Anthony T. Chronopoulos, Satish Penmatsa, Naveen Jayakumar, Eric Ogharandukun
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Two-Dimensional Dynamic Loop Scheduling Schemes for Computer Clusters
Efficient scheduling of parallel loops in a network of computers can significantly reduce the total execution time of complex scientific applications. In this paper, we compare the performance of two-dimensional dynamic loop scheduling schemes for computer clusters with that of one-dimensional loop scheduling schemes. The loop scheduling schemes are implemented using the Message Passing Interface on a cluster of processors. Experimental results show that the two-dimensional scheduling schemes were found to significantly reduce the total execution time of tasks over the one-dimensional schemes. In addition, the two-dimensional schemes present a more balanced load distribution of the workload among the computers in the cluster.
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