Computational universality of fungal sandpile automata

Eric Goles; Michail Antisthenis Tsompanas; Andrew Adamatzky; Martin Tegelaar; Han A.B. Wosten; Genaro J. Martínez

doi:10.1016/j.physleta.2020.126541

Computational universality of fungal sandpile automata

Eric Goles, Michail Antisthenis Tsompanas, Andrew Adamatzky, Martin Tegelaar, Han A.B. Wosten, Genaro J. Martínez

Escuela Superior de Cómputo (ESCOM)

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Hyphae within the mycelia of the ascomycetous fungi are compartmentalised by septa. Each septum has a pore that allows for inter-compartmental and inter-hyphal streaming of cytosol and even organelles. The compartments, however, have special organelles, Woronin bodies, that can plug the pores. When the pores are blocked, no flow of cytoplasm takes place. Inspired by the controllable compartmentalisation within the mycelium of the ascomycetous fungi we designed two-dimensional fungal automata. A fungal automaton is a cellular automaton where communication between neighbouring cells can be blocked on demand. We demonstrate computational universality of the fungal automata by implementing sandpile cellular automata circuits there. We reduce the Monotone Circuit Value Problem to the Fungal Automaton Prediction Problem. We construct families of wires, cross-overs and gates to prove that the fungal automata are P-complete.

Original language	English
Article number	126541
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	384
Issue number	22
DOIs	https://doi.org/10.1016/j.physleta.2020.126541
State	Published - 6 Aug 2020

Keywords

Computational universality
Fungi
Sandpile automata

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10.1016/j.physleta.2020.126541

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title = "Computational universality of fungal sandpile automata",

abstract = "Hyphae within the mycelia of the ascomycetous fungi are compartmentalised by septa. Each septum has a pore that allows for inter-compartmental and inter-hyphal streaming of cytosol and even organelles. The compartments, however, have special organelles, Woronin bodies, that can plug the pores. When the pores are blocked, no flow of cytoplasm takes place. Inspired by the controllable compartmentalisation within the mycelium of the ascomycetous fungi we designed two-dimensional fungal automata. A fungal automaton is a cellular automaton where communication between neighbouring cells can be blocked on demand. We demonstrate computational universality of the fungal automata by implementing sandpile cellular automata circuits there. We reduce the Monotone Circuit Value Problem to the Fungal Automaton Prediction Problem. We construct families of wires, cross-overs and gates to prove that the fungal automata are P-complete.",

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doi = "10.1016/j.physleta.2020.126541",

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T1 - Computational universality of fungal sandpile automata

AU - Goles, Eric

AU - Tsompanas, Michail Antisthenis

AU - Adamatzky, Andrew

AU - Tegelaar, Martin

AU - Wosten, Han A.B.

AU - Martínez, Genaro J.

PY - 2020/8/6

Y1 - 2020/8/6

N2 - Hyphae within the mycelia of the ascomycetous fungi are compartmentalised by septa. Each septum has a pore that allows for inter-compartmental and inter-hyphal streaming of cytosol and even organelles. The compartments, however, have special organelles, Woronin bodies, that can plug the pores. When the pores are blocked, no flow of cytoplasm takes place. Inspired by the controllable compartmentalisation within the mycelium of the ascomycetous fungi we designed two-dimensional fungal automata. A fungal automaton is a cellular automaton where communication between neighbouring cells can be blocked on demand. We demonstrate computational universality of the fungal automata by implementing sandpile cellular automata circuits there. We reduce the Monotone Circuit Value Problem to the Fungal Automaton Prediction Problem. We construct families of wires, cross-overs and gates to prove that the fungal automata are P-complete.

AB - Hyphae within the mycelia of the ascomycetous fungi are compartmentalised by septa. Each septum has a pore that allows for inter-compartmental and inter-hyphal streaming of cytosol and even organelles. The compartments, however, have special organelles, Woronin bodies, that can plug the pores. When the pores are blocked, no flow of cytoplasm takes place. Inspired by the controllable compartmentalisation within the mycelium of the ascomycetous fungi we designed two-dimensional fungal automata. A fungal automaton is a cellular automaton where communication between neighbouring cells can be blocked on demand. We demonstrate computational universality of the fungal automata by implementing sandpile cellular automata circuits there. We reduce the Monotone Circuit Value Problem to the Fungal Automaton Prediction Problem. We construct families of wires, cross-overs and gates to prove that the fungal automata are P-complete.

KW - Computational universality

KW - Fungi

KW - Sandpile automata

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VL - 384

JO - Physics Letters, Section A: General, Atomic and Solid State Physics

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IS - 22

M1 - 126541

ER -

Computational universality of fungal sandpile automata

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Keywords

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