Abstract
Two models of an artificial biological cell are constructed in a fine-grained structure in the form of a self-reproducing loop. The models are developed on the basis of a parallel substitution algorithm, i.e., a system for modeling spatial fine-grained parallel algorithms and architectures. A model of a biological cell is constructed from a one-dimensional artificial genome written on the input tape. The proposed model contains a phenotype in the form of a set of fixed data and a genotype in the form of a set of mobile data. Such a cell can be an element of an artificial multicellular organism that simulates the following properties of living organisms: growth, self-reproduction, and self-repair.
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