模拟电路轻量可控和可观察结构的自动生成

2015 International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD) Pub Date : 2015-10-26 DOI:10.1109/SMACD.2015.7301706

Anthony Coyette, B. Esen, Ronny Vanhooren, Wim Dobbelaere, G. Gielen

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引用次数: 4

摘要

本文提出了一种解决模拟集成电路自动测试的方法。基于可测试性设计构建块提供额外的可控性和额外的可观察性，为目标电路生成测试基础结构。通过提出的优化算法，可以自动选择多余的块并将其插入电路中。该算法采用面向缺陷的方法，最大限度地提高了故障覆盖率，最大限度地减少了硅面积开销。将该方法应用于工业电路中，生成了可控性和可观测性相结合的最优测试结构。案例研究表明，在硅面积开销小于10%的情况下，故障覆盖率可以达到91%。

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Automatic generation of lightweight controllability and observability structures for analog circuits

In this paper a method is presented to address the automatic testing of analog ICs. Based on Design-for-Testability building blocks offering extra controllability and extra observability, a test infrastructure is generated for a targeted circuit. The selection of the extra blocks and their insertion into the circuit is done automaticaly by a proposed optimization algorithm. Adopting a defect-oriented methodology, this algorithm maximizes the fault coverage and minimizes the silicon area overhead. The proposed method is applied to an industrial circuit to generate an optimal test infrastructure combining controllability and observability. The case study shows that, with a silicon area overhead of less than 10%, a fault coverage of 91% can be reached.

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2015 International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)

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