高速，固定延迟串行链路与赛灵思fpga

Journal of Zhejiang University-Science C-Computers & Electronics Pub Date : 2014-02-01 DOI:10.1631/jzus.C1300249

Xue Liu, Qing Deng, Bo-ning Hou, Ze-ke Wang

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引用次数: 1

摘要

高速，固定延迟串行链路在分布式数据采集和控制系统中得到应用，例如用于高能物理实验的定时触发和控制(TTC)系统。然而，大多数高速串行收发器在每次上电或复位后都不能保持相同的芯片延迟，因为每次上电后发送和接收的时钟之间没有确定的相位关系。在本文中，我们提出了一种基于高速收发器嵌入赛灵思现场可编程门阵列(fpga)的固定延迟串行链路。首先，我们修改收发器的配置和时钟分布，以消除发送/接收时钟域之间的相位差。其次，我们使用收发器的内部校准电路和基于数字时钟管理器(DCM)/锁相环(PLL)的时钟发生器来消除发射器和接收器时钟域之间的相位差。给出了链路延迟的测试结果。与现有的解决方案相比，我们的设计不仅实现了固定的芯片延迟，而且减少了系统的平均锁定时间。

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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High-speed, fixed-latency serial links with Xilinx FPGAs

High-speed, fixed-latency serial links find application in distributed data acquisition and control systems, such as the timing trigger and control (TTC) system for high energy physics experiments. However, most high-speed serial transceivers do not keep the same chip latency after each power-up or reset, as there is no deterministic phase relationship between the transmitted and received clocks after each power-up. In this paper, we propose a fixed-latency serial link based on high-speed transceivers embedded in Xilinx field programmable gate arrays (FPGAs). First, we modify the configuration and clock distribution of the transceiver to eliminate the phase difference between the clock domains in the transmitter/receiver. Second, we use the internal alignment circuit of the transceiver and a digital clock manager (DCM)/phase-locked loop (PLL) based clock generator to eliminate the phase difference between the clock domains in the transmitter and receiver. The test results of the link latency are shown. Compared with existing solutions, our design not only implements fixed chip latency, but also reduces the average system lock time.

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