Optimization of a real-time primary-backup replication service

The primary-backup replication model is one of the commonly adopted approaches to providing fault tolerant data services. Its extension to the real time environment, however, imposes the additional constraint of timing predictability, which requires a bounded overhead for managing redundancy. The pa...

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Bibliographic Details
Main Authors: Hengming Zou, Jahanian, F.
Format: Conference Proceeding
Language:English
Subjects:
Application software
Buildings
Environmental management
Fault tolerance
Fault tolerant systems
Laboratories
Protocols
Real time systems
Redundancy
Timing
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Summary:The primary-backup replication model is one of the commonly adopted approaches to providing fault tolerant data services. Its extension to the real time environment, however, imposes the additional constraint of timing predictability, which requires a bounded overhead for managing redundancy. The paper discusses the trade-off between reducing system overhead and increasing (temporal) consistency between the primary and backup, and explores ways to optimize such a system to minimize either the inconsistency or the system overhead while maintaining the temporal consistency guarantees of the system. An implementation built on top of the existing RTPB model (H. Zou and F. Jahanian, 1998) was developed within the x-kernel architecture on the Mach OSF platform running MK 7.2. Results of an experimental evaluation of the proposed optimization techniques are discussed.
ISSN:1060-9857
2575-8462
DOI:10.1109/RELDIS.1998.740492