Scheduling chains on Uniform Processors with Communication Delays
Résumé
We show that the problem of scheduling chains of unit execution time (UET) jobs on uniform processors with communication delays to minimize makespan is NP-hard in the strong sense. We also give a heuristic that generates solutions with known, and relatively small, absolute error for this problem. The NP-hardness result holds even for the case without communication delays, and complements the earlier result of Gonzalez and Sahni who gave a polynomial time algorithm for preemptive jobs of arbitrary length.
We also study the structure of optimal solutions for the two processor problem of scheduling chains of UET jobs with communication delays, where one processor is a (integer) times faster than the other. This investigation leads to a linear time optimization algorithm for this case.
We also study the structure of optimal solutions for the two processor problem of scheduling chains of UET jobs with communication delays, where one processor is a (integer) times faster than the other. This investigation leads to a linear time optimization algorithm for this case.