TY - JOUR
T1 - Next-generation 100-gigabit metro ethernet (100 GbME) using multiwavelength optical rings
AU - Zapata, Alejandra
AU - Düser, Michael
AU - Spencer, Jason
AU - Bayvel, Polina
AU - de Miguel, Ignacio
AU - Breuer, Dirk
AU - Hanik, Norbert
AU - Gladisch, Andreas
N1 - Funding Information:
Manuscript received December 15, 2003; revised July 7, 2004. This work was supported by Deutsche Telekom Innovations Management within the frame-work of the project ONW2001+. This work was also supported in part by a Presidente de la Republica Scholarship (Chile), the Ian Karten Charitable Trust (United Kingdom), and Marconi Corporation plc (Coventry, U.K.) A. Zapata, M. Düser, J. Spencer, and P. Bayvel are with the Department of Electronic and Electrical Engineering, University College London (UCL), London WC1E 7JE, U.K. (e-mail: [email protected]; [email protected]; [email protected]; [email protected]).
PY - 2004/11
Y1 - 2004/11
N2 - This paper investigates the challenges for developing the current local area network (LAN)-based Ethernet protocol into a technology for future network architectures that is capable of satisfying dynamic traffic demands with hard service guarantees using high-bit-rate channels (80⋯100 Gb/s). The objective is to combine high-speed optical transmission and physical interfaces (PHY) with a medium access control (MAC) protocol, designed to meet the service guarantees in future metropolitan-area networks (MANs). Ethernet is an ideal candidate for the extension into the MAN as it allows seamless compatibility with the majority of existing LANs. The proposed extension of the MAC protocol focuses on backward compatibility as wall as on the exploitation of the wavelength domain for routing of variable traffic demands. The high bit rates envisaged will easily exhaust the capacity of a single optical fiber in the C band and will require network algorithms optimizing the reuse of wavelength resources. To investigate this, four different static and dynamic optical architectures were studied that potentially offer advantages over current link-based designs. Both analytical and numerical modeling techniques were applied to quantify and compare the network performance for all architectures in terms of achievable throughput, delay, and the number of required wavelengths and to investigate the impact of nonuniform traffic demands. The results show that significant resource savings can be achieved by using end-to-end dynamic light-path allocation, but at the expense of high delay.
AB - This paper investigates the challenges for developing the current local area network (LAN)-based Ethernet protocol into a technology for future network architectures that is capable of satisfying dynamic traffic demands with hard service guarantees using high-bit-rate channels (80⋯100 Gb/s). The objective is to combine high-speed optical transmission and physical interfaces (PHY) with a medium access control (MAC) protocol, designed to meet the service guarantees in future metropolitan-area networks (MANs). Ethernet is an ideal candidate for the extension into the MAN as it allows seamless compatibility with the majority of existing LANs. The proposed extension of the MAC protocol focuses on backward compatibility as wall as on the exploitation of the wavelength domain for routing of variable traffic demands. The high bit rates envisaged will easily exhaust the capacity of a single optical fiber in the C band and will require network algorithms optimizing the reuse of wavelength resources. To investigate this, four different static and dynamic optical architectures were studied that potentially offer advantages over current link-based designs. Both analytical and numerical modeling techniques were applied to quantify and compare the network performance for all architectures in terms of achievable throughput, delay, and the number of required wavelengths and to investigate the impact of nonuniform traffic demands. The results show that significant resource savings can be achieved by using end-to-end dynamic light-path allocation, but at the expense of high delay.
KW - Dynamic optical networks
KW - Ethernet
KW - Metropolitan-area networks (MANs)
KW - Optical burst switching (OBS)
KW - Ring networks
KW - Wavelength-routed optical networks
UR - http://www.scopus.com/inward/record.url?scp=9244248142&partnerID=8YFLogxK
U2 - 10.1109/JLT.2004.836809
DO - 10.1109/JLT.2004.836809
M3 - Article
AN - SCOPUS:9244248142
SN - 0733-8724
VL - 22
SP - 2420
EP - 2434
JO - Journal of Lightwave Technology
JF - Journal of Lightwave Technology
IS - 11
ER -