Items marked with 
refer to new developments.
Items marked with 
will involve new man-power or contribution from external sources interested in the project.
Items marked with 
will require coordination with more than one Working Group.
- Architecture review:
- Implement use of C++11 constructs in key areas
- Start adiabatic adoption of C++11 constructs to simplify and enhance performance on key areas of the geometry modeller and navigation system.
- Enable parameterisation by solids type in MT mode
- Provide full support in MT mode for all allowed types of parameterisations currently possible in sequential mode. In particular remove current limitation affecting parameterisations by solids type.
- Implement use of C++11 constructs in key areas
- Navigation & optimisation:
- Review use of regular navigation in conjunction with multiple-scattering
- Resolve current open issue affecting regular navigation for run-time warnings being sometimes reported.
- Profiling and optimisation of multiple navigation
- Revise the design and implementation of multiple navigation and coupled-transportation.
- Identify any open issue in application to fast-simulation, scoring and layered tracking geometries and in conjuction with magnetic field transport.
- Identify possible CPU performance penalties which may be introduced with the activation of coupled-transportation. Optimize overall performance (ATLAS request).
- Improve verbosity in navigators
- Review content provided in various verbosity levels with the objective to make most of them more informative and provide more terse output, to help debugging sessions on complex geometry/physics setups.
- Review use of regular navigation in conjunction with multiple-scattering
- Separate safety computation from navigator
- Loose coupling of G4Navigator in the computation of the safety distances from geometrical boundaries, factorising out the implementation now included in G4Navigator class, to get rid of potential side effects.
- New features:
- Complete implementation of the Unified Solids library with progressive adoption of shapes from VecGeom
- Complete implementation of remaining solids in the Unified Solids library for geometrical shapes.
- Integrate with the new vectorised implementation of the primitives from the VecGeom geometry modeller currently under development.
- Complete implementation of the Unified Solids library with progressive adoption of shapes from VecGeom
Previous years planned activities
2001 | 2002 | 2003 | 2004 | 2005 | 2006 | 2007 | 2008 | 2009 | 2010 | 2011 | 2012 | 2013 | 2014
Created: 30 January 2015
Modified: 4 February 2015, GC