Contact UsThis webinar is designed for engineers working in quantum computing environments, highlighting how Ansys Mechanical addresses NVH challenges to improve system stability and qubit reliability.
ABOUT THIS WEBINAR:
Mechanical Noise, Vibration, and Harshness (NVH) can significantly influence the stability and performance of quantum computing systems, where even minute disturbances can degrade qubit fidelity and system reliability. As quantum technologies rapidly evolve, engineers face growing challenges in understanding and mitigating mechanical and acoustic disturbances that affect cryogenic assemblies, racks, shielding structures, and supporting hardware.
In this webinar, we will explore how Ansys Mechanical provides advanced NVH simulation capabilities to help engineers model, predict, and reduce mechanical noise and vibration in quantum computing environments. We’ll discuss techniques such as vibration isolation, noise transmission analysis, acoustics-induced vibration assessment, etc., empowering you to design more stable and robust quantum systems.
Join this webinar session to explore the tools in Ansys Mechanical to address the NVH issues in Quantum Computing Systems.
DATE: March 30, 2026
TIME: 1-2 PM ET
LOCATION: Virtual
YOU WILL LEARN HOW TO:
- How mechanical vibration impacts qubit fidelity and system stability
- Methods to model structural-borne and acoustics-induced vibration in cryogenic environments
- Techniques for vibration isolation and noise transmission analysis
- Best practices for evaluating racks, shielding structures, and support hardware
SPEAKER:
Balaji Benjamin
Sr. Staff Engineer, SimuTech Group
Balaji Benjamin, Senior Staff Engineer with SimuTech Group, has over 2 decades of mechanical engineering experience. His notable projects include random vibration and fatigue analysis of a slip ring assembly, vibro-acoustics of an ultrasound cleaning machine, vibration analysis of a breast-pump assembly, and many more.