Scheduling light-trails on WDM rings

摘要

We consider the problem of scheduling communication on optical WDM (wavelength division multiplexing) networks using the light-trails technology. We seek to design scheduling algorithms such that the given transmission requests can be scheduled using a minimum number of wavelengths (optical channels). We provide algorithms and close lower bounds for two versions of the problem on an n processor linear array/ring network. In the stationary version, the pattern of transmissions (given) is assumed to not change over time. For this, a simple lower bound is c, the congestion or the maximum total traffic required to pass through any link. We give an algorithm that schedules the transmissions using 0(c + log n) wavelengths. We also show a pattern for which Ω(c 4- log n/ log log n) wavelengths are needed. In the on-line version, the transmissions arrive and depart dynamically, and must be scheduled without upsetting the previously scheduled transmissions. For this case we give an on-line algorithm which has competitive ratio Θ(logn). We show that this is optimal in the sense that every on-line algorithm must have competitive ratio Ω(log n). We also give an algorithm that appears to do well in simulations (for the classes of traffic we consider), but which has competitive ratio between Ω(log~2 n/log log n) and O(log~2 n). We present detailed simulations of both our algorithms.