Title :
Load balancing across near-homogeneous multi-resource servers
Author :
Leinberger, William ; Karypis, George ; Kumar, Vipin ; Biswas, Rupak
Author_Institution :
Army High Performance Comput. & Res. Center, Minnesota Univ., Minneapolis, MN, USA
Abstract :
An emerging model for computational grids interconnects similar multi-resource servers from distributed sites. A job submitted to the grid can be executed by any of the servers; however, resource size or balance may be different across servers. One approach to resource management for this grid is to layer a global load distribution system on top of the local job management systems at each site. Unfortunately, classical load distribution policies fail on two aspects when applied to a multi-resource server grid First, simple load indices may not recognize that a resource imbalance exists at a server. Second, classical job selection policies do not actively correct such a resource-imbalanced state. We show through simulation that new policies based on resource balancing perform consistently better than the classical load distribution strategies
Keywords :
distributed processing; network servers; resource allocation; computational grids; distributed sites; global load distribution system; job selection policies; load balancing; load distribution strategies; load indices; local job management systems; multi-resource server interconnection; near-homogeneous multi-resource servers; resource balancing; resource imbalance; resource management; resource size; simulation; Aerospace simulation; Computer science; Contracts; Grid computing; High performance computing; Load management; Military computing; NASA; Resource management; Space technology;
Conference_Titel :
Heterogeneous Computing Workshop, 2000. (HCW 2000) Proceedings. 9th
Conference_Location :
Cancun
Print_ISBN :
0-7695-0556-2
DOI :
10.1109/HCW.2000.843733
