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On the computational complexity of the theory of Abelian groups

Annals of Pure and Applied Logic 37 (3):205-248 (1988)

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A uniform method for proving lower bounds on the computational complexity of logical theories.Kevin J. Compton & C. Ward Henson - 1990 - Annals of Pure and Applied Logic 48 (1):1.details A new method for obtaining lower bounds on the computational complexity of logical theories is presented. It extends widely used techniques for proving the undecidability of theories by interpreting models of a theory already known to be undecidable. New inseparability results related to the well known inseparability result of Trakhtenbrot and Vaught are the foundation of the method. Their use yields hereditary lower bounds . By means of interpretations lower bounds can be transferred from one theory to another. Complicated machine (...) Download Export citation Bookmark 13 citations
Computational complexity of logical theories of one successor and another unary function.Pascal Michel - 2007 - Archive for Mathematical Logic 46 (2):123-148.details The first-order logical theory Th $({\mathbb{N}},x + 1,F(x))$ is proved to be complete for the class ATIME-ALT $(2^{O(n)},O(n))$ when $F(x) = 2^{x}$ , and the same result holds for $F(x) = c^{x}, x^{c} (c \in {\mathbb{N}}, c \ge 2)$ , and F(x) = tower of x powers of two. The difficult part is the upper bound, which is obtained by using a bounded Ehrenfeucht–Fraïssé game. Download Export citation Bookmark

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