A Generic Transformation to Enable Optimal Repair in MDS Codes for Distributed Storage Systems
April 26, 2016 Β· Declared Dead Β· π IEEE Transactions on Information Theory
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Authors
Jie Li, Xiaohu Tang, Chao Tian
arXiv ID
1604.07671
Category
cs.IT: Information Theory
Citations
86
Venue
IEEE Transactions on Information Theory
Last Checked
4 months ago
Abstract
We propose a generic transformation that can convert any nonbinary $(n=k+r,k)$ maximum distance separable (MDS) code into another $(n,k)$ MDS code over the same field such that 1) some arbitrarily chosen $r$ nodes have the optimal repair bandwidth and the optimal rebuilding access, 2) for the remaining $k$ nodes, the normalized repair bandwidth and the normalized rebuilding access (over the file size) are preserved, 3) the sub-packetization level is increased only by a factor of $r$. Two immediate applications of this generic transformation are then presented. The first application is that we can transform any nonbinary MDS code with the optimal repair bandwidth or the optimal rebuilding access for the systematic nodes only, into a new MDS code which possesses the corresponding repair optimality for all nodes. The second application is that by applying the transformation multiple times, any nonbinary $(n,k)$ scalar MDS code can be converted into an $(n,k)$ MDS code with the optimal repair bandwidth and the optimal rebuilding access for all nodes, or only a subset of nodes, whose sub-packetization level is also optimal.
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