Journal of Parallel and Distributed Computing
Efficiently parallelizable problems on a class of decomposable graphs
Journal of Computer and System Sciences
The Hamiltonian problem on distance-hereditary graphs
Discrete Applied Mathematics
An efficient parallel strategy for the perfect domination problem on distance-hereditary graphs
The Journal of Supercomputing
The Hamiltonian problem on distance-hereditary graphs
Discrete Applied Mathematics
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In this paper, we sketch common properties of a class of so-called subgraph optimization problems that can be systematically solved on distance-hereditary graphs. Based on the found properties, we then develop a general problem-solving paradigm that solves these problems efficiently in parallel. As a by-product, we also obtain new linear-time algorithms by a sequential simulation of our parallel algorithms. Let Td|V|,|E|) and Pd(|V|,|E|) denote the time and processor complexities, respectively, required to construct a decomposition tree of a distance-hereditary graph G=(V,E) on a PRAM model Md. Based on the proposed paradigm, we show that the maximum independent set problem, the maximum clique problem, the vertex connectivity problem, the domination problem, and the independent domination problem can be sequentially solved in O(|V|+|E|) time, and solved in parallel in O(Td(|V|,|E|)+log |V|) time using O(Pd(|V|,|E|)+|V|log |V|)processors on Md. By constructing a decomposition tree under a CREW PRAM, we also show that Td(|V|,|E|)=O(log2|V|) and Pd(|V|,|E|)=O(|V|+|E|).