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As we advance into the era of nanotechnology, semiconductor devices are scaled down to their physical limits, thereby opening up venues for new transistor channel materials based on nanowires and nanotubes. Transistors based on nanowires and nanotubes inherently exhibit ambipolar behavior. While technologists aim to suppress ambipolar behavior of these transistors, new design methodologies are proposed by exploiting the phenomenon of controllable polarity. In this paper, we propose regular layout fabrics, with an emphasis on silicon nanowires (SiNWs) as the candidate technology. A double-gate ambipolar SiNW field-effect transistor operates as p-type or n-type by electrically controlling the polarity of the second gate. We propose layout techniques to address gate-level routing congestion, as every transistor has two gates to route. Novel symbolic layouts, which are technology independent, are proposed for ambipolar circuits. In the second part of this paper, we present an approach for designing an efficient regular layout called sea-of-tiles (SoTs). A logic tile is essentially an array of prefabricated transistor-pairs grouped together. We design four logic tiles, which form the basic building block of the SoT fabric. We run extensive comparisons of mapping standard benchmarks onto the SoT fabric to find the optimum tile. This paper shows that SoT with TileG2 and TileG1h2, on an average, outperforms the one with TileG1 by 16% and 14% in area utilization, respectively.
Anna Fontcuberta i Morral, Andrea Giunto, Thomas Hagger, Louise Emma Webb
Andras Kis, Oleg Yazyev, Mukesh Kumar Tripathi, Kristians Cernevics, Zhenyu Wang, Ahmet Avsar, Yanfei Zhao, Juan Francisco Gonzalez Marin, Cheol Yeon Cheon, Hyungoo Ji