We present some decidability and undecidability results for subsets of the BlenX Language, a process-calculi-based programming language developed for modelling biological processes. We show that for a core subset of the language (which considers only communication primitives) termination is decidable. Moreover, we prove that by adding either global priorities or events to this core language, we obtain Turing equivalent languages. The proof is through encodings of Random Access Machines (RAMs), a well-known Turing equivalent formalism, into our subsets of BlenX. All the encodings are shown to be correct.
On the Computational Power of BlenX
C Priami
2010-01-01
Abstract
We present some decidability and undecidability results for subsets of the BlenX Language, a process-calculi-based programming language developed for modelling biological processes. We show that for a core subset of the language (which considers only communication primitives) termination is decidable. Moreover, we prove that by adding either global priorities or events to this core language, we obtain Turing equivalent languages. The proof is through encodings of Random Access Machines (RAMs), a well-known Turing equivalent formalism, into our subsets of BlenX. All the encodings are shown to be correct.File in questo prodotto:
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