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The Formal Verification of an Algorithm for Interactive Consistency under a Hybrid Fault Model (1993)  (Make Corrections)  (30 citations)
Patrick Lincoln, John Rushby
Computer-Aided Verification, CAV '93



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Abstract: Modern verification systems such as PVS are now reaching the stage of development where the formal verification of critical algorithms is feasible with reasonable effort. This paper describes one such verification in the field of fault tolerance. The distribution of single-source data to replicated computing channels (Interactive Consistency or Byzantine Agreement) is a central problem in this field. The classic Oral Messages (OM) algorithm solves this problem under the assumption that all... (Update)

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.... a arbitrary, s symmetric, and m manifest faults simultaneously, provided r a and n 2a 2s m , where n is the number of nodes [LR93a]. Thus, one round OMH on 2 three nodes can tolerate a single manifest fault (it can actually tolerate two, but the problem is vacuous...

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Formally Verified Byzantine Agreement in Presence of Link.. - Schmid, Weiss, Rushby (2002)   (Correct)

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16:   Interactive consistency with multiple failure modes (context) - Thambidurai, Park - 1988
15:   ACM Transactions on Programming Languages and Systems (context) - Lamport, Shostak et al. - 1982
14:   A formally verified algorithm for interactive consistency under a hybrid fault m.. - Lincoln, Rushby - 1993

BibTeX entry:   (Update)

Patrick Lincoln and John Rushby, "Formal verification of an algorithm for interactive consistency under a hybrid fault model", In Courcoubetis http://citeseer.ist.psu.edu/lincoln93formal.html   More

@inproceedings{ lincoln93formal,
    author = "Patrick Lincoln and John Rushby",
    title = "Formal Verification of an Algorithm for Interactive Consistency under a Hybrid Fault Model",
    booktitle = "Computer-Aided Verification, {CAV} '93",
    volume = "697",
    month = "/",
    publisher = "Spring{\-}er-Ver{\-}lag",
    address = "Elounda, Greece",
    editor = "Costas Courcoubetis",
    pages = "292--304",
    year = "1993",
    url = "citeseer.ist.psu.edu/lincoln93formal.html" }
Citations (may not include all citations):
625   ACM Transactions on Programming Languages and Systems (context) - Lamport, Shostak et al. - 1982
295   PVS: A prototype verification system (context) - Owre, Rushby et al. - 1992  DBLP
256   Reaching agreement in the presence of faults (context) - Pease, Shostak et al. - 1980  ACM   DBLP
173   Protocol verification as a hardware design aid - Dill, Drexler et al. - 1992  ACM   DBLP
55   Interactive consistency with multiple failure modes (context) - Thambidurai, Park - 1988  DBLP
44   A formally verified algorithm for interactive consistency un.. - Lincoln, Rushby - 1993
30   Formal verification of an algorithm for interactive consiste.. - Lincoln, Rushby - 1993
24   Mechanical verification of a generalized protocol for Byzant.. - Shankar - 1992
21   MJRTY---a fast majority vote algorithm - Boyer, Moore - 1991
15   Formal verification of an Oral Messages algorithm for intera.. - Rushby - 1992  ACM
11   Machine checked proofs of the design of a fault-tolerant cir.. (context) - Bevier, Young - 1992
10   Development and flight test experiences with a flight-crucia.. (context) - Mackall - 1988



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