一个FIFO数据开关设计实验

Proceedings Fourth International Symposium on Advanced Research in Asynchronous Circuits and Systems Pub Date : 1998-03-30 DOI:10.1109/ASYNC.1998.666490

William S. Coates, J. Lexau, I. W. Jones, Scott M. Fairbanks, I. Sutherland

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引用次数: 9

摘要

数据相关的数据流是许多流水线电路设计中的一个核心问题。我们描述了一种方法和一组电路模块来解决异步领域的这个问题。我们称我们的方法为P**3，或“P立方”。流经一组FIFO数据路径的项目可以在其他FIFO携带的数据的控制下有条件地转向。我们使用P**3方法来设计和实现一个FIFO休息芯片，该芯片使用数据依赖开关来有条件地删除标记的数据项。该电路使用两个片上FIFO环作为高速数据源。利用他们的0.6 /spl mu/ CMOS设计规则通过MOSIS制作。在标称Vdd为3.3 V时，测量到的峰值数据交换机吞吐量至少为每秒5.8亿个数据项。

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A FIFO data switch design experiment

A core problem in many pipelined circuit designs is data-dependent data flow. We describe a methodology and a set of circuit modules to address this problem in the asynchronous domain. We call our methodology P**3, or "P cubed". Items flowing through a set of FIFO datapaths can be conditionally steered under the control of data carried by other FIFOs. We have used the P**3 methodology to design and implement a FIFO rest chip that uses a data-dependent switch to delete marked data items conditionally. The circuit uses two on-chip FIFO rings as high-speed data sources. It was fabricated through MOSIS using their 0.6 /spl mu/ CMOS design rules. The peak data switch throughput was measured to be a minimum of 580 million data items per second at nominal Vdd of 3.3 V.

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Proceedings Fourth International Symposium on Advanced Research in Asynchronous Circuits and Systems

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