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Generalized successive failure methodology for non-weibull distributions and its applications to SiO2 or high-k/SiO2 bilayer dielectrics and extrinsic failure mode

机译：非威布尔分布的广义连续失效方法及其在SiO2或高k / SiO2双层电介质和非本征失效模式中的应用

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We report a generalized successive failure (or breakdown) methodology for non-Weibull distributions and successfully apply it to both SiO2 single-layer dielectric with progressive BD and high-κ/SiO2 bilayer dielectrics in intrinsic failure mode. We show that for failure-current based distributions (non-Weibull) of intrinsic mode with a steeper slope at low percentiles, the most significant lifetime margin comes from this steeper slope itself and not from the tolerance to several failure events. On the other hand, the application of successive failure methodology to extrinsic failure mode with shallow slopes commonly observed in real life of products can lead to very large TDDB reliability margin if failure correction schemes such as error correction code can be implemented.

机译：我们报告了针对非魏布尔分布的广义连续失效（或击穿）方法，并将其成功地应用于具有固有BD的SiO2单层电介质和渐进BD以及高κ/ SiO2双层电介质。我们表明，对于在低百分位数处具有陡峭斜率的固有模式基于故障电流的分布（非魏布尔），最重要的寿命裕度来自于陡峭的斜率本身，而不是来自对多个故障事件的容忍度。另一方面，如果可以实施诸如纠错码之类的故障纠正方案，则将连续故障方法应用于在产品实际生活中通常会观察到的具有较小斜率的外部故障模式会导致非常大的TDDB可靠性裕度。

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《Reliability Physics Symposium (IRPS), 2012 IEEE International》|2012年|p.6A.2.1- 6A.2.7|共7页
会议地点 Anaheim CA(US)
作者
Wu Ernest; Sune Jordi; LaRow Charles;
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IBM Semiconductor Research and Development Center, Microelectronics Division, Essex Junction, Vermont, 05452, (USA);

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正文语种 eng
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3. Formation of SiO2 nanocrystals in Lu2O3 high-k dielectric by pulsed laser ablation and application in memory device [J] . Yuan CL, Darmawan P, Setiawan Y, Nanotechnology . 2006,第13期

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4. Generalized successive failure methodology for non-weibull distributions and its applications to SiO2 or high-k/SiO2 bilayer dielectrics and extrinsic failure mode [C] . Wu Ernest, Sune Jordi, LaRow Charles IEEE International Reliability Physics Symposium . 2012

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Generalized successive failure methodology for non-weibull distributions and its applications to SiO2 or high-k/SiO2 bilayer dielectrics and extrinsic failure mode

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