1. Thin oxynitride solution for digital and mixed-signal 65nm CMOS platform
- Author
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Nathalie Revil, N. Emonet, P. Llinares, R. Difrenza, M. Denais, Roland Pantel, M. Woo, Vincent Huard, Kathy Barla, J. C. Vildeuil, H. Brut, C. Parthasarthy, M. Bidaud, P. Stolk, Franck Arnaud, David Roy, F. Guyader, K. Rochereau, L. Vishnubotla, D. Barge, Nicolas Planes, Sylvie Bruyere, and B. Tavel
- Subjects
Materials science ,business.industry ,Gate dielectric ,Electrical engineering ,Mixed-signal integrated circuit ,Hardware_PERFORMANCEANDRELIABILITY ,Plasma ,Nitride ,CMOS ,Gate oxide ,Dynamic demand ,Hardware_INTEGRATEDCIRCUITS ,Optoelectronics ,business ,Hardware_LOGICDESIGN ,Leakage (electronics) - Abstract
This work shows the benefits of using plasma nitrided gate oxide which supports the gate leakage requirements for 65 nm platform development. Electrical data shows gate leakage to be reduced by half a decade compared to conventional NO processing with Ioff at 3nA/um, Vdd=0.9 V for 65 nm general purpose requirements. Extensive device characterization of the plasma nitride process is presented where the reduction in gate leakage offers benefits in terms of a 4/spl times/ reduction in static power, a 6% reduction in dynamic power consumption, comparative analog performance and improved reliability.
- Published
- 2004
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