An Accurate Jitter Estimation Technique for Efficient High Speed I/O Testing

16th Asian Test Symposium (ATS 2007) Pub Date : 2007-10-08 DOI:10.1109/ATS.2007.77
Dongwoo Hong, K. Cheng
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引用次数: 23

Abstract

This paper describes a technique for estimating total jitter that, along with a loopback-based margining test, can be applied to test high speed serial interfaces. We first present the limitations of the existing estimation method, which is based on the dual-Dirac model. The accuracy of the existing method is extremely sensitive to the choice of the fitting region and the ratio of deterministic jitter to random jitter. Then, we propose a high-order polynomial fitting technique and demonstrate its value for a more efficient and accurate total jitter estimation at a very low Bit-Error-Rate level. The estimation accuracy is also analyzed with respect to different numbers of measurement points for fitting. This analysis shows that only a very small number (i.e., 4) of measurement points is needed for achieving accurate estimation.
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一种用于高效高速I/O测试的精确抖动估计技术
本文描述了一种估计总抖动的技术,该技术与基于环回的边缘测试一起可用于测试高速串行接口。我们首先提出了现有的基于双狄拉克模型的估计方法的局限性。现有方法的精度对拟合区域的选择和确定性抖动与随机抖动的比值极为敏感。然后,我们提出了一种高阶多项式拟合技术,并证明了它在非常低的误码率水平下更有效和准确地估计总抖动的价值。对不同测量点个数拟合的估计精度进行了分析。这个分析表明,只需要非常少量的测量点(例如,4个)就可以实现准确的估计。
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16th Asian Test Symposium (ATS 2007)
16th Asian Test Symposium (ATS 2007)
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