The combination of phase-change materials and integrated photonics has led to the development of new forms of all-optical devices, including photonic memories, arithmetic and logic processors, and synaptic and neuronal mimics. Such devices can be readily fabricated into photonic integrated circuits, so potentially delivering large-scale all-optical arithmetic-logic units and neuromorphic processing chips. To facilitate in the design and optimization of such large-scale systems, and to aid in the understanding of device and system performance, fast yet accurate computer models are needed. Here, we describe the development of a behavioral modeling tool that meets such requirements, being capable of essentially instantaneous modeling of the write, erase, and readout performance of various integrated phase-change photonic devices, including those for synaptic and neuronal mimics.
Behavioral modeling of integrated phase-change photonic devices for neuromorphic computing applications / Carrillo, S. G. -C.; Gemo, E.; Li, X.; Youngblood, N.; Katumba, A.; Bienstman, P.; Pernice, W.; Bhaskaran, H.; Wright, C. D.. - In: APL MATERIALS. - ISSN 2166-532X. - ELETTRONICO. - 7:9(2019). [10.1063/1.5111840]
Behavioral modeling of integrated phase-change photonic devices for neuromorphic computing applications
Gemo E.;
2019
Abstract
The combination of phase-change materials and integrated photonics has led to the development of new forms of all-optical devices, including photonic memories, arithmetic and logic processors, and synaptic and neuronal mimics. Such devices can be readily fabricated into photonic integrated circuits, so potentially delivering large-scale all-optical arithmetic-logic units and neuromorphic processing chips. To facilitate in the design and optimization of such large-scale systems, and to aid in the understanding of device and system performance, fast yet accurate computer models are needed. Here, we describe the development of a behavioral modeling tool that meets such requirements, being capable of essentially instantaneous modeling of the write, erase, and readout performance of various integrated phase-change photonic devices, including those for synaptic and neuronal mimics.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2989991