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Experiments and Investigations for the Personal High Performance Computing (PHPC) built on top of the 64-bit processing and clustering systems

Experiments and Investigations for the Personal High Performance Computing (PHPC) built on top of the 64-bit processing and clustering systems
Experiments and Investigations for the Personal High Performance Computing (PHPC) built on top of the 64-bit processing and clustering systems
The motivation and objective for this paper is to demonstrate “Personal High Performance Computing (PHPC)”, which requires only a smaller number of computers, resources and space in the secure wireless home networking (WHN) environment. The PHPC is based on a cluster of the 64-bit AMD machines, which can achieve the following: (a) reducing CPU time by 10% - 50% for a single task; (b) minimizing the memory and hard-disk workload by 50%; (c) running 64-bit software applications successfully; (d) receiving up to 60% better performance in multi-tasking performance; (e) executing fast, robust and accurate calculations, visualization and server-side applications on 32-bit and 64-bit Windows and Linux; (f) ensuring a secure working environment (g) storing a massive amount of data (12 TB, or 12,000 GB) for database and server applications; and (h) successfully integrating with other emerging technologies such as LAN/wireless networks and entertainment systems.
Personal High Performance Computing, PHPC, Experiments and Investigations for PHPC, 64-bit Computing, WLAN, Wireless Home Networking, wireless protocol (Wi-Fi, Bluetooth, GPS, 3G)
Chang, Victor
8327af45-7ad7-4f35-b614-cc4df8118bb5
Chang, Victor
8327af45-7ad7-4f35-b614-cc4df8118bb5
Chang, Victor
8327af45-7ad7-4f35-b614-cc4df8118bb5
Chang, Victor
8327af45-7ad7-4f35-b614-cc4df8118bb5

Chang, Victor (2006) Experiments and Investigations for the Personal High Performance Computing (PHPC) built on top of the 64-bit processing and clustering systems. Chang, Victor (ed.) 13th Annual IEEE International Symposium and Workshop on Engineering of Computer Based Systems (ECBS 2006), 27-30 March 2006, Potsdam, Germany. 27 - 30 Mar 2006.

Record type: Conference or Workshop Item (Poster)

Abstract

The motivation and objective for this paper is to demonstrate “Personal High Performance Computing (PHPC)”, which requires only a smaller number of computers, resources and space in the secure wireless home networking (WHN) environment. The PHPC is based on a cluster of the 64-bit AMD machines, which can achieve the following: (a) reducing CPU time by 10% - 50% for a single task; (b) minimizing the memory and hard-disk workload by 50%; (c) running 64-bit software applications successfully; (d) receiving up to 60% better performance in multi-tasking performance; (e) executing fast, robust and accurate calculations, visualization and server-side applications on 32-bit and 64-bit Windows and Linux; (f) ensuring a secure working environment (g) storing a massive amount of data (12 TB, or 12,000 GB) for database and server applications; and (h) successfully integrating with other emerging technologies such as LAN/wireless networks and entertainment systems.

Text
Victor_Chang_ECBS_Ultimate_FINAL_and_NO_Change_short_paper_64_bit_Personal_High_Performance_Computing_PID159489.pdf - Other
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More information

Published date: November 2006
Additional Information: Event Dates: 27-30 March 2006
Venue - Dates: 13th Annual IEEE International Symposium and Workshop on Engineering of Computer Based Systems (ECBS 2006), 27-30 March 2006, Potsdam, Germany, 2006-03-27 - 2006-03-30
Keywords: Personal High Performance Computing, PHPC, Experiments and Investigations for PHPC, 64-bit Computing, WLAN, Wireless Home Networking, wireless protocol (Wi-Fi, Bluetooth, GPS, 3G)
Organisations: Electronics & Computer Science
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 261739
URI: http://eprints.soton.ac.uk/id/eprint/261739
PURE UUID: c4cf5341-cfb1-47c1-aa57-f613231dad4b

Catalogue record

Date deposited: 07 Jan 2006
Last modified: 14 Mar 2024 06:58

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Contributors

Author: Victor Chang
Editor: Victor Chang

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