A Distributed Theory for Contactless Interconnects at Terahertz Frequencies

0 ENGINEERING, ELECTRICAL & ELECTRONIC
Nicholas R. Jungwirth;Bryan T. Bosworth;Aaron M. Hagerstrom;Meagan C. Papac;Eric J. Marksz;Jerome Cheron;Kassiopeia Smith;Angela C. Stelson;Ari Feldman;Dylan F. Williams;Christian J. Long;Nathan D. Orloff
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Abstract

We test a multimodal analytical model for distributed contactless interconnects by comparing it to 3-D full-wave simulations. In comparison to 3-D simulations, the model offers insight into how the interconnect works and reduces the computational cost of estimating and optimizing the interconnect’s performance. The model predicts the performance of four distributed contactless interconnects and finds good agreement between with 3-D simulations up to 1 THz. All the interconnects have less than 1-dB insertion loss in their first pass bands, highlighting the opportunity offered by contactless interconnects.
太赫兹频率下非接触式互连的分布式理论
我们将分布式非接触互连的多模态分析模型与三维全波模拟进行了比较,从而对该模型进行了测试。与三维仿真相比,该模型能够深入了解互连的工作原理,并降低估算和优化互连性能的计算成本。该模型预测了四种分布式非接触互连的性能,并发现其与三维仿真之间在 1 THz 以下的性能有很好的一致性。所有互连器件在其首通频带的插入损耗均小于 1dB,突出了非接触式互连器件提供的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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