Hexagons are the Bestagons: Design Automation for Silicon Dangling Bond Logic

Field-coupled Nanocomputing (FCN) defines a class of post-CMOS nanotechnologies that promises compact layouts, low power operation, and high clock rates. Recent breakthroughs in the fabrication of Silicon Dangling Bonds (SiDBs) acting as quantum dots enabled the demonstration of a sub-30 nm2 OR gate and wire segments. This motivated the research community to invest manual labor in the design of additional gates and whole circuits which, however, is currently severely limited by scalability issues. In this work, these limitations are overcome by the introduction of a design automation framework that establishes a flexible topology based on hexagons as well as a corresponding Bestagon gate library for this technology and, additionally, provides automatic methods for physical design. By this, the first design automation solution for the promising SiDB platform is proposed. In an effort to support open research and open data, the resulting framework as well as all design and code files are made publicly available.

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