In this paper, we propose a dipole coupled magnetic quantum-dot cellular automata-based
approximate nanomagnetic (APN) architectural design approach for subtractor and adder. In …

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 …

Magnetic quantum-dot cellular automata (MQCA) is a recent technology in computation
based on closely coupled ferromagnetic and antiferromagnetic dots; it is favorable as the …

In this study, we introduce the area efficient low complex runtime reconfigurable architecture
design methodology based on Skyrmion logic for universal logic gate (ULG) ie NOR/NAND …

In this letter, we introduce the magnetic quantum-dot cellular automata (MQCA) based area
and speed efficient design approach for nanomagnetic full adder implementation. We …

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

In this study, the first of its kind skyrmion logic based area efficient approximate
nanomagnetic (APN) adder architecture design methodology is introduced along with its …

Quantum-dot cellular automata (QCA) is a nanotechnology with characteristics of high
speed, high density, and low power consumption to be one of the strong alternatives to …

In this study, we propose a nanomagnetic logic (NML) based 2 bit multiplier architecture
design for the first time to the best of author's knowledge. This complex combinational logic …

In this manuscript, Inter-Layer Exchange Coupled (IEC) based 2-bit multiplier architecture
model methodology has been proposed here and to the best of author's knowledge is the …