Demonstration of a compact low-power 250-Gb/s parallel-WDM optical interconnect

Authors :: B. Law
George Panotopoulos
W. Gong
G.M. Flower
B.E. Lemoff
M.R.T. Tan
D.W. Dolfi
Richard P. Tella
E. de Groot
Lik-Khai Chia
Ashish Tandon
M.E. Ali
Glenn H. Rankin
A.J. Schmit
K.D. Djordjev
Source :: IEEE Photonics Technology Letters. 17:220-222
Publication Year :: 2005
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2005.
Abstract: In this letter, we demonstrate error-free operation of a 12-fiber /spl times/4-wavelength /spl times/5.21-Gb/s parallel-wavelength-division-multiplexed (PWDM) optical link. The 250-Gb/s transmitter and receiver assemblies each have a 5/spl times/8-mm footprint and consume a combined power of 1.5 W. To our knowledge, this is the first publication of a fully functional PWDM optical interconnect as well as the highest demonstrated bandwidth per unit area and bandwidth per unit power consumption for any multiple-channel fiber-optic interconnect. This technology is intended for short-distance high-bandwidth-density applications such as multiprocessor computer backplanes.