Neuromorphic photonic networks using silicon photonic weight banks Received: 16 February 2017 Accepted: 29 June 2017 Published: xx xx xxxx OPEN (MRR) weight banks have established a correspondence between weighted addition operations and integrated photonic !lters In reference to the operation, MRR weight bank scalability34 and accuracy35 metrics can be
Microring weight bank designs with improved channel density and . . . Microring weight banks enable reconfiguration in analog photonic networks and multi-channel RF front-ends We demonstrate 2-ring weight banks and show that they 23 November 2017 ISBN Information: Electronic ISBN: 978-1-5090-6578-3 USB ISBN: 978-1-5090-6577-6 Print on Demand(PoD) ISBN: 978-1-5090-6579-0 INSPEC Accession Number:
Two-pole microring weight banks - Optica Publishing Group Weighted addition is an elemental multi-input to single-output operation that can be implemented with high-performance photonic devices Microring (MRR) weight banks bring programmable weighted addition to silicon photonics Prior work showed that their channel limits are affected by coherent inter-channel effects that occur uniquely in weight banks We fabricate two-pole designs that exploit
Neuromorphic photonic networks using silicon photonic weight banks - PMC The reconfigurable analog network consists of 2 MRR weight banks each with four MRR weights with 10 μm radii Each MRR weight bank is calibrated using a multi-channel protocol described in past work 35, 75: an offline measurement procedure is performed to identify models of thermo-optic cross-talk and MRR filter edge transmission During this
Two-pole microring weight banks - PubMed Microring (MRR) weight banks bring programmable weighted addition to silicon photonics Prior work showed that their channel limits are affected by coherent inter-channel effects that occur uniquely in weight banks We fabricate two-pole designs that exploit this inter-channel interference in a way that is robust to dynamic tuning and