Manufacturable Parasitic-Aware Circuit-Level FETs in 65-nm SOI CMOS Technology

Daeik Kim,Jonghae Kim,Jean-Olivier Plouchart,Choongyeun Cho,Robert Trzcinski,Sungjae Lee,Mahender Kumar,Christine Norris,Jae-Sung Rieh,Greg Freeman,David Ahlgren

Electron Device Letters, IEEE（2007）

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摘要

This letter reports the statistical analysis of circuit-level FET high-speed performance in 65-nm silicon-on-insulator CMOS technology. Practical performance metrics are derived from full 300-mm wafer measurements. The proposed circuit-level layout wiring parasitics-aware FET reflects realistic FET that is placed in circuits. Its measurement and model are directly applicable to circuit design in conjunction with multiple layers of yield and manufacturability considerations. A stretched gate-pitch NFET design shows an average current gain cutoff frequency fT of 250 GHz, with 7.6% standard deviation, 6.7% mismatch standard deviation, and maximum fT of 307 GHz. The proposed characterization methodology will become more relevant to technologies beyond 65 nm.

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关键词

65-nm silicon-on-insulator (soi) cmos,cmos integrated circuits,circuit-level fet with wiring parasitics,gain cutoff frequency,current gain cutoff frequency $f_{t}$,size 65 nm,statistical analysis,wafer measurements,silicon-on-insulator cmos,manufacturability considerations,silicon-on-insulator,soi cmos technology,field effect transistors,fet yield and manufacturability,stretched gate-pitch nfet design,full 300-mm wafer statistical analysis,manufacturable parasitic-aware circuit-level fets,circuit-level layout wiring parasitics-aware fet,circuit design,cmos technology,semiconductor device modeling,standard deviation,cutoff frequency,silicon on insulator,measurement

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