Computability and Complexity in Self-assembly

被引:0
|
作者
James I. Lathrop
Jack H. Lutz
Matthew J. Patitz
Scott M. Summers
机构
[1] Iowa State University,Department of Computer Science
[2] University of Texas–Pan American,Department of Computer Science
来源
Theory of Computing Systems | 2011年 / 48卷
关键词
Computability; Computational complexity; Molecular computing; Self-assembly;
D O I
暂无
中图分类号
学科分类号
摘要
This paper explores the impact of geometry on computability and complexity in Winfree’s model of nanoscale self-assembly. We work in the two-dimensional tile assembly model, i.e., in the discrete Euclidean plane ℤ×ℤ. Our first main theorem says that there is a roughly quadratic function f such that a set A⊆ℤ+ is computably enumerable if and only if the set XA={(f(n),0)∣n∈A}—a simple representation of A as a set of points on the x-axis—self-assembles in Winfree’s sense. In contrast, our second main theorem says that there are decidable sets D⊆ℤ×ℤ that do not self-assemble in Winfree’s sense.
引用
收藏
页码:617 / 647
页数:30
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