Application and demonstration of a digital test core: optoelectronic test bed and wafer-level prober

International Test Conference, 2003. Proceedings. ITC 2003. Pub Date : 2003-09-30 DOI:10.1109/TEST.2003.1270837

John S. Davis, D. Keezer, O. Liboiron-Ladouceur, K. Bergman

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引用次数: 16

Abstract

Abstract A multi-purpose digital test core utilizing programmable logic has been introduced [1,2] to implement many of the functions of traditional automated test equipment (ATE). While previous papers have described the theory, this paper quantifies the results and presents additional applications with improved methods operating up to 4.4Gpbs. The digital test core provides a substantial number of programmable I/O for testing circuits and systems. It may be used either to enhance the capabilities of ATE or to provide autonomous testing within large systems or arrays of components. This technique has been expanded upon to produce greater functionality at higher frequencies. Based upon limitations of current ATE and BIST, the need for the digital test core is described. The test core concept is reviewed within an opto-electronic pattern generator and sampler with an eventual goal of terabit-per-second aggregate data rate. The performance of the device is discussed, and a second application of the digital test core is introduced as a nano-scale wafer-level embedded tester.

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数字测试核心:光电测试平台和晶圆级探头的应用与演示

一种利用可编程逻辑的多用途数字测试核心已经被引入[1,2]，以实现传统自动化测试设备(ATE)的许多功能。虽然以前的论文已经描述了该理论，但本文量化了结果，并提出了改进方法的其他应用，操作高达4.4 gbbs。数字测试核心为测试电路和系统提供了大量可编程I/O。它既可以用于增强ATE的能力，也可以用于在大型系统或组件阵列中提供自主测试。这项技术已经扩展到在更高的频率上产生更大的功能。基于当前ATE和BIST的局限性，描述了对数字测试芯的需求。测试核心概念在光电模式发生器和采样器中进行了审查，最终目标是每秒太比特的聚合数据速率。讨论了该器件的性能，并介绍了该数字测试芯作为纳米级晶圆级嵌入式测试仪的第二种应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Test Conference, 2003. Proceedings. ITC 2003.

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