一种利用光互连实现pc机高性能并行计算的网络交换机:利用光互连实现高速信号的单片电子交换机的高密度实现

Proceedings. 6th International Conference on Parallel Interconnects (PI'99) (Formerly Known as MPPOI) Pub Date : 1999-10-17 DOI:10.1109/PI.1999.806389

S. Nishimura, T. Kudoh, H. Nishi, K. Harasawa, N. Matsudaira, S. Akutsu, K. Tasyo, H. Amano

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引用次数: 5

摘要

针对分布式并行计算系统，开发了一种大吞吐量、低延迟的网络交换机(RHiNET-2/SW)。该交换机具有新的架构，可在多任务环境中支持低延迟“零复制”通信。在一个紧凑的电路板上实现了8对800mbit /s/spl倍/12通道光互连模块和一个CMOS ASIC开关。SW-LSI采用784引脚的bga单芯片封装，采用定制的高速LVDS I/O接口和高速内部SRAM存储器，实现64gbit /s的大吞吐量和低延迟网络性能。此外，我们已经开发了器件实现技术，以克服电气问题(串扰，倾斜，反射和噪声)。这些实现技术适用于GSN、4gbit /s光纤通道、10gbit /s以太网等其他高速网络中的交换机。

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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A network switch using optical interconnection for high performance parallel computing using PCs: High-density implementation of high-speed signals for a one-chip electronic switch with optical interconnections

A large throughput, low latency network switch (RHiNET-2/SW) has been developed for a distributed parallel computing system. This switch has a new architecture to support low latency "zero-copy" communication in multi-tasking environments. Eight pairs of 800-Mbit/s/spl times/12-channel optical interconnection modules and a CMOS ASIC switch are implemented on a compact circuit board. To achieve large-throughput (64 Gbit/s) and low-latency network performance, the SW-LSI has a customized high-speed LVDS I/O interface, and high-speed internal SRAM memory in a 784-pin-BGA one-chip package. Also, we have developed the device implementation technologies to overcome the electrical problems (crosstalk, skew, reflection and noise). These implementation technologies are applicable for switches used in other high-speed networks such as GSN, 4 Gbit/s Fiber Channel or 10 Gbit/s Ethernet.

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Proceedings. 6th International Conference on Parallel Interconnects (PI'99) (Formerly Known as MPPOI)

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