Self-Allancd Gate Contact (SAGC) for CMOS technology scaling beyond 7nm

Ruilong Xie; Chanro Park; Richard Conti; R. R. Robison; Huimei Zhou; I. Saraf; A. Carr; Susan Su Chen Fan; Kevin Ryan; Michael Belyansky; Shanti Pancharatnam; Albert Young; Junli Wang; A. Greene; Kangguo Cheng; Juntao Li; Richard Conte; Hao Tang; Kisik Choi; Hari Amanapu; B. Peethala; R. Muthinti; Mark Raymond; Christopher Prindle; Yong Liang; Stan Tsai; Vimal Kamineni; Andre Labonte; Nigel Cave; Dinesh Gupta; Veeraraghavan Basker; Nicolas Loubet; Dechao Guo; B. Haran; Andreas Knorr; Huiming Bu

doi:10.23919/VLSIT.2019.8776492

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VLSI Technology 2019

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Self-Allancd Gate Contact (SAGC) for CMOS technology scaling beyond 7nm

VLSI Technology 2019

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Abstract

We demonstrate a novel self-aligned gate contact (SAGC) scheme with conventional oxide/nitride materials that allows superior process integration for scaling while simplifying the SRAM cross-couple wiring. We show that the key feature to avoid both gate-contact (CB) to source-drain local interconnect (LI) shorts and the LI-contact (CA) to gate shorts is the shape of the LI cap. A trapezoid-shaped oxide (SiO2) LI cap with an appropriate taper angle eliminates shorting between the contacts in the gate and source-drain region. We further demonstrate that this oxide LI cap is fully compatible with Cobalt (Co) metallization with a novel selective tungsten (W) growth process. Additionally, this process enables the SRAM cross-couple (XC) in the same metallization level, eliminating the need for an upper level wiring and greatly simplifying routing in the SRAM cell.

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01 Jun 2019

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VLSI Technology 2019

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