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LICS
2007
IEEE

Light Logics and Optimal Reduction: Completeness and Complexity

14 years 6 months ago
Light Logics and Optimal Reduction: Completeness and Complexity
Typing of lambda-terms in Elementary and Light Affine Logic (EAL , LAL resp.) has been studied for two different reasons: on the one hand the evaluation of typed terms using LAL (EAL resp.) proof-nets admits a guaranteed polynomial (elementary, resp.) bound; on the other hand these terms can also be evaluated by optimal reduction using the version of Lamping’s algorithm. The first reduction is global while the second one is local and asynchronous. We prove that for LAL (EAL resp.) typed terms, Lamping’s algorithm also admits a polynomial (elementary, resp.) bound. We also show its soundness and completeness (for EAL and LAL with type fixpoints), by using a simple geometry of interaction model (context semantics).
Patrick Baillot, Paolo Coppola, Ugo Dal Lago
Added 04 Jun 2010
Updated 04 Jun 2010
Type Conference
Year 2007
Where LICS
Authors Patrick Baillot, Paolo Coppola, Ugo Dal Lago
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