Modeling and Characterization of a Nonblocking $4\\times 4$ Mach–Zehnder Silicon Photonic Switch Fabric

Author

Dupuis, Nicolas ; Lee, Benjamin G. ; Rylyakov, Alexander V. ; Kuchta, Daniel M. ; Baks, Christian W. ; Orcutt, Jason S. ; Gill, Douglas M. ; Green, William M. J. ; Schow, Clint L.

Author_Institution

IBM T. J. Watson Research Center, Yorktown Heights, NY, USA

Volume

33

Issue

20

fYear

2015

Firstpage

4329

Lastpage

4337

Abstract

We present simulation and experimental results on a silicon photonic strictly nonblocking $4\\times 4$ electrooptic Mach–Zehnder-based switch fabric. We propose a simulation framework based on the transfer matrix approach that enables calculating the transmission spectra of any type of multistage interconnect switch network. The model is used to analyze the spectral characteristics of the switch fabric. We also show experimental results on a fabric designed and fabricated in IBM\´s 90-nm photonics-enabled CMOS process. The fabric monolithically integrates the CMOS logic, the switch drivers, and all the photonics. We fully characterized all the transmittances of the switch and demonstrate onchip insertion loss between 1.5 and 3 dB and a crosstalk less than –25 dB for all the signal paths.

Keywords

Crosstalk; Fabrics; Optical crosstalk; Optical losses; Optical switches; Phase shifters; CMOS integrated circuits; CMOS integrated circuits,; optical switches; photonic integrated circuits;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2015.2466571

Filename

7185321

Modeling and Characterization of a Nonblocking Mach–Zehnder Silicon Photonic Switch Fabric

Dupuis, Nicolas ; Lee, Benjamin G. ; Rylyakov, Alexander V. ; Kuchta, Daniel M. ; Baks, Christian W. ; Orcutt, Jason S. ; Gill, Douglas M. ; Green, William M. J. ; Schow, Clint L.

jour

Modeling and Characterization of a Nonblocking $4\\times 4$ Mach–Zehnder Silicon Photonic Switch Fabric