Online Makespan Minimization with Parallel Schedules
Abstract
In online makespan minimization a sequence of jobs has to be scheduled on identical parallel machines so as to minimize the maximum completion time of any job. We investigate the problem with an essentially new model of resource augmentation. Here, an online algorithm is allowed to build several schedules in parallel while processing . At the end of the scheduling process the best schedule is selected. This model can be viewed as providing an online algorithm with extra space, which is invested to maintain multiple solutions. The setting is of particular interest in parallel processing environments where each processor can maintain a single or a small set of solutions. We develop a -competitive algorithm, for any , that uses a number of schedules. We also give a -competitive algorithm, for any , that builds a polynomial number of schedules. This value depends on but is independent of the input . The performance guarantees are nearly best possible. We show that any algorithm that achieves a competitiveness smaller than 4/3 must construct schedules. Our algorithms make use of novel guessing schemes that (1) predict the optimum makespan of a job sequence to within a factor of and (2) guess the job processing times and their frequencies in . In (2) we have to sparsify the universe of all guesses so as to reduce the number of schedules to a constant. The competitive ratios achieved using parallel schedules are considerably smaller than those in the standard problem without resource augmentation.
Keywords
Cite
@article{arxiv.1304.5625,
title = {Online Makespan Minimization with Parallel Schedules},
author = {Susanne Albers and Matthias Hellwig},
journal= {arXiv preprint arXiv:1304.5625},
year = {2013}
}