Title :
The P-Mesh-a commodity-based scalable network architecture for clusters
Author :
Nitzberg, B. ; Kuszmaul, C. ; Stockdale, I. ; Becker, J. ; Jiang, J. ; Wong, P.
Author_Institution :
MRJ Technol. Solutions, NASA Ames Res. Center, Moffett Field, CA, USA
Abstract :
We designed a new network architecture, the P-Mesh, which combines the scalability and fault resilience of a torus with the performance of a switch. We compare the scalability, performance and cost of the hub, switch, torus, tree and P-Mesh architectures. The latter three are capable of scaling to thousands of nodes. However, the torus has severe performance limitations with that many processors. The tree and P-Mesh have similar latency, bandwidth and mid-bisection bandwidth, but the P-Mesh outperforms the switch architecture (a lower bound for tree performance) on 16-node NAS parallel benchmark tests by up to 23%, and costs 40% less. Furthermore, the P-Mesh has better fault resilience characteristics. The P-Mesh architecture trades increased management overhead for lower cost, and is a good bridging technology, while the price of tree uplinks is expensive.
Keywords :
fault tolerance; network topology; parallel architectures; performance evaluation; workstation clusters; 16-node NAS parallel benchmark tests; P-Mesh architecture; bandwidth; bridging technology; commodity-based scalable network architecture; computer clusters; cost; fault resilience; hub architecture; latency; management overhead; mid-bisection bandwidth; performance; price; scalability; switch architecture; torus architecture; tree architecture; tree uplinks; Application software; Bandwidth; Costs; Kernel; Linux; NASA; Prototypes; Scalability; Scientific computing; Switches;
Conference_Titel :
Systems Sciences, 1999. HICSS-32. Proceedings of the 32nd Annual Hawaii International Conference on
Conference_Location :
Maui, HI, USA
Print_ISBN :
0-7695-0001-3
DOI :
10.1109/HICSS.1999.773070
