图形重写和转换(GReAT):模型集成计算(MIC)瓶颈的解决方案

18th IEEE International Conference on Automated Software Engineering, 2003. Proceedings. Pub Date : 2003-10-06 DOI:10.1109/ASE.2003.1240339

Aditya Agrawal

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引用次数: 55

摘要

图语法和变换(GGT)作为一个理论研究领域已经有二十多年的历史了。然而，它只产生了少量的实际实现。GGT需要广泛的实际应用来发挥其潜力。另一方面，模型集成计算(MIC)从实用的角度发展起来，在工业和实践中得到了广泛的应用和认可。在MIC方法中，开发模型解释器既耗时又昂贵，是一个瓶颈。这减少了MIC对编程社区的影响。在本文中，我建议使用GGT方法来解决MIC的瓶颈问题。解决方案应该使用MIC技术，使其能够在下一代高级编程语言中发挥决定性作用。

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Graph rewriting and transformation (GReAT): a solution for the model integrated computing (MIC) bottleneck

Graph grammars and transformations (GGT) have been a field of theoretical study for over two decades. However, it has produced only a handful of practical implementations. GGT needs a widely used practical application to exploit its potential. On the other hand model integrated computing (MIC) has grown from the practical standpoint and is widely used and recognized in both industry and practice today. In the MIC approach, developing model-interpreters is time consuming and costly, proving to be a bottleneck. This reduces MIC's reach and impact on the programming community. In this paper I propose to use GGT methodologies to solve MIC's bottleneck problem. The solution should place the MIC technology such that it can play a defining role in the next generation of high-level programming languages.

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18th IEEE International Conference on Automated Software Engineering, 2003. Proceedings.

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