TY - BOOK AU - Walter,Marcel AU - Wille,Robert AU - Sill Torres,Frank AU - Drechsler,Rolf ED - SpringerLink (Online service) TI - Design Automation for Field-coupled Nanotechnologies SN - 9783030899523 AV - TK7867 PY - 2022/// CY - Cham PB - Springer International Publishing, Imprint: Springer KW - Electronic circuits KW - Embedded computer systems KW - Electronic circuit design KW - Electronic Circuits and Systems KW - Embedded Systems KW - Electronics Design and Verification KW - Computer simulation KW - Electronic data processing KW - Information theory N1 - Introduction -- Preliminaries -- Theoretical Groundwork -- Exact Placement & Routing -- Scalable Placement & Routing -- One-Pass Synthesis -- Exploiting Clocks for Synchronization -- Formal Verification -- fiction: A Holistic Open-Source Framework -- Summary and Conclusions N2 - This book discusses the main tasks of Design Automation for Field-coupled Nanocomputing (FCN) technologies, in order to enable large-scale composition of elementary building blocks, that obtain correct systems from given function specifications. To this end, a holistic design flow is described, which covers exact and scalable placement & routing, one-pass logic synthesis, novel clocking mechanisms for data synchronization, and formal verification for obtained circuit layouts. Additionally, theoretical groundwork is presented that lays the foundation for any algorithmic consideration in the future. Furthermore, an open-source FCN design framework called fiction, which contains implementations of all proposed techniques, is presented and made publicly available. The approaches discussed in this book address obstacles that have existed since the conceptualization of the FCN paradigm and could not be resolved since then. As a result, this book substantially advances the state of the art in design automation for FCN technologies. • Provides readers with an extensive introduction to the field of Design Automation for Field-coupled Nanocomputing (FCN); • Discusses the latest developments in synthesis, placement, routing, clocking, and verification of FCN technologies; • Presents an open-source FCN design framework that contains implementations of all described algorithms UR - https://doi.org/10.1007/978-3-030-89952-3 ER -