Systematic Correct Construction of Self-stabilizing Systems: A Case StudyReport as inadecuate




Systematic Correct Construction of Self-stabilizing Systems: A Case Study - Download this document for free, or read online. Document in PDF available to download.

1 VERIMAG - IMAG - VERIMAG

Abstract : Design and implementation of distributed algorithms often involve many subtleties due to their complex structure, non-determinism, and low atomicity as well as occurrence of unanticipated physical events such as faults. Thus, constructing correct distributed systems has always been a challenge and often subject to serious errors. We present a methodology for component-based modeling, verification, and performance evaluation of self-stabilizing systems based on the BIP framework. In BIP, a system is modeled as the composition of a set of atomic components by using two types of operators: interactions describing synchronization constraints between components, and priorities to specify scheduling constraints. The methodology involves three steps illustrated using the \dr algorithm due to Arora and Gouda. First, a high-level model of the algorithm is built in BIP from the set of its processes by using powerful primitives for multi-party interactions and scheduling. Then, we use this model for verification of properties of a self-stabilizing algorithm including closure, deadlock-freedom, and finite reachability of the set of legitimate states. Finally, a distributed model which is observationally equivalent to the high-level model is generated. This model is used for performance analysis taking into account the degree of parallelism and convergence times for failure-free behavior as well as in the presence of faults.

Keywords : component-based modeling verification self-stabilization distributed algorithms reset algorithms





Author: Ananda Basu - Borzoo Bonakdarpour - Marius Bozga - Joseph Sifakis -

Source: https://hal.archives-ouvertes.fr/



DOWNLOAD PDF




Related documents