Evaluation of a semi-static approach to mapping dynamic iterative tasks onto heterogeneous computing systems
Date
1999
Authors
Ahmad, Ishfaq, author
Ghafoor, Arif, author
Siegel, Howard Jay, author
Maciejewski, Anthony A., author
Kwok, Yu-Kwong, author
IEEE, publisher
Journal Title
Journal ISSN
Volume Title
Abstract
To minimize the execution time of an iterative application in a heterogeneous parallel computing environment, an appropriate mapping scheme is needed for matching and scheduling the subtasks of the application onto the processors. When some of the characteristics of the application subtasks are unknown a priori and will change from iteration to iteration during execution-time, a semi-static methodology can be employed, that starts with an initial mapping but dynamically decides whether to perform are mapping between iterations of the application, by observing the effects of these dynamic parameters on the application's execution time. The objective of this study is to implement and evaluate such a semi-static methodology. For analyzing the effectiveness of the proposed scheme, it is compared with two extreme approaches: a completely dynamic approach using a fast mapping heuristic and an ideal approach that uses a genetic algorithm on-line but ignores the time for remapping. Experimental results indicate that the semi-static approach outperforms the dynamic approach and is reasonably close to the ideal but infeasible approach.