Unconventional complexity classes in unconventional computing (extended abstract)

Antonio E. Porreca
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Abstract

Many unconventional computing models, including some that appear to be quite different from traditional ones such as Turing machines, happen to characterise either the complexity class P or PSPACE when working in deterministic polynomial time (and in the maximally parallel way, where this applies). We discuss variants of cellular automata and membrane systems that escape this dichotomy and characterise intermediate complexity classes, usually defined in terms of Turing machines with oracles, as well as some possible reasons why this happens.
非常规计算中的非常规复杂性类别(扩展摘要)
许多非常规计算模型,包括一些看似与图灵机等传统计算模型大相径庭的模型,在确定性多项式时间内工作时(以及在最大并行方式适用的情况下),恰好可以描述复杂度类别 P 或 PSPACE 的特征。我们讨论了细胞自动机和膜系统的变体,这些变体摆脱了这种二分法,并具有中间复杂度等级的特征,通常是以带有算子的图灵机来定义的,我们还讨论了出现这种情况的一些可能原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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