Testing and Reliability Techniques for High-Bandwidth Embedded RAMs

ISSN： 0923-8174

Source： Journal of Electronic Testing, Vol.20, Iss.1, 2004-02, pp. : 89-108

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Abstract

Application-specific integrated circuits (ASICs) and high-performance processors such as Itanium and Compaq Alpha use a total of almost 75% of chip real estate for accommodating various types of embedded (or on-chip) memories. Although most of these embedded memories are single-port static (and in relatively few cases, dynamic) RAMs today, the high demand for bandwidth in digital television, fast signal processing, and high-speed networking applications will also fuel the need for on-chip multiport memories in the foreseeable future. The reliability of a complex VLSI chip will depend largely on the reliability of these embedded memory blocks. With device dimensions moving rapidly toward the ultimate physical limits of device scaling, which is in the regime of feature sizes of 50 nm or so, a host of complex failure modes is expected to occur in memory circuits. This tutorial underlines the need for appropriate testing and reliability techniques for the present to the next generation of embedded RAMs. Topics covered include: reliability and quality testing, fault modeling, advanced built-in self-test (BIST), built-in self-diagnosis (BISD), and built-in self-repair (BISR) techniques for high-bandwidth embedded RAMs.