The paper focuses on modeling multiplicative linear logic (MLL-) using two different derivation systems: the standard sequent calculus (MLL-SC) and the deep inference system (MLL-DI). The key highlights and insights are:
The authors establish a necessary condition for provable sequents in MLL- related to the number of pars and tensors in a formula, which seems to be missing from the literature.
The authors provide translations between the two derivation systems, MLL-SC and MLL-DI, and analyze the effects of these translations. They suggest an alternative translation that keeps the size of derivations smaller.
The authors provide a detailed account of modeling derivations in the coherence space model, as they were unable to find a satisfactory description in the literature.
The authors find that the deep inference system is closer to a categorical setting and provides a composition (up to some mild quotienting) that is more evident compared to the sequent calculus derivations.
The authors hope this paper encourages further study of deep inference systems for linear logic, as the literature in this area is scarce.
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by Tomer Galor,... a las arxiv.org 04-03-2024
https://arxiv.org/pdf/2404.01026.pdfConsultas más profundas