Research axes
Asynchronous concurrency is becoming ubiquitous, from the micro scale of embedded systems and multi-core processors to the macro scale of grids and cloud computing. In the race for improved performance and lower power consumption, computer manufacturers are moving towards asynchrony, in which several entities operate concurrently at different speeds, communicate and synchronize. The price to pay for enhanced performance is an increased design complexity, which can only be addressed by formal verification. To improve the state-of-the-art in the design and analysis of concurrent asynchronous systems, CONVECS follows a research programme of five interrelated scientific topics:
- Going from high-level formal languages to concurrent implementations.
- Parallel and distributed verification algorithms.
- Handling of timed, probabilistic, and stochastic aspects.
- Component-based architectures for on-the-fly verification.
- Real-world applications and case-studies.
International and industrial relations
The CONVECS team is involved in several international working groups in the domain of formal methods and verification:
- FMICS ERCIM Working Group on Formal Methods for Industrial Critical Systems
- IFIP Working Group 1.8 on Concurrency Theory
- AVACS consortium on Automatic Verification and Analysis of Complex Systems
- Forum Méthodes Formelles
Keywords: Formal methods; model checking; process algebra; temporal logic; parallel and distributed verification