Title :
System-level modeling and Simulation of the 10G optoelectronic interconnect
Author :
Kahrs, Mark ; Levitan, Steven P. ; Chiarulli, Donald M. ; Kurzweg, Timothy P. ; Martínez, José A. ; Boles, Jason ; Davare, Abhijit J. ; Jackson, Ethan ; Windish, Craig ; Kiamilev, Fouad ; Bhaduri, Amitava ; Taufik, Mohammed ; Wang, Xingle ; Morris, Arthur
Author_Institution :
Dept. of Electr. Eng., Univ. of Pittsburgh, PA, USA
Abstract :
Mixed-signal multidomain systems present a challenge for computer-aided design tools. Optical and electronic simulation tools are available as separate entities. However, to date, successful system-level cosimulation has not been implemented, leading to expensive refabrication. We present a unique system-level simulation tool for mixed electrooptical systems. We apply our tool Chatoyant to the simulation of an optical high-speed free-space interconnect system designed for 10-GHz speeds. The 10G free-space optical interconnect module has optical, optoelectronic, and microwave components and thus is an ideal vehicle to use as a test system. We demonstrate how Chatoyant, a mixed-signal multidomain simulator, has been used to evaluate end-to-end performance of this complex system, including the exploration of design tradeoffs and mechanical tolerancing.
Keywords :
CAD; electro-optical devices; integrated circuit design; mechanical engineering computing; micro-optics; microlenses; micromechanical devices; microwave devices; modelling; optical engineering computing; optical interconnections; optoelectronic devices; piecewise linear techniques; simulation; 10 GHz; 10-GHz speeds; 10G free-space optical interconnect module; 10G optoelectronic interconnect; Chatoyant; computer-aided design tools; electronic simulation tools; mechanical tolerancing; microwave components; mixed electrooptical systems; mixed-signal multidomain simulator; mixed-signal multidomain systems; optical components; optical high-speed free-space interconnect system; optical simulation tools; optoelectronic components; system level modeling; system level simulation; Analytical models; Computational modeling; Computer science; Design automation; High speed optical techniques; Integrated circuit interconnections; Optical design; Optical devices; Optical interconnections; Space technology;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.819792
