Tolerating bounded inconsistency for increasing concurrency in database systems

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Tolerating bounded inconsistency for increasing concurrency in database systems

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Symposium on Principles of Database Systems archive
Proceedings of the eleventh ACM SIGACT-SIGMOD-SIGART symposium on Principles of database systems table of contents

San Diego, California, United States

Pages: 236 - 245

Year of Publication: 1992

ISBN:0-89791-519-4

Authors

M. H. Wong
D. Agrawal

Sponsors

SIGACT: ACM Special Interest Group on Algorithms and Computation Theory
SIGART: ACM Special Interest Group on Artificial Intelligence
SIGMOD: ACM Special Interest Group on Management of Data

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 2, Downloads (12 Months): 18, Citation Count: 9

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ABSTRACT

Recently, the scope of databases has been extended to many non-standard applications, and serializability is found to be too restrictive for such applications. In general, two approaches are adopted to address this problem. The first approach considers placing more structure on data objects to exploit type specific properties while keeping serializability as the correctness criterion. The other approach uses explicit semantics of transactions and databases to permit interleaved executions of transactions that are non-serializable. In this paper, we attempt to bridge the gap between the two approaches by using the notion of serializability with bounded inconsistency. Users are free to specifiy the maximum level of inconsistency that can be allowed in the executions of operations dynamically. In particular, if no inconsistency is allowed in the execution of any operation, the protocol will be reduced to a standard strict two phase locking protocol based on type-specific semantics of data objects. Bounded inconsistency can be applied to many areas which do not require exact values of the data such as for gathering information for statistical purpose, for making high level decisions and reasoning in expert systems which can tolerate uncertainty in input data.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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CITED BY 9

	Dahlia Malkhi , Michael K. Reiter , Avishai Wool , Rebecca N. Wright, Probabilistic quorum systems, Information and Computation, v.170 n.2, p.184-206, November 1, 2001
	Sharad Mehrotra , Rajeev Rastogi , Henry F. Korth , Abraham Silberschatz, Ensuring consistency in multidatabases by preserving two-level serializability, ACM Transactions on Database Systems (TODS), v.23 n.2, p.199-230, June 1998
	Narayanan Krishnakumar , Arthur J. Bernstein, Bounded ignorance: a technique for increasing concurrency in a replicated system, ACM Transactions on Database Systems (TODS), v.19 n.4, p.586-625, Dec. 1994
	Man Hon Wong, Recovery for transaction failures in object-based databases, Proceedings of the fifteenth ACM SIGACT-SIGMOD-SIGART symposium on Principles of database systems, p.139-149, June 04-06, 1996, Montreal, Quebec, Canada
	Haifeng Yu , Amin Vahdat, Design and evaluation of a conit-based continuous consistency model for replicated services, ACM Transactions on Computer Systems (TOCS), v.20 n.3, p.239-282, August 2002
	Lisa Cingiser DiPippo , Victor Fay Wolfe, Object-Based Semantic Real-Time Concurrency Control with Bounded Imprecision, IEEE Transactions on Knowledge and Data Engineering, v.9 n.1, p.135-147, January 1997
	Evaggelia Pitoura , Bharat Bhargava, Data Consistency in Intermittently Connected Distributed Systems, IEEE Transactions on Knowledge and Data Engineering, v.11 n.6, p.896-915, November 1999
	Haifeng Yu , Amin Vahdat, Design and evaluation of a continuous consistency model for replicated services, Proceedings of the 4th conference on Symposium on Operating System Design & Implementation, p.21-21, October 22-25, 2000, San Diego, California
	Alexander Totok , Vijay Karamcheti, Modeling of concurrent web sessions with bounded inconsistency in shared data, Journal of Parallel and Distributed Computing, v.67 n.7, p.830-847, July, 2007