设计ECL巨型电池的新架构方法的含义

Proceedings., Second Annual IEEE ASIC Seminar and Exhibit, Pub Date : 1989-09-25 DOI:10.1109/ASIC.1989.123200

V. LaBuda

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引用次数: 1

摘要

一种高性能技术，ECL(发射器耦合逻辑)，正在以一种创新的架构出现，源于确定的客户需求，它模糊了当前门阵列和基于单元的产品之间的区别。摩托罗拉MCAIV MCA50000ECL门阵列采用的客户可定义阵列(CDA)方法虽然不能完全定制，但对乘法器、桶移器和alu等大型功能单元有利。对于在同一芯片上包含ECL和BiCMOS的UDA超大电池设计技术，研究了架构-硅关系的一些实用方面。MCAIV ECL CDA对芯片规格的影响通过描述各种模块(如4:1 MUX，带门控输入的锁相d触发器和一个完整加法器)作为逻辑组件进行检查，并通过比较它们在传统阵列上的实现与紧凑的CDA;类似的磁贴在内存实现中也有自己的位置。例如，对由这些原语构建的高级函数(如乘数器、桶移位器)进行比较。

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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Implications of a new architectural approach to designing ECL megacells

One high-performance technology, ECL (emitter-coupled logic), is emerging with an innovative architecture, derived from identified customer needs, which blurs the distinction between current gate arrays and cell-based products. Short of being full custom, the customer definable array (CDA) approach used for the Motorola MCAIV MCA50000ECL gate array benefits large functional units like multipliers, barrel shifters, and ALUs. Some pragmatic aspects of the architecture-silicon relationship are examined for the UDA megacell design technique embracing ECL and BiCMOS on the same chip. The MCAIV ECL CDA impact on chip specifications is examined by describing various tiles-such as 4:1 MUX, latch D-flip-flop with gated inputs and a full adder-used as logic components, and by comparing their implementation on conventional arrays with the compacted CDA; similar tiles also have their place in memory implementations. Like comparisons of higher-level functions (e.g. multipliers, barrel shifters) built from these primitives are explored.<>

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Proceedings., Second Annual IEEE ASIC Seminar and Exhibit,

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