基于内存的FFT处理器的高效内置自检技术

10th IEEE Pacific Rim International Symposium on Dependable Computing, 2004. Proceedings. Pub Date : 2004-03-03 DOI:10.1109/PRDC.2004.1276582

Shyue-Kung Lu, Chien-Hung Yeh, Han-Wen Lin

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引用次数: 1

摘要

提出了基于内存的FFT处理器的高效内置自检技术。基于内存的结构适合于ADSL和OFDM系统等高计算点应用。FFT处理器首先分为存储部分和逻辑部分，它们可以在同一个BIST控制器的监督下进行测试。该控制器不仅可以执行传统的存储器测试算法，还可以生成逻辑部分所需的测试模式。所采用的记忆测试算法可由用户自行编写，涵盖了不同类型的记忆故障。对于逻辑部分，假定为单单元故障模型。我们的BIST架构同时测试这两个部分，从而大大缩短了测试时间。我们的方法的硬件开销也非常低，因为新的可测试性设计技术应用于主要由乘法器组成的逻辑部分。利用Synopsys合成工具设计并实现了实验芯片。实验结果表明，BIST架构的硬件开销仅为4.06%。存储部分的故障覆盖率取决于所采用的March算法。对于逻辑部分，我们只用16个测试模式就可以达到100%的单元故障覆盖率。

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Efficient built-in self-test techniques for memory-based FFT processors

Efficient built-in self-test techniques for memory-based FFT processors are proposed. The memory-based architecture is suitable for high computation point applications such as ADSL and OFDM systems. The FFT processor is first divided into the memory part and the logic part which can be tested under the supervision of the same BIST controller. The BIST controller can not only perform traditional memory test algorithms but also generates test patterns required for the logic part. The adopted memory test algorithm can be programmed by the users which covers different types of memory faults. For the logic part, the single cell fault model is assumed. Our BIST architecture tests both parts simultaneously such that the test time can be reduced greatly. The hardware overhead of our approach is also very low since novel design-for-testability techniques are applied for the logic part which mainly consists of multipliers. An experimental chip is designed and implemented with Synopsys synthesis tools. Experimental results show that the hardware overhead of the BIST architecture is only 4.06%. The fault coverage of the memory part depends on the March algorithm adopted. For the logic part, we can achieve 100% cell fault coverage with only 16 test patterns.

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10th IEEE Pacific Rim International Symposium on Dependable Computing, 2004. Proceedings.

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