Formal Specification, Verification, and Implementation of Fault-Tolerant Systems using EventML

Vincent Rahli; David Guaspari; Mark Bickford; Robert Constable

doi:10.14279/tuj.eceasst.72.1013

Formal Specification, Verification, and Implementation of Fault-Tolerant Systems using EventML

Authors

Vincent Rahli SnT, University of Luxembourg
David Guaspari
Mark Bickford Cornell University
Robert Constable Cornell University

DOI:

https://doi.org/10.14279/tuj.eceasst.72.1013

Abstract

Distributed programs are known to be extremely difficult to implement, test, verify, and maintain. This is due in part to the large number of possible unforeseen interactions among components, and to the difficulty of precisely specifying what the programs should accomplish in a formal language that is intuitively clear to the programmers. We discuss here a methodology that has proven itself in building a state of the art implementation of Multi-Paxos and other distributed protocols used in a deployed database system. This article focuses on the basic ideas of formal EventML programming illustrated by implementing a fault-tolerant consensus protocol and showing how we prove its safety properties with the Nuprl proof assistant.

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Published

2015-11-25

How to Cite

[1]

V. Rahli, D. Guaspari, M. Bickford, and R. Constable, “Formal Specification, Verification, and Implementation of Fault-Tolerant Systems using EventML”, eceasst, vol. 72, Nov. 2015.