A LAZY SCHEDULING SCHEME FOR HYPERCUBE COMPUTERS

Processor allocation and job scheduling are two complementary techniques for improving the performance of multiprocessors. It has been observed that all the hypercube allocation policies with the FCFS scheduling provide only incremental performance improvement. A greater impact on the performance can be obtained by efficient job scheduling. This paper presents an effort in that direction by introducing a new scheduling algorithm called lazy scheduling for hypercubes, The motivation of this scheme is to eliminate the limitations of the FCFS scheduling. This is done by maintaining separate queues for different job sizes and delaying the allocation of a job if any other job(s) of the same dimension is(are) running in the system. Processor allocation is done using the buddy strategy. The scheduling and allocation complexity is O(n) for an n-cube. Simulation studies show that the performance is dramatically enhanced by using the lazy scheduling scheme as compared to the FCFS scheduling. Comparison with a recently proposed scheme called scan indicates that the lazy scheme performs better than the scan scheduling under a wide range of workloads. (C) 1995 Academic Press, Inc