A. Ramírez-de-Arellano, F. G. C. Cabarle, D. Orellana-Martín, M. J. Pérez-Jiménez
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In the present work, we further study the computational power of virus
machines (VMs in short). VMs provide a computing paradigm inspired by the
transmission and replication networks of viruses. VMs consist of process units
(called hosts) structured by a directed graph whose arcs are called channels
and an instruction graph that controls the transmissions of virus objects among
hosts. The present work complements our understanding of the computing power of
VMs by introducing normal forms; these expressions restrict the features in a
given computing model. Some of the features that we restrict in our normal
forms include (a) the number of hosts, (b) the number of instructions, and (c)
the number of virus objects in each host. After we recall some known results on
the computing power of VMs we give our normal forms, such as the size of the
loops in the network, proving new characterisations of family of sets, such as
the finite sets, semilinear sets, or NRE.
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