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Improving Backup and Restore Performance for Deduplication-based Cloud Backup Services
| Content Provider | Semantic Scholar |
|---|---|
| Author | Mkandawire, Stephen |
| Copyright Year | 2012 |
| Abstract | The benefits provided by cloud computing and the space savings offered by data deduplication make it attractive to host data storage services like backup in the cloud. Data deduplication relies on comparing fingerprints of data chunks, and store them in the chunk index, to identify and remove redundant data, with an ultimate goal of saving storage space and network bandwidth. However, the chunk index presents a bottleneck to the throughput of the backup operation. While several solutions to address deduplication throughput have been proposed, the chunk index is still a centralized resource and limits the scalability of both storage capacity and backup throughput in public cloud environments. In addressing this challenge, we propose the Scalable Hybrid Hash Cluster (SHHC) that hosts a low-latency distributed hash table for storing fingerprints. SHHC is a cluster of nodes designed to scale and handle numerous concurrent backup requests while maintaining high fingerprint lookup throughput. Each node in the cluster features hybrid memory consisting of DRAM and Solid State Drives (SSDs) to present a large usable memory for storing the chunk index. Our evaluation with real-world workloads shows that SHHC is consistently scalable as the number of nodes increases. The throughput increases almost linearly with the number of nodes. The restore performance over the relatively low bandwidth wide area network (WAN) links is another drawback in the use of cloud backup services. High speed network connectivity is either too expensive for most organizations or reserved for special applications. Removing redundant data before transmitting over the WAN offers a viable option to improve network throughput during the restore operation. To that end, we propose Application-Aware Phased Restore (AAPR), a simple restore solution for deduplication-based cloud backup clients. AAPR improves restore time by removing redundant data before transmitting over the WAN. Furthermore, we exploit application awareness to restore critical data first and thus improve the recovery time. Our evaluations show that, for workloads with high redundancy, AAPR reduces restore time by over 85%. iv ACKNOWLEDGEMENTS I would like to express my thanks first and foremost to the Almighty God without whom all this is meaningless. I would like to deeply thank my advisor, Dr. Hong Jiang, for his support and guidance. Thank you for being patient with me and guiding me not only academically but also on other natters of life. In you I found a true mentor and it's an honor and privilege to be advised … |
| File Format | PDF HTM / HTML |
| Alternate Webpage(s) | https://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1055&context=computerscidiss |
| Alternate Webpage(s) | http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1055&context=computerscidiss |
| Language | English |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Article |
