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Integration of high-performance, low-leakage and mixed signal features into a 100 nm CMOS technology

Low voltage operation in sub-0.25 /spl mu/m requirements mean that the simultaneous integration of all components on a single chip - high performance, low leakage and mixed-signal components - is crucial. In this paper, we present the successful integration of a low leakage gate-dielectric using a t...

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Main Authors: Schafbauer, T., Brighten, J., Yi-Cheng Chen, Clevenger, L., Commons, M., Cowley, A., Esmark, K., Grassmann, A., Hodel, U., Hsiang-Jen Huang, Shih-Fen Huang, Yimin Huang, Kaltalioglu, E., Knoblinger, G., Ming-Tsan Lee, Leslie, A., Pak Leung, Baozhen Li, Chuan Lin, Yi-Hsiung Lin, Nissl, W., Phung Nguyen, Olbrich, A., Riess, P., Rovedo, N., Sportouch, S., Thomas, A., Vietzke, D., Wendel, M., Robert Wong, Qiuyi Ye, Kun-Chi Lin, Schiml, T., Wann, C.
Format: Conference Proceeding
Language:English
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Summary:Low voltage operation in sub-0.25 /spl mu/m requirements mean that the simultaneous integration of all components on a single chip - high performance, low leakage and mixed-signal components - is crucial. In this paper, we present the successful integration of a low leakage gate-dielectric using a triple-gate-oxide process with 16 /spl Aring//24 /spl Aring//52 /spl Aring/ layers, a low-k BEOL and mixed signal components. The 1.5 V SRAM cell with a footprint of 1.26 /spl mu/m/sup 2/ is the smallest 1.5 V cell reported.
DOI:10.1109/VLSIT.2002.1015388