Development of a small-scale computer cluster

Jay Wilhelm; Justin T. Smith; James E. Smith

doi:10.1117/12.784543

15 April 2008 Development of a small-scale computer cluster

Jay Wilhelm, Justin T. Smith, James E. Smith

Proceedings Volume 6961, Intelligent Computing: Theory and Applications VI; 69610N (2008) https://doi.org/10.1117/12.784543
Event: SPIE Defense and Security Symposium, 2008, Orlando, Florida, United States

Abstract

An increase in demand for computing power in academia has necessitated the need for high performance machines. Computing power of a single processor has been steadily increasing, but lags behind the demand for fast simulations. Since a single processor has hard limits to its performance, a cluster of computers can have the ability to multiply the performance of a single computer with the proper software. Cluster computing has therefore become a much sought after technology. Typical desktop computers could be used for cluster computing, but are not intended for constant full speed operation and take up more space than rack mount servers. Specialty computers that are designed to be used in clusters meet high availability and space requirements, but can be costly. A market segment exists where custom built desktop computers can be arranged in a rack mount situation, gaining the space saving of traditional rack mount computers while remaining cost effective. To explore these possibilities, an experiment was performed to develop a computing cluster using desktop components for the purpose of decreasing computation time of advanced simulations. This study indicates that small-scale cluster can be built from off-the-shelf components which multiplies the performance of a single desktop machine, while minimizing occupied space and still remaining cost effective.

Citation Download Citation

Jay Wilhelm, Justin T. Smith, and James E. Smith "Development of a small-scale computer cluster", Proc. SPIE 6961, Intelligent Computing: Theory and Applications VI, 69610N (15 April 2008); https://doi.org/10.1117/12.784543

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