Design Technology Co-Optimization for 3 nm Gate-All-Around Nanosheet FETs
international conference on solid state and integrated circuits technology(2020)
Abstract
In this work, an improved TCAD based Design Technology Co-Optimization (DTCO) is proposed for gate-all-around (GAA) Nanosheet FET (NSFET) at 3 nm technology node. Based on conventional DTCO, only an additional procedure is introduced to extract the SPICE model, while the huge computational expense in the TCAD simulation is saved. Compared to the 5 nm technology node, the performance of ring oscillator (RO) in the optimized 3 nm technology node increases by 30%, while the power decreases by 56%. Besides, dual-k spacer design for NSFETs at the device and circuit levels are also investigated.
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Key words
gate-all-around nanosheet FET,TCAD simulation,dual-k spacer design,improved TCAD based design technology co-optimization,SPICE model,ring oscillator,circuit levels,size 3.0 nm,size 5.0 nm
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