Maintenance-free global data storage

Author

Rhea, Sean ; Wells, Chris ; Eaton, Patrick ; Geels, Dennis ; Zhao, Bin ; Weatherspoon, Hakim ; Kubiatowicz, John

Author_Institution

California Univ., Berkeley, CA, USA

Volume

5

Issue

5

fYear

2001

Firstpage

40

Lastpage

49

Abstract

Explores mechanisms for storage-level management in OceanStore, a global-scale distributed storage utility infrastructure, designed to scale to billions of users and exabytes of data. OceanStore automatically recovers from server and network failures, incorporates new resources and adjusts to usage patterns. It provides its storage platform through adaptation, fault tolerance and repair. The only role of human administrators in the system is to physically attach or remove server hardware. Of course, an open question is how to scale a research prototype in such a way to demonstrate the basic thesis of this article - that OceanStore is self-maintaining. The allure of connecting millions or billions of components together is the hope that aggregate systems can provide scalability and predictable behavior under a wide variety of failures. The OceanStore architecture is a step towards this goal

Keywords

distributed databases; fault tolerant computing; parallel memories; storage management; OceanStore; adaptation; aggregate systems; fault tolerance; global-scale distributed storage utility infrastructure; maintenance-free global data storage; network failure recovery; predictable behavior; repair; research prototype; scalability; self-maintaining system; server failure recovery; server hardware; storage-level management; system architecture; usage patterns; Cryptography; Home appliances; Internet; Joining processes; Memory; Network servers; Personal communication networks; Routing; Storage automation; Web server;

fLanguage

English

Journal_Title

Internet Computing, IEEE

Publisher

ieee

ISSN

1089-7801

Type

jour

DOI

10.1109/4236.957894

Filename

957894