As an approximation to the quantum state of solids, the band theory, developed nearly
seven decades ago, fostered the advance of modern integrated solid‐state electronics, one …

Interconnects are considered as one of the grandest challenges that gigascale and
terascale integrations face because of the delay they add to critical paths, the power they …

In this paper, we leverage magnetic tunnel junction (MTJ) devices to design an energy-
efficient nonvolatile lookup table (LUT), which utilizes a spin Hall effect (SHE) assisted …

In this paper, various energy-efficient write schemes are proposed for switching operation of
spin hall effect (SHE)-based magnetic tunnel junctions (MTJs). A transmission gate (TG) …

In-memory computing (IMC) is considered one of the most promising candidates to solve the
nontraditional challenges conventional computing systems face in dealing with novel big …

The paper presents a review of recent works on pristine and intercalation doped graphene
nanoribbon interconnects. Since the last decade, there have been tremendous research …

In this paper, we have developed a radiation-hardened non-volatile lookup table (LUT)
circuit utilizing spin Hall effect (SHE)-magnetic random access memory (MRAM) devices …

The optical properties of 1-D superlattices formed by armchair graphene nanoribbons
embedded in hexagonal boron nitride superlattices (BNSLs) are studied. A set of tight …

Aggressive Metal Oxide Semiconductor (MOS) technology scaling in digital circuits has
resulted in important challenges including a significant increase in leakage currents, short …

Hardware-based acceleration approaches for Machine Learning (ML) workloads have been
embracing the significant potential of post-CMOS switching devices to attain reduced …