The recent progress in parallel hardware architectures with deeper vector pipelines or many-cores technologies brings opportunities for HEP experiments to take advantage of SIMD and SIMT computing models. Launched in 2013, the GeantV project studies performance gains in propagating multiple particles in parallel, improving instruction throughput and data locality in HEP event simulation on modern parallel hardware architecture. Due to the complexity of geometry description and physics algorithms of a typical HEP application, performance analysis is indispensable in identifying factors limiting parallel execution. In this report, we will present design considerations and preliminary computing performance of GeantV physics models on coprocess...
Graphical Processing Units (GPUs) have evolved into highly parallel, multi-threaded, multicore power...
To study the performance of multi-threaded Geant4 for high-energy physics experiments, an applicatio...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
High Energy Physics (HEP) needs a huge amount of computing resources. In addition data acquisition, ...
The recent emergence of hardware architectures characterized by many-core or accelerated processors ...
The continual development of sophisticated transport simulation algorithms allows increasingly accur...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
The GeantV project aims to research and develop the next-generation simulation software describing t...
Detector simulation is consuming at least half of the HEP computing cycles, and even so, experiments...
The upcoming generation of exascale HPC machines will all have most of their computing power provide...
Making general particle transport simulation for high-energy physics (HEP) single-instruction-multip...
Performance evaluation and analysis of large scale computing applications is essential for optimal u...
cUniversity of Padova dFNAL eORMA Software Graphical Processing Units (GPUs) have evolved into highl...
The objective of this study is to evaluate the performances of Intel Xeon Phi hardware accelerators ...
The fast and precise simulation of particle interactions with matter is an important task for severa...
Graphical Processing Units (GPUs) have evolved into highly parallel, multi-threaded, multicore power...
To study the performance of multi-threaded Geant4 for high-energy physics experiments, an applicatio...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
High Energy Physics (HEP) needs a huge amount of computing resources. In addition data acquisition, ...
The recent emergence of hardware architectures characterized by many-core or accelerated processors ...
The continual development of sophisticated transport simulation algorithms allows increasingly accur...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
The GeantV project aims to research and develop the next-generation simulation software describing t...
Detector simulation is consuming at least half of the HEP computing cycles, and even so, experiments...
The upcoming generation of exascale HPC machines will all have most of their computing power provide...
Making general particle transport simulation for high-energy physics (HEP) single-instruction-multip...
Performance evaluation and analysis of large scale computing applications is essential for optimal u...
cUniversity of Padova dFNAL eORMA Software Graphical Processing Units (GPUs) have evolved into highl...
The objective of this study is to evaluate the performances of Intel Xeon Phi hardware accelerators ...
The fast and precise simulation of particle interactions with matter is an important task for severa...
Graphical Processing Units (GPUs) have evolved into highly parallel, multi-threaded, multicore power...
To study the performance of multi-threaded Geant4 for high-energy physics experiments, an applicatio...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...