International audienceThis paper establishes a bridge between linear logic and mainstream graph theory, building previous work by Retoré (2003). We show that the problem of correctness for MLL+Mix proof nets is equivalent to the problem of uniqueness of a perfect matching. By applying matching theory, we obtain new results for MLL+Mix proof nets: a linear-time correctness criterion, a quasi-linear sequentialization algorithm, and a characterization of the sub-polynomial complexity of the correctness problem. We also use graph algorithms to compute the dependency relation of Bagnol et al. (2015) and the kingdom ordering of Bellin (1997), and relate them to the notion of blossom which is central to combinatorial maximum matching algorithms
The perfect matching problem is known to be in P, in randomizedNC, and it is hard forNL. Whether the...
With the modern proliferation of real-world networks, the almost quarter-millenium-old subject of gr...
Combining known results it follows that deciding whether a given graph G of size m has a unique perf...
International audienceThis paper establishes a bridge between linear logic and mainstream graph theo...
AbstractA graph-theoretical look at multiplicative proof nets lead us to two new descriptions of a p...
AbstractWe first extract the combinatorial result behind various proofs of the sequentialisation the...
We present a new correctness criterion for Multiplicative Linear Logic (MLL) proof nets. Our criteri...
AbstractThe paper presents in full detail the first linear algorithm given in the literature (Guerri...
Abstract—In Girard’s original presentation, proof structures of Linear Logic are hypergraphs whose h...
The main interest of this paper is to provide proof-nets, a proof syntax which identify proofs with ...
We establish the expressibility in fixed-point logic with counting (FPC) of a number of natural poly...
The perfect matching problem is known to be in P, in randomized NC, and it is hard for NL. Whether t...
Laszlo Lovasz recently posed the following problem: "Is there an NC algorithm for testing if a...
We introduce a new correctness criterion for multiplicative non commutative proof nets which can be ...
We present a new simple proof of the sequentialization property for proof nets of unit-free multipli...
The perfect matching problem is known to be in P, in randomizedNC, and it is hard forNL. Whether the...
With the modern proliferation of real-world networks, the almost quarter-millenium-old subject of gr...
Combining known results it follows that deciding whether a given graph G of size m has a unique perf...
International audienceThis paper establishes a bridge between linear logic and mainstream graph theo...
AbstractA graph-theoretical look at multiplicative proof nets lead us to two new descriptions of a p...
AbstractWe first extract the combinatorial result behind various proofs of the sequentialisation the...
We present a new correctness criterion for Multiplicative Linear Logic (MLL) proof nets. Our criteri...
AbstractThe paper presents in full detail the first linear algorithm given in the literature (Guerri...
Abstract—In Girard’s original presentation, proof structures of Linear Logic are hypergraphs whose h...
The main interest of this paper is to provide proof-nets, a proof syntax which identify proofs with ...
We establish the expressibility in fixed-point logic with counting (FPC) of a number of natural poly...
The perfect matching problem is known to be in P, in randomized NC, and it is hard for NL. Whether t...
Laszlo Lovasz recently posed the following problem: "Is there an NC algorithm for testing if a...
We introduce a new correctness criterion for multiplicative non commutative proof nets which can be ...
We present a new simple proof of the sequentialization property for proof nets of unit-free multipli...
The perfect matching problem is known to be in P, in randomizedNC, and it is hard forNL. Whether the...
With the modern proliferation of real-world networks, the almost quarter-millenium-old subject of gr...
Combining known results it follows that deciding whether a given graph G of size m has a unique perf...