In this paper, a set of micro-benchmarks is proposed to determine basic performance parameters of single-node mainstream hardware architectures for High Performance Computing. Performance parameters of recent processors, including those of accelerators, are determined. The investigated systems are Intel server processor architectures and the two accelerator lines Intel Xeon Phi and Nvidia graphic processors. Additionally, the performance impact of thread mapping on multiprocessors and Intel Xeon Phi is shown. The results show similarities for some parameters between all architectures, but significant differences for others
One year after the arrival of the Intel Xeon 7500 systems (“Nehalem-EX”), CERN openlab is presenting...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
In this paper, a set of micro-benchmarks is proposed to determine basic performance parameters of si...
In this paper, a set of micro-benchmarks is proposed to determine basic performance parameters of si...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
The high performance computing landscape is shifting from collections of homogeneous nodes towards h...
High performance computing platform is moving from homogeneous individual unites to heterogeneous sy...
Systems for high performance computing are getting increasingly complex. On the one hand, the number...
Modern microprocessors integrate a growing number of compo-nents on a single chip, such as processor...
This paper describes the performance trends in Intel Dual Core Processors and Intel Xenon Quad Core ...
Recent trends in computing architecture development have focused on exploiting task- and data-level ...
High performance is a critical requirement to all microprocessors manufacturers. The present paper d...
The second generation of the Digital Equipment Corp. (DEC) DECchip Alpha AXP microprocessor is refer...
International audienceThe objective of this study is to evaluate the performances of Intel Xeon Phi ...
One year after the arrival of the Intel Xeon 7500 systems (“Nehalem-EX”), CERN openlab is presenting...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
In this paper, a set of micro-benchmarks is proposed to determine basic performance parameters of si...
In this paper, a set of micro-benchmarks is proposed to determine basic performance parameters of si...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
The high performance computing landscape is shifting from collections of homogeneous nodes towards h...
High performance computing platform is moving from homogeneous individual unites to heterogeneous sy...
Systems for high performance computing are getting increasingly complex. On the one hand, the number...
Modern microprocessors integrate a growing number of compo-nents on a single chip, such as processor...
This paper describes the performance trends in Intel Dual Core Processors and Intel Xenon Quad Core ...
Recent trends in computing architecture development have focused on exploiting task- and data-level ...
High performance is a critical requirement to all microprocessors manufacturers. The present paper d...
The second generation of the Digital Equipment Corp. (DEC) DECchip Alpha AXP microprocessor is refer...
International audienceThe objective of this study is to evaluate the performances of Intel Xeon Phi ...
One year after the arrival of the Intel Xeon 7500 systems (“Nehalem-EX”), CERN openlab is presenting...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...