BIST TPG for SRAM cluster interconnect testing at board level

Proceedings of the Ninth Asian Test Symposium Pub Date : 2000-12-04 DOI:10.1109/ATS.2000.893603

Chen-Huan Chiang, S. Gupta

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引用次数: 1

Abstract

A Built-In Self-Test (BIST) methodology and a test pattern generation (TPG) architecture for testing static random access memory (SRAM) interconnect at board level via IEEE 1149.1 Boundary Scan (BS) Architecture are presented. Due to the expense and complexity of BS circuitry the widely-used SRAMs on most modern telecommunication circuit boards seldom contain BS architecture. (We call such non-boundary scan ICs cluster-ICs.) Hence, a methodology that tests the large numbers of board-level interconnects at the control, address, and data lines of cluster SRAMs is necessary. This is especially essential for board-level interconnect BIST which is used not only for manufacturing testing but also for system testing after integration. Newly identified prohibited conditions, which enable re-arrangement and merger of tests, are incorporated into test conditions for SRAM cluster interconnects. These improvements have been exploited to develop an efficient test procedure that is suitable for BIST. The proposed BIST methodology generates TPGs that (i) guarantee the avoidance of multi-driver conflicts when testing via BSA, (ii) guarantee the detection of all testable SRAM cluster interconnect faults, (iii) have low area overhead, and (iv) have short test lengths.

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用于板级SRAM集群互连测试的BIST TPG

提出了一种内置自检(BIST)方法和一种测试模式生成(TPG)体系结构，用于通过IEEE 1149.1边界扫描(BS)体系结构测试板级静态随机存取存储器(SRAM)互连。由于BS电路的昂贵和复杂，大多数现代电信电路板上广泛使用的sram很少包含BS结构。(我们称这种无边界扫描ic为集群ic。)因此，有必要采用一种方法，在集群sram的控制线、地址线和数据线上测试大量板级互连。这对于板级互连BIST尤其重要，它不仅用于制造测试，还用于集成后的系统测试。新确定的禁止条件允许重新安排和合并测试，并将其纳入SRAM集群互连的测试条件。这些改进已被用于开发一种适用于BIST的高效测试程序。提出的BIST方法生成的TPGs (i)保证在通过BSA测试时避免多驱动器冲突，(ii)保证检测所有可测试的SRAM集群互连故障，(iii)具有低面积开销，(iv)具有短测试长度。

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 of the Ninth Asian Test Symposium

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