Among the emerging technologies that are intended to outperform the current CMOS
technology, the field-coupled nanocomputing (FCN) paradigm is one of the most promising …

This paper introduces a magnetic quantum-dot cellular automata-based novel rotating
majority gate (RMG) approach and area, energy, speed-efficient full adder designs to …

This research study presents a new methodology for area-efficient, low-complex multiplexer
designs using dipole coupling. Our approach uses micro-magnetic simulation to model 2D …

In this paper, the dynamic magnetization model of multiferroic elliptical nanomagnets with
different tilt angles is established. Simulation of dynamic magnetization is performed through …

This letter presents an efficient dipole coupled nanomagnetic logic scheme clocked by
voltage-induced stress. The logic signals can be transmitted to an array of eight elliptical …

Field-coupled Nanocomputing (FCN) is a computing concept with several promising post-
CMOS candidate implementations that offer tremendously low power dissipation and …

Quantum-dot cellular automata (QCA) present an unconventional computing model in the
nanometer regime. The applications in QCA require complex wire crossings between …

In this study, we present a runtime reconfigurable nanomagnetic (RRN) adder design
offering significant area efficiency and high speed operations. Subsequently, it is …

Many beyond-CMOS technologies, based on different switching mechanisms, are arising.
Field-coupled technologies are the most promising as they can guarantee an extremely low …

Nanomagnetic logic is a recent technology used in electronic devices and systems. The
current challenge in circuit miniaturization has prompted a move away from the traditional …