Joo-Heon AHN Hyung-Jong LEE Wol-Yon HWANG Min-Cheol OH Myung-Hyun LEE Seon Gyu HAN Hae-Geun KIM Chu Hwan YIM
A 116 arrayed waveguide grating multiplexer operating around 1550 nm has been realized using newly synthesized fluorinated poly(arylene ethers). The channel spacing is 0.8 nm (100 GHz). The insertion loss of the multiplexer is 17-20 dB and the cross talk is less than -15 dB. The propagation loss of a rib waveguide is less than 0.5 dB/cm at 1550 nm.
Xiaoshe DONG Tomohiro KUDOH Hideharu AMANO
Divisor-Skip Wavelength Division Multiplexing (DS-WDM) ring is an optical interconnection network for workstation clusters or parallel machines which can connect various number of nodes easily using wavelength division multiplexing techniques. However, the wavelength-ordered routing algorithm proposed for the DS-WDM ring requires complicated processes in each router. Here, a new routing algorithm called the comparing dimensional number routing algorithm for the DS-WDM ring is proposed and evaluated. Although the diameter and average distance are almost same as traditional wavelength-ordered routing, the cost and latency are much reduced.
Joo-Heon AHN Hyung-Jong LEE Wol-Yon HWANG Min-Cheol OH Myung-Hyun LEE Seon Gyu HAN Hae-Geun KIM Chu Hwan YIM
A 116 arrayed waveguide grating multiplexer operating around 1550 nm has been realized using newly synthesized fluorinated poly(arylene ethers). The channel spacing is 0.8 nm (100 GHz). The insertion loss of the multiplexer is 17-20 dB and the cross talk is less than -15 dB. The propagation loss of a rib waveguide is less than 0.5 dB/cm at 1550 nm.
This paper proposes local lightwave networks with grouping property which are based on a wavelength division multiplexing (WDM). The proposed network is partitioned into several groups according to traffic volume between stations so that traffic is more likely to be within groups. The stations within a group are connected to a broadcast-and-select WDM network with star topology. For inter-group communication, a WDM network of each group is connected to another star-topology WDM network through a special station called a router. In the proposed network, intra-group communication is achieved by one hop and inter-group communication goes through multiple hops. We analyze the average hop number, the maximum throughput, and the mean packet delay of the proposed network and investigate its performance characteristics. Since the proposed network has the better performance as its grouping property strengthens, it is fit for local lightwave networks with the locality of traffic.