Approaches to design of temporary blackout handling capabilities and an evaluation with a real-time tightly coupled network testbed

Approaches to design of temporary blackout handling capabilities and an evaluation with a real-time tightly coupled network testbed

The problem of designing real-time tightly coupled networks (TCNs) that can survive through temporary blackout (TB) events that disrupt orderly operation of electronic components and erase the contents of all registers and RAMs is treated. Three approaches are considered. The first, in existence for...

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Bibliographic Details
Published in:[1991] Digest of Papers. Fault-Tolerant Computing: The Twenty-First International Symposium pp. 470 - 477
Main Authors: Kim, K.H., Guan, W.J., Damm, A., Rohr, J.A.
Format: Conference Proceeding
Language:English
Published: IEEE Comput. Soc. Press 1991
Subjects:
Application software
Distributed computing
Distributed control
Electronic components
Local area networks
Read-write memory
Real time systems
Registers
Software design
Testing
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Summary:The problem of designing real-time tightly coupled networks (TCNs) that can survive through temporary blackout (TB) events that disrupt orderly operation of electronic components and erase the contents of all registers and RAMs is treated. Three approaches are considered. The first, in existence for some time although not practiced extensively, relies on the software designer for highly application-dependent design of all parts of TB handling procedures. The second is a fully application-transparent approach to state saving based on the use of recoverable regions. The third, a compromise between the first two approaches, uses time-driven insertion of saving points and relies on the software designer to determine the membership of the state vector. An experiment that involved designing TB handling capabilities into a real-time TCN testbed using each approach is reported. The testbed-based evaluation results validated the practicality of the two new approaches and indicated the complementary relationship between them and the first approach.< >
ISBN:9780818621505
0818621508
DOI:10.1109/FTCS.1991.146703