中文

Improved Bounds and Schemes for the Declustering Problem

离散数学 2007-05-23 v1 数据结构与算法

摘要

The declustering problem is to allocate given data on parallel working storage devices in such a manner that typical requests find their data evenly distributed on the devices. Using deep results from discrepancy theory, we improve previous work of several authors concerning range queries to higher-dimensional data. We give a declustering scheme with an additive error of Od(logd1M)O_d(\log^{d-1} M) independent of the data size, where dd is the dimension, MM the number of storage devices and d1d-1 does not exceed the smallest prime power in the canonical decomposition of MM into prime powers. In particular, our schemes work for arbitrary MM in dimensions two and three. For general dd, they work for all Md1M\geq d-1 that are powers of two. Concerning lower bounds, we show that a recent proof of a Ωd(logd12M)\Omega_d(\log^{\frac{d-1}{2}} M) bound contains an error. We close the gap in the proof and thus establish the bound.

关键词

引用

@article{arxiv.cs/0603012,
  title  = {Improved Bounds and Schemes for the Declustering Problem},
  author = {Benjamin Doerr and Nils Hebbinghaus and Sören Werth},
  journal= {arXiv preprint arXiv:cs/0603012},
  year   = {2007}
}

备注

19 pages, 1 figure