(特邀)锗晶体管在硅CMOS上的连续三维集成

ECS Transactions Pub Date : 2023-09-29 DOI:10.1149/11201.0013ecst

Mikael Ostling, Per-Erik Hellstrom

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摘要

为了保持缩放进度，我们必须进入三维(3D)。本文概述了将Ge p型mosfet顺序集成到Si CMOS上的一些技术挑战和解决方案。这样的解决方案解决了增加设备密度的巨大挑战。然而，该器件本身不需要扩展，但同时提出了创新的解决方案，用于低电源电压操作，使节能集成电路(ic)不会被互连中的能耗所主导。通过将晶体管堆叠在一起，并通过层间通孔连接它们，单位面积上晶体管的密度增加了。这种方法要求晶体管的制造温度比现在的硅CMOS技术要低。在这里，我们关注的是基于锗的晶体管，与硅晶体管相比，其固有的工艺温度更低。讨论了实现基于Ge的顺序三维电路的若干技术和设计突破。

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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(Invited) Sequential 3D Integration of Ge Transistors on Si CMOS

To keep the scaling progress going, we must go three dimensional (3D). This paper outlines some technology challenges and solutions to integrate Ge p-type MOSFETs sequentially on Si CMOS. Such a solution addresses the grand challenge to enable increased device density. However, the device itself does not have to scale but at the same time innovative solutions are suggested for low supply voltage operation enabling energy efficient integrated circuits (ICs) that will not be dominated by energy consumption in interconnects. By stacking the transistors on top of each other, and connecting them with inter-tier via, the density of transistors per unit area increases. This approach demands that transistors are fabricated at a lower temperature than today’s Si CMOS technology. Here, we have focused on Ge based transistors, which have an inherently lower process temperature compared to Si transistors. Several technological and design breakthroughs towards realizing Ge based sequential 3D circuits are discussed.

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ECS Transactions

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