Accelerating nonlinear MEMS simulations with the harmonic balance method
See how harmonic balance is leveraged for solving nonlinear periodic problems in frequency domain for quicker, more precise results without transient analysis.
Superconductor simulations in the cloud
See what’s possible in complex HTS simulations when RAM isn’t a bottleneck
Webinar key takeaways
- Dr. Lyly will demonstrate a live simulation of a nuclear fusion stellarator with over 300 million unknowns, running live in less than 20 minutes using 500 cores and 8 TB of RAM
- Dr. Ruuskanen will present previous real-world case examples, highlighting features that simplify the setup of complex simulations, such as the easy application of currents to multiple coils and automatic cuts for unconstrained coils
- We'll discuss other advantages, including enhanced collaboration, cost efficiency, and flexibility with easy onboarding.
About our technical speakers
Dr. Mika Lyly has an extensive background of more than a decade in the field of applied superconductivity and more than four years of experience in electricity distribution. Mika’s work has included developing FEM formulations in areas such as electromagnetics, device design, and experimental research.
Dr. Janne Ruuskanen has over a decade of experience in numerical modeling of multiphysical phenomena, with specialization in applied superconductivity. During his postdoctoral fellowship, he developed a finite element-based multiharmonic multiscale approach for magnetoquasistatic modeling of composite materials.

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