All-optical networks with sparse wavelength conversion

We study the effects of topological connectivity and wavelength conversion in circuit-switched all-optical wavelength-routing networks, A blocking analysis of such networks is given. We first propose an analytical framework for accurate analysis of networks with arbitrary topology. We then introduce a model for networks with a variable number of converters and analyze the effect of wavelength converter density on blocking probability, This framework is applied to three regular network topologies that have varying levels of connectivity: the ring, the mesh-torus, and the hypercube, The results show that either a relatively small number of converters is sufficient for a certain level of performance or that conversion does not offer a significant advantage, The benefits of conversion are largely dependent on the network load, the number of available wavelengths, and the connectivity of the network, Finally, the tradeoff between physical connectivity, wavelength conversion, and the number of available wavelengths is studied through networks with random topologies.