In today's fast-paced automotive landscape, growing complexity and ever-evolving demands from the market have led to significant challenges in the design and implementation of vehicle electronic and electrical (E/E) architectures. The emergence of new use cases such as seamless connectivity, regular over-the-air updates, and cutting-edge advanced driving assistance features require great computing power.
By enabling the consolidation of various functions of many individual ECUs into central units, HPCs are the backbone of the modern, software-defined vehicle. As a center of service-oriented architecture, HPCs provide high computation power and extensive update capabilities, as well as support for introducing complex algorithms for autonomous driving.
