Research on Parallel Multi-Channel Ultrasonic Data Cache and Transfer Method Based on RIFFA Framework PCIe Bus

Kun Wang, Tao Leng, Jie Mao, Guoxuan Lian
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引用次数: 0

Abstract

In order to meet the needs of high-speed cache and transfer of parallel multi-channel ultrasonic system, this paper proposes a segmented cache method suitable for ultrasonic data organization and transfer, and completes the design of PCIe parallel multi-channel ultrasonic data interface based on RIFFA framework. The experiment verifies the reliability of the segmented cache method, realizes the cache and transfer of parallel 8-channel ultrasonic data, and the PCIe Gen2 x1 bus based on RIFFA 2.2.2 framework has a transfer rate of 395 MB/s. The research content of this paper is highly scalable and portable, and can be applied to a variety of multi-channel ultrasonic testing systems.
基于RIFFA框架PCIe总线的并行多通道超声数据缓存与传输方法研究
为了满足并行多通道超声系统高速缓存和传输的需要,本文提出了一种适合超声数据组织和传输的分段缓存方法,并完成了基于RIFFA框架的PCIe并行多通道超声数据接口的设计。实验验证了分段缓存方法的可靠性,实现了并行8通道超声数据的缓存和传输,基于RIFFA 2.2.2框架的PCIe Gen2 x1总线传输速率达到395 MB/s。本文的研究内容具有很强的可扩展性和便携性,可应用于多种多通道超声检测系统。
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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