We show how to simulate a membrane system on a (simulated) distributed and bio-inspired computational architecture (BME). The advantages of this approach are the ease of representing each membrane with a processing element and the perspective of exploiting the expected nano-technological implementation of such an architecture. By combining these two non-conventional computing architectures, we touch interesting subproblems, such as the trade-off between being synchronous (P systems) and asynchronous (BME), or between structural adjacency and position-independent communications. © Springer-Verlag Berlin Heidelberg 2006.
Casiraghi, G., Ferretti, C., Gallini, A., Mauri, G. (2006). A Membrane Computing System Mapped on an Asynchronous, Distributed Computational Environment. In Membrane Computing (pp.159-164). Springer-Verlag [10.1007/11603047_11].
A Membrane Computing System Mapped on an Asynchronous, Distributed Computational Environment
FERRETTI, CLAUDIO;MAURI, GIANCARLO
2006
Abstract
We show how to simulate a membrane system on a (simulated) distributed and bio-inspired computational architecture (BME). The advantages of this approach are the ease of representing each membrane with a processing element and the perspective of exploiting the expected nano-technological implementation of such an architecture. By combining these two non-conventional computing architectures, we touch interesting subproblems, such as the trade-off between being synchronous (P systems) and asynchronous (BME), or between structural adjacency and position-independent communications. © Springer-Verlag Berlin Heidelberg 2006.
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