地理关联攻击后的数据恢复

2015 11th International Conference on the Design of Reliable Communication Networks (DRCN) Pub Date : 2015-03-24 DOI:10.1109/DRCN.2015.7148986

G. Grebla, A. Efrat, Esther Ezra, R. Pinchasi, Swaminathan Sankararaman

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引用次数: 1

摘要

在分布式存储网络中，保证硬件故障时数据的可用性是一个重要的要求。通常，使用复制和擦除编码等冗余方案来确保这一点。在硬件故障的情况下，这些网络可能被断开为多个组件，每个组件都可能需要访问数据。此外，冗余信息的放置也必须优化，因为它是不断变化的，需要不断更新。我们研究了在这种网络中选择一组节点的问题，以便在面对地理相关故障时保持数据的可用性。我们将任意形状的故障事件建模为平面上磁盘或线段的联合，并提出了选择最小冗余信息位置(如副本或编码文件段)的近似算法，以便在面对任何故障事件时保证每个节点的数据恢复。使用计算几何工具，我们的算法是高效的，并提供良好的保证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Data recovery after geographic correlated attacks

In distributed storage networks, ensuring data availability in the presence of hardware faults is an important requirement. Typically, redundancy schemes such as replication and erasure coding are used to ensure this. In case of hardware failures, these networks may be disconnected into multiple components, each of which may require access to the data. In addition, the placement of redundant information must also be optimized as it is ever-changing and requires constant updating. We study the problem of selecting a set of nodes in networks of this kind so that data availability is maintained in the face of geographically correlated failures. We model failure events of arbitrary shapes as the union of disks or line segments in the plane and present approximation algorithms for the problem of selecting a minimum number of redundant information locations (such as replicas or coded file segments) so that data recovery is guaranteed at every node in the face of any failure event. Using tools from computational geometry, our algorithms are efficient and provide good guarantees.

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来源期刊

2015 11th International Conference on the Design of Reliable Communication Networks (DRCN)

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