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Webinars
November 12, 2025
AI-Assisted Simulations With Tidy3D
FlexAgent MCP is the new AI-powered simulation assistant that can build, iterate, and visualize electromagnetic models with unprecedented ease. This seminar introduces the principles of FlexAgent MCP and showcases how the AI agent can help with your simulation workflow.
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Webinars
October 9, 2025
Fabrication-Aware Inverse Design in Tidy3D
Exploring the robustness across bands and corners. Performing a sensitivity and tolerance analysis.
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Webinars
June 18, 2025
Quantum and Topological Optics in Nanophotonic Structures
This seminar will explore cutting-edge research and simulation techniques for designing and understanding nanophotonic structures designed for coupling to quantum emitters and topologically protected modes. We will discuss robust and emitter chirality-dependent light transport in a topological photonic crystal and topology optimization of a quantum emitter light extractor into an integrated waveguide, showcasing how these phenomena can be harnessed for next-generation photonic devices using Tidy3D.
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Webinars
Feburary 5, 2025
Optimize Your Photonic Design With the Right Tool
This seminar will introduce new developments in Tidy3D, the next-generation photonic optimization tool designed to be the "PyTorch" of the photonics world. We will showcase the magic of automated design by demonstrating how to perform adjoint optimization with just a few lines of code on any Tidy3D simulation. Tidy3D empowers you to push the boundaries of possibility—whether working on ultra-large or long-duration simulations for 2D materials, topological photonics, interconnect circuits, or Lidar chips
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Webinars
Oct 7, 2024
Inverse Design For Everyone
Tidy3D empowers users to perform gradient-based optimization and sensitivity analysis of photonic devices directly within their simulation workflow. This is achieved by making Tidy3D simulations differentiable – meaning we can efficiently compute the derivative (gradient) of a figure of merit (like transmission efficiency) for any number of design parameters (like geometry dimensions or material properties). This capability relies on two core technologies: Automatic Differentiation (AD) Framework (autograd) and the Adjoint Method. In this seminar, we showcase the magic of automated design by demonstrating how to perform adjoint optimization with just a few lines of code on any Tidy3D simulation.