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Communication Dans Un Congrès Année : 2014

Discrete-Continuous Semantic Adaptations for Simulating SysML Models in VHDL-AMS

Résumé

Our research focuses on the simulation of heterogeneous systems modeled in SysML, in particular, systems that mix different engineering domains such as mechanics, analog and digital circuits. Because of their nature, expressing multi-paradigm behavior in heterogeneous systems is a cumbersome endeavor. SysML does not provide a standard method for defining the operational semantics of individual blocks nor any intrinsic adaptation mechanism when coupling blocks of different domains. We present in this paper a way to address these obstacles. We give well-defined operational semantics to SysML blocks by using profile extensions, together with a language for the description of adaptors. We apply our approach to a test case, using a toolset for SysML to VHDL-AMS transformation, capable of automated generation of VHDL-AMS code for system verification by simulation.
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Dates et versions

hal-01076425 , version 1 (22-10-2014)

Identifiants

  • HAL Id : hal-01076425 , version 1

Citer

Daniel Chaves Café, Cécile Hardebolle, Christophe Jacquet, Filipe Vinci dos Santos, Frédéric Boulanger. Discrete-Continuous Semantic Adaptations for Simulating SysML Models in VHDL-AMS. MPM 2014, Daniel Balasubramanian; Christophe Jacquet; Pieter Van Gorp; Sahar Kokaly; Tamás Mészáros, Sep 2014, Valencia, Spain. pp.11-20. ⟨hal-01076425⟩
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