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BIB

All authors

Müllner, Nils and Theel, Oliver and Fränzle, Martin

Journal

Advanced Information Networking and Applications, International Conference on

Abstract

Verifying fault tolerance properties of a distributedsystem can be achieved by state space analysis via Markov chains. Yet, the power of such exact analytic methods is confined by exponential growth of the chain's state space in the size of the system modeled. We propose a method that alleviates this limit. Lumping is a well known reduction technique that can be applied to a Markov chain to prune redundant information. We propose a system decomposition to employ lumping piecewise on theconsiderably smaller Markov chains of the subsystems which are much more likely to be tractable. Recomposing the lumped Markov chains of the subsystems results in a state space that is likely to be considerably smaller. An example demonstrates how the limiting window availability (i.e. a fault tolerance property) can be computed for a system while exploiting the combination of lumping and decomposition.

Publishing date

03 / 2012

ISBN / ISSN

1550-445X

Type of Publication

inproceedings

Publisher

IEEE Computer Society

Organization

IEEE Computer Society

Series

AINA'12

Pages

936-943

Projects

MoVeS
Modeling, Verification and Control of complex Systems: From Foundations to Power Network Appliances

Doi

http://doi.ieeecomputersociety.org/10.1109/AINA.2012.127

Url

http://www.computer.org/csdl/proceedings/aina/2012/4651/00/4651a936-abs.html