Abstract :
In an all-optical network, installing multiple fibers in each link has proven to be cost-effective, since the cost of the fiber is relatively low compared to the installation cost. In this paper, the author proposes an analytical model to evaluate the performance of a multifiber bufferless optical-packet switch in which wavelength converters are shared per node. The analytical model, validated by simulations, evaluates the packet-loss probability of the switch as a function of the number of converters. They also evaluate the savings in terms of tuneable optical-wavelength converters of a multifiber switch, with respect to a single-fiber switch, as a function of selected parameters related to the main switch and to the traffic load (number of input lines, number of fibers-per-input lines, number of wavelengths per fiber, traffic load, ...). The results show savings, which can exceed 50%
Keywords :
optical communication equipment; optical fibre networks; optical fibres; optical losses; optical switches; optical wavelength conversion; packet switching; probability; telecommunication traffic; TOWC dimensioning; all-optical network; bufferless optical-packet switch; multifiber switch; multiple fiber installation; optical wavelength converters; optical-packet switch; packet-loss probability; single-fiber switch; traffic load; wavelength-division multiplexing; All-optical networks; Analytical models; Costs; Optical buffering; Optical packet switching; Optical switches; Optical wavelength conversion; Switching converters; Telecommunication traffic; Wavelength converters; Analytical model; multifiber optical-packet switching; packet-loss probability; shared-wavelength converters;
