Field-coupled nanocomputing (FCN) paradigms offer fundamentally new approaches to digital information processing that do not utilize transistors or require charge transport. Information transfer and computation are achieved in FCN via local field interactions between nanoscale building blocks that are organized in patterned arrays. Several FCN paradigms are currently under active investigation, including quantum-dot cellular automata (QCA), molecular quantum cellular automata (MQCA), nanomagnetic logic (NML), and atomic quantum cellular automata (AQCA). Each of these paradigms has a number...
Field-coupled nanocomputing (FCN) paradigms offer fundamentally new approaches to digital information processing that do not utilize transistors or...
Non-Boolean Computing with Spintronic Devices explores the latest research areas which employ spintronic devices for non-Boolean computing purposes. It surveys the research to date and is an ideal reference for anyone interested in how the field is developing.
Non-Boolean Computing with Spintronic Devices explores the latest research areas which employ spintronic devices for non-Boolean computing purposes. I...
