Title :
Optical buffers, batch arrivals and synchronization
Author :
Rogiest, W. ; Laevens, K. ; Fiems, D. ; Bruneel, H.
Author_Institution :
SMACS Res. Group, Ghent Univ.
Abstract :
We present the analysis of a single-wavelength fiber-delay-line buffer fed by a batch arrival process, and apply the results to study the influence of (internal) synchronization on performance. We rely on generating functions to develop a discrete-time queueing model that, unlike previously obtained results, is able to cope with concurrent arrivals. Without making any special assumptions on the burst or batch size distribution, we derive an expression for the scheduling horizon as seen by arriving batches in a system of infinite size. From that, we are able to derive e.g. a maximum tolerable arrival intensity. For finite systems, we use a heuristic to calculate the burst loss probability which is validated against simulations. Consequently, we employ the model assuming a Poisson batch size distribution, and investigate the influence of synchronization. Whether or not this turns out beneficial is shown to relate strongly to the burst size distribution
Keywords :
Poisson distribution; discrete time systems; optical delay lines; optical fibre networks; queueing theory; scheduling; synchronisation; Poisson batch size distribution; batch arrival process; discrete-time queueing model; finite system; optical fiber-delay-line buffer; scheduling horizon; synchronization; Delay lines; Optical buffering; Optical fibers; Optical losses; Optical packet switching; Optical switches; Performance analysis; Performance loss; Traffic control; Wavelength division multiplexing;
Conference_Titel :
Next Generation Internet Design and Engineering, 2006. NGI '06. 2006 2nd Conference on
Conference_Location :
Valencia
Print_ISBN :
0-7803-9455-0
Electronic_ISBN :
0-7803-9456-9
DOI :
10.1109/NGI.2006.1678239
