The algebraic dichotomy conjecture for Constraint Satisfaction Problems (CSPs) of reducts of (infinite) finitely bounded homogeneous structures states that such CSPs are polynomial-time tractable if the model-complete core of the template has a pseudo-Siggers polymorphism, and NP-complete otherwise. One of the important questions related to the dichotomy conjecture is whether, similarly to the case of finite structures, the condition of having a pseudo-Siggers polymorphism can be replaced by the condition of having polymorphisms satisfying a fixed set of identities of height 1, i.e., identities which do not contain any nesting of functional symbols. We provide a negative answer to this question by constructing for each non-trivial set of height 1 identities a structure within the range of the conjecture whose polymorphisms do not satisfy these identities, but whose CSP is tractable nevertheless. An equivalent formulation of the dichotomy conjecture characterizes tractability of the CSP via the local satisfaction of non-trivial height 1 identities by polymorphisms of the structure. We show that local satisfaction and global satisfaction of non-trivial height 1 identities differ for $\omega$-categorical structures with less than doubly exponential orbit growth, thereby resolving one of the main open problems in the algebraic theory of such structures.
翻译:(无限)受限制的同质结构(CSPs)的反向(无限)定界性同质结构(CSPs)的代数二分法猜想显示,如果模板的模型完整核心具有假成Sigger多形态学,那么这种CSPs是多式的,如果样板的模型完整核心具有伪成形的多形态学,而NPsfs 则具有其他特性,则这种CSPs是多形态学可移动的。与有限结构的情况一样,有关二分法猜想的一个重要问题是,是否可以用具有(无限)定型同质的1高度特征(即不包含任何功能符号的特性)的固定特征的多形态论状态来取代(CSPs)的条件,即这种特性不包含任何功能符号的嵌套。我们对这个问题的否定答案是,为每个非三角的高度1级核心的核心核心核心核心核心核心核心核心结构建构出一种结构,而其多形态不能满足这些特性,但CSPspoly ty conty ty ty typecture typeal typeal gration of graphlation sal remoditional dal dal daltiquelate) aqlateal dislational dislal dislationslateal dislateal disal disl as made squal disgaldal disal disaldal asional dismationslational ial disal dislationaldaldaldaldal disal disaldationaldal disald.
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