Difference between revisions of "WG211/M16Laemmel"
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We study the compilation of higher-level megamodels to lower-level megamodels. The domain of interest is concerned with software transformation---with bidirectional transformations specifically. The higher level is concerned with logic properties of transformations such as universal consistency properties between artifacts being transformed. The lower level is concerned with property-based testing of transformations. | We study the compilation of higher-level megamodels to lower-level megamodels. The domain of interest is concerned with software transformation---with bidirectional transformations specifically. The higher level is concerned with logic properties of transformations such as universal consistency properties between artifacts being transformed. The lower level is concerned with property-based testing of transformations. | ||
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| + | Find papers and software here: http://professor-fish.blogspot.com/2016/08/megamodels-of-coupled-transformations.html | ||
Latest revision as of 21:00, 24 August 2016
Ralf Lämmel: Compilation of megamodels
Megamodels can be used in diverse contexts:
- model management
- software architecture
- technology documentation
- et al.
Megamodels may reside at different abstraction levels:
- Scripting (in the scope of software repositories)
- Modeling (in the scope of software architecture)
- Verification (in the scope of formal specification)
- et al.
We study the compilation of higher-level megamodels to lower-level megamodels. The domain of interest is concerned with software transformation---with bidirectional transformations specifically. The higher level is concerned with logic properties of transformations such as universal consistency properties between artifacts being transformed. The lower level is concerned with property-based testing of transformations.
Find papers and software here: http://professor-fish.blogspot.com/2016/08/megamodels-of-coupled-transformations.html
