Scalability of TTool's AMS extensions: a case study
Abstract
Embedded cyber-physical systems (CPS) are commonly built upon heterogeneous digital and analog integrated circuits, including sensors and actuators. Less common is their deployment on parallel, NoC based designs based on general purpose processor cores of a Multi-processor System-on-chip (MPSoC). Application code has to be run on the MPSoC for the digital part, and interact with the analog sensors. We recently proposed a major extension to the design and exploration tool named TTool, now allowing the design of CPS on a high level of abstraction and the generation of cycle-bit accurate simulations. We explore the scalability of our approach with an automotive case study.
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