一种在高速电路中减少开关电流效应的紧凑布局技术

Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design Pub Date : 2001-03-26 DOI:10.1109/ISQED.2001.915231

J. Montiel-Nelson, V. Armas, R. Sarmiento, A. Núñez

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引用次数: 2

摘要

提出了一种完全自定义的布局样式及其单元模型。它的电源和地轨分布不仅自感极低，而且不受电池尺寸的影响。按照所提出的模型进行的电池布局大大降低了高频开关电流的影响。底层的单元结构是规则的，适合于自动化设计，而不会牺牲完全定制设计的任何优点。得到了MCNC'91双电平电路的一个子集的布局通道密度。比较表明，高速单元模型的组合电路布局紧凑，布线面积最小。一个单元编译器被用作单元库的构建器，它被嵌入到一个随机逻辑宏单元和一个迭代逻辑数组生成器中。结果表明，单元格和宏单元格编译器可以生成复杂而紧凑的布局。该技术已用于高达4 GHz的GaAs工艺，但它也可以直接应用于深亚微米CMOS工艺。

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A compact layout technique for reducing switching current effects in high speed circuits

A full-custom layout style and its cell model are presented. Its power supply and ground rails distribution is not only of very low self-inductance, but it is also independent of cell dimensions. Cell layouts following the proposed model reduce greatly switching current effects at high frequency. The underlying cell architecture is regular and suitable to design automation without sacrificing any advantages of the full-custom design. Layout channel density of a subset of MCNC'91 two-level circuit benchmarks have been obtained. Comparisons demonstrate that the layout of combinational circuits in the high speed cell model are compact and minimize the routing area. A cell compiler has been used as a cell library builder and it is embedded in a random logic macrocell and an iterative logic array generator. It is shown that the cell and macrocell compiler generates complex and compact layouts. The technique is demonstrated for GaAs processes up to 4 GHz, but it can be directly applied to deep submicron CMOS processes as well.

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Proceedings of the IEEE 2001. 2nd International Symposium on Quality Electronic Design

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