Title :
25 nm CMOS design considerations
Author :
Taur, Y. ; Wann, C.H. ; Frank, D.J.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
This paper explores the limit of bulk (or partially-depleted SOI) CMOS scaling. A feasible design for 25 nm (channel length) CMOS, without continued scaling of oxide thickness and power supply voltage, is presented. A highly 2D nonuniform profile (super-halo) is shown to yield low off-currents while delivering a significant performance advantage for a 1.0 V power supply. Several key issues, including source-drain doping requirements, band-to-band tunneling, and poly depletion effects, are examined and quantified. It is projected, based on Monte-Carlo simulations, that the delay performance of 25 nm CMOS is 3/spl times/ higher than 100 nm CMOS, and that the nFET f/sub T/ exceeds 250 GHz.
Keywords :
CMOS integrated circuits; Monte Carlo methods; doping profiles; integrated circuit design; low-power electronics; nanotechnology; silicon-on-insulator; tunnelling; 1 V; 25 nm; 250 GHz; 2D nonuniform profile; CMOS design; Monte-Carlo simulations; Si; band-to-band tunneling; bulk CMOS scaling; channel length; delay performance; partially-depleted SOI CMOS scaling; poly depletion effects; short channel device design; source-drain doping requirements; super-halo profile; Delay; Doping profiles; Fluctuations; Insulation; Lithography; MOSFETs; Power supplies; Threshold voltage; Tunneling; Voltage control;
Conference_Titel :
Electron Devices Meeting, 1998. IEDM '98. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-4774-9
DOI :
10.1109/IEDM.1998.746474
