通过缩放和冗余算子消去合成自测试滤波器

Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers Pub Date : 1995-10-30 DOI:10.1109/ACSSC.1995.540527

L. Goodby, A. Orailoglu

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引用次数: 4

摘要

提出了一种基于综合的方法来提高数字滤波器的可测试性，其目的是在低开销的内置自检方法下实现高故障覆盖率的设计。基于综合的方法允许在不增加特殊测试硬件或对门级网络表进行其他操作的情况下实现高覆盖率。在合成之前，设计的可测试性在寄存器-传输级别(RTL)得到增强。使用缩放作为冗余消除技术，可以减少设计所需的面积，并确定可以通过从参数化VHDL库中自动选择优化的RTL结构来消除的进一步冗余。

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Synthesizing self-testable filters via scaling and redundant operator elimination

A synthesis-based approach to improving the testability of digital filters is presented, with the aim of producing designs that achieve very high fault coverage under low-overhead built-in self-test methodologies. The synthesis-based approach permits high coverages to be achieved without the addition of special test hardware or other manipulation of the gate-level netlist. The testability of a design is enhanced at the register-transfer level (RTL), prior to synthesis. Using scaling as a redundancy elimination technique, it is possible to reduce the area required by a design, as well as identify further redundancies that can be eliminated through the automatic selection of optimized RTL structures drawn from a parameterized VHDL library.

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Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers

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