A new FIFO design enabling fully-synchronous on-chip data communication network

2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC) Pub Date : 2011-04-24 DOI:10.1109/SIECPC.2011.5877006

M. Elrabaa

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引用次数: 5

Abstract

A new FIFO design that enables fully synchronous circuits with unrelated clocks to communicate synchronously is proposed. Not only would every circuit be running on its own clock, but the interconnection network is fully synchronous and runs at an unrelated clock of its own. With relatively low gate count, the proposed FIFO allows communicating circuits to put/get data at their respective frequencies (1 datum/clock cycle) till it gets filled then the rates converge to the lower frequency. The maximum initial latency is 3 cycles of the consumer's clock. Several manifestations of the proposed FIFO have been developed for different design cases including data width mismatch between producer and consumer. The operation of different FIFOs has been verified using gate-level simulations for several ratios of clock frequencies. An 8-cell FIFO has been designed at the transistor-level and Spice simulations using a 0.13 μm, 1.2V technology has been carried out. It shows proper operation at producer and consumer clock frequencies of 2GHz and 3.125GHz, respectively, with a data transfer rate of more than 2Giga datum/second and an average power of 721 μW.

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一种新的FIFO设计，实现完全同步的片上数据通信网络

提出了一种新的FIFO设计，使具有不相关时钟的完全同步电路能够同步通信。不仅每个电路都按照自己的时钟运行，而且互联网络是完全同步的，按照自己不相关的时钟运行。由于门数相对较低，所提出的FIFO允许通信电路以各自的频率(1个基准/时钟周期)输入/获取数据，直到它被填充，然后速率收敛到较低的频率。最大初始延迟是消费者时钟的3个周期。提出的FIFO的几种表现形式已经针对不同的设计案例进行了开发，包括生产者和消费者之间的数据宽度不匹配。不同的fifo的操作已经通过几种时钟频率比的门级模拟进行了验证。在晶体管级设计了一个8单元FIFO，并使用0.13 μm, 1.2V技术进行了Spice模拟。它在生产时钟频率为2GHz和消费时钟频率为3.125GHz时工作正常，数据传输率超过2Giga datum/s，平均功率为721 μW。

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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2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC)

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