A model for distributed systems based on graph rewriting
Journal of the ACM (JACM)
Amalgamation of graph transformations: a synchronization mechanism
Journal of Computer and System Sciences
Distributed parallelism of graph transformations
Proceedings of the International Workshop WG '87 on Graph-theoretic concepts in computer science
Abstract and concrete categories
Abstract and concrete categories
A graph grammar approach to concurrent programming
A graph grammar approach to concurrent programming
Parallel and distributed derivations in the single-pushout approach
Theoretical Computer Science - Special issue on selected papers of the International Workshop on Computing by Graph Transformation, Bordeaux, France, March 21–23, 1991
Algebraic approach to single-pushout graph transformation
Theoretical Computer Science - Special issue on selected papers of the International Workshop on Computing by Graph Transformation, Bordeaux, France, March 21–23, 1991
Proceedings of the International Workshop on Graph Transformations in Computer Science
Introduction to the Algebraic Theory of Graph Grammars (A Survey)
Proceedings of the International Workshop on Graph-Grammars and Their Application to Computer Science and Biology
Structured Transformations and Computation Graphs for Actor Grammars
Proceedings of the 4th International Workshop on Graph-Grammars and Their Application to Computer Science
Specifying Concurrent Languages and Systems with ???-Grammars
Proceedings of the 4th International Workshop on Graph-Grammars and Their Application to Computer Science
Describing Distributed Systems by Categorical Graph Grammars
WG '89 Proceedings of the 15th International Workshop on Graph-Theoretic Concepts in Computer Science
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Synchronous and asynchronous graph transformations are discussed on the basis of distributed graph transformations. All types of graph transformations presented are formulated in the single-pushout approach to graph transformations and compared with each other. Some criteria are given to preserve or reestablish synchrony according to the definition proposed in this paper.