Title :
Optimal Resilience for Erasure-Coded Byzantine Distributed Storage
Author :
Cachin, Christian ; Tessaro, Stefano
Author_Institution :
Zurich Res. Lab., IBM Res., Zurich
Abstract :
We analyze the problem of efficiently storing large amounts of data on a distributed set of servers that may be accessed concurrently from multiple clients by sending messages over an asynchronous network. Up to one third of the servers and an arbitrary number of clients may be faulty and exhibit Byzantine behavior. We provide the first simulation of a multiple-writer multiple-reader atomic read/write register using erasure-coding in this setting that achieves optimal resilience and minimal storage overhead. Additionally, we give the first implementation of non-skipping timestamps which provides optimal resilience and withstands Byzantine clients; it is based on threshold cryptography
Keywords :
client-server systems; codes; computational complexity; cryptography; digital simulation; distributed object management; fault tolerant computing; message passing; network servers; storage management; asynchronous network; erasure-coded Byzantine distributed storage; message passing; multiple-writer multiple-reader atomic read-write register; optimal resilience; threshold cryptography; Access protocols; Computer science; Cryptography; Data security; Fault tolerance; Information security; Laboratories; Network servers; Resilience; Storage area networks;
Conference_Titel :
Dependable Systems and Networks, 2006. DSN 2006. International Conference on
Conference_Location :
Philadelphia, PA
Print_ISBN :
0-7695-2607-1
DOI :
10.1109/DSN.2006.56
