다가오는 온라인 이벤트에 등록하여 관심 있는 주제에 대해 동료 및 해당 분야 전문가로부터 배울 수 있습니다. 전체 이벤트 목록을 보려면 Ansys 이벤트 페이지를 방문하세요.
Learn about the revolutionary AI-driven electromagnetic-aware methodology of Ansys that automates the optimization of the floor plan of analog and RF physical layouts.
Analog/RF IC design has been traditionally considered an art – sometimes even a “black art” – because, contrary to digital IC design, analog/RF design combines complexity, non-linearity, conflicting design objectives and limited automation in EDA tooling. Analog/RF IC designers rely on a blend of technical expertise, intuition, accumulated experience, and creativity to meet the demanding targets of modern applications like high operating frequencies, low power, miniaturization, and shrinking design cycles.
In this webinar you will learn about the revolutionary AI-driven electromagnetic-aware methodology that automates the optimization of the floor plan of analog and RF physical layouts. Join us to discover how Ansys AI solutions can add structure to the “madness” of analog/RF design.
Engineers
Kelly Damalou
Join us at this in-person technical conference to explore the latest advancements in electric machine development, with insights from top companies such as Accelera by Cummins, Valeo, ZF Friedrichshafen AG, and Ampere Ca
This in-person technical conference will focus on the latest technological advancements in electric machine development. A range of speakers from companies such as Accelera by Cummins, Valeo, ZF Friedrichshafen AG, and Ampere Cars, to name a few, will discuss their challenges and approaches in this area. In the presentations and workshops, you will learn about technology updates and hear success stories using Ansys solutions. In the break-out sessions, you can discuss your engineering challenges and learn best practices from Ansys' e-machine experts.
This includes any industry engineers working in electrical engineering, mechanical engineering, or fluid dynamics, as well as engineering directors, managers, and team members involved in electric motor powertrain, motor electromagnetic design, and EE and ME electric machine design
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VIRTUAL EVENT
Ansys Optics Deep Dive: Advancing Metalens Design with Ansys Lumerical and Ansys Zemax OpticStudio
Join us for an exclusive virtual event showcasing the latest advancements in metalens design and simulation using Ansys Zemax OpticStudio and Ansys Lumerical. Metalenses are transforming optical systems by reducing size and weight while maintaining high performance, but scaling them from microscale to centimeters remains a significant challenge. This event will explore a cutting-edge multiscale, multiphysics workflow that bridges nano-element design with system-level integration.
Event Highlights:
- New Product Feature Presentation: Discover the latest updates in metalens simulation, including RCWA-based modeling, multiwavelength support, and seamless integration between Lumerical and OpticStudio.
- Live Product Demonstration: Watch a step-by-step workflow for designing a 20mm metalens, from defining the target phase profile to generating a GDS file for fabrication.
- Guest Speaker Session: Hear from an industry expert on the impact of metasurfaces in next-generation imaging and illumination systems.
- Live Q&A: Engage directly with Ansys experts and get insights into optimizing metalens designs for real-world applications.
Key Learning Outcomes:
- Understand the workflow for large-scale metalens simulation, including unit cell modeling in Lumerical and integration into ray-tracing systems in OpticStudio.
- Learn how to generate and apply nano-element phase maps to achieve desired optical performance while overcoming computational limitations.
- Gain insights into the GDS export process to streamline manufacturing and ensure accurate fabrication of complex metalens structures.
Don’t miss this opportunity to explore how Ansys Optics tools are enabling next-generation metalens innovation.
Register now!
This webinar will teach explicit dynamics essentials, focusing on how Ansys LS-DYNA can be used to simulate and analyze dynamic events such as crashes, impacts, and high-speed motion. Attendees will gain hands-on experience with simulation tools and techniques that form the foundation of dynamic analysis in engineering. We'll explore how integrating Ansys LS-DYNA into an engineering curriculum can revolutionize teaching the fundamentals of dynamic analyses, including practical examples and strategies. Join us to see how advanced tools like LS-DYNA can transform your approach to teaching structural dynamics, giving students a deeper understanding and a competitive edge in their careers.
Professors and educators teaching dynamic simulation to mechanical, aerospace, biomedical, and civil engineering students and are interested in learning about examples and topics.
Dr. Hesam Moghaddam; Dr. János Plocher
After a successful 2024 Innovation Conference, this year's event will form part of the Simulation World global series, expanding the event scope and offerings to provide you with leading keynotes, compelling content, interactive workshops, and powerful ideas and insights to support your day-to-day projects.
This year will focus on our core product collections, covering multiple industries. Join us to discover what's possible through simulation.
Learn to teach antenna design effectively with PyAEDT. This webinar covers scripting, HFSS, Maxwell, Icepak examples, and advanced simulations for professors.
Today’s engineering practice requires skills in scripting, finite element analysis of designs, and a combination of both. By teaching this combination, you can engage your antenna students effectively. PyAEDT, part of the broader PyAnsys initiative, simplifies the scripting process by allowing direct interaction with Ansys Electronics Desktop (AEDT). This introductory webinar targets professors who want to integrate PyAEDT into their teaching.
We will begin by reviewing the key features of PyAEDT and guide you through setting up your Python environment to connect with AEDT. You will see practical examples for HFSS, Maxwell, and Icepak. Focusing on antenna lessons, we will detail cases, such as designing a dipole antenna with its matching network using Python commands. We will also describe more advanced simulation-programming scenarios, including electro-thermal analysis and other types of antennas.
Academics and educators teaching or interested in engineering topics: electrical engineering, mechatronics engineering, design engineers
Celia Gomez Molina, Samuel Lopez
Discover how cutting-edge transient structural analysis and experimental testing can solve even the toughest challenges in this upcoming presentation.
This webinar will showcase how transient structural analysis and experimental testing optimized a mass damper to reduce vibrations in a robot support beam. Experimental tests revealed a tendency for the beam to vibrate when the mobile robot installed on it was in motion. Through a combined approach of simulations and experimental data, the root cause of the issue was identified, leading to the design of an optimized mass damper. This solution successfully mitigated harmful vibrations, ensuring the stability and performance of the support structure.
Attendees will gain insights into the methodology, from integrating experimental data into simulation workflows to the iterative process of fine-tuning a practical solution. This session is a must for engineers looking to enhance system stability and effectively address vibration-related challenges.
Key Points:
Student, industry, CAE expert
Davide Mavillonio, Lorenzo Mosenich, Davide Fugazza, Stefano Rota
Join our Foundational Fridays webinar to explore CFD simulations, enhance your understanding, and develop skills for greater career opportunities in Mechanical or Aerospace Engineering.
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