This work studies decision problems from the perspective of nondeterministic distributed algorithms. For a yes-instance there must exist a proof that can be verified with a distrib-uted algorithm: all nodes must accept a valid proof, and at least one node must reject an invalid proof. We focus on locally checkable proofs that can be verified with a constant-time distributed algorithm. For example, it is easy to prove that a graph is bipartite: the locally checkable proof gives a 2-colouring of the graph, which only takes 1 bit per node. However, it is more difficult to prove that a graph is not bipartite—it turns out that any locally checkable proof requires Ω(logn) bits per node. In this work we classify graph problems according to their l...
A central theme in distributed network algorithms concerns understanding and coping with the issue o...
| openaire: EC/H2020/755839/EU//BANDWIDTHWe present a complete classification of the deterministic d...
International audienceA distributed graph algorithm is basically an algorithm where every node of a ...
We study decision problems related to graph properties from the perspective of nondeterministic dist...
This work studies decision problems from the perspective of nondeterministic distributed algorithms....
In this work we study the cost of local and global proofs on distributed verification. In this setti...
In this work we study local checkability of network proper-ties like s-t reachability, or whether th...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
Consider any locally checkable labeling problem Π in rooted regular trees: there is a finite set of ...
Locally Checkable Labeling (LCL) problems include essentially all the classic problems of LOCAL dist...
We give practical, efficient algorithms that automatically determine the asymptotic distributed roun...
The landscape of the distributed time complexity is nowadays well-understood for subpolynomial compl...
We study connections between three different fields: distributed local algorithms, finitary factors ...
A central theme in distributed network algorithms concerns understanding and coping with the issue o...
| openaire: EC/H2020/755839/EU//BANDWIDTHWe present a complete classification of the deterministic d...
International audienceA distributed graph algorithm is basically an algorithm where every node of a ...
We study decision problems related to graph properties from the perspective of nondeterministic dist...
This work studies decision problems from the perspective of nondeterministic distributed algorithms....
In this work we study the cost of local and global proofs on distributed verification. In this setti...
In this work we study local checkability of network proper-ties like s-t reachability, or whether th...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
Consider any locally checkable labeling problem Π in rooted regular trees: there is a finite set of ...
Locally Checkable Labeling (LCL) problems include essentially all the classic problems of LOCAL dist...
We give practical, efficient algorithms that automatically determine the asymptotic distributed roun...
The landscape of the distributed time complexity is nowadays well-understood for subpolynomial compl...
We study connections between three different fields: distributed local algorithms, finitary factors ...
A central theme in distributed network algorithms concerns understanding and coping with the issue o...
| openaire: EC/H2020/755839/EU//BANDWIDTHWe present a complete classification of the deterministic d...
International audienceA distributed graph algorithm is basically an algorithm where every node of a ...