Locally repairable codes (LRCs) with multiple recovering sets are highly demanded in distributed storage systems. In this letter, we generalize the construction of WZL code proposed by Wang et al. and give a construction of optimal binary LRCs with multiple disjoint recovering sets which can reach the upper bound on the code rate given by Kadhe et al.. Then we further generalize our idea to obtain a construction of binary LRCs with intersect recovering sets. The code rate is much higher than that of WZL code and is very closed to the construction of Kruglik et al. Moreover, two special cases of this construction can reach the upper bound on the minimum distance
Regenerating codes and codes with locality are schemes recently proposed for a distributed storage n...
Abstract—Erasure-correcting codes, that support local repair of codeword symbols, have attracted sub...
Typically, locally repairable codes (LRCs) and regenerating codes have been studied independently of...
A code is called a locally recoverable code (LRC) with locality r if any symbol of a codeword can be...
In this paper, a new family of binary LRCs (BLRCs) with locality 2 and uneven availabilities for hot...
Abstract—This paper presents a new explicit construction for locally repairable codes (LRCs) for dis...
Locally repairable codes (LRCs) have gained significant interest for the design of large distributed...
Locally repairable codes (LRCs), which can recover any symbol of a codeword by reading only a small ...
This paper considers the natural extension of locally recoverable codes (LRC) to the case of t > 1 e...
Abstract—Petabyte-scale distributed storage systems are cur-rently transitioning to erasure codes to...
Recently, locally repairable codes have gained significant interest for their potential applications...
Locally repairable codes (LRCs) are a new family of erasure codes used in distributed storage system...
Abstract—Distributed storage systems need to store data re-dundantly in order to provide some fault-...
Locally repairable codes (LRCs) are error correcting codes used in distributed data storage. Besides...
Abstract—Erasure-correcting codes, that support local repair of codeword symbols, have attracted sub...
Regenerating codes and codes with locality are schemes recently proposed for a distributed storage n...
Abstract—Erasure-correcting codes, that support local repair of codeword symbols, have attracted sub...
Typically, locally repairable codes (LRCs) and regenerating codes have been studied independently of...
A code is called a locally recoverable code (LRC) with locality r if any symbol of a codeword can be...
In this paper, a new family of binary LRCs (BLRCs) with locality 2 and uneven availabilities for hot...
Abstract—This paper presents a new explicit construction for locally repairable codes (LRCs) for dis...
Locally repairable codes (LRCs) have gained significant interest for the design of large distributed...
Locally repairable codes (LRCs), which can recover any symbol of a codeword by reading only a small ...
This paper considers the natural extension of locally recoverable codes (LRC) to the case of t > 1 e...
Abstract—Petabyte-scale distributed storage systems are cur-rently transitioning to erasure codes to...
Recently, locally repairable codes have gained significant interest for their potential applications...
Locally repairable codes (LRCs) are a new family of erasure codes used in distributed storage system...
Abstract—Distributed storage systems need to store data re-dundantly in order to provide some fault-...
Locally repairable codes (LRCs) are error correcting codes used in distributed data storage. Besides...
Abstract—Erasure-correcting codes, that support local repair of codeword symbols, have attracted sub...
Regenerating codes and codes with locality are schemes recently proposed for a distributed storage n...
Abstract—Erasure-correcting codes, that support local repair of codeword symbols, have attracted sub...
Typically, locally repairable codes (LRCs) and regenerating codes have been studied independently of...