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Deductive software verification: future perspectives : reflections on the occasion of 20 years of KeY / Wolfgang Ahrendt, Bernhard Beckert, Richard Bubel, Reiner Hähnle, Mattias Ulbrich (eds.).

Contributor(s): Material type: TextTextSeries: Lecture notes in computer science ; 12345. | LNCS sublibrary. SL 2, Programming and software engineering.Publisher: Cham : Springer, [2020]Description: 1 online resource (xii, 339 pages) : illustrations (some color)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9783030643546
  • 3030643549
Subject(s): Additional physical formats: No titleDDC classification:
  • 005.1/4 23
LOC classification:
  • QA76.76.V47
Online resources:
Contents:
History -- A Short History of KeY -- Verification Tools -- A Retrospective on Developing Hybrid System Provers in the KeYmaera Family -- A Tale of Three Provers -- Improving Performance of the VerCors Program Verifier -- Contracts -- Behavioral Contracts for Cooperative Scheduling -- Using Abstract Contracts for Verifying Evolving Features and Their Interactions -- Constraint-based Contract Inference for Deductive Verification -- From Explicit to Implicit Dynamic Frames in Concurrent Reasoning for Java -- Feasibility and Usability -- A Tutorial on Verifying LinkedList Using KeY -- The VerifyThis Collaborative Long Term Challenge -- Usability Recommendations for User Guidance in Deductive Program Verification -- Integration of Verification Techniques -- Integration of Static and Dynamic Analysis Techniques for Checking Noninterference -- SymPaths: Symbolic Execution Meets Partial Order Reduction.
Summary: Since the inception of the KeY project two decades ago, the area of deductive verification has evolved considerably. Support for real world programming languages by deductive program verification tools has become prevalent. This required to overcome significant theoretical and technical challenges to support advanced software engineering and programming concepts. The community became more interconnected with a competitive, but friendly and supportive environment. We took the 20 year anniversary of KeY as an opportunity to invite researchers, inside and outside of the project, to contribute to a book capturing some state-of-the-art developments in the field. We received thirteen contributions from recognized experts of the field addressing the latest challenges. The topics of the contributions range from tool development, effciency and usability considerations to novel specification and verification methods. This book should offer the reader an up-to-date impression of the current state-of-art in deductive verification, and we hope, inspire her to contribute to the field and to join forces. We are looking forward to meeting you at the next conference, to listen to your research talks and the resulting fruitful discussions and collaborations.
Holdings
Item type Current library Collection Call number Status Date due Barcode Item holds
eBook eBook e-Library eBook LNCS Available
Total holds: 0

Includes author index.

Since the inception of the KeY project two decades ago, the area of deductive verification has evolved considerably. Support for real world programming languages by deductive program verification tools has become prevalent. This required to overcome significant theoretical and technical challenges to support advanced software engineering and programming concepts. The community became more interconnected with a competitive, but friendly and supportive environment. We took the 20 year anniversary of KeY as an opportunity to invite researchers, inside and outside of the project, to contribute to a book capturing some state-of-the-art developments in the field. We received thirteen contributions from recognized experts of the field addressing the latest challenges. The topics of the contributions range from tool development, effciency and usability considerations to novel specification and verification methods. This book should offer the reader an up-to-date impression of the current state-of-art in deductive verification, and we hope, inspire her to contribute to the field and to join forces. We are looking forward to meeting you at the next conference, to listen to your research talks and the resulting fruitful discussions and collaborations.

History -- A Short History of KeY -- Verification Tools -- A Retrospective on Developing Hybrid System Provers in the KeYmaera Family -- A Tale of Three Provers -- Improving Performance of the VerCors Program Verifier -- Contracts -- Behavioral Contracts for Cooperative Scheduling -- Using Abstract Contracts for Verifying Evolving Features and Their Interactions -- Constraint-based Contract Inference for Deductive Verification -- From Explicit to Implicit Dynamic Frames in Concurrent Reasoning for Java -- Feasibility and Usability -- A Tutorial on Verifying LinkedList Using KeY -- The VerifyThis Collaborative Long Term Challenge -- Usability Recommendations for User Guidance in Deductive Program Verification -- Integration of Verification Techniques -- Integration of Static and Dynamic Analysis Techniques for Checking Noninterference -- SymPaths: Symbolic Execution Meets Partial Order Reduction.

Online resource; title from PDF title page (SpringerLink, viewed February 16, 2021).

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