Parallel program design: a foundation
Parallel program design: a foundation
Programming by multiset transformation
Communications of the ACM
Gamma and the Chemical Reaction Model: Fifteen Years After
WMP '00 Proceedings of the Workshop on Multiset Processing: Multiset Processing, Mathematical, Computer Science, and Molecular Computing Points of View
Generalised multisets for chemical programming
Mathematical Structures in Computer Science
Decentralized Approach for Execution of Composite Web Services Using the Chemical Paradigm
ICWS '10 Proceedings of the 2010 IEEE International Conference on Web Services
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The chemical computing model was originally proposed as a simple and elegant parallel programming paradigm. Data are seen as molecules and computation as chemical reactions : if some molecules satisfy a predefined reaction condition, they are replaced by the product of the reaction. When no reaction is possible, a normal form is reached and the program terminates. In this paper, we describe how we can build fault tolerant autonomic systems in a chemical setting. We pay a particular attention to the chemical description of the simple and successful constructs for fault-tolerance such as the recovery block scheme by designing a generic chemical framework. Then, we apply this framework to the development of an autonomic mailing system... all this in a chemical setting.