Electronic Proceedings in Theoretical Computer Science (Mar 2010)

Implementing Multi-Periodic Critical Systems: from Design to Code Generation

  • Julien Forget,
  • Frédéric Boniol,
  • David Lesens,
  • Claire Pagetti

DOI
https://doi.org/10.4204/EPTCS.20.4
Journal volume & issue
Vol. 20, no. Proc. FMA 2009
pp. 34 – 48

Abstract

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This article presents a complete scheme for the development of Critical Embedded Systems with Multiple Real-Time Constraints. The system is programmed with a language that extends the synchronous approach with high-level real-time primitives. It enables to assemble in a modular and hierarchical manner several locally mono-periodic synchronous systems into a globally multi-periodic synchronous system. It also allows to specify flow latency constraints. A program is translated into a set of real-time tasks. The generated code (C code) can be executed on a simple real-time platform with a dynamic-priority scheduler (EDF). The compilation process (each algorithm of the process, not the compiler itself) is formally proved correct, meaning that the generated code respects the real-time semantics of the original program (respect of periods, deadlines, release dates and precedences) as well as its functional semantics (respect of variable consumption).