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  1. Introduction to clarithmetic III.Giorgi Japaridze - 2014 - Annals of Pure and Applied Logic 165 (1):241-252.
    The present paper constructs three new systems of clarithmetic : CLA8, CLA9 and CLA10. System CLA8 is shown to be sound and extensionally complete with respect to PA-provably recursive time computability. This is in the sense that an arithmetical problem A has a τ-time solution for some PA-provably recursive function τ iff A is represented by some theorem of CLA8. System CLA9 is shown to be sound and intensionally complete with respect to constructively PA-provable computability. This is in the sense (...)
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  • Separating the basic logics of the basic recurrences.Giorgi Japaridze - 2012 - Annals of Pure and Applied Logic 163 (3):377-389.
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  • Elementary-base cirquent calculus II: Choice quantifiers.Giorgi Japaridze - forthcoming - Logic Journal of the IGPL.
    Cirquent calculus is a novel proof theory permitting component-sharing between logical expressions. Using it, the predecessor article ‘Elementary-base cirquent calculus I: Parallel and choice connectives’ built the sound and complete axiomatization $\textbf{CL16}$ of a propositional fragment of computability logic. The atoms of the language of $\textbf{CL16}$ represent elementary, i.e. moveless, games and the logical vocabulary consists of negation, parallel connectives and choice connectives. The present paper constructs the first-order version $\textbf{CL17}$ of $\textbf{CL16}$, also enjoying soundness and completeness. The language of (...)
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  • Many Concepts and Two Logics of Algorithmic Reduction.Giorgi Japaridze - 2009 - Studia Logica 91 (1):1-24.
    Within the program of finding axiomatizations for various parts of computability logic, it was proven earlier that the logic of interactive Turing reduction is exactly the implicative fragment of Heyting’s intuitionistic calculus. That sort of reduction permits unlimited reusage of the computational resource represented by the antecedent. An at least equally basic and natural sort of algorithmic reduction, however, is the one that does not allow such reusage. The present article shows that turning the logic of the first sort of (...)
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  • The countable versus uncountable branching recurrences in computability logic.Wenyan Xu & Sanyang Liu - 2012 - Journal of Applied Logic 10 (4):431-446.
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  • The taming of recurrences in computability logic through cirquent calculus, Part I.Giorgi Japaridze - 2013 - Archive for Mathematical Logic 52 (1-2):173-212.
    This paper constructs a cirquent calculus system and proves its soundness and completeness with respect to the semantics of computability logic. The logical vocabulary of the system consists of negation ${\neg}$ , parallel conjunction ${\wedge}$ , parallel disjunction ${\vee}$ , branching recurrence ⫰, and branching corecurrence ⫯. The article is published in two parts, with (the present) Part I containing preliminaries and a soundness proof, and (the forthcoming) Part II containing a completeness proof.
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