A 0.11 μm CMOS technology featuring copper and very low k interconnects with high performance and reliability |
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| Authors: | Yoshihiro Takao Hiroshi KudoJunichi Mitani Yoshiyuki KotaniSatoshi Yamaguchi Keizaburo YoshieKazuo Sukegawa Nobuhisa NaoriSatoru Asai Michiari KawanoTakashi Nagano Ikuhiro YamamuraMasaya Uematsu Naoki NagashimaShingo Kadomura |
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| Affiliation: | a Manufacturing Technology Development Division, Fujitsu Limited, 1500 Mizono, Tado-cho, Kuwana-gun, Mie 511-0192, Japan
b LSI Development Division, Semiconductor Network Company, SONY Corporation, Atsugi Tec. 4-14-1 Asahi-cho, Atsugi-shi, Kanagawa 243-0014, Japan |
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| Abstract: | This paper describes a 0.11 μm CMOS technology with high-reliable copper (Cu) and very low k (VLK) (k<2.7) interconnects for high-performance and low-power applications of a 0.13 μm generation. Aggressive design rules, 0.11 μm gate transistor and 2.2 μm2 six-transistor SRAM cell are realized by using KrF 248 nm lithography, optical proximity effect correction, and gate-shrink techniques. Eight-level interconnects are fabricated with seven level of Cu/VLK interconnect and one level of Al/SiO2 interconnect. Drain current of 0.67 and 0.28 mA/μm are realized for nMOSFET and pMOSFET with 0.11 μm gate, respectively. Propagation delay of two input NAND with the Cu/VLK interconnect is estimated. The delay is improved by more than 70%, compared to 0.18 μm CMOS technology with Cu/FSG interconnects. Functional 288 kbit SRAM circuit is demonstrated with 2.2 μm2 cell and Cu/VLK interconnect. |
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