended examples are considered part of the 31 in README.HowToRun and README.HowToRunTestEm1. << 32 an example in multi-threading mode can be foun << 33 << 34 Basic and most of the extended examples are co << 35 system testing suite for validation of the off 26 system testing suite for validation of the official releases of the 36 GEANT4 toolkit. Basic and some of the extended << 27 GEANT4 toolkit. Novice examples and some of the extended and advanced 37 examples are also used as "acceptance"-tests f 28 examples are also used as "acceptance"-tests for the release process. 38 29 39 The previous set of examples oriented to novic << 30 Novice level examples 40 has been refactored in "basic" and "extended" << 31 ExampleN01 41 The source code of the last version of the ori << 32 - Mandatory user classes 42 (in 9.6.p02 release) can be viewed in the Gean << 33 - Demonstrates how Geant4 kernel works 43 http://www-geant4.kek.jp/lxr/source/examples << 34 ExampleN02 44 << 35 - Simplified tracker geometry with uniform magnetic field 45 And more on what is common for all examples: << 36 - Electromagnetic processes 46 - README.HowToRun << 37 ExampleN03 47 - README.HowToRunMT << 38 - Simplified calorimeter geometry 48 << 39 - Electromagnetic processes 49 Web: https://geant4-userdoc.web.cern.ch/Doxyge << 40 - Various materials >> 41 ExampleN04 >> 42 - Simplified collider detector with a readout geometry >> 43 - Full "ordinary" processes >> 44 - PYTHIA primary events >> 45 - Event filtering by stack >> 46 ExampleN05 >> 47 - Simplified BaBar calorimeter >> 48 - EM shower parametrisation >> 49 ExampleN06 >> 50 - Optical photon processes >> 51 ExampleN07 >> 52 - Regions and parameterised materials >> 53 >> 54 Extended level examples >> 55 analysis >> 56 - Histogramming through the AIDA interface >> 57 biasing >> 58 - Examples of event biasing and scoring >> 59 electromagnetic >> 60 - Specific EM physics simulation with histogramming >> 61 eventgenerator >> 62 - Applications using interface to primary event generators >> 63 like HepMC >> 64 field >> 65 - Specific simulation setups in magnetic field >> 66 g3tog3 >> 67 - Examples of usage of the g3tog4 converter tool >> 68 gdml >> 69 - Example of import/export detector persistency through the Geometry >> 70 Description Markup Language (GDML) >> 71 geometry >> 72 - Specific geometry examples and tools: OLAP tool for detection >> 73 of overlapping geometries >> 74 medical >> 75 - Specific examples for medical physics applications >> 76 optical >> 77 - Examples of generic optical processes simulation setups >> 78 parallel >> 79 - Examples of event-level parallelism in Geant4 using the >> 80 TOP-C distribution, and distributed runs through DIANE >> 81 persistency >> 82 - Persistency of simulation outputs through generic interface >> 83 radioactivedecay >> 84 - Examples to simulate the decays of radioactive isotopes and >> 85 induced radioactivity resulted from nuclear interactions >> 86 runAndEvent >> 87 - Examples to demonstrate how to connect the information between >> 88 primary particles and hits and utilize user-information classes >> 89 >> 90 Advanced level examples >> 91 air_shower >> 92 - Simulation of the ULTRA detector for UV and charged particles >> 93 detection in cosmic rays >> 94 brachytherapy >> 95 - Setup for brachytherapy Ir-192 HDR source >> 96 composite_calorimeter >> 97 - Test-beam simulation used in CMS against real data taken >> 98 in 1996 in a CMS Hadron calorimeter test-beam at LHC >> 99 cosmicray_charging >> 100 - Simulation of electrostatic charging in the LISA mission by >> 101 galactic cosmic ray protons and helium nuclei >> 102 gammaray_telescope >> 103 - Simulation of a typical telescope for gamma ray analysis >> 104 hadrontherapy >> 105 - Simulation of a hadron therapy beam line >> 106 lAr_calorimeter >> 107 - Simulation of the Liquid Argon Calorimeter of the ATLAS >> 108 Detector at LHC >> 109 medical_linac >> 110 - Simulation of energy deposit in a Phantom filled with water >> 111 for a typical linac used for intensity modulated radiation therapy >> 112 purging_magnet >> 113 - Simulation of electrons traveling through a 3D magnetic field of a >> 114 strong purging magnet used for treatment head in a medical environment >> 115 radioprotection >> 116 - Application for the evaluation of dose in astronauts, vehicle concepts >> 117 and Moon surface habitat configurations, in a space radiation environment >> 118 Rich >> 119 - Rich Test Beam Simulation >> 120 Tiara >> 121 - Simulation of the TIARA experiment using importance sampling >> 122 underground_physics >> 123 - Setup of an underground dark matter experiment >> 124 xray_fluorescence >> 125 - Test beam to characterize the response function of an >> 126 HPGe detector used to measure fluorescence emissions >> 127 xray_telescope >> 128 - Realistic simulation of an X-ray Telescope 50 129