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Cited by 10 publications
(8 citation statements)
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“…For the latter, expert teams are invested in R&D programs to explore the potential of multithread track-level (particle-level) parallelization, improved instruction pipelining, data locality, and vectorization for single instruction multiple data. One example is the GeantV [78] project to develop the next generation detector simulation toolkit, with a goal set to achieve a speedup factor of 2 to 5 with respect to Geant4, while enhancing the physics accuracy of the code and offering fast simulation options that include machine learning techniques for fast and precise tuning.…”
Section: The Futurementioning
confidence: 99%
“…For the latter, expert teams are invested in R&D programs to explore the potential of multithread track-level (particle-level) parallelization, improved instruction pipelining, data locality, and vectorization for single instruction multiple data. One example is the GeantV [78] project to develop the next generation detector simulation toolkit, with a goal set to achieve a speedup factor of 2 to 5 with respect to Geant4, while enhancing the physics accuracy of the code and offering fast simulation options that include machine learning techniques for fast and precise tuning.…”
Section: The Futurementioning
confidence: 99%
“…To allow compiling the same code on both host and device modes, GeantV uses the concept of backend interfaces [7,8]. Since the main differences across platforms are related to data types, template specialization can be used to run a common sources code across different technologies, including scalar and SIMD vector mode.…”
Section: Pos(ichep2016)177mentioning
confidence: 99%
“…VecGeom [2] is a C++ geometry library for use in particle detector simulation. Its development started as part of the GeantV R&D initiative [3,4] with the original goal to provide geometry kernels that are able to process multiple tracks/particles concurrently by utilizing vector micro-parallelism, implementing the single instruction -multiple data (SIMD) principle [2,5]. Early in the project, it was realised that providing such a new library also provides a chance to review the existing geometry code used in HEP such as those provided by Geant4 [6] and ROOT/TGeo [7].…”
Section: Introductionmentioning
confidence: 99%