This paper describes the LINPACK Benchmark and some of its variations commonly used to assess the performance of computer systems. Aside from the LINPACK Benchmark suite, the TOP500 and the HPL codes are presented. The latter is frequently used to obtained results for TOP500 submissions. Information is also given on how to interpret the results of the benchmark and how the results fit into the performance evaluation process. Copyright c © 2003 John Wiley & Sons, Ltd. KEY WORDS: benchmarking; BLAS; high-performance computing; HPL; linear algebra; LINPACK; TOP50
This special issue of Future Generation Computer Systems contains four extended papers selected from...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
The authors discuss the important questions that benchmarking must answer and the degree to which su...
The aim of this project was to encapsulate the needs of computational science applications. Performa...
To provide a better basis for statistics on high-performance computers, we list the sites that have ...
This document provides an overview of the benchmark ? HPGMG ? for ranking large scale general purpos...
This paper describes an implementation of Level 3 of the Basic Linear Algebra Subprogram (BLAS-3) li...
This paper describes an implementation of Level 3 of the Basic Linear Algebra Subprogram (BLAS-3) li...
UTP High Performance Computing Cluster (HPCC) is a collection of computing nodes using commercially ...
Now in its 10th year, the twice-yearly TOP500 list of supercomputers serves as a "Who's Who" in the ...
Abstract. HPL is a parallel Linpack benchmark package widely adopted in massive cluster system perfo...
The High Performance Linpack (HPL), or Top 500, benchmark [1] is the most widely recognized and disc...
Abstract—Dense linear algebra has been traditionally used to evaluate the performance and efficiency...
Since 1993 we compile and publish twice a year a list of the most powerful supercomputers in the wor...
In this paper we present the design and implementation of the Linpack benchmark for the IBM BladeCen...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
The authors discuss the important questions that benchmarking must answer and the degree to which su...
The aim of this project was to encapsulate the needs of computational science applications. Performa...
To provide a better basis for statistics on high-performance computers, we list the sites that have ...
This document provides an overview of the benchmark ? HPGMG ? for ranking large scale general purpos...
This paper describes an implementation of Level 3 of the Basic Linear Algebra Subprogram (BLAS-3) li...
This paper describes an implementation of Level 3 of the Basic Linear Algebra Subprogram (BLAS-3) li...
UTP High Performance Computing Cluster (HPCC) is a collection of computing nodes using commercially ...
Now in its 10th year, the twice-yearly TOP500 list of supercomputers serves as a "Who's Who" in the ...
Abstract. HPL is a parallel Linpack benchmark package widely adopted in massive cluster system perfo...
The High Performance Linpack (HPL), or Top 500, benchmark [1] is the most widely recognized and disc...
Abstract—Dense linear algebra has been traditionally used to evaluate the performance and efficiency...
Since 1993 we compile and publish twice a year a list of the most powerful supercomputers in the wor...
In this paper we present the design and implementation of the Linpack benchmark for the IBM BladeCen...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
The authors discuss the important questions that benchmarking must answer and the degree to which su...