AbstractWe present an efficient and scalable coarse grained multicomputer (CGM) coloring algorithm that colors a graph G with at most Δ+1 colors where Δ is the maximum degree in G. This algorithm is given in two variants: randomized and deterministic. We show that on a p-processor CGM model the proposed algorithms require a parallel time of O(|G|/p) and a total work and overall communication cost of O(|G|). These bounds correspond to the average case for the randomized version and to the worst case for the deterministic variant
We discover a surprising connection between graph coloring in two orthogonal paradigms: parallel and...
In recent times an evident trend in hardware is to opt for multi-core CPUs. This has lead to a situa...
This paper studies sufficient conditions to obtain efficient distributed algorithms coloring graphs ...
We present an efficient and scalable Coarse Grained Multicomputer(CGM) coloring algorithm that color...
AbstractWe present an efficient and scalable coarse grained multicomputer (CGM) coloring algorithm t...
Article dans revue scientifique avec comité de lecture.We present the first efficient parallel algor...
We present the first efficient algorithm for a coarse grained multiprocessor that colors a graph $G$...
in Journées Informatiques de Metz - JIM'2000 (IUT Metz). Colloque avec actes sans comité de lecture....
We explore the interplay between architectures and algorithm design in the context of shared-memory ...
A parallel (CRCW PRAM) algorithm is given to find a $k$-coloring of a graph randomly drawn from the ...
Abstract. In large-scale parallel applications a graph coloring is often carried out to schedule com...
The problem of computing good graph colorings arises in many diverse applications, such as in the es...
International audienceIn parallel computation domain, graph coloring is widely studied in its own an...
Identifying the sets of operations that can be executed simultaneously is an important problem ap-pe...
Graph coloring is an abstraction of scheduling problems. Using an exclusive-read and exclusive-write...
We discover a surprising connection between graph coloring in two orthogonal paradigms: parallel and...
In recent times an evident trend in hardware is to opt for multi-core CPUs. This has lead to a situa...
This paper studies sufficient conditions to obtain efficient distributed algorithms coloring graphs ...
We present an efficient and scalable Coarse Grained Multicomputer(CGM) coloring algorithm that color...
AbstractWe present an efficient and scalable coarse grained multicomputer (CGM) coloring algorithm t...
Article dans revue scientifique avec comité de lecture.We present the first efficient parallel algor...
We present the first efficient algorithm for a coarse grained multiprocessor that colors a graph $G$...
in Journées Informatiques de Metz - JIM'2000 (IUT Metz). Colloque avec actes sans comité de lecture....
We explore the interplay between architectures and algorithm design in the context of shared-memory ...
A parallel (CRCW PRAM) algorithm is given to find a $k$-coloring of a graph randomly drawn from the ...
Abstract. In large-scale parallel applications a graph coloring is often carried out to schedule com...
The problem of computing good graph colorings arises in many diverse applications, such as in the es...
International audienceIn parallel computation domain, graph coloring is widely studied in its own an...
Identifying the sets of operations that can be executed simultaneously is an important problem ap-pe...
Graph coloring is an abstraction of scheduling problems. Using an exclusive-read and exclusive-write...
We discover a surprising connection between graph coloring in two orthogonal paradigms: parallel and...
In recent times an evident trend in hardware is to opt for multi-core CPUs. This has lead to a situa...
This paper studies sufficient conditions to obtain efficient distributed algorithms coloring graphs ...