MultiLoop编程结构

Ninth International Workshop on High-Level Parallel Programming Models and Supportive Environments, 2004. Proceedings. Pub Date : 2004-04-26 DOI:10.1109/HIPS.2004.1299185

Nasser Kalantery

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引用次数: 0

摘要

本文介绍了一种新的高级并行编程结构，称为multiLoop，旨在扩展现有的命令式语言，如C和Java。multiLoop语句转换为指定的一组同步迭代过程的SPMD规范。为了实现高效的迭代通信，multiLoop提供了一种新的共享变量访问的发布/订阅模型。该模型通过对虚拟时间范式的一种新的、简单有效的适应来保持共享内存的顺序一致性。虚拟时间是一个本地化的消息标记和排队过程，它提供了屏障调用的高效替代方案。ML-C是一个基于C语言的原型实现。我们描述了编程模型，讨论了它的实现，并给出了一些经验数据，显示了目标类应用程序的良好性能。

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The MultiLoop programming construct

This paper introduces a new high-level parallel programming construct called multiLoop that is designed to extend existing imperative languages such as C and Java. A multiLoop statement translates to SPMD specification of a named group of synchronous-iterative processes. For efficient iterative communication, multiLoop provides a new publish/subscribe model of shared variable access. Under this model the sequential consistency of shared memory is maintained by a new, simple and efficient adaptation of virtual time paradigm. Virtual time is a localised message tagging and queuing procedure that provides a highly efficient alternative to barrier calls. ML-C, a prototype implementation based on C has been developed. We describe the programming model, discuss its implementation and present some empirical data showing good performance obtained for an example of the target class of applications.

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Ninth International Workshop on High-Level Parallel Programming Models and Supportive Environments, 2004. Proceedings.

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