Verification of delayed-reset domino circuits using ATACS

Proceedings. Fifth International Symposium on Advanced Research in Asynchronous Circuits and Systems Pub Date : 1999-04-19 DOI:10.1109/ASYNC.1999.761518

W. Belluomini, C. Myers, H. P. Hofstee

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引用次数: 20

Abstract

This paper discusses the application of the timing analysis tool ATACS to the high performance, self-resetting and delayed-reset domino circuits being designed at IBM's Austin Research Laboratory. The tool, which was originally developed to deal with asynchronous circuits, is well suited to the self-resetting style since internally, a block of self-resetting or delayed-reset domino logic is asynchronous. The circuits are represented using timed event/level structures. These structures correspond very directly to gate level circuits, making the translation from a transistor schematic to a TEL structure straightforward. The state-space explosion problem is mitigated using an algorithm based on partially ordered sets (POSETs). Results on a number of circuits from the recently published guTS (gigahertz unit Test Site) processor from IBM indicate that modules of significant size can be verified with ATACS using a level of abstraction that preserves the interesting timing properties of the circuit. Accurate circuit level verification allows the designer to include less margin in the design, which can lead to increased performance.

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用ATACS验证延迟复位多米诺电路

本文讨论了时序分析工具ATACS在IBM奥斯汀研究实验室设计的高性能、自复位和延迟复位多米诺电路中的应用。该工具最初是为处理异步电路而开发的，它非常适合自重置样式，因为在内部，自重置或延迟重置的domino逻辑块是异步的。电路用定时事件/级别结构表示。这些结构非常直接地对应于门电平电路，使得从晶体管原理图到TEL结构的转换非常简单。采用一种基于部分有序集(POSETs)的算法来缓解状态空间爆炸问题。来自IBM最近发布的guTS(千兆赫单元测试站点)处理器的许多电路的结果表明，可以使用ATACS使用保留电路有趣的时序特性的抽象级别来验证显着尺寸的模块。精确的电路电平验证允许设计人员在设计中包含更少的余量，这可以提高性能。

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. Fifth International Symposium on Advanced Research in Asynchronous Circuits and Systems

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