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Design and Optimization of Photonic Integrated Circuits and Components

Various design challenges such as tolerance to variability, design, and optimization of Multiphysics photonic components and circuits need consideration to get the best photonics performance. In this two-webinar series, we’ll focus on how designers can optimize foundry-compatible photonic integrated circuits (PICs) and design purpose-built active and passive photonic components with Ansys Lumerical.

This two-webinar series will demonstrate how a photonic circuit designer can team up with a component designer to design and optimize their photonic integrated circuits with high-performing Multiphysics photonic elements, utilizing the power of Ansys optimization tool optiSLang and Ansys Photonic Inverse Design (PID).

On-Demand Webinars

ON-DEMAND WEBINAR
installation, licensing, it
Design and Optimization of Photonic Integrated Circuits and Components - Part 1

In Part 1 of this webinar series, learn how to design passive PIC components using Photonic Inverse Design (PID). We’ll create a grating coupler using FDTD and PID.

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ON-DEMAND WEBINAR
installation, licensing, it
Design and Optimization of Photonic Integrated Circuits and Components - Part 2

In Part 2 of this webinar series, learn how to design active photonic components using Ansys Lumerical Multiphysics Suite and optiSLang.

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