Open AccessDistributing the Workload in a Lazy Theorem-Prover
Author(s) -
David Déharbe,
Silvio Ranise,
Jorgiano Vidal
Publication year - 2007
Publication title -
electronic notes in theoretical computer science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.242
H-Index - 60
ISSN - 1571-0661
DOI - 10.1016/j.entcs.2007.03.013
Subject(s) - automated theorem proving , computer science , decidability , satisfiability , bottleneck , automated reasoning , gas meter prover , theoretical computer science , rotation formalisms in three dimensions , proof assistant , boolean satisfiability problem , programming language , mathematics , mathematical proof , geometry , embedded system
Automated theorem proving consists in automatically (i.e. without any user interaction) discharging proof obligations which arise when applying rigorous methodologies for designing critical software systems. Recent developements in the so-called lazy approach in the integration of Boolean satisfiability with decision procedures for decidable theories of first-order logic have provided new means to efficiently prove or refute such proof obligations. In this paper, we present the first (known) attempt to design a distributed version of lazy theorem proving on a network of computers so that the available processing power can be used more effectively and avoid that automated reasoning be the bottleneck of the application of formal methods. Experiments clearly show the viability and the benefits of the proposed approach
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