Cooling schedules for optimal annealing
Mathematics of Operations Research
Lightwave networks based on de Bruijn graphs
IEEE/ACM Transactions on Networking (TON)
Some principles for designing a wide-area WDM optical network
IEEE/ACM Transactions on Networking (TON)
Mapping of virtual regular mesh network topologies onto arbitrary geographical node distributions
NOC '96 Proceedings of the European conference on Networks & optical communications III : Technology, infrastructure, WDM Networks: Technology, infrastructure, WDM Networks
Node placement optimization in ShuffleNets
IEEE/ACM Transactions on Networking (TON)
Computer Networks: The International Journal of Computer and Telecommunications Networking - 01/14/2002
ONDM '01 Proceedings of the IFIP TC6 Fifth Working Conference on Optical Network Design and Modeling: Towards an Optical Internet: New Visions in Optical Network Design and Modelling
On Embedding Interconnection Networks into Rings of Processors
PARLE '92 Proceedings of the 4th International PARLE Conference on Parallel Architectures and Languages Europe
Issues in the Study of Graph Embeddings
WG '80 Proceedings of the International Workshop on Graphtheoretic Concepts in Computer Science
Optimal node placement in an optical packet switching Manhattan street network
Computer Networks: The International Journal of Computer and Telecommunications Networking
Research: Kautz graphs as attractive logical topologies in multihop lightwave networks
Computer Communications
Dynamic load balancing in WDM packet networks with and without wavelength constraints
IEEE Journal on Selected Areas in Communications
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A bifurcated approach is typically adopted to the regular virtual topology design problem. By exploiting key metrics that affect optimization solutions, it is shown that easily computed parameters, pertaining to the spread in inter-nodal distances and the spread in inter-nodal traffic, are descriptive and appropriate means to characterize problem inputs, the physical topology and the traffic matrix. The juxtaposition between these parameters and the optimization results is explored, culminating in the development of a novel holistic framework for regular virtual topology design. This framework offers the possibility of simplifying regular virtual topology design by presenting the different traditional design approaches as being nuances of a single overarching problem and suggesting criteria for choosing the most expedient design approach.