科学计算RMI协议的需求与评估

ACM/IEEE SC 2000 Conference (SC'00) Pub Date : 2000-11-01 DOI:10.1109/SC.2000.10060

M. Govindaraju, Aleksander Slominski, Venkatesh Choppella, R. Bramley, Dennis Gannon

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引用次数: 95

摘要

分布式软件组件体系结构为构建大规模、科学的网格应用程序提供了很有前途的方法。这些组件体系结构中的通信基于远程方法调用(RMI)协议，该协议允许一个软件组件调用另一个软件组件的功能。示例包括Java远程方法调用(Java RMI)[15]和新的简单对象访问协议(SOAP)[15]。SOAP的优点是许多编程语言和组件框架都可以支持它。本文描述的实验表明，SOAP本身对于大规模的科学应用来说是不够有效的。然而，当它嵌入到多协议RMI框架中时，SOAP可以有效地用作通用控制协议，当需要大数据传输速度时，它可以被更快、更特殊用途的协议交换出来。

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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Requirements for and Evaluation of RMI Protocols for Scientific Computing

Distributed software component architectures provide promising approach to the problem of building large scale, scientific Grid applications [18]. Communication in these component architectures is based on Remote Method Invocation (RMI) protocols that allow one software component to invoke the functionality of another. Examples include Java remote method invocation (Java RMI)[25] and the new Simple Object Access Protocol (SOAP) [15]. SOAP has the advantage that many programming languages and component frameworks can support it. This paper describes experiments showing that SOAP by itself is not efficient enough for large scale scientific applications. However, when it is embedded in multi-protocol RMI framework, SOAP can be effectively used as a universal control protocol, that can be swapped out by faster, more special purpose protocols when large data transfer speeds are needed.

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ACM/IEEE SC 2000 Conference (SC'00)

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