Decomposing specifications with concurrent outputs to resolve state coding conflicts in asynchronous logic synthesis

Proceedings. 41st Design Automation Conference, 2004. Pub Date : 2004-06-07 DOI:10.1145/996566.996788
H. Kapoor, M. B. Josephs
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引用次数: 5

Abstract

Synthesis of asynchronous logic using the tool Petrify requires a state graph with a complete state coding. It is common for specifications to exhibit concurrent outputs, but Petrify is sometimes unable to resolve the state coding conflicts that arise as a result, and hence cannot synthesise a circuit. A pair of decomposition heuristics (expressed in the language of Delay-Insensitive Sequential Processes) are given that helps one to obtain a synthesisable specification. The second heuristic has been successfully applied to a set of nine benchmarks to obtain significant reductions both in area and in synthesis time, compared with synthesis performed on the original specifications.
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对具有并发输出的规范进行分解,以解决异步逻辑合成中的状态编码冲突
使用石化工具合成异步逻辑需要一个带有完整状态编码的状态图。规范显示并发输出是常见的,但是Petrify有时无法解决由此产生的状态编码冲突,因此无法合成电路。给出了一对分解启发式方法(用延迟不敏感顺序过程语言表示),帮助人们获得可合成的规范。第二种启发式方法已成功地应用于一组9个基准,与在原始规范上执行的综合相比,在面积和合成时间上都得到了显著的减少。
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Proceedings. 41st Design Automation Conference, 2004.
Proceedings. 41st Design Automation Conference, 2004.
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