Companson and Diagnosis of Large Replicated Files
IEEE Transactions on Software Engineering - Special issue on distributed systems
Multidimensional Timestamp Protocols for Concurrency Control
IEEE Transactions on Software Engineering
A Pessimistic Consistency Control Algorithm for Replicated Files Which Achieves High Availability
IEEE Transactions on Software Engineering
A Dynamic Voting Scheme in Distributed Systems
IEEE Transactions on Software Engineering
Stochastic Petri Net Analysis of a Replicated File System
IEEE Transactions on Software Engineering
Efficient Replicated Remote File Comparison
IEEE Transactions on Computers
Efficient detection of corrupted pages in a replicated file
PODC '93 Proceedings of the twelfth annual ACM symposium on Principles of distributed computing
Locating Corruptions in a Replicated File in a Distributed Environment
The Journal of Supercomputing
Consistency and recovery control for replicated files
Proceedings of the tenth ACM symposium on Operating systems principles
A Class of Randomized Strategies for Low-Cost Comparison of File Copies
IEEE Transactions on Parallel and Distributed Systems
An Optimal Strategy for Comparing File Copies
IEEE Transactions on Parallel and Distributed Systems
Detecting Corrupted Pages in M Replicated Large Files
IEEE Transactions on Parallel and Distributed Systems
Proceedings of the Fifth International Conference on Data Engineering
Locating more corruptions in a replicated file
SRDS '96 Proceedings of the 15th Symposium on Reliable Distributed Systems
Efficient detection of discrepancies in multiple file copies
Distributed Computing
ICDE '04 Proceedings of the 20th International Conference on Data Engineering
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We present a new technique for locating corrupted page copies, outdated page copies, and missing page copies in multiple replicated large file copies. We present four communication models and four communication protocols to be used in this technique. These four protocols are classified according to using or not using a coordinator site, groups, and/or a master signature. Whereas, other previous works consider locating only corrupted page copies, our protocols can locate outdated page copies and missing page copies as well as corrupted page copies. In addition, whereas other previous works are based on majority rule to determine the correct copy, our protocols are not. The performances of these protocols are measured in terms of the number of transmissions and the number of transmitted signatures. We compare these performances with one another and, also, compare them to the performances of other previous works.