Impact of Barrier Metal Thickness on SRAM Reliability

To understand the effect of barrier metal thickness (BM THK) of metal gate (MG) on static random access memory (SRAM) reliability, we evaluated 3 different wafer-level reliability (WLR) methods; random telegraph noise (RTN) characteristics ( \tau_{\mathrm{c}}/\tau_{\mathrm{e}} , or capture/ emission...

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Main Authors: Ranjan, Rakesh, Perepa, Pavitra Ramadevi, Lee, Ki-Don, Park, Hokyung, Kim, Peter, Yerubandi, Ganesh Chakravarthy, Haefner, Jon, Kwon, Caleb Dongkyun, Jin, Min-Jung, Zhou, Wenhao, Shim, Hyewon, Chung, Shinyoung
Format: Conference Proceeding
Language:English
Subjects:
BTI Recovery
Degradation
FinFET
Logic gates
Metals
Random access memory
Reliability engineering
RTN
Semiconductor device reliability
SNM
SRAM
Systematics
Traps
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Summary:To understand the effect of barrier metal thickness (BM THK) of metal gate (MG) on static random access memory (SRAM) reliability, we evaluated 3 different wafer-level reliability (WLR) methods; random telegraph noise (RTN) characteristics ( \tau_{\mathrm{c}}/\tau_{\mathrm{e}} , or capture/ emission time constant) and BTI recovery are studied on single-bit transistors, and SRAM static noise margin (SNM) degradation is also investigated with various stress configuration. Using three different MG process splits, it is observed that RTN performance is modulated by BM THK. Through BM THK optimization, the best result (i.e., \mathbf{RTN}\downarrow , bias temperature instability (BTI) \mathbf{recovery}\uparrow , SRAM SNM \mathbf{shift}\downarrow ) could be achieved, owing to less oxide damage by minimal trapping/de-trapping phenomenon. This clearly indicates the need of subtle process-reliability optimization. In addition, high temperature operating life (HTOL) is performed to confirm the SRAM Vmin shift at package-level test.
ISSN:1938-1891
DOI:10.1109/IRPS48203.2023.10118344