formal.iti.kit.edu
KIT - Application-oriented Formal Verification - Bernhard Beckert
http://formal.iti.kit.edu/~beckert
Publications (in chronological order). Prof Dr. Bernhard Beckert. Office Hours: Wednesday 11:30 - 13:00. Phone: 49 721 608 44025. Fax: 49 721 608 43088. Http:/ formal.iti.kit.edu/beckert. Institute of Theoretical Informatics. Prof Dr. Bernhard Beckert. 49 721 608 44025. 49 721 608 43088. Vorlesung "Formale Systeme II: Theorie". Proseminar "Desaster in der Software-Sicherheit: Können formale Methoden helfen? Praxis der Forschung (Projektgruppe). GIF: Reliable Software Evolution. In chronological order .
wolfram-menzel.de
Forschung
http://www.wolfram-menzel.de/index.php/forschung
Hauptgegenstand der Forschung in der Theorie der Berechenbarkeit. Waren Eigenschaften von Familien berechenbarer Funktionen (etwa: deren rekursive Aufzählbarkeit, deren uniforme Einbettbarkeit u.ä.) und, später dann, Induktive Inferenz, in Zusammenarbeit vor allem mit Volker Sperschneider und Frank Stephan. Den Schwerpunkt im Bereich der Logik. Untersuchungen zu Konzepten des Parallelrechnens führten zum rückgekoppelten Baum als vielversprechender Struktur (G. Fessler, W. Wöst).
symbolaris.com
KeYmaera: A Hybrid Theorem Prover for Hybrid Systems
http://symbolaris.com/info/KeYmaera.html
KeYmaera: A Hybrid Theorem Prover for Hybrid Systems. Sphinx: Verification-Driven Engineering Toolkit. Etymology: The Name KeYmaera. KeYmaera is a hybrid verification tool for hybrid systems that combines deductive, real algebraic, and computer algebraic prover technologies. It is an automated and interactive theorem prover for a natural specification and verification logic for hybrid systems. KeYmaera supports differential dynamic logic (dL). Which is a first-order dynamic logic for hybrid programs.
brucker.ch
The HOL-OCL Website
https://www.brucker.ch/projects/hol-ocl
HOL-OCL Tutorial @ FM 2011. HOL-OCL Tutorial @ MoDELS 2008. Related Links: Formal tools. Is an interactive proof environment for the Object Constraint Language (. It is implemented as a shallow embedding of. Into the Higher-order Logic (. Instance of the interactive theorem prover Isabelle. Is developed by Achim D. Brucker. Allows one to reason over. Specifications, and builds the basis for further tool support, e.g. for the automatic test-case generation. It is developed by Achim D. Brucker. Achim D....
resources.cost-ic0701.org
Tools - IC0701 Resources
http://resources.cost-ic0701.org/tools
Back to main site. Koblenz/Chalmers/Karlsruhe) - Interactive/automated program verification tool based on Dynamic Logic with a user-friendly graphical interface. Supports Java, C, and a simple while language (for teaching purposes). Some of the tools currently being developed at University of Aarhus:. Analyses string operations in Java programs. Program analysis of XML transformations in Java. Program analysis for Java Servlets. LRI/INRIA) - Program verification tool for Java, builds on top of Why. GenUT...
kindsoftware.blogspot.com
Applied Formal Methods: November 2006
http://kindsoftware.blogspot.com/2006_11_01_archive.html
Discussions focusing on the application of formal methods in research and industry to "real world" problems. Saturday, November 18, 2006. ESF Workshop on Challenges in Java Program Verification. From Monday to Wednesday, the 16-18 of October 2006, I participated in the European Science Foundation. S workshop on " Challenges in Java Program Verification. This workshop was graciously organized by Reiner Hähnle. From Chalmers University of Technology. From Radboud University Nijmegen. Which mistakes did we ...
formal.cs.uiuc.edu
Ralf Sasse
http://formal.cs.uiuc.edu/rsasse
I used to be a graduate student in computer science at the University of Illinois at Urbana-Champaign. I started in Summer 2005 and I studied formal methods. With José Meseguer. I have graduated in the summer of 2012 and I am moving on to do a post-doc with David Basin. Before starting my studies at the University of Illinois I completed my Diplom studies at the University of Karlsruhe, Germany. In the group of Peter H. Schmitt. There, I was involved in the KeY Project. 201 N Goodwin Ave. Urbana, IL 61801.
download.key-project.org
KeY Project: Integrated Deductive Software Design
http://download.key-project.org/libraries.html
Download 3rd Party Software. In order to run KeY, the 3rd-party libraries Recoder (LGPL; modified by KeY team, sources of our changes available upon request) and ANTLR (Public Domain) are required. For compiling the source code distribution and for using KeY's verification based testing facilities, you will need the libraries Junit (IBM CPL), JavaCC (BSD-style license) and Objenesis (APL 2.0). We are providing all of these libraries as a single package:. KeY 22.x: KeYExtLib-2.2.tgz.
download.key-project.org
KeY Project: Integrated Deductive Software Design
http://www.download.key-project.org//eclipse
Symbolic Execution Debugger (SED). The Symbolic Execution Debugger (SED) is a debugger based on symbolic execution which allows to discover all possible execution paths simultaneously. This is achieved by the use of symbolic in lieu of concrete values resulting in a symbolic execution tree. Each node in the symbolic execution tree provides the full state and related information such as the symbolic call stack or the path conditions under which the node is reached. With support for JML. KeY 4 Eclipse Star...
download.key-project.org
KeY Project: Integrated Deductive Software Design
http://www.download.key-project.org//eclipse/MonKeY/index.html
MonKeY provides a batch verification of all proof obligations. This means that the tool lists all proof obligations provided by the source code and allows to prove them in a batch. Statistics such as the used time or the complexity of proofs are also provided. MonKeY is compatible with Eclipse. Indigo (3.7) or newer. Required update-sites and installation instructions are available in the download. Verify all proof obligations of a project. 1 Select project to load. 1 Select project to load.