As traditional computing technologies near their physical limits, the demand for beyond-
CMOS alternatives intensifies. Among these, Field-coupled Nanocomputing (FCN) emerges …

Silicon Dangling Bonds (SiDBs) present a promising computational technology that goes
beyond traditional CMOS. It enables the creation of circuitry using single atoms as …

Field-coupled Nanocomputing (FCN) has emerged as a promising alternative to traditional
CMOS technology, driven by recent advancements in atomic-scale logic gate fabrication and …

Silicon Dangling Bonds (SiDBs) constitute a beyond-CMOS computational nanotechnology
platform that enables higher integration density and lower power consumption than …

As Silicon Dangling Bond (SiDB) logic emerges as a promising beyond-CMOS technology,
Figures of Merit (FoMs) to assess gate performance become crucial in implementing devices …

This paper presents an algorithm for clock num-ber assignment in the physical design
process of Field-coupled Nanocomputing (FCN), a set of promising beyond-CMOS tech …

Silicon Dangling Bonds (SiDBs) have emerged as a promising post-CMOS technology for
achieving ultra-low power dissipation, establishing themselves as a highly anticipated and …

With the impending plateau of Moore's Law, the search for novel computational paradigms
has intensified. Silicon dangling bond (SiDB) logic emerges as a promising avenue in this …

Power dissipation is more important than ever when designing digital systems. Moreover,
evaluating emerging technologies' boundaries is essential as conventional technologies …

Among the technologies of Field Coupled Nanocomputing (FCN), the newly proposed
Atomic Silicon Quantum Dot (SiQD) has attracted considerable attention from the …