AbstractThe intensive study of fast parallel and distributed algorithms for various routing (and communications) problems on graphs with good expanding properties [29, 30, 33] has been carried out recently. The parallel solutions for expanders that already exist [30] required an extensive randomization and an application of a randomized subroutine for the Maximum Matching Problem. In this paper we attack the problem of fast parallel algorithms for constructing perfect matchings and Hamiltonian cycles on dense graph-networks (undirected graphs of minimal degree 12¦V¦). Somewhat surprisingly, we design fast deterministic parallel algorithms for constructing both the perfect matchings and the Hamiltonian cycles on the dense graphs.The algorith...
In this paper, we present a distributed algorithm to find Hamiltonian cycles in C/(n, p) graphs. The...
Given a graph with colored edges, a Hamiltonian cycle is called alternating if its successive edges ...
In this paper we devise randomized parallel algorithms which given a unary weighted (di)graph G=(V, ...
AbstractThe intensive study of fast parallel and distributed algorithms for various routing (and com...
Suppose 0 \u3c η \u3c 1 is given. We call a graph, G, on n vertices an η-Chvatal graph if its degree...
We give tight bounds on the parallel complexity of some problems involving random graphs. Speci call...
In this paper we show structural and algorithmic properties on the class of quasi-threshold graphs, ...
We design and implement an efficient parallel algorithm for finding a perfect matching in a weighted...
Stefanes MA, Rubert D, Soares J. Scalable parallel algorithms for maximum matching and Hamiltonian c...
We present optimal parallel algorithms to find maximal matchings in two classes of sparse graphs, na...
For an even integer t \geq 2, the Matchings Connecivity matrix H_t is a matrix that has rows and col...
There has been significant recent interest in parallel graph processing due to the need to quickly a...
There exists a large number of theoretical results concerning parallel algorithms for the graph prob...
We improve upon the running time of several graph and network algorithms when applied to dense graph...
AbstractWe propose an improved algorithm for counting the number of Hamiltonian cycles in a directed...
In this paper, we present a distributed algorithm to find Hamiltonian cycles in C/(n, p) graphs. The...
Given a graph with colored edges, a Hamiltonian cycle is called alternating if its successive edges ...
In this paper we devise randomized parallel algorithms which given a unary weighted (di)graph G=(V, ...
AbstractThe intensive study of fast parallel and distributed algorithms for various routing (and com...
Suppose 0 \u3c η \u3c 1 is given. We call a graph, G, on n vertices an η-Chvatal graph if its degree...
We give tight bounds on the parallel complexity of some problems involving random graphs. Speci call...
In this paper we show structural and algorithmic properties on the class of quasi-threshold graphs, ...
We design and implement an efficient parallel algorithm for finding a perfect matching in a weighted...
Stefanes MA, Rubert D, Soares J. Scalable parallel algorithms for maximum matching and Hamiltonian c...
We present optimal parallel algorithms to find maximal matchings in two classes of sparse graphs, na...
For an even integer t \geq 2, the Matchings Connecivity matrix H_t is a matrix that has rows and col...
There has been significant recent interest in parallel graph processing due to the need to quickly a...
There exists a large number of theoretical results concerning parallel algorithms for the graph prob...
We improve upon the running time of several graph and network algorithms when applied to dense graph...
AbstractWe propose an improved algorithm for counting the number of Hamiltonian cycles in a directed...
In this paper, we present a distributed algorithm to find Hamiltonian cycles in C/(n, p) graphs. The...
Given a graph with colored edges, a Hamiltonian cycle is called alternating if its successive edges ...
In this paper we devise randomized parallel algorithms which given a unary weighted (di)graph G=(V, ...