We present a novel algorithm for the minimum-depth elimination tree problem, which is equivalent to the optimal treedepth decomposition problem. Our algorithm makes use of two cheaply-computed lower bound functions to prune the search tree, along with symmetry-breaking and domination rules. We present an empirical study showing that the algorithm outperforms the current state-of-the-art solver (which is based on a SAT encoding) by orders of magnitude on a range of graph classes
The chapter covers methods for identifying islands of tractability for NP-hard combi-natorial proble...
Treedepth, a more restrictive graph width parameter than treewidth and pathwidth, plays a major role...
A widely used class of algorithms for computing tree decompositions of graphs are heuristics that co...
This paper introduces Tweed-Plus, a heuristic solver for the treedepth problem. The solver uses two ...
We describe tdULL, an algorithm for computing treedepth decompositions of minimal depth. An implemen...
This article briefly describes the most important algorithms and techniques used in the treedepth de...
We describe a heuristic algorithm for computing treedepth decompositions, submitted for the https://...
The decomposition of graphs is a prominent algorithmic task with numerous applications in computer s...
The decomposition of graphs is a prominent algorithmic task with numerous applications in computer s...
We present an algorithm that takes ON I/Os (sort(N)=Θ((N/(DB)) log∈ M/B (N/B)) is the number of I/Os...
AbstractWe present a new algorithm for constructing the elimination tree for the Cholesky factor of ...
Abstract. Tree-Decompositions are the corner-stone of many dynamic programming algorithms for solvin...
AbstractTotal graphs of trees were proved strongly chordal by Martin Farber. We give a new proof of ...
A tree decomposition of a hypergraph is a construction that captures the graph's topological s...
International audienceThe notion of tree-cut width has been introduced by Wollan in [The structure o...
The chapter covers methods for identifying islands of tractability for NP-hard combi-natorial proble...
Treedepth, a more restrictive graph width parameter than treewidth and pathwidth, plays a major role...
A widely used class of algorithms for computing tree decompositions of graphs are heuristics that co...
This paper introduces Tweed-Plus, a heuristic solver for the treedepth problem. The solver uses two ...
We describe tdULL, an algorithm for computing treedepth decompositions of minimal depth. An implemen...
This article briefly describes the most important algorithms and techniques used in the treedepth de...
We describe a heuristic algorithm for computing treedepth decompositions, submitted for the https://...
The decomposition of graphs is a prominent algorithmic task with numerous applications in computer s...
The decomposition of graphs is a prominent algorithmic task with numerous applications in computer s...
We present an algorithm that takes ON I/Os (sort(N)=Θ((N/(DB)) log∈ M/B (N/B)) is the number of I/Os...
AbstractWe present a new algorithm for constructing the elimination tree for the Cholesky factor of ...
Abstract. Tree-Decompositions are the corner-stone of many dynamic programming algorithms for solvin...
AbstractTotal graphs of trees were proved strongly chordal by Martin Farber. We give a new proof of ...
A tree decomposition of a hypergraph is a construction that captures the graph's topological s...
International audienceThe notion of tree-cut width has been introduced by Wollan in [The structure o...
The chapter covers methods for identifying islands of tractability for NP-hard combi-natorial proble...
Treedepth, a more restrictive graph width parameter than treewidth and pathwidth, plays a major role...
A widely used class of algorithms for computing tree decompositions of graphs are heuristics that co...