With POWER8 a new generation of POWER processors became available. This architecture features a moderate number of cores, each of which expose a high amount of instruction-level as well as thread- level parallelism. The high-performance processing capabilities are integrated with a rich memory hierarchy providing high bandwidth through a large set of memory chips. For a set of applications with significantly different performance signatures we explore efficient use of this processor architecture
Abstract. The Sun UltraSparc T2+ processor was designed for throughput com-puting and thread level p...
This paper looks at the power-performance implications of running parallel applications on chip mult...
Fueled by increasing processor speeds and high speed interconnection networks, advances in high perf...
With POWER8 a new generation of POWER processors became available. This architecture features a mode...
This paper describes the IBM Power8 system in comparison to the Intel Xeon processors, widely used i...
We will report on first experiences with selected scientific applications on IBM POWER8 servers with...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
Modern servers provide different features for managing the amount of energy that is needed to execut...
In this paper we investigate the energy efficiency of processors based on ARM Cortex-A9 cores for sc...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Abstract1- This paper presents an efficient design exploration environment for high-end core process...
This paper studies the overall system power variations of two multi-core architectures, an 8-core In...
There is a growing gap between the peak speed of parallel computing systems and the actual delivered...
Energy consumption is a major concern with high performance multicore systems. In this paper, we exp...
Abstract. The Sun UltraSparc T2+ processor was designed for throughput com-puting and thread level p...
This paper looks at the power-performance implications of running parallel applications on chip mult...
Fueled by increasing processor speeds and high speed interconnection networks, advances in high perf...
With POWER8 a new generation of POWER processors became available. This architecture features a mode...
This paper describes the IBM Power8 system in comparison to the Intel Xeon processors, widely used i...
We will report on first experiences with selected scientific applications on IBM POWER8 servers with...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
Modern servers provide different features for managing the amount of energy that is needed to execut...
In this paper we investigate the energy efficiency of processors based on ARM Cortex-A9 cores for sc...
Nowadays, general-purpose processors are being used in scientific computing. However, whenhigh compu...
Abstract1- This paper presents an efficient design exploration environment for high-end core process...
This paper studies the overall system power variations of two multi-core architectures, an 8-core In...
There is a growing gap between the peak speed of parallel computing systems and the actual delivered...
Energy consumption is a major concern with high performance multicore systems. In this paper, we exp...
Abstract. The Sun UltraSparc T2+ processor was designed for throughput com-puting and thread level p...
This paper looks at the power-performance implications of running parallel applications on chip mult...
Fueled by increasing processor speeds and high speed interconnection networks, advances in high perf...