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Alt-Ergo

From Wikipedia, the free encyclopedia

Alt-Ergo
Developer(s)OCamlPro
Repository
Written inOCaml
Available inEnglish
TypeMathematical solver, program verifier
Websitealt-ergo.ocamlpro.com

Alt-Ergo, an automatic solver for mathematical formulas, is mainly used in formal program verification. It operates on the principle of satisfiability modulo theories (SMT). Development was undertaken by researchers at the Paris-Sud University, Laboratoire de Recherche en Informatique, Inria Saclay Ile-de-France, and CNRS. Since 2013, project management and oversight has been conducted by OCamlPro company.[1] It is released under the free and open-source software CeCILL-C license.

Technologies

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Design choices

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Alt-Ergo employs a specialized input language with prenex polymorphism, designed to reduce the number of axioms requiring quantification and to simplify the complexity of problems. While Alt-Ergo offers partial support for the SMT-LIB 2 language, its efficiency with SMT files is comparatively limited.

Main components

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The core architecture of Alt-Ergo comprises three main elements: a depth-first search (DFS)-based SAT solver, a quantifiers instantiation engine that uses e-matching, and an assembly of decision procedures for a range of built-in theories. These components collectively enable Alt-Ergo's abilities in automatic formula solving.

Built-in theories

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Alt-Ergo implements (semi-)decision procedures for the following theories:

Industrial uses

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Several verification platforms are built on Alt-Ergo:

  • Why3, a platform for deductive program verification, uses Alt-Ergo as main prover[2]
  • CAVEAT, a C-verifier developed by CEA and used by Airbus; Alt-Ergo was included in the qualification DO-178C of one of its aircraft[citation needed]
  • Frama-C, a framework to analyse C-code, uses Alt-Ergo in the Jessie and WP plugins (dedicated to deductive program verification)
  • SPARK, uses Alt-Ergo (behind GNATprove) to automate the verification of some assertions in Spark 2014
  • Atelier-B can use Alt-Ergo instead of its main prover (raising success from 84% to 98% on ANR Bware project benchmarks)
  • Rodin, a B-method framework developed by Systerel, can use Alt-Ergo as a back-end
  • Cubicle, an open source model checker to verify safety properties of array-based transition systems
  • EasyCrypt, a toolset for reasoning about relational properties of probabilistic computations with adversarial code
  • BWARE[3]
  • Cafein[3]
  • FUI Hi-Lite[3]
  • Decert[3]
  • ADT Alt-Ergo[3]
  • A3PAT[3]

See also

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References

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  1. ^ "About". alt-ergo.ocamlpro.com. Retrieved 15 June 2023.
  2. ^ "Why3". why3.lri.fr. Retrieved 15 June 2023.
  3. ^ a b c d e f "The Alt-Ergo Theorem Prover: Academic Web Page". alt-ergo.lri.fr. Retrieved 15 June 2023.
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