DocumentCode
2848921
Title
SVL: storage virtualization engine leveraging DBMS technology
Author
Qiao, Lin ; Iyer, Balakrishna R. ; Agrawal, Divyakant ; Abbadi, A.E.
Author_Institution
IBM Silicon Valley Lab, San Jose, CA, USA
fYear
2005
fDate
5-8 April 2005
Firstpage
1048
Lastpage
1059
Abstract
The demands on storage systems are increasingly requiring expressiveness, fault-tolerance, security, distribution, etc. Such functionalities have been traditionally provided by DBMS. We propose a storage management system, SVL that leverages DBMS technology. The primary problem in block storage management is block virtualization, which is essentially an abstraction layer that separates the user view of storage from the implementation of storage. Storage virtualization standardizes storage management in a heterogeneous storage and/or host environment, and plays a crucial role in enhancing storage functionality and utilization. Currently specialized hardware or microcode-based solutions are popular for implementing block storage management systems, commonly referred to as disk controllers. We demonstrate how to take a general purpose commercial RDBMS, rather than a specialized solution, to support block storage management. We exploit the simple semantics of storage management systems to streamline database performance and thus attain acceptability from a storage point of view. This work promises to pave the way for diverse and innovative industrial applications of database management systems.
Keywords
relational databases; virtual storage; block storage management system; block virtualization; commercial RDBMS; disk controller; relational database management system; storage virtualization engine; Application software; Costs; Data security; Databases; Engines; Environmental management; Fault tolerant systems; Hardware; Secure storage; Technology management;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Engineering, 2005. ICDE 2005. Proceedings. 21st International Conference on
ISSN
1084-4627
Print_ISBN
0-7695-2285-8
Type
conf
DOI
10.1109/ICDE.2005.138
Filename
1410215
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