Fixed point analysis of limited range share per node wavelength conversion in asynchronous optical packet switching systems

In this article, we study an asynchronous optical packet switch equipped with a number of wavelength converters shared per node. The wavelength converters can be full range or circular-type limited range. We use the algorithmic methods devised for Markov chains of block-tridiagonal type in addition to fixed-point iterations to approximately solve this relatively complex system. In our approach, we also take into account the finite number of fiber interfaces using the Engset traffic model rather than the usual Poisson traffic modeling. The proposed analytical method provides an accurate approximation for full range systems for relatively large number of interfaces and for circular-type limited range wavelength conversion systems for which the tuning range is relatively narrow.

[1]  Carla Raffaelli,et al.  Transparent optical packet switching: network architecture and demonstrators in the KEOPS project , 1998, IEEE J. Sel. Areas Commun..

[2]  Harald Overby Performance modelling of optical packet switched networks with the Engset traffic model. , 2005, Optics express.

[3]  Rada Y. Chirkova,et al.  Queuing Systems , 2018, Encyclopedia of Database Systems.

[4]  C. Raffaelli,et al.  Packet Loss Analysis of Synchronous Buffer-less Optical Switch with Shared Limited Range Wavelength Converters , 2007, 2007 Workshop on High Performance Switching and Routing.

[5]  Hailong Li,et al.  Performance analysis of limited number of wavelength converters by share per node in optical switching network , 2007, Comput. Networks.

[6]  Nail Akar,et al.  Wavelength converter sharing in asynchronous optical packet/burst switching: An exact blocking analysis for markovian arrivals , 2006, IEEE Journal on Selected Areas in Communications.

[7]  M. Listanti,et al.  Resources sharing in optical packet switches with limited-range wavelength converters , 2005, Journal of Lightwave Technology.

[8]  Nail Akar,et al.  Stochastic Analysis of Finite Population Bufferless Multiplexing in Optical Packet/Burst Switching Systems , 2007, IEICE Trans. Commun..

[9]  Leonard Kleinrock,et al.  Queueing Systems - Vol. 1: Theory , 1975 .

[10]  Harald Øverby Performance modelling of optical packet switched networks with the Engset traffic model , 2005 .

[11]  Marco Listanti,et al.  A comparison study on the number of wavelength converters needed in synchronous and asynchronous all-optical switching architectures , 2003 .

[12]  Gene H. Golub,et al.  Matrix computations , 1983 .

[13]  Harry G. Perros,et al.  An Approximate Queueing Model for Limited-Range Wavelength Conversion in an OBS Switch , 2005, NETWORKING.

[14]  Yao Mingwu,et al.  Accurate and approximate evaluations of asynchronous tunable-wavelength-converter sharing schemes in optical burst-switched networks , 2005, Journal of Lightwave Technology.

[15]  Harry G. Perros,et al.  Performance analysis of limited-range wavelength conversion in an OBS switch , 2006, Telecommun. Syst..

[16]  Gene H. Golub,et al.  Matrix computations (3rd ed.) , 1996 .

[17]  Ezhan Karasan,et al.  Performance Analysis of an Optical Packet Switch Employing Full/Limited Range Share Per Node Wavelength Conversion , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[18]  Nail Akar,et al.  Exact calculation of blocking probabilities for bufferless optical burst switched links with partial wavelength conversion , 2004, First International Conference on Broadband Networks.

[19]  Chunming Qiao,et al.  Optical burst switching (OBS) - a new paradigm for an Optical Internet^{1} , 1999, J. High Speed Networks.

[20]  Nail Akar,et al.  Comparative study of limited-range wavelength conversion policies for asynchronous optical packet switching , 2007 .