高性能45纳米SOI技术，具有增强应变，多孔低k BEOL和浸没光刻

2006 International Electron Devices Meeting Pub Date : 2006-12-01 DOI:10.1109/IEDM.2006.346879

S. Narasimha, K. Onishi, H. Nayfeh, A. Waite, M. Weybright, J. Johnson, C. Fonseca, D. Corliss, C. Robinson, M. Crouse, D. Yang, C.-H.J. Wu, A. Gabor, T. Adam, I. Ahsan, M. Belyansky, L. Black, S. Butt, J. Cheng, A. Chou, G. Costrini, C. Dimitrakopoulos, A. Domenicucci, P. Fisher, A. Frye, S. Gates, S. Greco, S. Grunow, M. Hargrove, J. Holt, S. Jeng, M. Kelling, B. Kim, W. Landers, G. Larosa, D. Lea, M. Lee, X. Liu, N. Lustig, A. McKnight, L. Nicholson, D. Nielsen, K. Nummy, V. Ontalus, C. Ouyang, X. Ouyang, C. Prindle, R. Pal, W. Rausch, D. Restaino, C. Sheraw, J. Sim, A. Simon, T. Standaert, C. Sung, K. Tabakman, C. Tian, R. Van Den Nieuwenhuizen, H. van Meer, A. Vayshenker, D. Wehella-gamage, J. Werking, R. Wong, J. Yu, S. Wu, R. Augur, D. Brown, X. Chen, D. Edelstein, A. Grill, M. Khare, Y. Li, S. Luning, J. Norum, S. Sankaran, D. Schepis, R. Wachnik, R. Wise, C. Warm, T. Ivers, P. Agnello

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引用次数: 127

摘要

我们提出了一种45纳米SOI CMOS技术，其特点是:i)通过1.2NA/193nm浸没光刻实现了积极的接地规则(GR)缩放，ii)通过集成多种先进的应变和激活技术实现了高性能场效应晶体管响应，iii)电池尺寸为0.37mum2的功能性SRAM, iv)多孔低k (k=2.4)介电体，可将后端布线延迟降至最低。fet专用性能元件包括增强型双应力衬垫(DSL)、高级eSiGe、应力记忆(SMT)和高级退火(AA)。在Vdd为1.0V、GR栅极间距为45nm时，得到的fet /NFET的Idsat值分别为840muA/mum和1240muA/mum。与k=3.0相比，k=2.4时实现的全局布线延迟减少了20%

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High Performance 45-nm SOI Technology with Enhanced Strain, Porous Low-k BEOL, and Immersion Lithography

We present a 45-nm SOI CMOS technology that features: i) aggressive ground-rule (GR) scaling enabled by 1.2NA/193nm immersion lithography, ii) high-performance FET response enabled by the integration of multiple advanced strain and activation techniques, iii) a functional SRAM with cell size of 0.37mum2, and iv) a porous low-k (k=2.4) dielectric for minimized back-end wiring delay. The list of FET-specific performance elements includes enhanced dual-stress liner (DSL), advanced eSiGe, stress memorization (SMT), and advanced anneal (AA). The resulting PFET/NFET Idsat values, at Vdd of 1.0V and 45nm GR gate pitch, are 840muA/mum and 1240muA/mum respectively. The global wiring delay achieved with k=2.4 reflects a 20% reduction compared to k=3.0

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2006 International Electron Devices Meeting

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