The need for less power-consuming and more performing devices pushed CMOS engineering up to its limits, thus new methods of performing computing and creating larger memories and faster devices are becoming a necessity as the technologies that carry this promise (More-Moore, More than Moore or Beyond CMOS). The mechanism of interaction exploited by these technologies is different from the traditional voltage-to-current relation of CMOS, carrying on collateral that cannot be addressed in a standard way because of its complexity. Field-coupled nanocomputing emerges as a candidate in this landscape, with promisingly low power consumption, high-speed operation, and the intrinsic very compact size.