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Tech & AI 4.9 🇸🇪 🇺🇸

Scientists find self-copying patterns emerge spontaneously in simple computer systems

Researchers discovered that self-replicating structures can form on their own in cellular automata—without being programmed in. The structures work as distributed teams rather than single units, challenging how we define life and individuality in artificial systems and potentially informing the design of autonomous, self-organizing technologies.

Originaltitel: Rethinking self-replication: detecting distributed selfhood in the outlier cellular automaton

Abstrakt

Abstract Spontaneous self-replication in cellular automata has long been considered rare, with most known examples requiring careful design or artificial initialization. In this paper, we present formal, causal evidence that such replication can emerge unassisted—and that it can do so in a distributed, multi-component form. Building on prior work identifying complex dynamics in the Outlier rule, we introduce a data-driven framework that reconstructs the full causal ancestry of patterns in a deterministic cellular automaton. This allows us to rigorously identify self-replicating structures via explicit causal lineages. Our results show definitively that self-replicators in the Outlier CA are not only spontaneous and robust, but are also often composed of multiple disjoint clusters working in coordination, raising questions about some conventional notions of individuality and replication in artificial life systems.

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