The Model-driven Engineering subprogram tackles the design challenges for emerging electronic systems. New and improved models of computation should be able to cope with system dynamics and mixed criticalities and target integration of discrete-event, continuous and stochastic modeling. Efficient, effective, multi-objective design space exploration and synthesis techniques are needed to explore the extremely large design spaces for electronic systems. Multi- and interdisciplinary paradigms supporting the co-development of electronic systems, embedded software, regulatory (feedback) control and supervisory control are needed.
The Model-driven Engineering subprogram tackles the design challenges for emerging electronic systems. New and improved models of computation should be able to cope with system dynamics and mixed criticalities and target integration of discrete-event, continuous and stochastic modeling. Efficient, effective, multi-objective design space exploration and synthesis techniques are needed to explore the extremely large design spaces for electronic systems. Multi- and interdisciplinary paradigms supporting the co-development of electronic systems, embedded software, regulatory (feedback) control and supervisory control are needed.