Title :
Speed advantage of optimized metal S/D in 25 nm dual-gate fully-depleted CMOS
Author :
Connelly, D. ; Grupp, D. ; Yergeau, D.
Abstract :
With shrinking dimensions, control of extrinsic impedance is becoming increasingly performance limiting. Improvements to source/drain (S/D) technology thus become critical to technology scaling. Metal S/D is a promising approach. A doped S/D device was modeled with a two-component S/D profile: an ultra-steep extension profile offset from the gate edge, and a stronger primary S/D profile aligned to the metal contact. The metal S/D was offset from the gate edge to improve the short channel margin. By reducing series resistance and allowing for lower fringe capacitance, a metal S/D device allows for substantial improvement in speed and/or power. An offset from the metal S/D to the gate should be used to reduce short channel effects. If doped S/D is used, then ultra-low resistance contacts are mandatory.
Keywords :
CMOS integrated circuits; capacitance; electric impedance; electric resistance; electrical contacts; integrated circuit design; integrated circuit modelling; nanotechnology; semiconductor doping; 25 nm; S/D technology; doped S/D; doped S/D device modeling; dual-gate fully-depleted CMOS technology; fringe capacitance; impedance control; metal contact aligned primary S/D profile; optimized metal source/drain speed advantage; performance limiting extrinsic impedance; power improvement; series resistance reduction; short channel effects; short channel margin; technology scaling; two-component S/D profile; ultra-low resistance contacts; ultra-steep gate edge offset extension profile; CMOS technology; Circuit simulation; Contact resistance; Degradation; Delay; Immune system; Impedance; Integrated circuit interconnections; MOS devices; Virtual colonoscopy;
Conference_Titel :
Device Research Conference, 2002. 60th DRC. Conference Digest
Conference_Location :
Santa Barbara, CA, USA
Print_ISBN :
0-7803-7317-0
DOI :
10.1109/DRC.2002.1029522
