Author_Institution :
Automotive MCU Product Group, Product Dev. & Hardware R&D, Freescale Semicond., USA
Abstract :
Summary form only given. Electronic innovation is becoming increasingly more important in the evolution of our society. Noble goals of extending healthy lives with improving medical capabilities, creating a cleaner environment, eliminating auto fatalities, and creating a connected infrastructure around the “Internet of Things” all center on electronic innovation. These goals are being driven by both legislation and consumer demand, which is leading to accelerated system challenges driving a strong need for integration of disparate functional blocks and exponential scaling of content. A central focus in this evolution is the automobile. Emission standards are driving systems from single core, simple computational units to highly integrated, scaled out, safe and secure domain controllers, which host multiple diverse software environments. Shifts toward autonomous driving are leading to integrated sensing systems leveraging advanced algorithms for detection classification and safe decision making. The strong demand for connected vehicles is resulting in revolutionary changes to the vehicle network and communication infrastructure embedded in the automobile. We will explore how these automotive trends translate to future challenges for technology platforms, integrated circuit module development, system-on-chip integration, design of safe systems, and implementation of secure but diagnosable systems.
Keywords :
automotive electronics; embedded systems; innovation management; integrated circuits; road safety; system-on-chip; accelerated system challenges; automobile electronics; consumer demand; electronic innovation; emission standards; integrated circuit module development; integrated sensing systems; safe system design; system-on-chip integration; Acceleration; Automobiles; Internet; Sensors; Software; Standards; Technological innovation;