The parallel computational complexity or depth of growing network models is investigated. The networks considered are generated by preferential attachment rules where the probability of attaching a new node to an existing node is given by a power α of the connectivity of the existing node. Algorithms for generating growing networks very quickly in parallel are described and studied. The sublinear and superlinear cases require distinct algorithms. As a result, there is a discontinuous transition in the parallel complexity of sampling these networks corresponding to the discontinuous structural transition at α=1, where the networks become scale-free. For α\u3e1, networks can be generated in constant time while for 0⩽α\u3c1, logarithmic parall...
We examine the global organization of growing networks in which a new vertex is attached to already ...
We introduce a fully nonhierarchical network growing mechanism, that furthermore does not impose exp...
This article investigates emergence and complexity in complex systems that can share information on ...
Recently, there has been substantial interest in the study of various random networks as mathematica...
Evolution and structure of very large networks has attracted considerable attention in recent years....
We investigate networks whose evolution is governed by hierarchies, scale-free networks the interact...
Summary. Adaptive evolution of a functioning network (e.g. Kauffman network) may force growth of thi...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
Complex networks describe a wide range of systems and structures in the world. Any real network can ...
We study a new algorithmic process of graph growth which starts from a single initial vertex and ope...
doi:10.1088/1367-2630/9/8/282 Abstract. We study the organization and dynamics of growing directed n...
A whole spectrum of networks is generated with a quasistatic growth model. N nodes are located in a ...
a. Assume the network grows as described in [1, Fig. 3b], by duplication of a gene (node) chosen uni...
Networks are commonly observed structures in complex systems with interacting and interdependent pa...
Bipartite systems show remarkable variations in their topological asymptotic properties, e...
We examine the global organization of growing networks in which a new vertex is attached to already ...
We introduce a fully nonhierarchical network growing mechanism, that furthermore does not impose exp...
This article investigates emergence and complexity in complex systems that can share information on ...
Recently, there has been substantial interest in the study of various random networks as mathematica...
Evolution and structure of very large networks has attracted considerable attention in recent years....
We investigate networks whose evolution is governed by hierarchies, scale-free networks the interact...
Summary. Adaptive evolution of a functioning network (e.g. Kauffman network) may force growth of thi...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
Complex networks describe a wide range of systems and structures in the world. Any real network can ...
We study a new algorithmic process of graph growth which starts from a single initial vertex and ope...
doi:10.1088/1367-2630/9/8/282 Abstract. We study the organization and dynamics of growing directed n...
A whole spectrum of networks is generated with a quasistatic growth model. N nodes are located in a ...
a. Assume the network grows as described in [1, Fig. 3b], by duplication of a gene (node) chosen uni...
Networks are commonly observed structures in complex systems with interacting and interdependent pa...
Bipartite systems show remarkable variations in their topological asymptotic properties, e...
We examine the global organization of growing networks in which a new vertex is attached to already ...
We introduce a fully nonhierarchical network growing mechanism, that furthermore does not impose exp...
This article investigates emergence and complexity in complex systems that can share information on ...