Asynchronous interface specification, analysis and synthesis

Proceedings 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175) Pub Date : 1998-05-01 DOI:10.1145/277044.277046

M. Kishinevsky, J. Cortadella, A. Kondratyev

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引用次数: 21

Abstract

Interfaces, by nature, are often asynchronous since they serve for connecting multiple distributed modules/agents without common clock. However the most recent developments in the theory of asynchronous design in the areas of specifications, models, analysis, verification, synthesis, technology mapping, timing optimization and performance analysis are not widely known and rarely accepted by industry. The goal of this tutorial is to fill this gap and to present an overview of one popular systematic design methodology for design of asynchronous interface controllers. This methodology is based on using Petri nets (PN) a formal model that, from the engineering standpoint, is a formalization of timing diagrams (waveforms) and from the system designer standpoint is a concurrent state machine, in which local components can perform independent or interdependent concurrent actions, changing their local states asynchronously. We will introduce this model informally based on a simple example: a VME-bus controller serving reads from a device to a bus and writes from the bus into the device.

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异步接口规范，分析和综合

接口本质上通常是异步的，因为它们用于连接多个分布式模块/代理，没有公共时钟。然而，异步设计理论在规范、模型、分析、验证、综合、技术映射、时序优化和性能分析等方面的最新发展并不广为人知，也很少被业界所接受。本教程的目标是填补这一空白，并概述异步接口控制器设计的一种流行的系统设计方法。该方法基于使用Petri网(PN)，从工程的角度来看，这是一个形式化的模型，它是时间图(波形)的形式化，从系统设计者的角度来看，它是一个并发状态机，在这个状态机中，局部组件可以执行独立或相互依赖的并发操作，异步地改变它们的局部状态。我们将基于一个简单的例子非正式地介绍这个模型:一个vme总线控制器服务于从设备读到总线，并从总线写到设备。

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 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175)

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