Light affine lambda calculus and polynomial time strong normalization

Archive for Mathematical Logic 46 (3-4):253-280 (2007)
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Abstract

Light Linear Logic (LLL) and Intuitionistic Light Affine Logic (ILAL) are logics that capture polynomial time computation. It is known that every polynomial time function can be represented by a proof of these logics via the proofs-as-programs correspondence. Furthermore, there is a reduction strategy which normalizes a given proof in polynomial time. Given the latter polynomial time “weak” normalization theorem, it is natural to ask whether a “strong” form of polynomial time normalization theorem holds or not. In this paper, we introduce an untyped term calculus, called Light Affine Lambda Calculus (λLA), which corresponds to ILAL. λLA is a bi-modal λ-calculus with certain constraints, endowed with very simple reduction rules. The main property of LALC is the polynomial time strong normalization: any reduction strategy normalizes a given λLA term in a polynomial number of reduction steps, and indeed in polynomial time. Since proofs of ILAL are structurally representable by terms of λLA, we conclude that the same holds for ILAL

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10.1007/s00153-007-0042-6

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Typability and type checking in System F are equivalent and undecidable.J. B. Wells - 1999 - Annals of Pure and Applied Logic 98 (1-3):111-156.
Safe recursion with higher types and BCK-algebra.Martin Hofmann - 2000 - Annals of Pure and Applied Logic 104 (1-3):113-166.

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