Scalable Physical Design for Silicon Dangling Bond Logic: How a 45° Turn Prevents the Reinvention of the Wheel

S Hofmann, M Walter, R Wille - 2023 IEEE 23rd International …, 2023 - ieeexplore.ieee.org
With the ever-increasing demands of computing, post-CMOS technologies are sought after.
Field-coupled Nanocomputing (FCN), which relies on physical field repulsion, is a class of …

The Need for Speed: Efficient Exact Simulation of Silicon Dangling Bond Logic

J Drewniok, M Walter, R Wille - 2024 29th Asia and South …, 2024 - ieeexplore.ieee.org
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 …

Temperature Behavior of Silicon Dangling Bond Logic

J Drewniok, M Walter, R Wille - 2023 IEEE 23rd International …, 2023 - ieeexplore.ieee.org
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 …

[PDF][PDF] The Munich Nanotech Toolkit (MNT)

M Walter, J Drewniok, S Hofmann, B Hien, R Wille - 2024 - cda.cit.tum.de
As traditional computing technologies near their physical limits, the demand for beyond-
CMOS alternatives intensifies. Among these, Field-coupled Nanocomputing (FCN) emerges …

Post-Layout Optimization for Field-coupled Nanotechnologies

ST Hofmann, M Walter, R Wille - Proceedings of the 18th ACM …, 2023 - dl.acm.org
While conventional computing technologies reach their limits, the demand for computation
power keeps growing, fueling the interest in post-CMOS technologies. One promising …

Atomic Defect-Aware Physical Design of Silicon Dangling Bond Logic on the H-Si (100) 2x1 Surface

M Walter, J Croshaw, SSH Ng, K Walus… - arXiv preprint arXiv …, 2023 - arxiv.org
Although fabrication capabilities of Silicon Dangling Bonds have rapidly advanced from
manual labor-driven laboratory work to automated manufacturing in just recent years, sub …

Minimal Design of SiDB Gates: An Optimal Basis for Circuits Based on Silicon Dangling Bonds

J Drewniok, M Walter, R Wille - … of the 18th ACM International Symposium …, 2023 - dl.acm.org
Silicon Dangling Bonds (SiDBs) present a promising computational technology that goes
beyond traditional CMOS. It enables the creation of circuitry using single atoms as …

Simulating Charged Defects in Silicon Dangling Bond Logic Systems to Evaluate Logic Robustness

SSH Ng, J Croshaw, M Walter, R Wille… - IEEE Transactions …, 2024 - ieeexplore.ieee.org
Recent research interest in emerging logic systems based on quantum dots has been
sparked by the experimental demonstration of nanometer-scale logic devices composed of …

Reducing the complexity of operational domain computation in silicon dangling bond logic

M Walter, J Drewniok, SSH Ng, K Walus… - Proceedings of the 18th …, 2023 - dl.acm.org
Silicon Dangling Bonds (SiDBs) constitute a beyond-CMOS computational nanotechnology
platform that enables higher integration density and lower power consumption than …

A* is Born: Efficient and Scalable Physical Design for Field-coupled Nanocomputing

S Hofmann, M Walter, R Wille - 2024 IEEE 24th International …, 2024 - ieeexplore.ieee.org
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 …