Jie Li, Xiaohu Tang, Hanxu Hou, Y. Han, B. Bai, Gong Zhang
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引用次数: 2
摘要
PMDS (Partial maximum distance分离式部分最大距离可分离码)是将存储节点分成多组,每组组成一个较小码长的MDS码的一种擦除码。它们允许通过仅联系几个辅助节点来修复故障节点,并且可以纠正所有在信息理论上可纠正的擦除模式。但是,在组规模较大的情况下,PMDS码的故障节点修复仍然需要大量的通信。近年来,为了进一步减少修复带宽,引入了每个局部码都是MSR码的PMDS阵列码,但小有限域上的码只存在两个全局对,需要大量的重建访问,并且不可避免地需要很大的子分组级别。本文提出了两种具有两个和三个全局对的PMDS阵列码结构。两者都具有小的子分组级别、小的修复带宽和比现有的小得多的有限域。
PMDS Array Codes With Small Sub-packetization Level and Small Repair Bandwidth
Partial maximum distance separable (PMDS) codes are a kind of erasure codes where the storage nodes are divided into multiple groups with each forming an MDS code of a smaller code length. They allow repairing a failed node by contacting only a few helper nodes and can correct all erasure patterns which are information-theoretically correctable. However, the repair of a failed node of PMDS codes still requires a large amount of communication if the group size is large. Recently, PMDS array codes with each local code being an MSR code were introduced to further reduce the repair bandwidth, but codes over small finite fields only exist for two global parities, and require large rebuilding access and unavoidably a large sub-packetization level. In this paper, we propose two constructions of PMDS array codes with two and three global parities, respectively. Both have a small sub-packetization level, small repair bandwidth, and much smaller finite fields than existing ones.
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