TACAS 2017
23rd International Conference on Tools and Algorithms for the Construction and Analysis of Systems (TACAS)
TACAS is a forum for researchers, developers and users interested in rigorously based tools and algorithms for the construction and analysis of systems. The conference aims to bridge the gaps between different communities with this common interest and to support them in their quest to improve the utility, reliability, flexibility and efficiency of tools and algorithms for building systems.
Theoretical papers with clear relevance for tool construction and analysis as well as tool descriptions and case studies with a conceptual message are all encouraged. The topics covered by the conference include, but are not limited to:
- specification and verification techniques;
- software and hardware verification;
- analytical techniques for real-time, hybrid, or stochastic systems;
- analytical techniques for safety, security, or dependability;
- model-checking;
- theorem-proving;
- SAT and SMT solving;
- static and dynamic program analysis;
- testing;
- abstraction techniques for modeling and verification;
- compositional and refinement-based methodologies;
- system construction and transformation techniques;
- tool environments and tool architectures;
- applications and case studies.
Important dates and submission
See the ETAPS 2017 joint call for papers. Submit your paper via the TACAS 2017 author interface of EasyChair.
TACAS 2017 will not have a rebuttal phase.
TACAS paper categories
TACAS accepts four types of submissions: research papers, case study papers, regular tool papers, and tool demonstration papers. Papers of all four types will appear in the proceedings and have presentations during the conference.
- Research papers clearly identify and justify a principled advance to the theoretical foundations for the construction and analysis of systems. Where applicable, they are supported by experimental validation. Research papers can have a maximum of 15 pp (excluding bibliography of max 2 pp).
- Case study papers report on case studies, preferably in a real world setting. They should provide information about the following aspects: the system being studied and the reasons it is of interest, the goals of the study, the challenges the system poses to automated analysis, research methodologies and approaches used, the degree to which goals were attained, and how the results can be generalized to other problems and domains. Case study papers can have a maximum of 15 pp (excluding bibliography of max 2 pp).
- Regular tool papers present a new tool, a new tool component, or novel extensions to an existing tool. They should provide a short description of the theoretical foundations with relevant citations, and emphasize the design and implementation concerns, including software architecture and core data structures. A regular tool paper should give a clear account of the tool's functionality, discuss the tool's practical capabilities with reference to the type and size of problems it can handle, describe experience with realistic case studies, and where applicable, provide a rigorous experimental evaluation. Papers that present extensions to existing tools should clearly focus on the improvements or extensions with respect to previously published versions of the tool, preferably substantiated by data on enhancements in terms of resources and capabilities. Authors are strongly encouraged to make their tools publicly available, preferably on the web, even if only for the evaluation process. Tool papers can have a maximum of 15 pp (excluding bibliography of max 2 pp).
- Tool demonstration papers focus on the usage aspects of tools. As with regular tool papers, authors are strongly encouraged to make their tools publicly available, preferably on the web. Theoretical foundations and experimental evaluation are not required, however, a motivation as to why the tool is interesting and significant should be provided. Tool demonstration papers can have a maximum of 6 pages. They should have an appendix of up to 6 additional pages with details on the actual demonstration.
All papers will be evaluated by the TACAS programme committee, coordinated by the TACAS co-chairs for research papers and case study papers, and by the TACAS tool chair for regular tool papers and tool demonstration papers.
Competition on Software Verification
TACAS 2017 hosts the 6th Competition on Software Verification with the goal to evaluate technology transfer and compare state-of-the-art software verifiers with respect to effectiveness and efficiency. More information can be found on the webpage of the competition.
Invited speaker
Dino Distefano (Facebook and Queen Mary University of London, UK)
Programme chairs
Axel Legay (INRIA Rennes, France)
Tiziana Margaria (LERO, Ireland)
Tools chair
David Parker (University of Birmingham, UK)
Programme committee
Gilles Barthe (IMDEA Software Institute, Spain)
Dirk Beyer (Universität Passau, Germany)
Armin Biere (Johannes-Kepler-Universität, Austria)
Radu Calinescu (University of York, UK)
Franck Cassez (Macquarie University, Australia)
Swarat Chaudhuri (Rice University, USA)
Alessandro Cimatti (Fondazione Bruno Kessler, Italy)
Rance Cleaveland (University of Maryland, USA)
Byron Cook (University College London, UK)
Cezara Drăgoi (DI, INRIA & ENS, France)
Cindy Eisner (IBM Research Haifa, Israel)
Martin Fränzle (Carl-von-Ossietzky-Universität Oldenburg)
Sicun Gao (MIT, USA)
Susanne Graf (VERIMAG, U Joseph Fourier & CNRS, France)
Orna Grumberg (Technion, Israel)
Klaus Havelund (Jet Propulsion Lab, NASA & California University of Technology, USA)
Holger Hermanns (Universität des Saarlandes, Germany)
Falk Howar (Technische Universität Clausthal, Germany)
Thomas Jensen (IRISA, INRIA & CNRS & U Rennes 1 & ENS Rennes, France)
Jan Křetínský (Teschnische Universität München, Germany)
Kim Guldstrand Larsen (Aalborg University, Denmark)
Salvatore La Torre (Università di Salerno, Italy)
P. Madhusudan (University of Illinois at Urbana-Champaign, USA)
Pasquale Malacaria (Queen Mary University of London, UK)
Darko Marinov (University of Illinois at Urbana-Champaign, USA)
Leonardo de Moura (Microsoft Research Redmond, USA)
Dejan Nickovic (Austrian University of Technology, Austria)
David Parker (University of Birmingham, UK)
Charles Pecheur (Université catholique de Louvain, Belgium)
Kristin Rozier (University of Cincinnati, USA)
Natasha Sharygina (Università Svizzera Italiana, Switzerland)
Bernhard Steffen (Technische Universität Dortmund, Germany)
Stavros Tripakis (University of California at Berkeley, USA)
Jaco van de Pol (Universiteit Twente, The Netherlands)
Thomas Wies (New York University, USA)