How to Design Wide Band-Gap Power Devices using Silvaco TCAD Solution

February 11, 2021 | 10:00 am – 10:20 am (PST) This webinar will provide an overview of the design of wide bandgap (WBG) and ultra-WBG power devices.

How To Remesh with Victory Mesh for an Optimized TCAD Device Simulation

February 18, 2021 | 10:00 am – 11:00 am (PST) In this webinar, the attendees will learn the basics of Victory Mesh, how to remesh a structure generated from Victory Process, and then prepare it for use by Victory Device.

How to Simulate Semiconductor Materials Stress and Deformation with Silvaco Victory TCAD Solution

March 18, 2021 | 10:00 am – 10:30 am (PST) In this webinar we will cover the capabilities and usage of Victory TCAD Process simulator and explain how materials and simulation parameters can be set, including boundary conditions, which solvers are supported and how to set up different types of simulation.

Resistive RAM Switching Analysis with Victory TCAD Solution

June 4, 2020 | 10:00 am – 10:30 am (PDT) Conventional non-volatile memory technologies, such as Flash, are near their physical limits of scalability. This has created demand for new storage devices. The concept of resistive switching has attracted increasing industrial interest.

Optoelectronic Simulation of Solar Cells, Waveguides, and LEDs

April 23nd 2020 | 10:00 am – 11:00 am (PDT) In this webinar, we will give an overview of Silvaco’s optical simulation capabilities in time domain, namely the Finite Difference Time Domain (FDTD) method. FDTD has seen a widespread use in TCAD thanks to its versatility in simulating arbitrary device structures and materials using a variety of source configurations. The recent surge in interest in this method has been driven by advances in lighting, display, optical sensor, as well as photonics integrated circuits applications.

Reducing Organic LED Fabrication Time and Cost via Multi-Scale Flow Simulation

April 2nd 2020 | 10:00 am – 11:00 am (PDT) Drift diffusion simulations are widely applied to study multilayer organic LED devices, whereas microscopic methods are often restricted to the computation of single molecule properties that cannot directly be translated to the device scale. In this webinar, we present an automated interface flow from microscopic to TCAD simulation, in order to bridge this gap and enable device designers to analyze the impact of microscopic molecular properties on device performance.

SiC and Other Wide Bandgap Materials: From Process to Device Simulation

This webinar provides an overview of Silvaco’s TCAD tools. It introduces Silvaco’s process and device simulation capabilities for wide bandgap materials. In addition, various practical examples are demonstrated and discussed, such as SiC JBS diodes and GaN FETs.