English

Energy-efficient algorithms for non-preemptive speed-scaling

Data Structures and Algorithms 2014-02-19 v2

Abstract

We improve complexity bounds for energy-efficient speed scheduling problems for both the single processor and multi-processor cases. Energy conservation has become a major concern, so revisiting traditional scheduling problems to take into account the energy consumption has been part of the agenda of the scheduling community for the past few years. We consider the energy minimizing speed scaling problem introduced by Yao et al. where we wish to schedule a set of jobs, each with a release date, deadline and work volume, on a set of identical processors. The processors may change speed as a function of time and the energy they consume is the α\alphath power of its speed. The objective is then to find a feasible schedule which minimizes the total energy used. We show that in the setting with an arbitrary number of processors where all work volumes are equal, there is a 2(1+ε)(5(1+ε))α1B~α=Oα(1)2(1+\varepsilon)(5(1+\varepsilon))^{\alpha -1}\tilde{B}_{\alpha}=O_{\alpha}(1) approximation algorithm, where B~α\tilde{B}_{\alpha} is the generalized Bell number. This is the first constant factor algorithm for this problem. This algorithm extends to general unequal processor-dependent work volumes, up to losing a factor of ((1+r)r2)α(\frac{(1+r)r}{2})^{\alpha} in the approximation, where rr is the maximum ratio between two work volumes. We then show this latter problem is APX-hard, even in the special case when all release dates and deadlines are equal and rr is 4. In the single processor case, we introduce a new linear programming formulation of speed scaling and prove that its integrality gap is at most 12α112^{\alpha -1}. As a corollary, we obtain a (12(1+ε))α1(12(1+\varepsilon))^{\alpha -1} approximation algorithm where there is a single processor, improving on the previous best bound of 2α1(1+ε)αB~α2^{\alpha-1}(1+\varepsilon)^{\alpha}\tilde{B}_{\alpha} when α25\alpha \ge 25.

Keywords

Cite

@article{arxiv.1402.4111,
  title  = {Energy-efficient algorithms for non-preemptive speed-scaling},
  author = {Vincent Cohen-Addad and Zhentao Li and Claire Mathieu and Ioannis Millis},
  journal= {arXiv preprint arXiv:1402.4111},
  year   = {2014}
}
R2 v1 2026-06-22T03:09:58.208Z