Contact UsAbout the Webinar
Mechanical Noise, Vibration, and Harshness (NVH) play a critical role in the stability and performance of quantum computing systems, where even microscopic disturbances can compromise qubit fidelity and system reliability. As quantum hardware advances, engineers face increasing challenges in understanding and mitigating mechanical and acoustic effects across cryogenic systems, racks, shielding, and supporting structures.
This webinar explores how Ansys Mechanical enables engineers to model, predict, and reduce NVH effects in quantum computing environments, including:
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Mechanical vibration and structure-borne noise
- Vibration isolation strategies for cryogenic assemblies
- Noise transmission through racks and shielding structures
- Acoustics-induced vibration impacting system stability
We will also highlight advanced NVH simulation workflows in Ansys Mechanical that support robust, physics-based design decisions—empowering teams to build more stable, reliable, and scalable quantum systems.
Join this session to discover how Ansys Mechanical helps address NVH challenges in quantum computing and supports the next generation of quantum hardware design.
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