本文首先用O’G rady的浮现计算理论分析论元依存、wh-依存、所指依存等的消解,结合UG一致性数特征计算方法和Chom sky语段理论(PT)探讨一致性计算。阐明浮现计算理论的本质是效率驱动的线性计算系统,结合数据分析论证依存消解要遵循计算有效性原则。跨语言系统研究发现,浮现计算理论以自左向右(L→R)线性组装、第一时间消解依存实现降低工作记忆处理负荷的效率驱动为指导的计算原理与Sh iobara语段音系推导中自L→R线性结构组装的多重拼读(MSO)和递增推导提高计算效率的方法一致,而两者与Chom sky的语段理论(PT)以最小搜索(MS)降低计算系统CHL负荷(复杂度)、提高计算有效性的总的计算设计原理也是一致的。本文进一步分析论证得出:语段不可渗透条件(PIC)等局部性计算制约遵循限制探针搜索空间的最小搜索(MS)基本原则;优选计算的本质是效率驱动的最小化计算(MC)。 In this paper, O’Grady’s theory of emergent computation is firstly used to analyze the disjunctiveness of argument dependence, wh-dependency, dependence, and so on, and then the coincidence calculation is discussed by combining the method of UG coincidence number and the Chom sky segment theory (PT). To clarify that the essence of emergent computing theory is an efficiency-driven linear computing system, and the data analysis demonstrates that the dependence digestion should follow the principle of computational efficiency. Cross-linguistic system studies have found that the emerging computational theory is linearly assembled from left to right (L → R), the first time to digest dependencies to reduce the efficiency of working memory processing loads. Driven as a guide to computational principles and phonological derivation of Shobara The multi-spelling (MSO) assembled from the L → R linear structure is consistent with incremental derivation to improve computational efficiency, both of which are in line with Chom sky’s paraphrase theory (PT) to reduce the system CHL load with a minimum search (MS) Degree), the overall calculation and design principle of improving the calculation validity is also consistent. In this paper, we further analyze and prove that the basic rules of MS, such as PIC, restrict the search of restricted search space. The essence of optimal calculation is efficiency-driven minimization (MC).