基于FPGA的高性能空间路由器的设计与实现

2019 IEEE 11th International Conference on Communication Software and Networks (ICCSN) Pub Date : 2019-06-01 DOI:10.1109/ICCSN.2019.8905377

Dong Zhou, Xiaohu Shen, Ke Li, Guoping Feng, Luyuan Wang

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引用次数: 0

摘要

路由器在空间网络中起着重要的作用。目前空间路由器还没有航天ic，空间网络中的高性能转发技术一般是通过FPGA实现的。在研究高性能路由器技术的基础上，提出了空间网络路由器的拓扑结构。对主要模块进行了优化，以减少延迟。数据流包括直接路径、共享缓冲路径和固态存储路径，提高了吞吐量，降低了数据损失率。大容量固态存储还支持DTN网络。针对空间恶劣环境，进行了容错和自恢复设计。该路由器的主要特点包括:空间路由器的吞吐量为9.6G/s;数据包转发延迟小于10us;数据帧可以多通道并发传输;单通道故障不扩散，可自动恢复。

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Design and Implementation of High-Performance Space Router Based on FPGA

Routers play an important role in space network. Currently, aero-space ICs are not available for space routers, and the high-performance forwarding technology is generally implemented by FPGA in space network. After investigating the technology of high-performance router, we come up with topological structure of space network router. The main modules are optimized to reduce the latency. The data flow comprises direct path, shared buffer path and solid-state storage path, which increases the throughput and reduces the loss rate. The large-capacity solid-state storage also supports DTN network. In accordance to space harsh environment, fault tolerance and self-recovery design are carried out. The main features of the router include: The throughput of the space router is 9.6G/s; Packet forwarding delay is less than 10us; Data frames can be transmitted in multi-channels concurrently; Single-channel fault does not spread and can be recovered autonomously.

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2019 IEEE 11th International Conference on Communication Software and Networks (ICCSN)

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