ACV: an arithmetic circuit verifier

Proceedings of International Conference on Computer Aided Design Pub Date : 1996-11-10 DOI:10.1109/ICCAD.1996.569822

Yirng-An Chen, R. Bryant

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引用次数: 39

Abstract

Based on a hierarchical verification methodology, we present an arithmetic circuit verifier ACV, in which circuits expressed in a hardware description language, also called ACV, are symbolically verified using binary decision diagrams for Boolean functions and multiplicative binary moment diagrams (BMDs) for word-level functions. A circuit is described in ACV as a hierarchy of modules. Each module has a structural definition as an interconnection of logic gates and other modules. Modules may also have functional descriptions, declaring the numeric encodings of the inputs and outputs, as well as specifying their functionality in terms of arithmetic expressions. Verification then proceeds recursively, proving that each module in the hierarchy having a functional description, including the top-level one, realizes its specification. The language and the verifier contain additional enhancements for overcoming some of the difficulties in applying BMD-based verification to circuits computing functions such as division and square root. ACV has successfully verified a number of circuits, implementing such functions as multiplication, division, and square root, with word sizes up to 256 bits.

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ACV:算术电路校验器

基于层次验证方法，我们提出了一种算法电路验证器ACV，其中用硬件描述语言(也称为ACV)表达的电路使用布尔函数的二进制决策图和词级函数的乘法二进制矩图(bmd)进行符号验证。在ACV中，电路被描述为模块的层次结构。每个模块都有一个结构定义，作为逻辑门和其他模块的互连。模块也可以有功能描述，声明输入和输出的数字编码，以及根据算术表达式指定它们的功能。然后进行递归验证，证明具有功能描述的层次结构中的每个模块(包括顶层模块)实现了其规范。该语言和验证器包含额外的增强功能，以克服在将基于bmd的验证应用于电路计算功能(如除法和平方根)时遇到的一些困难。ACV已经成功验证了许多电路，实现了诸如乘法、除法和平方根等功能，字长可达256位。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of International Conference on Computer Aided Design

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