English

Linear lambda Calculus with Explicit Substitutions as Proof-Search in Deep Inference

Logic in Computer Science 2015-03-17 v4

Abstract

SBV is a deep inference system that extends the set of logical operators of multiplicative linear logic with the non commutative operator Seq. We introduce the logical system SBVr which extends SBV by adding a self-dual atom-renaming operator to it. We prove that the cut elimination holds on SBVr. SBVr and its cut free subsystem BVr are complete and sound with respect to linear lambda calculus with explicit substitutions. Under any strategy, a sequence of evaluation steps of any linear lambda-term M becomes a process of proof-search in SBVr (BVr) once M is mapped into a formula of SBVr. Completeness and soundness follow from simulating linear beta-reduction with explicit substitutions as processes. The role of the new renaming operator of SBVr is to rename channel-names on-demand. This simulates the substitution that occurs in a beta-reduction. Despite SBVr is a minimal extension of SBV its proof-search can compute all boolean functions, as linear lambda-calculus with explicit substitutions can compute all boolean functions as well. So, proof search of SBVr and BVr is at least ptime-complete.

Keywords

Cite

@article{arxiv.1011.3668,
  title  = {Linear lambda Calculus with Explicit Substitutions as Proof-Search in Deep Inference},
  author = {Luca Roversi},
  journal= {arXiv preprint arXiv:1011.3668},
  year   = {2015}
}

Comments

26 pages: Final technical report associated to the TLCA2011 paper "Linear lambda calculus and deep inference"

R2 v1 2026-06-21T16:44:31.096Z