Title :
Functional modeling compiler for system-level design of automotive cyber-physical systems
Author :
Canedo, Arquimedes ; Jiang Wan ; Al Faruque, Mohammad Abdullah
Author_Institution :
Corp. Technol., Siemens Corp., USA
Abstract :
A novel design methodology, associated algorithms, and tools for the design of complex automotive cyber-physical systems are presented. Rather than supporting the critical path where most resources are spent, we preemptively target the concept design phase that determines 75% of a vehicle´s cost. In our methodology, the marriage of systems engineering principles with high-level synthesis techniques results in a Functional Modeling Compiler capable of generating high-fidelity simulation models for the design space exploration and validation of multiple cyber-physical (ECUs+Physics) vehicle architectures. Using real-world automotive use-cases, we demonstrate how functional models capturing cyber-physical aspects are synthesized into high-fidelity simulation models.
Keywords :
CAD; automobiles; automotive engineering; digital simulation; formal specification; production engineering computing; program compilers; systems engineering; ECU; complex automotive cyber-physical systems design; concept design phase; design methodology; design space exploration; electronic control units; functional modeling compiler; high-fidelity simulation models; high-level synthesis techniques; system-level design; systems engineering principles; vehicle architectures; vehicle cost; Algorithm design and analysis; Automotive engineering; Biological system modeling; Libraries; Mathematical model; Solid modeling; Unified modeling language;
Conference_Titel :
Computer-Aided Design (ICCAD), 2014 IEEE/ACM International Conference on
Conference_Location :
San Jose, CA
DOI :
10.1109/ICCAD.2014.7001327
