期刊名称:Electronic Colloquium on Computational Complexity
印刷版ISSN:1433-8092
出版年度:2010
卷号:2010
出版社:Universität Trier, Lehrstuhl für Theoretische Computer-Forschung
摘要:An approximate membership data structure is a randomized data
structure for representing a set which supports membership
queries. It allows for a small false positive error rate but has
no false negative errors. Such data structures were first
introduced by Bloom in the 1970's, and have since had numerous
applications, mainly in distributed systems, database systems, and
networks.
The algorithm of Bloom is quite effective: it can store a set S
of size n by using only 144nlog2(1\eps) bits
while having false positive error \eps. This is within a
constant factor of the entropy lower bound of nlog2(1\eps)
for storing such sets. Closing this gap is an important open
problem, as Bloom filters are widely used is situations were
storage is at a premium.
Bloom filters have another property: they are dynamic. That is,
they support the iterative insertions of up to n elements. In
fact, if one removes this requirement, there exist static data
structures which receive the entire set at once and can almost
achieve the entropy lower bound; they require only nlog2(1\eps)(1+o(1)) bits.
Our main result is a new lower bound for the memory requirements
of any dynamic approximate membership data structure. We show that
for any constant \eps0, any such data structure which achieves
false positive error rate of \eps must use at least C(\eps)nlog2(1\eps) memory bits, where C(\eps)1 depends
only on \eps. This shows that the entropy lower bound cannot be
achieved by dynamic data structures for any constant error rate.
关键词:bloom filter, dynamic data structures, lower bound
