Magillem Design Services, SAS France

Profile

Magillem proposes to bring the capabilities brought by SystemC AMS to build a virtual prototype of the targeted system composed by: mechanics, sensors, actuators, electronics of control with digital and software part. The physical environment where the system operates may also be modelled, in order to build verification and validation scenarios. The scenarios will allow to validate the respect of some safety constraints, as some timing performances. The creation of such virtual prototype will be used to demonstrate the capability to take into account the several parameters of different specific contexts: physical environment, mechanical constraints, choice of digital platforms, technical and legal frame. The innovation demonstrated will be the automation of the virtual platform building from a list of specifications, thanks to the reuse of existing models.

Relevant expertise

UVM-SystemC-AMS Framework for System-Level Verification and Validation of Automotive Use Cases.

UVM-SystemC-AMS Framework for System-Level Verification and Validation of Automotive Use Cases.

ACOSE Project “Rigorous Framework for Hardware- Software Co-design of Embedded Systems”.

AMS System-Level Verification and Validation using UVM in SystemC and SystemC-AMS: Automotive Use Cases.

Using IEEE 1685 standard (IP-XACT) for specifications and requirements traceability in critical system design flow.

Participation in project p/nSAFECER, VERDI, ACOSE, and TOISE.

Main tasks

  • Interoperability of design frameworks
  • Implementation of links between system level requirements management framework and virtual prototyping solutions.
  • Based on the AGESYS experience (wich CEA contributed), keep developping the link between system engineering and system simulation (Sysml pivot).
  • Develops links between dynamic physic system simulation and safety-related tools.