Here is a list of GME tools, utilities, paradigms and other contributions to the baseline
tool environment. External contributions are also solicited. If you feel that your work is
potentially useful for other GME users, please send an email to
Akos Ledeczi.
GME tools and utilities:
- Autolayout: a genetic algorithm-based GME plug-in (paradigm-independent component) for optimizing the placement of objects in a model.
You will need to register the enclosed dll using the File menu/Register components dialog. Do not forget to Toggle the component to make it active for each paradigm you need this functionality.
For more information contact Gyorgy Balogh (email: firstname dot lastname at Vanderbilt dot edu).
- Generative Modeling Framework: a metamodel and corresponding pair of interpreters to add generative modeling capabilities to any paradigm.
For more information contact Branislav Kusy (email: firstname dot lastname at Vanderbilt dot edu).
- GMEclipse: an Eclipse plugin for viewing existing GME models. Note: it is not an editor, you cannot
modify your models. Also, you still need a Windows machine as the tool relies on the GME core that is a COM application.
For more information contact Gabor Pap (email: firstname dot lastname at Vanderbilt dot edu).
- GReAT: Graph Rewriting And Transformation.
A metamodel based graph transformation language useful for the specification and implementation of model-to-model transformations.
GME environments:
- MOF: a graphical environment for metamodeling using OMG's MetaObject Facility (MOF).
For more information contact Matt Emerson (email: mjemerson at ISIS dot Vanderbilt dot edu).
- MILAN: Model-Based Integrated Simulation Framework for embedded systems.
- ESML: Embedded System Modeling Language.
Toolsuite to build applications on the Bold Stroke Framework.
- ECML: Embedded Control System Modeling Language
- HSIF: Hybrid Systems Interchange Format
- Gratis: A Graphical Development Environment for TinyOS.
Related Research:
- VEST: The Virginia Embedded Systems Toolkit.
- C-SAW: The Constraint-Specification Aspect Weaver project at the University of Alabama.
