空间有界概率算法的确定性放大

Ziv Bar-Yossef, Oded Goldreich, A. Wigderson
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引用次数: 12

摘要

本文对空间有界概率算法的确定性放大问题进行了研究。已知放大方法的直接实现不能用于此类算法,因为它们占用太多空间。我们提出了Ajtai-Komlos-Szemeredi方法的一种新实现,它能够将使用r个随机比特和概率为/spl epsiv/的误差的s-空间算法扩展到使用r+O(k)个随机比特和概率为/spl epsiv//sup /spl Omega/(k)/的误差的O(k) -空间算法。该方法可以将BPL算法的错误概率降低到任意常数以下,只需要增加一个常数的新随机比特。这比仅使用O(r)个随机比特的方法可以实现的BPP算法的指数缩减要弱。然而,我们证明了任何使用O(r)个随机比特并进行最多p个并行模拟的黑盒放大方法将误差减少到最多/spl //sup O(p)/。因此,在BPL中,p应该是一个常数,误差不能减小到小于一个常数。这意味着我们的方法相对于使用O(r)个随机比特的黑盒放大方法是最优的。AKS方法的新实现是基于常数空间在线提取器和在线扩展器的显式构造。这些是提取器和扩展器,它们的邻域可以用带有单向输入磁带的图灵机在常数空间中计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deterministic amplification of space-bounded probabilistic algorithms
This paper initiates the study of deterministic amplification of space-bounded probabilistic algorithms. The straightforward implementations of known amplification methods cannot be used for such algorithms, since they consume too much space. We present a new implementation of the Ajtai-Komlos-Szemeredi method, that enables to amplify an S-space algorithm that uses r random bits and errs with probability /spl epsiv/ to an O(kS)-space algorithm that uses r+O(k) random bits and errs with probability /spl epsiv//sup /spl Omega/(k)/. This method can be used to reduce the error probability of BPL algorithms below any constant, with only a constant addition of new random bits. This is weaker than the exponential reduction that can be achieved for BPP algorithms by methods that use only O(r) random bits. However we prove that any black-box amplification method that uses O(r) random bits and makes at most p parallel simulations reduces the error to at most /spl epsiv//sup O(p)/. Hence, in BPL, where p should be a constant, the error cannot be reduced to less than a constant. This means that our method is optimal with respect to black-box amplification methods, that use O(r) random bits. The new implementation of the AKS method is based on explicit constructions of constant-space online extractors and online expanders. These are extractors and expanders, for which neighborhoods can be computed in a constant space by a Turing machine with a one-way input tape.
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