As of 2009, HEP-SPEC06 (HS06) is the benchmark adopted by the WLCG community to describe the computing requirements of the LHC experiments, to assess the computing capacity of the WLCG data centres and to procure new hardware. In the recent years, following the evolution of CPU architectures and the adoption of new programming paradigms, such as multi-threading and vectorization, it has turned out that HS06 is less representative of the relevant applications running on the WLCG infrastructure. Meanwhile, in 2017 a new SPEC generation of benchmarks for CPU intensive workloads has been released: SPEC CPU 2017. This report summarises the findings of the HEPiX Benchmarking Working Group in comparing SPEC CPU 2017 and other HEP benchmarks with t...
As researchers have reached the practical limits of processor performance improvements by frequency ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
The increase in the scale of LHC computing expected for Run 3 and even more so for Run 4 (HL-LHC) ov...
As of 2009, HEP-SPEC06 (HS06) is the benchmark adopted by the WLCG community to describe the computi...
As of 2009, HEP-SPEC06 (HS06) is the benchmark adopted by the WLCG community to describe the computi...
HEPSPEC-06(HS06) is a decade old suite used to benchmark CPU resources for WLCG. Its adoption spans ...
The benchmarking and accounting of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) sui...
Benchmarking of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) suite for over a decad...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
HEPScore is a new CPU benchmark created to replace the HEPSPEC06 benchmark that is currently used by...
In order to estimate the capabilities of a computing slot with limited processing time, it is necess...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
The HEPiX (http://www.hepix.org) IPv6 Working Group has been investigating the many issues which fee...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
As researchers have reached the practical limits of processor performance improvements by frequency ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
The increase in the scale of LHC computing expected for Run 3 and even more so for Run 4 (HL-LHC) ov...
As of 2009, HEP-SPEC06 (HS06) is the benchmark adopted by the WLCG community to describe the computi...
As of 2009, HEP-SPEC06 (HS06) is the benchmark adopted by the WLCG community to describe the computi...
HEPSPEC-06(HS06) is a decade old suite used to benchmark CPU resources for WLCG. Its adoption spans ...
The benchmarking and accounting of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) sui...
Benchmarking of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) suite for over a decad...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
HEPScore is a new CPU benchmark created to replace the HEPSPEC06 benchmark that is currently used by...
In order to estimate the capabilities of a computing slot with limited processing time, it is necess...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
The HEPiX (http://www.hepix.org) IPv6 Working Group has been investigating the many issues which fee...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
As researchers have reached the practical limits of processor performance improvements by frequency ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
The increase in the scale of LHC computing expected for Run 3 and even more so for Run 4 (HL-LHC) ov...