Performance Analysis of the Rainbow WDM Optical Network Prototype

Rainbow is a prototype optical metropolitan area network (MAN) developed at IBM. It employs wavelength division multiplexing (WDM) on a fiber-optic, passive-star network topology, with each station equipped with a laser, which is fixed tuned to its own unique wavelength, and a Fabry-Perot filter, which is tunable across all wavelengths. This paper presents a model and analysis of the protocol used in the Rainbow prototype using the equilibrium point analysis (EPA) technique. We examine the system's throughput and how it is affected by various system parameters such as message arrival rate, message length, and timeout duration. We show that, for a given arrival rate, there is a timeout duration that will yield the optimal throughput. The analytical results are verified by simulation

Performance Analysis of the Rainbow WDM Optical Network Prototype

Rainbow is a prototype optical metropolitan area network (MAN) developed at IBM. It employs wavelength division multiplexing (WDM) on a fiber-optic, passive-star network topology, with each station equipped with a laser, which is fixed tuned to its own unique wavelength, and a FabryPerot filter, which is tunable across all wavelengths. This paper presents a model and analysis of the protocol used in the Rainbow prototype using the equilibrium point analysis (EPA) technique. We examine the system's throughput and how it is affected by various system parameters such as message arrival rate, message length, and timeout duration. We show that, for a given arrival rate, there is a timeout duration that will yield the optimal throughput. The analytical results are verified by simulation. 1 Introduction As we continue to move towards high capacity fiber-optic links, there is a need to find ways to divide the huge amount of bandwidth available on these links. One solution to this problem is ..