This report summarizes a number of insights and suggestions from the presenters at the workshop. We plan to look into incorporating these into the HPC2020 suite. The report spans four categories (1) Key Takeaways, (2) Points to consider to build a robust suite and (3) Thoughts and reflections from the presenters. We aim for broad readership and hope that the material and the discussions gathered are useful for both research and development in contexts beyond benchmarking.This work is supported (in part) by the National Science Foundation under EArly-concept Grants for Exploratory Research (EAGER) Grant No. OAC-1842623
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
In this paper we examine the key elements determin-ing the performance of the HPC Challenge RandomAc...
While architectures and programming models have remained relatively stable for almost two decades, n...
Extended abstractPerformance benchmarks are used to stress test hardware and software of large scale...
Modern High Performance Computing (HPC) systemsare built with innovative system architectures and no...
This document was developed with support from the National Science Foundation (NSF) under Grant No. ...
AbstractHigh-performance computing (HPC) benchmarks are widely used to evaluate and rank system perf...
In this paper, we discuss results and characteristics of the benchmark suites maintained by the Stan...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
The HPC Challenge benchmark suite has been released by the DARPA HPCS program to help define the per...
The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-96983-1_10Des...
As machines get larger and scientific applications advance, it is more and more imperative to fully ...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
This Best Practice Guide (BPG) extends the previously developed series of BPGs by providing an updat...
Modern computing architectures change rapidly and exhibit high levels of complexity and heterogenei...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
In this paper we examine the key elements determin-ing the performance of the HPC Challenge RandomAc...
While architectures and programming models have remained relatively stable for almost two decades, n...
Extended abstractPerformance benchmarks are used to stress test hardware and software of large scale...
Modern High Performance Computing (HPC) systemsare built with innovative system architectures and no...
This document was developed with support from the National Science Foundation (NSF) under Grant No. ...
AbstractHigh-performance computing (HPC) benchmarks are widely used to evaluate and rank system perf...
In this paper, we discuss results and characteristics of the benchmark suites maintained by the Stan...
The HEPiX Benchmarking Working Group has developed a framework to benchmark the performance of a com...
The HPC Challenge benchmark suite has been released by the DARPA HPCS program to help define the per...
The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-96983-1_10Des...
As machines get larger and scientific applications advance, it is more and more imperative to fully ...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
This Best Practice Guide (BPG) extends the previously developed series of BPGs by providing an updat...
Modern computing architectures change rapidly and exhibit high levels of complexity and heterogenei...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
In this paper we examine the key elements determin-ing the performance of the HPC Challenge RandomAc...
While architectures and programming models have remained relatively stable for almost two decades, n...