具有双层转移Ge/2Si CFET和IGZO通栅的3-D非均质6T SRAM集成设计与工艺，可将单元尺寸减小42%

2022 International Electron Devices Meeting (IEDM) Pub Date : 2022-12-03 DOI:10.1109/IEDM45625.2022.10019507

X.-R. Yu, Min-Hui Chuang, S. Chang, W. Chang, T. Hong, Chien-Hsueh Chiang, W.-H. Lu, C.-Y. Yang, W.-J. Chen, J. Lin, Pei-Hsuan Wu, T.-C. Sun, S. Kola, Y.-S. Yang, Yun Da, P. Sung, C. Wu, Ta-Chun Cho, G. Luo, K. Kao, M. Chiang, W. C. Ma, C. Su, T. Chao, T. Maeda, S. Samukawa, Y. Li, Y. Lee, W. Wu, J. Tarng, Y. Wang

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引用次数: 2

摘要

在这项工作中，我们提出了一种先进的三维异构6T SRAM，采用了一种新设计的异质集成方法。CFET逆变器和IGZO通栅极垂直堆叠在2T占地面积内。利用低温异质层键合技术(LT-HBT)成功地在8英寸全晶圆上制备了Ge/2Si单晶非均质双层转移(DLT) CFET-OI。此外，IGZO nFET被沉积并作为通栅(PG)处理，以实现6T SRAM操作。IGZO PG和自对准DLT Ge/2Si CFET逆变器的异质集成显示出更高的读静态噪声裕度(RSNM)和待机泄漏功率。最先进的3-D异构6T SRAM使面积减少42%。

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Integration Design and Process of 3-D Heterogeneous 6T SRAM with Double Layer Transferred Ge/2Si CFET and IGZO Pass Gates for 42% Reduced Cell Size

In this work, we propose an advanced 3-D heterogeneous 6T SRAM with a newly designed hetero-integration method. CFET inverters and IGZO pass gates are vertically stacked within a 2T footprint area. The Low-Temperature Hetero-Layers Bonding Technique (LT-HBT) process is utilized successfully to fabricate single crystalline heterogeneous Double Layer Transferred (DLT) Ge/2Si CFET-OI on an 8-inch full wafer. Furthermore, an IGZO nFET is deposited and treated as a pass gate (PG) to realize a 6T SRAM operation. The hetero-integration of IGZO PG and self-align DLT Ge/2Si CFET inverters showed improved Read Static Noise Margin (RSNM) and stand-by leakage power. The state-of-the-art 3-D heterogeneous 6T SRAM leads to 42% area reduction.

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2022 International Electron Devices Meeting (IEDM)

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