Title :
Self-Configuration in Parallel Processing
Author :
Anthony, Richard John
Author_Institution :
Greenwich Univ., London
Abstract :
Loosely-coupled environments, such as clusters and grids are increasingly popular platforms for parallel processing. These systems present highly dynamic environments, in which many sources of variability affect the run-time efficiency of tasks. This paper proposes an adaptive strategy for the run-time deployment of tasks of parallel applications in loosely-coupled systems; to continuously maintain efficiency despite the environmental variability. The approach centres around policy-based scheduling which is informed by contextual and environmental inputs such as the round-trip communication time between nodes and their processing performance. To demonstrate the effectiveness of the adaptive approach, a self configuring and self-optimising parallel application is presented
Keywords :
parallel processing; scheduling; loosely-coupled systems; parallel processing; policy-based scheduling; round-trip communication time; self-configuration; self-optimising parallel application; Batteries; Capacity planning; Conferences; Context; Databases; Delay effects; Local area networks; Parallel processing; Runtime environment; Workstations; Autonomics; Parallel processing.; Policy-based; Self-configuring; Self-optimising;
Conference_Titel :
Database and Expert Systems Applications, 2005. Proceedings. Sixteenth International Workshop on
Conference_Location :
Copenhagen
Print_ISBN :
0-7695-2424-9
DOI :
10.1109/DEXA.2005.174
