使用优化技术快速准确地识别子电路

N. Rubanov
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引用次数: 2

摘要

子电路识别(SI)是一种在较大电路中识别小子电路实例的任务。SI程序是集成电路仿真、验证和测试的CAD工具的重要组成部分。现代集成电路设计首先包含数以百万计的网络和器件,其次包含成千上万的子电路。基于图状态空间搜索技术的传统SI算法计算量大,可能需要较长的运行时间。在本文中,我们开发了一种基于优化的图形识别方法来解决SI问题。该方法结合了自退火优化技术和模式识别理论中的两个概念,即误差传播和软(延迟)决策。与基于搜索的算法相比,我们的方法可以非常快速地同时找到所有子电路实例。实验结果表明,该方法对所有实例的识别速度比面向搜索的方法快几个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fast and accurate identifying subcircuits using an optimization based technique
The subcircuit identification (SI) is a task of recognition of instances of small subcircuits in a larger circuit. SI program are important components of CAD tools for the simulation, verification, and testing of ICs. Modern IC designs, first, contain millions of the nets and devices, and, second, thousands of subcircuits. The conventional SI algorithms based on the graph state-space search techniques are computationally demanding and may require long runtime for such ICs. In this paper, we develop an optimization-based graph recognition method for solving the SI problem. This method combines the self annealing optimization technique and two concepts from the pattern recognition theory, namely, the error propagation and the soft (delayed) decision making. In contrast to the search-based algorithms our method allows extremely fast simultaneous finding of all subcircuit instances. The experimental results show that it recognizes all the instances orders of magnitude faster than the search-oriented techniques.
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