通过[, , ]简约代码图,从网格划分中衍生出具有局部性和可用性的可扩展代码

Peter Farkaš
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摘要

摘要 最近提出了一种新的可扩展代码系列,具有定位性和可用性,可用于电子健康应用数据存储系统中的信息修复。其构造基于 [7, 3, 4] Simplex 代码的图形。本文表明,这种构造可以通过欧几里得平面上的细分来加以推广。所获得的代码具有新的有趣的可恢复性。在某些情况下,它们可以通过顺序解码修复多个连通图中多个存储节点的损坏,这类似于生物系统中的伤口愈合。原始代码的优势,即可用性、功能性、效率和高数据可访问性,也将在这些新代码中得以保留。其增量的计算复杂性和通信成本将保持不变,而且并不高。这些代码可适用于灾后恢复,因为节点的放置非常简单,可以轻松地将图映射到空间中的真实结构上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scalable codes with locality and availability derived from tessellation via [, , ] Simplex code graph
Abstract A new family of scalable codes with locality and availability for information repair in data storage systems for e-health applications was presented recently. The construction was based on a graph of the [7, 3, 4] Simplex code. In this paper it is shown that the construction can be generalized via tessellation in a Euclidian plane. The codes obtained have new interesting recoverability properties. They can in some cases repair damage to many storage nodes in multiple connected graphs via sequential decoding, which is similar to healing wounds in biological systems. The advantages of the original codes, namely the availability, functionality, efficiency and high data accessibility, will be preserved also in these new codes. The computational complexity and communication costs of their incrementation will remain constant and modest. These codes could be adapted to disaster recovery because it is straightforward to place the nodes so that the graph is easily mapped on a real structure in space.
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