MEMS Design Workshop: Unlock the Future of MEMS Design with Cloud-Native Multiphysics Simulation
Join us for an immersive, hands-on workshop that puts the power of cloud-based multiphysics FEM simulation at your fingertips. Using Quanscient Allsolve, you’ll dive into realistic MEMS device design and discover how to accelerate innovation with large-scale, high-fidelity simulations—no local hardware limitations required.
What You’ll Explore:
· Real-world MEMS applications: From inertial and ultrasonic MEMS to advanced packaging challenges
· Complex 3D behavior: Understand the critical multiphysics interactions that drive device performance
· Cutting-edge techniques: Apply Harmonic Balance Methods and assess process variation impacts
· Cloud-native speed: Experience rapid design iteration and scalability with Quanscient Allsolve
What You’ll Gain:
· Practical skills in simulating MEMS structures with real-world relevance
· Insight into how cloud-native FEM tools can streamline your development cycle
· Confidence in applying advanced simulation techniques to production-ready designs
Whether you're an engineer refining your simulation expertise, a designer accelerating MEMS innovation, or a business development professional seeking a deeper understanding of design tradeoffs and their impact on device performance, this workshop equips you with strategic knowledge essential to your role.
Instructors:
Dr. Gerry Harvey is a recognized leader in the world of cloud-based multiphysics simulation with over 15 years experience in the field. Dr. Harvey has been at the forefront of revolutionizing simulation technology, enabling industries to tackle complex engineering problems more efficiently. His work in cloud computing and high-performance simulations has significantly transformed how companies across various sectors—such as consumer electronics and MEMS—approach product design and optimization. Known for his expertise in both technical and entrepreneurial domains, Dr. Harvey continues to drive innovation in the field of multiphysics simulation, shaping the future of engineering design and analysis.
Dr. Abhishek Deshmukh is an experienced mechanical engineer with a background in computational modeling and multiphysics simulation of complex systems. With over a decade of experience across industry and academia, he brings a unique blend of technical depth and expertise in numerical methods such as FEM applied to MEMS devices, particularly involving fluid-structure interaction, vibroacoustics, and inertial sensing. As an instructor, he is passionate about making advanced concepts accessible and applicable to real-world challenges.
Alex Stockrahm is an electrical engineer who comes to Quanscient from the fusion community. Alex has a background in physics and substantial experience in system-level and device-level design, simulation and project management in the power industry. He has used FEM for simulating the performance of superconducting magnets, MEMS, electric machines and drives with special interest in generating reduced order models of electromechanical systems for use in control system design.