K. K. Young, S. Wu, C.C. Wu, C. Wang, C. Lin, J.Y. Cheng, M. Chiang, S. Chen, T. Lo, Y.S. Chen, J.H. Chen, L. Chen, S. Hou, J. J. Law, T. Chang, C. Hou, J. Shih, S. Jeng, H. Hsieh, Y. Ku, T. Yen, H. Tao, L. Chao, S. Shue, S. Jang, T. Ong, C. Yu, M. Liang, C. H. Diaz, J. Sun
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引用次数: 49
Abstract
A leading-edge 0.13 /spl mu/m CMOS technology using 193 nm lithography and Cu/low-k interconnect is described in this paper. High performance 80 nm core devices use 17 /spl Aring/ nitrided oxide for 1.0-1.2 V operation. These devices deliver unloaded 8.5 ps gate delay @1.2 V. This technology also supports general ASIC applications with 20 /spl Aring/ oxide for 1.2-1.5 V operation and low-standby power applications with 26 /spl Aring/ for 1.5 V operation, respectively. Dual gate oxides of 50 or 65 /spl Aring/ are also supported for 2.5 V or 3.3 V I/O circuits respectively. Cu with low-k dielectric is used for the 8-layer metal interconnect system with tight pitch. The aggressive design rules and border-less contacts/vias support a high density 1P3M 2.43 /spl mu/m/sup 2/ 6T-SRAM cell without local interconnect. A suite of embedded SRAM cells (6T, 8T) with competitive density and performance optimized for different applications are also supported with memory compilers and large block macros.
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