Efficient modular testing of SoCs using dual-speed TAM architectures

Proceedings Design, Automation and Test in Europe Conference and Exhibition Pub Date : 2004-02-16 DOI:10.1109/DATE.2004.1268883

Anuja Sehgal, K. Chakrabarty

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引用次数: 17

Abstract

The increasing complexity of system-on-chip (SOC) integrated circuits has spurred the development of versatile automatic test equipment (ATE) that can simultaneously drive different channels at different data rates. Examples of such ATEs include the Agilent 93000 series tester based on port scalability and the test processor-per-pin architecture, and the Tiger system from Teradyne. The number of tester channels with high data rates may be constrained in practice however due to ATE resource limitations, the power rating of the SOC, and scan frequency limits for the embedded cores. Therefore, we formulate the following optimization problem: given two available data rates for the tester channels, an SOC-level test access mechanism (TAM) width W, V (V < W) channels that can transport test data at the higher data rate, determine an SOC TAM architecture that minimizes the testing time. We present an efficient heuristic algorithm for TAM optimization that exploits port scalability of ATEs to reduce SOC testing time and test cost. We present experimental results on dual-speed TAM optimization for the ITC'2002 SOC test benchmarks.

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采用双速TAM架构的soc高效模块化测试

片上系统(SOC)集成电路的复杂性日益增加，促使了多功能自动测试设备(ATE)的发展，这些设备可以同时以不同的数据速率驱动不同的通道。此类ATEs的示例包括基于端口可伸缩性和测试处理器每引脚架构的Agilent 93000系列测试仪，以及Teradyne的Tiger系统。然而，由于ATE资源限制、SOC的额定功率以及嵌入式内核的扫描频率限制，具有高数据速率的测试通道的数量可能在实践中受到限制。因此，我们制定了以下优化问题:给定两种可用的测试通道数据速率，一个SOC级测试访问机制(TAM)宽度为W, V (V < W)的通道可以以更高的数据速率传输测试数据，确定一个SOC TAM架构，使测试时间最小化。我们提出了一种有效的启发式算法，该算法利用ATEs的端口可扩展性来减少SOC测试时间和测试成本。我们在ITC'2002 SOC测试基准上给出了双速度TAM优化的实验结果。

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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Proceedings Design, Automation and Test in Europe Conference and Exhibition

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