Rev R. Acad, Cien Serie, A. Mat, Bernhard Beckert, Martin Giese, Elmar Habermalz, ...
Abstract. Frameworks for interactive theorem proving give the user explicit control over the construction of proofs based on meta languages that contain dedicated control structures for describing...
Taclets: A New Paradigm for Constructing Interactive Theorem Provers (2008)
Rev R. Acad, Cien Serie, A. Mat, Bernhard Beckert, Martin Giese, Elmar Habermalz, ...
Abstract. Frameworks for interactive theorem proving give the user explicit control over the construction of proofs based on meta languages that contain dedicated control structures for describing...
Wolfgang Ahrendt, Thomas Baar, Bernhard Beckert, Martin Giese, Elmar Habermalz
2, Wolfram Menzel 1, and Peter H. Schmitt 1 1
The Approach: Integrating Object Oriented Design and Formal Veri cation (2007)
Wolfgang Ahrendt Thomas, Thomas Baar, Bernhard Beckert, Martin Giese, Elmar Habermalz, Wolfram Menzel, ...
. This paper reports on the ongoing KeY project aimed at bridging the gap between (a) OO software engineering methods and tools and (b) deductive verication. A distinctive feature of our approach is...
Taclets: A New Paradigm for Constructing Interactive Theorem Provers (2007)
Rev R. Acad, Cien Serie, A. Mat, Bernhard Beckert, Martin Giese, Elmar Habermalz, ...
Abstract. Frameworks for interactive theorem proving give the user explicit control over the construction of proofs based on meta languages that contain dedicated control structures for describing...
Taclets: A New Paradigm for Constructing Interactive Theorem Provers (2004)
Bernhard Beckert, Bernhard Beckert, Martin Giese, Martin Giese, Elmar Habermalz, Reiner Hähnle, ...
Abstract. Frameworks for interactive theorem proving give the user explicit control over the construction of proofs based on meta languages that contain dedicated control structures for describing...
The KeY system: Integrating object-oriented design and formal methods (2002)
Wolfgang Ahrendt, Thomas Baar, Bernhard Beckert, Elmar Habermalz, Wolfram Menzel, Wojciech Mostowski, ...
Abstract. This paper gives a brief description of the KeY system, a tool written as part of the ongoing KeY project 1, which is aimed at bridging the gap between (a) OO software engineering methods...
Zugl.: Karlsruhe, Universiẗat, Diss., 2000.
The KeY approach: integrating object oriented design and formal verification. (2000)
Ahrendt, Wolfgang, Baar, Thomas, Beckert, Bernhard, Giese, Martin, Habermalz, Elmar, Haehnle, Reiner, ...
This paper reports on the ongoing KeY project aimed at bridging the gap between (a) OO software engineering methods and tools and (b) deductive verification. A distinctive feature of our approach is...
Interactive theorem proving with schematic theory specific rules (2000)
This work presents a framework to make interactive proving over abstract data types (first order logic plus induction) more comfortable. A language of schematic rules is introduced, yielding the...
The KeY approach: integrating object oriented design and formal verification. (2000)
Ahrendt, Wolfgang, Baar, Thomas, Beckert, Bernhard, Giese, Martin, Habermalz, Elmar, Haehnle, Reiner, ...
Interactive theorem proving with schematic theory specific rules (2000)
Abstract. This paper presents a framework to make interactive proving over abstract data types ( rst order logic plus induction) more comfortable. A language of schematic rules is introduced,...
The KEY Approach: Integrating Object Oriented Design and Formal Verification (2000)
Wolfgang Ahrendt, Thomas Baar, Bernhard Beckert, Martin Giese, Elmar Habermalz, Reiner Hähnle, ...
This paper reports on the ongoing KeY project aimed at bridging the gap between (a) OO software engineering methods and tools and (b) deductive verification. A distinctive feature of our approach is...
The KeY Approach: Integrating Object Oriented Design and Formal Verification (2000)
Wolfgang Ahrendt, Thomas Baar, Bernhard Beckert, Martin Giese, Elmar Habermalz, Wolfram Menzel, ...
Abstract This paper reports on the ongoing KeY project aimed at bridging the gap between (a) object-oriented software engineering methods and tools and (b) deductive verification. A distinctive...