Open Access
Open access
Optics Express, volume 23, issue 20, pages 26800

Excitable laser processing network node in hybrid silicon: analysis and simulation

Mitchell A Nahmias 1
Alexander N Tait 1
Bhavin J Shastri 1
Thomas Ferreira De Lima 1
Paul R. Prucnal 1
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Publication typeJournal Article
Publication date2015-10-02
Journal: Optics Express
scimago Q1
SJR0.998
CiteScore6.6
Impact factor3.2
ISSN10944087
DOI:  10.1364/oe.23.026800
PubMed ID:  26480191
Atomic and Molecular Physics, and Optics
Abstract
The combination of ultrafast laser dynamics and dense on-chip multiwavelength networking could potentially address new domains of real-time signal processing that require both speed and complexity. We present a physically realistic optoelectronic simulation model of a circuit for dynamical laser neural networks and verify its behavior. We describe the physics, dynamics, and parasitics of one network node, which includes a bank of filters, a photodetector, and excitable laser. This unconventional circuit exhibits both cascadability and fan-in, critical properties for the large-scale networking of information processors based on laser excitability. In addition, it can be instantiated on a photonic integrated circuit platform and requires no off-chip optical I/O. Our proposed processing system could find use in emerging applications, including cognitive radio and low-latency control.
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