As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is preparing to expand its investments in areas other than simple core count. These new interests include deep integration of on-chip components, advanced vector units, memory, cache and interconnect technologies. We examine these moving trends with parallelized and vectorized High Energy Physics workloads in mind. In particular, we report on practical experience resulting from experiments with scalable HEP benchmarks on the Intel 'Ivy Bridge-EP' and 'Haswell' processor families. In addition, we examine the benefits of the new 'Haswell' microarchitecture and its impact on multiple facets of HEP software. Finally, we report on the power efficienc...
HEPSPEC-06(HS06) is a decade old suite used to benchmark CPU resources for WLCG. Its adoption spans ...
The increasing need in high energy physics experiments for computation power for both online and off...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
As Moore's Law drives the silicon industry towards higher transistor counts, processor designs are b...
As researchers have reached the practical limits of processor performance improvements by frequency ...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
This paper summarizes the five years of CERN openlab's efforts focused on the Intel Xeon Phi co-proc...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
The benchmarking and accounting of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) sui...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
The end of Dennardian scaling in advanced technologies brought about new architectural templates to ...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
HEPSPEC-06(HS06) is a decade old suite used to benchmark CPU resources for WLCG. Its adoption spans ...
The increasing need in high energy physics experiments for computation power for both online and off...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
As Moore's Law drives the silicon industry towards higher transistor counts, processor designs are b...
As researchers have reached the practical limits of processor performance improvements by frequency ...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
This paper summarizes the five years of CERN openlab's efforts focused on the Intel Xeon Phi co-proc...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
The benchmarking and accounting of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) sui...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
The end of Dennardian scaling in advanced technologies brought about new architectural templates to ...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
HEPSPEC-06(HS06) is a decade old suite used to benchmark CPU resources for WLCG. Its adoption spans ...
The increasing need in high energy physics experiments for computation power for both online and off...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...