用二元矩图验证算术电路

32nd Design Automation Conference Pub Date : 1900-01-01 DOI:10.1145/217474.217583

R. Bryant, Yirng-An Chen

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引用次数: 357

摘要

二元矩图(bmd)提供了线性函数的规范表示，类似于二元决策图(bdd)表示布尔函数的方式。在线性函数类中，我们可以嵌入从布尔变量到整数值的任意函数。因此，bmd可以对操作字级数据的数据路径电路的功能进行建模。许多重要的函数，包括不能在位级上用bdd有效表示的积乘函数，可以在字级上用bdd简单表示。此外，bmd可以表示布尔函数，其复杂性与bdd大致相同。我们提出了一种分层方法来验证算术电路，其中组件模块首先显示实现其字级规范。然后通过组合组件功能并将结果与字级电路规格进行比较来验证整体电路功能。字长高达256位的乘法器已通过该技术得到验证。

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Verification of Arithmetic Circuits with Binary Moment Diagrams

Binary Moment Diagrams (BMDs) provide a canonical representations for linear functions similar to the way Binary Decision Diagrams (BDDs) represent Boolean functions. Within the class of linear functions, we can embed arbitrary functions from Boolean variables to integer values. BMDs can thus model the functionality of data path circuits operating over word-level data. Many important functions, including integermultiplication, that cannot be represented efficiently at the bit level with BDDs have simple representations at the word level with BMDs. Furthermore, BMDs can represent Boolean functions with around the same complexity as BDDs. We propose a hierarchical approach to verifying arithmetic circuits, where componentmodules are first shownto implement their word-level specifications. The overall circuit functionality is then verified by composing the component functions and comparing the result to the word-level circuit specification. Multipliers with word sizes of up to 256 bits have been verified by this technique.

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32nd Design Automation Conference

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