在SNOW原型中实现低延迟通信原语

Proceedings of the 1997 International Conference on Parallel Processing (Cat. No.97TB100162) Pub Date : 1997-08-11 DOI:10.1109/ICPP.1997.622681

K. Ghose, Seth Melnick, T. Gaska, Seth Goldberg, A. Jayendran, Brian T. Stein

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引用次数: 5

摘要

本文描述了一个低延迟保护的消息传递设施和一个低延迟屏障同步机制的实现，用于一个实验性的、紧密耦合的工作站网络，称为SNOW: SNOW使用运行Solaris 2.4的多处理SPARC 20s作为计算节点，并使用半定制的网络接口卡(nic)以212mbits /秒的速度连接这些节点。单向戒指。nic包括现场可编程门阵列逻辑设备，允许对紧密耦合的硬件支持的性质和级别进行实验。在SNOW原型上，64字节消息的单向受保护消息传递延迟约为9 /spl mu/秒。，与中低端多处理器的延迟相当。

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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The implementation of low latency communication primitives in the SNOW prototype

This paper describes the implementation of a low latency protected message passing facility and a low latency barrier synchronization mechanism for an experimental, tightly-coupled network of workstations called SNOW: SNOW uses multiprocessing SPARC 20s, running Solaris 2.4, as computing nodes, and uses semi-custom network interface cards (NICs) that connect these nodes in a 212 Mbits/sec. unidirectional ring. The NICs include field-programmable gate array logic devices that allow for experimentation with the nature and level of hardware support for tight coupling. The one way protected message passing latency on the SNOW prototype for a 64-byte message is about 9 /spl mu/secs., comparable to latencies of low-end to medium range multiprocessors.

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Proceedings of the 1997 International Conference on Parallel Processing (Cat. No.97TB100162)

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