Formal Verification of Transcendental Fixed- and Floating-point Algorithms using an Automatic Theorem Prover

Author:

Coward Samuel1ORCID,Paulson Lawrence2ORCID,Drane Theo3ORCID,Morini Emiliano3ORCID

Affiliation:

1. Faculty of Mathematics, University of Cambridge, London, UK

2. Computer Laboratory, University of Cambridge, Cambridge, UK

3. Cadence Design Systems, Folsom, CA, United States

Abstract

We present a method for formal verification of transcendental hardware and software algorithms that scales to higher precision without suffering an exponential growth in runtimes. A class of implementations using piecewise polynomial approximation to compute the result is verified using MetiTarski, an automated theorem prover, which verifies a range of inputs for each call. The method was applied to commercial implementations from Cadence Design Systems with significant runtime gains over exhaustive testing methods and was successful in proving that the expected accuracy of one implementation was overly optimistic. Reproducing the verification of a sine implementation in software, previously done using an alternative theorem-proving technique, demonstrates that the MetiTarski approach is a viable competitor. Verification of a 52-bit implementation of the square root function highlights the method’s high-precision capabilities.

Publisher

Association for Computing Machinery (ACM)

Subject

Theoretical Computer Science,Software

Reference60 articles.

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