A Lattice-structured Proof Technique Applied to a Minimum Spanning Tree Algorithm

Welch, Jennifer Lundelius; Lamport, Leslie; Lynch, Nancy A.

Author(s)

Welch, Jennifer Lundelius; Lamport, Leslie; Lynch, Nancy A.

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Abstract

Higly-optimized concurrent algorithms are often hard to prove correct because they have no natural decomposition into separately provable parts. This paper presents a proof technique for the modular verification of such non-modular algorithms. It generalizes existing verification techniques based on a totally-ordered hierarchy of refinements to allow a partially-ordered hierarchy - that is, a lattice of different views of the algorithm. The technique is applied to the well-known distributed minimum spanning tree algorithm of Gallager, Humblet, and Spira, which has until recently lacked a rigorous proof.

Date issued

1988-06

URI

https://hdl.handle.net/1721.1/149143

Series/Report no.

MIT-LCS-TM-361

Collections

LCS Technical Memos (1974 - 2003)