Developing scientific applications using Generative Programming

2009 ICSE Workshop on Software Engineering for Computational Science and Engineering Pub Date : 2009-05-23 DOI:10.1109/SECSE.2009.5069162

R. Arora, P. Bangalore, M. Mernik

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引用次数: 7

Abstract

Scientific applications usually involve large number of distributed and dynamic resources and huge datasets. A mechanism like checkpointing is essential to make these applications resilient to failures. Using checkpointing as an example, this paper presents an approach for integrating the latest software engineering techniques with the development of scientific software. Generative programming is used in this research to achieve the goals of non-intrusive reengineering of existing applications to insert the checkpointing mechanism and to decouple the checkpointing-specifications from its actual implementation. The end-user specifies the checkpointing details at a higher level of abstraction, using which the necessary code is generated and woven into the application. The lessons learned and the implementation approach presented in this paper can be applied to the development of scientific applications in general. The paper also demonstrates that the generated code does not introduce any inaccuracies and its performance is comparable to the manually inserted code.

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使用生成式编程开发科学应用程序

科学应用通常涉及大量的分布式动态资源和庞大的数据集。检查点之类的机制对于使这些应用程序对故障具有弹性至关重要。本文以检查点为例，提出了一种将最新的软件工程技术与科学软件开发相结合的方法。本研究使用生成式编程来实现对现有应用程序进行非侵入式再造的目标，以插入检查点机制并将检查点规范与其实际实现解耦。最终用户在更高的抽象级别上指定检查点细节，使用这些细节生成必要的代码并将其编织到应用程序中。本文所提供的经验教训和实施方法可以应用于一般科学应用的开发。本文还证明了所生成的代码不会引入任何不准确，其性能与人工插入的代码相当。

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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来源期刊

2009 ICSE Workshop on Software Engineering for Computational Science and Engineering

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