The FAUST — prover

  • Klaus Schneider
  • Ramayya Kumar
  • Thomas Kropf
Conference paper
Part of the Lecture Notes in Computer Science book series (LNCS, volume 607)


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  1. [Gall86]
    Gallier J.H., Logic for Computer Science—Foundations of Automated Theorem Proving, Harper & Row Publishers, New York, 1986Google Scholar
  2. [Gord88]
    M.J.C. Gordon, HOL: A Proof Generating System for Higher-Order Logic, in VLSI Specification, Verification and Synthesis, G. Birtwistle, P.A. Subrahrnanyam (eds.), Kluwer Academic Press, 1988Google Scholar
  3. [Gent35]
    Gentzen G., Untersuchungen über das logische Schlieβen, Mathematische Zeitschrift, Vol. 39, 1935Google Scholar
  4. [Pell86]
    F.J. Pelletier, Seventy-Five Problems for Testing Automatic Theorem Provers, Journal of Automated Reasoning, Vol. 2, pp 191–216, 1986Google Scholar
  5. [Reev87]
    S. Reeves, Semantic tableaux as a framework for automated theorem-proving, Departement of Computer Science and Statistics, Queen Mary College, Univ. of London, 1987Google Scholar
  6. [Schn91]
    Schneider K., Ein Sequenzenkalkül für die Hardware-Verifikation in HOL, Diploma Thesis, Institute of Computer Design and Fault-Tolerance, University of Karsruhe, 1991Google Scholar
  7. [ScKK91a]
    Schneider K., Kumar R., Kropf T., Automating most parts of hardware proofs in HOL, Proc. Workshop on Computer Aided Verification, Aalborg, July 1991Google Scholar
  8. [ScKK91b]
    Schneider K., Kumar R., Kropf T., Structuring Hardware Proofs: First Steps towards Automation in a Higher-Order Environment, Proc. VLSI 1991, Edinburgh, P.B. Denyer, A. Halaas (Eds.), North-Holland, 1991Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1992

Authors and Affiliations

  • Klaus Schneider
    • 1
  • Ramayya Kumar
    • 1
  • Thomas Kropf
    • 1
  1. 1.Institute of Computer Design and Fault ToleranceKarlsruheGermany

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