Tim Gomez, Elise Grizzell, Asher Haun, Ryan Knobel, Tom Peters, Robert Schweller, Tim Wylie
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引用次数: 0
Abstract
The Tile Automata (TA) model describes self-assembly systems in which
monomers can build structures and transition with an adjacent monomer to change
their states. This paper shows that seeded TA is a non-committal intrinsically
universal model of self-assembly. We present a single universal Tile Automata
system containing approximately 4600 states that can simulate (a) the output
assemblies created by any other Tile Automata system G, (b) the dynamics
involved in building G's assemblies, and (c) G's internal state transitions. It
does so in a non-committal way: it preserves the full non-deterministic
dynamics of a tile's potential attachment or transition by selecting its state
in a single step, considering all possible outcomes until the moment of
selection. The system uses supertiles, each encoding the complete system being
simulated. The universal system builds supertiles from its seed, each
representing a single tile in G, transferring the information to simulate G to
each new tile. Supertiles may also asynchronously transition states according
to the rules of G. This result directly transfers to a restricted version of
asynchronous Cellular Automata: pairwise Cellular Automata.
瓦片自动机(TA)模型描述了自组装系统,在该系统中,单体可以构建结构,并与相邻单体过渡以改变其状态。本文表明,种子 TA 是一种非约定性的内在通用自组装模型。我们提出了一个包含约 4600 个状态的单一通用瓦片自动机系统,它可以模拟:(a)任何其他瓦片自动机系统 G 所创建的输出装配;(b)构建 G 装配所涉及的动力学;以及(c)G 的内部状态转换。它以一种非承诺的方式做到了这一点:通过单步选择瓦片的状态,它保留了瓦片潜在附着或转换的全部非确定动力学,并考虑了直到选择时刻的所有可能结果。该系统使用超级瓦片,每个瓦片编码被模拟的完整系统。通用系统从种子开始构建超级瓦片,每个超级瓦片代表 G 中的一个瓦片,并将模拟 G 的信息传递给每个新的瓦片。超级瓦片还可以根据 G 的规则异步转换状态。这一结果可以直接转化为受限版本的异步蜂窝自动机:成对蜂窝自动机。
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