Web-Based Digital Cell Library Characterization System

A. A. Lyalinsky
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Abstract

A modern approach to the design of large-scale electronic computing equipment is inconceivable without using previous similar developments in the current project. It is quite natural in this case to use previously developed digital cell libraries as a base. When a separate library cell is included in a large project, there is no need to calculate signal transmission delays, power consumption and layout of the included cell — all this is obtained in advance at the stage of characterization of library elements. This approach allows to significantly accelerate the development of the product as a whole. The stage of characterization of digital libraries requires significant time and computing resources, which is why it receives increased attention from developers of computer-aided design systems for microelectronic equipment. This article discusses some aspects of building a digital cell library characterization system. The description of the web-based library characterization system developed by the author is given. The main features that distinguish the system from the rest are an interactive approach to building the system, its web—oriented nature (i.e. the system is located on a web server and is available for communication via any web browser on the Internet), a large number of auxiliary procedures, a unique graphical representation of the results obtained. In addition to the above, it may be noted the simplicity of preparing the source data, the ease of switching between the "initial circuit"/ "circuit with extracted parasitic elements" modeling modes, as well as between the so-called "modeling edges": the normal, worst and best combination of temperature and supply voltage. To speed up calculations in the system, two modes of parallelization of modeling processes are provided at the user's choice.
基于网络的数字细胞库表征系统
在当前的项目中,如果不利用以前的类似开发成果,就无法想象大规模电子计算设备的现代设计方法。在这种情况下,使用以前开发的数字单元库作为基础是非常自然的。当大型项目中包含一个单独的库单元时,无需计算信号传输延迟、功耗和所包含单元的布局,所有这些都可以在库元件的特征描述阶段提前获得。这种方法可以大大加快整个产品的开发速度。数字库的表征阶段需要大量的时间和计算资源,这就是为什么微电子设备计算机辅助设计系统的开发人员越来越重视这一阶段的原因。本文讨论了建立数字单元库表征系统的一些方面。文中介绍了作者开发的基于网络的库表征系统。该系统有别于其他系统的主要特点是:采用交互式方法构建系统、面向网络的性质(即系统位于网络服务器上,可通过互联网上的任何网络浏览器进行通信)、大量辅助程序、所获结果的独特图形表示。除上述功能外,该系统还具有准备源数据简单、在 "初始电路"/"带提取寄生元件的电路 "建模模式之间以及所谓的 "建模边缘"(温度和电源电压的正常、最差和最佳组合)之间切换方便等特点。为加快系统计算速度,用户可选择两种建模过程并行化模式。
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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