HEPScore is a new CPU benchmark created to replace the HEPSPEC06 benchmark that is currently used by the WLCG for procurement, computing resource pledges and performance studies. The development of the new benchmark, based on HEP applications or workloads, has involved many contributions from software developers, data analysts, experts of the experiments, representatives of several WLCG computing centres, as well as the WLCG HEPScore Deployment Task Force. In this contribution, we review the selection of workloads and the validation of the new HEPScore benchmark.Comment: Paper submitted to the proceedings of the Computing in HEP Conference 2023, Norfol
Software and Computing (S&C) are essential to all High Energy Physics (HEP) experiments and many the...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...
HEPScore is a new CPU benchmark created to replace the HEPSPEC06 benchmark that is currently used by...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
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...
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...
Benchmarking of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) suite for over a decad...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
This white paper briefly summarized key conclusions of the recent US Community Study on the Future o...
The Sophon SG2042 is the world's first commodity 64-core RISC-V CPU for high performance workloads a...
The demanding computing needs of the CMS experiment require thoughtful planning and management of it...
In order to estimate the capabilities of a computing slot with limited processing time, it is necess...
Software and Computing (S&C) are essential to all High Energy Physics (HEP) experiments and many the...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...
HEPScore is a new CPU benchmark created to replace the HEPSPEC06 benchmark that is currently used by...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
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...
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...
Benchmarking of CPU resources in WLCG has been based on the HEP-SPEC06 (HS06) suite for over a decad...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
This white paper briefly summarized key conclusions of the recent US Community Study on the Future o...
The Sophon SG2042 is the world's first commodity 64-core RISC-V CPU for high performance workloads a...
The demanding computing needs of the CMS experiment require thoughtful planning and management of it...
In order to estimate the capabilities of a computing slot with limited processing time, it is necess...
Software and Computing (S&C) are essential to all High Energy Physics (HEP) experiments and many the...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
In this work, fundamental performance, power, and energy characteristics of the full SPEChpc 2021 be...