International audienceThe ASSERT (Automated proof based System and Software Engineering for Real-Time Applications) European Integrated Project (IST-FP6-004033, http://www.assert-project.net/) defined and experimented a multi formalism Model Driven Engineering (MDE) process, enforcing an approach with separated specification and refinement of functional and non-functional properties.• Functional specification, design and development is based on UML profiles to support AADL concepts [2] and behavioural specification.• Real time Architecture properties are based on extensions targeting Ravenscar Computing execution Model (RCM see [6]) constraints upon component interface and ports.• Model transformation is supporting correctness preserving rules towards a Virtual Machine execution environment or a verification dedicated environment.A tool chain called IDEA (Integrated Development Environment for ASSERT) supporting the process was developed by the CS ASSERT team on top of the Eclipse/TOPCASED environment allowing:• Integrated use of several formalisms in a development life-cycle (UML, AADL, IF[4]) .• Model transformation from UML to IF, AADL to RCM and RCM to Ada• Automated code generationThe approach experimented allows combined use of best suited formalisms and features for MDE developments. The TOPCASED tool proved to be a unique integrated toolset for prototyping UML and meta models supporting tools.The main feedback gained from applying the notations and approach on small to medium case studies is that UML profiling is not scalable, and that use of several Domain Specific Languages (DSL) seems far more suitable. Semantic clashes can be limited by raising the abstraction level, and by partitioning properties for verification
