基于FPGA的相位重构技术设计

2019 3rd International Conference on Electronics, Materials Engineering & Nano-Technology (IEMENTech) Pub Date : 2019-08-01 DOI:10.1109/IEMENTech48150.2019.8981037

Atiya Usmani, Eram Taslima, S. Khan

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引用次数: 1

摘要

同步是影响高能物理实验数据有效性的一个重要参数。在大型强子对撞机等大型实验中，存在许多不确定因素。这会破坏时钟之间的相位对齐并损坏数据。本文提出了一种基于FPGA的相位重构技术，并在Intel Stratix-V FPGA上实现。该技术监测时钟之间的纳秒量级的相位差，并恢复数据对齐。重点研究了该技术在抗雷达GBT协议中的实现和测试。给出了信号完整性、眼图分析、路径延迟和资源利用率测量的结果，这些都是有效系统性能的优点。

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Design of FPGA based phase reconfiguration technique

Synchronization is an important parameter for the validity of data in the high energy physics experiments. There are numerous sources of uncertainties in the large experiments like Large Hadron Collider. This disrupts the phase alignment between the clocks and corrupts the data. In this paper we have proposed a FPGA based phase reconfiguration technique and implemented on Intel Stratix-V FPGA. The technique monitors the phase difference of the order of nanoseconds between the clocks and recovers the data alignment. The study is focussed on the implementation and testing of the technique for rad-hard GBT protocol. Results of the signal integrity, eye diagram analysis, path delays, and measurements of resource utilisation are presented which are figure of merit for efficient system performance.

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2019 3rd International Conference on Electronics, Materials Engineering & Nano-Technology (IEMENTech)

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