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We propose a path for extending the technology roadmap when currently considered technology boosters (e.g., strain, high-kappa/metal gate) reach their limits and physical gate length can no longer be effectively scaled down. By judiciously engineering the device parasitic resistance and parasitic capacitance, and considering the impact of the interconnect wiring capacitance, we propose scenarios of...
We explore options for device scaling beyond the conventional scaling path. We examine the role of the parasitic capacitance for determining the performance of future one-dimensional FETs. We also explore a possible device scaling path that focuses on aggressive scaling of the contacted gate pitch, which provides performance improvements at both the device and circuit level.
We propose a path for extending the technology roadmap when currently considered technology boosters (e.g., strain, high-k/metal gate) reach their limits. By carefully engineering the device parasitic resistance and parasitic capacitance, and considering the impact of the interconnect wiring capacitance, we propose scenarios of device footprint and device structure scaling that will enable technology...
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