Atomically precise manufacturing (APM) is a key technique that involves the direct control of
atoms in order to manufacture products or components of products. It has been developed …

For the past several decades, VLSI design has been focused on lowering the size, power,
and delay. As of now, this miniaturization does not seems to be a possible way to address …

We present a collection of modular open source C++ libraries for the development of logic
synthesis applications. These libraries can be used to develop applications for the design of …

Field-coupled Nanocomputing (FCN) defines a class of post-CMOS nanotechnologies that
promises compact layouts, low power operation, and high clock rates. Recent breakthroughs …

The Silicon Dangling Bond (SiDB) logic platform, an emerging computational beyond-CMOS
nanotechnology, is a promising competitor due to its ability to achieve integration density …

Silicon Dangling Bonds have established themselves as a promising competitor in the field
of beyond-CMOS technologies. Their integration density and potential for energy dissipation …

Robust automated design tools are crucial for the proliferation of any computing technology.
We introduce the first automated design tool for the silicon dangling bond quantum dot …

Recent breakthroughs in atomically precise manufacturing are paving the way for Field-
coupled Nanocomputing (FCN) to become a real-world post-CMOS technology. This drives …

Silicon Dangling Bonds (SiDBs) on the hydrogen-passivated silicon surface have emerged
as a promising competitor in the realm of beyond-CMOS computational technologies. They …

Recent advances in atom-scale manufacturing are paving the way toward the emergence of
Field-coupled Nanocomputing (FCN) as a viable real-world post-CMOS technology. Current …