As a special class of array codes, $(n,k,m)$ piggybacking codes are MDS codes (i.e., any $k$ out of $n$ nodes can retrieve all data symbols) that can achieve low repair bandwidth for single-node failure with low sub-packetization $m$. In this paper, we propose two new piggybacking codes that have lower repair bandwidth than the existing piggybacking codes given the same parameters. Our first piggybacking codes can support flexible sub-packetization $m$ with $2\leq m\leq n-k$, where $n - k > 3$. We show that our first piggybacking codes have lower repair bandwidth for any single-node failure than the existing piggybacking codes when $n - k = 8,9$, $m = 6$ and $30\leq k \leq 100$. Moreover, we propose second piggybacking codes such that the s...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures for a given n...
We propose a new hybrid coding scheme to store data reliably, homomorphic minimum bandwidth repairin...
28th International Symposium on Computer and Information Sciences (ISCIS) -- OCT 28-29, 2013 -- Inst...
We present the construction of a family of erasure correcting codes for distributed storage that ach...
In the literature, all the known high-rate MDS codes with the optimal repair bandwidth possess a sig...
Maximum distance separable (MDS) codes have the optimal trade-off between storage efficiency and fau...
We present a new piggybacking framework for designing distributed storage codes that are efficient i...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures for a given n...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures given the nu...
We present the construction of a new family of erasure correcting codes for distributed storage that...
The first focus of the present paper, is on lower bounds on the sub-packetization level alpha of an ...
Given the scale of today's distributed storage systems, the failure of an individual node is a commo...
Maximum distance separable (MDS) codes are widely used in storage systems to protect against disks (...
Maximum distance separable (MDS) codes are widely used in storage systems to protect against disk (n...
MDS (maximum distance separable) array codes are widely used in storage systems due to their computa...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures for a given n...
We propose a new hybrid coding scheme to store data reliably, homomorphic minimum bandwidth repairin...
28th International Symposium on Computer and Information Sciences (ISCIS) -- OCT 28-29, 2013 -- Inst...
We present the construction of a family of erasure correcting codes for distributed storage that ach...
In the literature, all the known high-rate MDS codes with the optimal repair bandwidth possess a sig...
Maximum distance separable (MDS) codes have the optimal trade-off between storage efficiency and fau...
We present a new piggybacking framework for designing distributed storage codes that are efficient i...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures for a given n...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures given the nu...
We present the construction of a new family of erasure correcting codes for distributed storage that...
The first focus of the present paper, is on lower bounds on the sub-packetization level alpha of an ...
Given the scale of today's distributed storage systems, the failure of an individual node is a commo...
Maximum distance separable (MDS) codes are widely used in storage systems to protect against disks (...
Maximum distance separable (MDS) codes are widely used in storage systems to protect against disk (n...
MDS (maximum distance separable) array codes are widely used in storage systems due to their computa...
MDS codes are erasure-correcting codes that can correct the maximum number of erasures for a given n...
We propose a new hybrid coding scheme to store data reliably, homomorphic minimum bandwidth repairin...
28th International Symposium on Computer and Information Sciences (ISCIS) -- OCT 28-29, 2013 -- Inst...