W. McMahon, C. Tian, S. Uppal, H. Kothari, M. Jin, G. Larosa, T. Nigam, A. Kerber, B. Linder, E. Cartier, W. Lai, Y. Liu, R. Ramachandran, U. Kwon, B. Parameshwaran, S. Krishnan, V. Narayanan
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引用次数: 13
摘要
我们比较了高性能块体平面20nm替代栅极技术和高性能块体平面28nm栅极首高k金属栅极(HKMG)技术的介电堆叠的固有可靠性,该技术由IBM联盟开发。可比较的N/ fet TDDB和可比较/改进的fet PBTI在类似的Tinv下是可以实现的。在20nm技术中不包含通道硅锗作为pet性能元件的选择影响了NBTI,推动了NBTI和PBTI之间的潜在权衡。在考虑可靠性/性能权衡的同时,集成这些性能元素的复杂性要求在技术定义期间对其进行选择,并适当考虑实际的产品使用条件。
Intrinsic dielectric stack reliability of a high performance bulk planar 20nm replacement gate high-k metal gate technology and comparison to 28nm gate first high-k metal gate process
We compare the intrinsic reliability of the dielectric stack of a high performance bulk planar 20nm replacement gate technology to the reliability of high performance bulk planar 28 nm gate first high-k metal gate (HKMG) technology, developed within the IBM Alliance. Comparable N/PFET TDDB and comparable/improved NFET PBTI are shown to be achievable for similar Tinv. The choice to not include channel silicon germanium as a PFET performance element in the 20nm technology impact NBTI, driving a potential tradeoff between NBTI and PBTI. The complexity of integrating such performance elements while accounting for reliability/performance tradeoffs demands their selection during technology definition with due consideration to realistic product usage conditions.
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