In the fall 2016, GeantV went through a thorough community evaluation of the project status and of its strategy for sharing the R&D; results with the LHC experiments and with the HEP simulation community in general. Following this discussion, GeantV has engaged onto an ambitious 2-year road-path aiming to deliver a beta version that has most of the final design and several performance features of the final product, partially integrated with some of the experiment’s frameworks. The initial GeantV prototype has been updated to a vector-aware concurrent framework, which is able to deliver high-density floating-point computations for most of the performance-critical components such as propagation in field and physics models. Electromagnetic phy...
HEP experiments simulate the detector response by accessing all needed data and services within thei...
The upcoming generation of exascale HPC machines will all have most of their computing power provide...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
Detector simulation is consuming at least half of the HEP computing cycles, and even so, experiments...
High Energy Physics (HEP) needs a huge amount of computing resources. In addition data acquisition, ...
The development of the GeantV Electromagnetic (EM) physics package has evolved following two necessa...
The GeantV project aims to research and develop the next-generation simulation software describing t...
The Geant4 simulation toolkit has reached maturity in the middle of the previous decade, providing a...
In this paper we present the recent developments in the Geant4 hadronic framework. Geant4 is the mai...
International audienceWe report on the recent progress within the Geant4 electromagnetic physics sub...
The recent progress in parallel hardware architectures with deeper vector pipelines or many-cores te...
The recent emergence of hardware architectures characterized by many-core or accelerated processors ...
Geant4 is a software toolkit for the simulation of the passage of particles through matter. It is us...
The Geant4 electromagnetic (EM) physics sub-packages are a component of LHC experiment simulations. ...
International audienceIn this work we present recent progress in Geant4 electromagnetic physics mode...
HEP experiments simulate the detector response by accessing all needed data and services within thei...
The upcoming generation of exascale HPC machines will all have most of their computing power provide...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
Detector simulation is consuming at least half of the HEP computing cycles, and even so, experiments...
High Energy Physics (HEP) needs a huge amount of computing resources. In addition data acquisition, ...
The development of the GeantV Electromagnetic (EM) physics package has evolved following two necessa...
The GeantV project aims to research and develop the next-generation simulation software describing t...
The Geant4 simulation toolkit has reached maturity in the middle of the previous decade, providing a...
In this paper we present the recent developments in the Geant4 hadronic framework. Geant4 is the mai...
International audienceWe report on the recent progress within the Geant4 electromagnetic physics sub...
The recent progress in parallel hardware architectures with deeper vector pipelines or many-cores te...
The recent emergence of hardware architectures characterized by many-core or accelerated processors ...
Geant4 is a software toolkit for the simulation of the passage of particles through matter. It is us...
The Geant4 electromagnetic (EM) physics sub-packages are a component of LHC experiment simulations. ...
International audienceIn this work we present recent progress in Geant4 electromagnetic physics mode...
HEP experiments simulate the detector response by accessing all needed data and services within thei...
The upcoming generation of exascale HPC machines will all have most of their computing power provide...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...