Database Reference
In-Depth Information
[43] Zheng M, Tucek J, Qin F, Lillibridge M. Understanding the robustness of SSDs under
power fault. In: USENIX conference on file and storage technologies; 2013.
[44] Kadav A, Balakrishnan M, Prabhakaran V, Malkhi D. Differential RAID: rethinking RAID
for SSD reliability. ACM SIGOPS Operating Systems Rev 2010;6:55-9 .
[45] Park K, Lee D, Woo Y, Lee G. Reliability and performance enhancement technique for
SSD array storage system using RAID mechanism. In: International symposium on com-
munications and information technology; 2009. p. 140-145.
[46] Gharaibeh A, Al-Kiswany S, Ripeanu M. ThriftStore: finessing reliability trade-offs in
replicated storage systems. IEEE Trans Parallel Distributed Systems 2011;22:910-23 .
[47] Adya A, Bolosky WJ, Castro M, Cermak G, Chaiken R, Douceur JR, et al. FARSITE: fed-
erated, available, and reliable storage for an incompletely trusted environment. In: Sympo-
sium on operating systems design and implementation; 2002. p. 1-14.
[48] Bhagwan R, Tati K, Cheng Y, Savage S, Voelker GM. TotalRecall: system support for au-
tomated availability management. In: USENIX symposium on networked systems design
and implementation; 2004. p. 337-350.
[49] Carns PH, Ligon WBI, Ross RB, Thakur R. “PVFS: a parallel file system for Linux clus-
ters. In: Annual linux showcase and conference 2000. p. 317-327.
[50] Weil SA, Brandt SA, Miller EL, Long DD, Maltzahn C. Ceph: a scalable, high-performance
distributed file system. In: Symposium on operating systems design and implementation;
2006. p. 307-320.
[51] Vazhkudai SS, Ma X, Freeh VW, Strickland JW, Tammineedi N, Scott SL. FreeLoader:
scavenging desktop storage resources for scientific data. In: ACM/IEEE conference on
supercomputing; 2005. p. 377-391.
[52] Calder B, Wang J, Ogus A, Nilakantan N, Skjolsvold A, McKelvie S, et al. Windows azure
storage: a highly available cloud storage service with strong consistency. In: ACM sympo-
sium on operating systems principles; 2011. p. 143-157.
[53] Cooper BF. Peer-to-peer data preservation through storage auctions. IEEE Trans Parallel
Distributed Systems 2005;16:246-57 .
[54] Dabrowski C. Reliability in grid computing systems. Concurrency Comput Practice Expe-
rience 2009;21:927-59 .
[55] Lei M, Vrbsky SV, Qi Z. Online grid replication optimizers to improve system reliability.
In: IEEE international parallel and distributed processing symposium; 2007. p. 1-8.
[56] Saito Y, Shapiro M. Optimistic replication. ACM Comput Surv 2005;37:42-81 .
[57] Schintke F, Alexander R. Modeling replica availability in large data grids. J Grid Comput
2003;1:219-27 .
[58] Stockinger H, Samar A, Allcock B, Foster I, Holtman K, Tierney B. File and object replica-
tion in data grids. J Cluster Comput 2002;5:305-14 .
[59] Zhao W, Melliar-Smith PM, Moser LE. Fault tolerance middleware for cloud computing.
In: IEEE international conference on Cloud computing; 2010. p. 67-74.
[60] Lian Q, Chen W, Zhang Z. On the impact of replica placement to the reliability of distrib-
uted brick storage systems. In: International conference on distributed computing systems;
2005. p. 187-196.
[61] Li W, Yang Y, Yuan D. A novel cost-effective dynamic data replication strategy for reli-
ability in cloud data centres. In: International conference on Cloud and green computing;
2011. p. 496-502.
[62] Muthitacharoen A, Morris R, Gil TM, Chen B. Ivy: A read/write peer-to-peer file system.
In: Symposium on operating systems design and implementation; 2002. p. 31-44.
[63] Wikipedia. Erasure code, available < http://en.wikipedia.org/wiki/Erasure_code > ; 2013.
[64] Chen SZ, Towsley D. The design and evaluation of RAID 5 and parity striping disk array
architectures. J Parallel Distributed Comput 1993;17:58-74 .
 
Previous Page
Next Page
Reliability Assurance of Big Data in the Cloud
Search WWH ::




Custom Search
Home