Bernhard Homölle scite author profile

Bernhard Homölle

2Publications

4Citation Statements Received

40Citation Statements Given

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An Architecture for High Performance Computing and Data Systems Using Byte-Addressable Persistent Memory

Jackson

Weiland

Parsons

et al. 2019

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Non-volatile, byte addressable, memory technology with performance close to main memory promises to revolutionise computing systems in the near future. Such memory technology provides the potential for extremely large memory regions (i.e. > 3TB per server), very high performance I/O, and new ways of storing and sharing data for applications and workflows. This paper outlines an architecture that has been designed to exploit such memory for High Performance Computing and High Performance Data Analytics systems, along with descriptions of how applications could benefit from such hardware.

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Usage Scenarios for Byte-Addressable Persistent Memory in High-Performance and Data Intensive Computing

Weiland¹,

Homölle²

2021

J. Comput. Sci. Technol.

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Byte-addressable persistent memory (B-APM) presents a new opportunity to bridge the performance gap between main memory and storage. In this paper, we present the usage scenarios for this new technology, based on the capabilities of Intel's DCPMM. We outline some of the basic performance characteristics of DCPMM, and explain how it can be configured and used to address the needs of memory and I/O intensive applications in the HPC (high-performance computing) and data intensive domains. Two decision trees are presented to advise on the configuration options for B-APM; their use is illustrated with two examples. We show that the flexibility of the technology has the potential to be truly disruptive, not only because of the performance improvements it can deliver, but also because it allows systems to cater for wider range of applications on homogeneous hardware.

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