Performance evaluation of multipoint communication on HIPPI over ATM networks

IEEE GLOBECOM 1998 (Cat. NO. 98CH36250) Pub Date : 1998-12-01 DOI:10.1109/GLOCOM.1998.776921

K. Kawahara, H. Gotoh, H. Sunahara, Y. Oie

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Abstract

The high performance parallel interface (HIPPI) is primarily a channel technique and provides a simplex point-to-point interface for transferring data at a peak rate of 800 or 1600 Mbps over distances of up to 25 meters. In order to extend the use of HIPPI from a channel solution to a networking solution, the physical limitation of HIPPI must be solved. The HIPPI-ATM mapping can be one of the possible solutions and allow communication over a relatively long distance by using HIPPI-ATM converters. We first suggest that the multipoint-to-multipoint communication of HIPPI over ATM networks does not perform well although an unique flow control between source-site and destination-site HIPPI-ATM converters is applied on each connection. In order to effectively establish multipoint-to-multipoint communication, we thus propose additional flow control schemes on HIPPI over ATM networks, that is, a peak-rate control scheme and a connection control scheme. We further formulate both throughput and packet transmission delay performance under these schemes and compare the performance and the complexity of the implementation of both schemes.

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ATM网络上HIPPI多点通信的性能评价

高性能并行接口(HIPPI)主要是一种信道技术，它提供了一个单一的点对点接口，可以在长达25米的距离内以800或1600 Mbps的峰值速率传输数据。为了将HIPPI的使用从通道解决方案扩展到网络解决方案，必须解决HIPPI的物理限制。hipi - atm映射可以是一种可能的解决方案，它允许使用hipi - atm转换器进行相对长距离的通信。我们首先提出，尽管在每个连接上应用了源站点和目的站点之间的唯一流控制HIPPI-ATM转换器，但ATM网络上HIPPI的多点对多点通信性能不佳。为了有效地建立多点对多点通信，我们提出了ATM网络上HIPPI的附加流量控制方案，即峰值速率控制方案和连接控制方案。我们进一步制定了这些方案下的吞吐量和分组传输延迟性能，并比较了两种方案的性能和实现的复杂性。

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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IEEE GLOBECOM 1998 (Cat. NO. 98CH36250)

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