具有决定性决策图的大型模拟电路的符号分析

1997 Proceedings of IEEE International Conference on Computer Aided Design (ICCAD) Pub Date : 1997-11-13 DOI:10.1109/ICCAD.1997.643562

C. Shi, S. Tan

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引用次数: 33

摘要

符号模拟电路分析具有广泛的应用，尤其适用于模拟合成和可测试性分析。我们提出了一种利用乘积项的稀疏性和共享性来进行精确和规范符号分析的新方法。它包括用一个称为行列式决策图(DDD)的图来表示电路矩阵的符号行列式和通过图操作进行符号分析。我们证明了DDD构建和基于DDD的符号分析可以在与DDD顶点数量成正比的时间复杂度下进行。我们描述了一个顶点排序启发式算法，并表明DDD顶点的数量可以非常小——通常比乘积项的数量少几个数量级。该算法已实现。对于大型模拟电路，与现有的符号分析器ISAAC和Maple-V相比，CPU时间和内存使用都有了数量级的改进。

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Symbolic analysis of large analog circuits with determinant decision diagrams

Symbolic analog-circuit analysis has many applications, and is especially useful for analog synthesis and testability analysis. We present a new approach to exact and canonical symbolic analysis by exploiting the sparsity and sharing of product terms. It consists of representing the symbolic determinant of a circuit matrix by a graph-called determinant decision diagram (DDD)-and performing symbolic analysis by graph manipulations. We showed that DDD construction and DDD-based symbolic analysis can be performed in time complexity proportional to the number of DDD vertices. We described a vertex ordering heuristic, and showed that the number of DDD vertices can be quite small-usually orders-of-magnitude less than the number of product terms. The algorithm has been implemented. An order-of-magnitude improvement in both CPU time and memory usage over existing symbolic analyzers ISAAC and Maple-V has been observed for large analog circuits.

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1997 Proceedings of IEEE International Conference on Computer Aided Design (ICCAD)

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