Achieving Arbitrary Locality and Availability in Binary Codes
January 18, 2015 Β· Declared Dead Β· π International Symposium on Information Theory
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Authors
Anyu Wang, Zhifang Zhang
arXiv ID
1501.04264
Category
cs.IT: Information Theory
Citations
87
Venue
International Symposium on Information Theory
Last Checked
4 months ago
Abstract
The $i$th coordinate of an $(n,k)$ code is said to have locality $r$ and availability $t$ if there exist $t$ disjoint groups, each containing at most $r$ other coordinates that can together recover the value of the $i$th coordinate. This property is particularly useful for codes for distributed storage systems because it permits local repair and parallel accesses of hot data. In this paper, for any positive integers $r$ and $t$, we construct a binary linear code of length $\binom{r+t}{t}$ which has locality $r$ and availability $t$ for all coordinates. The information rate of this code attains $\frac{r}{r+t}$, which is always higher than that of the direct product code, the only known construction that can achieve arbitrary locality and availability.
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