Title :
CBI: a scalable energy-efficient protocol for metro/access networks
Author :
Xin Yin ; Vyncke, Arno ; Torfs, Guy ; Verbeke, Marijn ; Hungkei Chow ; Suvakovic, Dusan ; Duque, Alex ; van Veen, Doutje ; Ayhan, Tolga ; Vetter, Peter
Author_Institution :
Ghent Univ., Ghent, Belgium
Abstract :
This paper presents a scalable energy-efficient MAC/PHY protocol for building a metro/access network. The proposed cascaded bit-interleaving (CBI) protocol extends the previously reported bit-interleaving concept to a multi-level paradigm. Moreover, a 40Gb/s 3-level electrical duobinary based physical layer scheme has been proposed for cost and energy saving, especially for end terminals. We compared two implementation approaches in terms of optical budget and transmission penalties. The initial estimate from the proof-ofconcept full-custom ASIC design shows that an ultra-low power metro/access network can be realized.
Keywords :
access protocols; energy conservation; telecommunication power management; 3-level electrical duobinary based physical layer scheme; CBI protocol; access networks; bit rate 40 Gbit/s; cascaded bit-interleaving protocol; energy saving; energy-efficient MAC/PHY protocol; full-custom ASIC design; metro networks; optical budget terms; scalable energy-efficient protocol; transmission penalties; Bandwidth; Modulation; Passive optical networks; Power demand; Protocols; Receivers; Sensitivity; BiPON; CBI; MAC/PHY protocol; cascaded bit-interleaving; energyefficiency; network protocol;
Conference_Titel :
Green Communications (OnlineGreencomm), 2014 IEEE Online Conference on
DOI :
10.1109/OnlineGreenCom.2014.7114424
