We report on our investigations into the viability of the ARM processor and the Intel Xeon Phi co-processor for scientific computing. We describe our experience porting software to these processors and running benchmarks using real physics applications to explore the potential of these processors for production physics processing. © Published under licence by IOP Publishing Ltd
The PRACE-1IP project was extended by eight month to complete the evaluation of advance prototypes f...
In this paper we describe different applications we have ported to Intel Xeon Phi architectures, ana...
As Moore s law continues, processors keep getting more cores packed together on the chip. This thesi...
Abstract. We report on our investigations into the viability of the ARM processor and the Intel Xeon...
We report on our investigations into the viability of the ARM processor and the Intel Xeon Phi co-pr...
This paper summarizes the five years of CERN openlab's efforts focused on the Intel Xeon Phi co-proc...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
The whitepaper reports our investigation into the porting, optimization and subsequent performance o...
The goal of this lab exercise is to develop a parallel compute-intensive application to be run on an...
To study the performance of multi-threaded Geant4 for high-energy physics experiments, an applicatio...
This whitepaper studies the execution speed of the Intel Xeon Phi coprocessor when running a molecul...
2016The Intel Xeon Phi is a relative newcomer to the scientific computing scene. In the recent year...
Milano Multiphysics is a start-up active in the field of advanced modelling of complex systems. The ...
Abstract—This paper presents preliminary performance com-parisons of parallel applications developed...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
The PRACE-1IP project was extended by eight month to complete the evaluation of advance prototypes f...
In this paper we describe different applications we have ported to Intel Xeon Phi architectures, ana...
As Moore s law continues, processors keep getting more cores packed together on the chip. This thesi...
Abstract. We report on our investigations into the viability of the ARM processor and the Intel Xeon...
We report on our investigations into the viability of the ARM processor and the Intel Xeon Phi co-pr...
This paper summarizes the five years of CERN openlab's efforts focused on the Intel Xeon Phi co-proc...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
The whitepaper reports our investigation into the porting, optimization and subsequent performance o...
The goal of this lab exercise is to develop a parallel compute-intensive application to be run on an...
To study the performance of multi-threaded Geant4 for high-energy physics experiments, an applicatio...
This whitepaper studies the execution speed of the Intel Xeon Phi coprocessor when running a molecul...
2016The Intel Xeon Phi is a relative newcomer to the scientific computing scene. In the recent year...
Milano Multiphysics is a start-up active in the field of advanced modelling of complex systems. The ...
Abstract—This paper presents preliminary performance com-parisons of parallel applications developed...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
The PRACE-1IP project was extended by eight month to complete the evaluation of advance prototypes f...
In this paper we describe different applications we have ported to Intel Xeon Phi architectures, ana...
As Moore s law continues, processors keep getting more cores packed together on the chip. This thesi...