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STOC
2004
ACM

Sorting and searching in the presence of memory faults (without redundancy)

15 years 22 days ago
Sorting and searching in the presence of memory faults (without redundancy)
We investigate the design of algorithms resilient to memory faults, i.e., algorithms that, despite the corruption of some memory values during their execution, are able to produce a correct output on the set of uncorrupted values. In this framework, we consider two fundamental problems: sorting and searching. In particular, we prove that any O(n log n) comparison-based sorting algorithm can tolerate at most O((n log n)1/2 ) memory faults. Furthermore, we present one comparison-based sorting algorithm with optimal space and running time that is resilient to O((n log n)1/3 ) faults. We also prove polylogarithmic lower and upper bounds on faulttolerant searching. Categories and Subject Descriptors F.2.2 [Analysis of algorithms and problem complexity]: Nonnumerical algorithms and problems--sorting and searching; E.1 [Data]: Data structures. General Terms Algorithms, reliability, theory. Keywords Combinatorial algorithms, sorting, searching, memory faults, memory models.
Irene Finocchi, Giuseppe F. Italiano
Added 03 Dec 2009
Updated 03 Dec 2009
Type Conference
Year 2004
Where STOC
Authors Irene Finocchi, Giuseppe F. Italiano
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