The ascending trend of Moore's law has stretched to the horizon, where the prospects of
carbon-based materials show the potential of replacing the silicon-based complementary …

The internet-of-things and mobile devices have emerged as significant drivers in enhancing
the living standards. As such devices rely on batteries, energy and area efficiency are top …

Graphene nanoribbon (GNR) devices are being extensively investigated as possible
candidates for replacing silicon-channel devices in the next-generation integrated circuits …

Attaining low energy consumption in digital circuits design is a main task for designers
because emerging applications are based on batteries and face limited-energy. Designing …

Summary Internet‐of‐Things (IoTs)‐based embedded systems require energy‐efficient
designs for long‐term operation. To achieve energy‐efficient designs, multiple‐valued logic …

In the electronics industry, binary devices have played a critical role since the development
of solid-state transistors. While binary technology associates devices' inherent ability to be …

Abstract Design of circuits using graphene nanoribbon field-effect transistors (GNRFETs), as
promising next-generation devices, can improve total performance of a chip due to offering …

Graphene nanoribbons (GNRs) are a good replacement material for silicon to overcome
short-channel effects in nanoscale devices. However, with continuous technology scaling …

The potential benefits of using multiple-valued logic (MVL), especially ternary logic, which
includes less interconnections, quicker response times, and smaller chip sizes, has gained …

Owing to the balanced electrical properties of graphene nanoribbon field effect transistors
(GNRFETs), they are suitable next-generation devices for designing high performance …