About
Building the nonlinear insight layer between simulation and engineering decisions
Zenoriq was created for engineering teams that already simulate complex devices, but still need faster ways to understand nonlinear behavior, margins, couplings, and root causes.
Mission
Make nonlinear physics usable not only after long simulation campaigns or late-stage troubleshooting but earlier in engineering decisions. Zenoriq is built to help teams ask better questions about nonlinear behavior while there is still time to change the design.
Story
Zenoriq grew out of practical MEMS simulation work where the numerical model could answer increasingly complex questions, but the engineering interpretation remained the bottleneck. More operating points, more nonlinear effects, and more coupled behavior often meant more manual comparison, more expert judgment, and a higher risk of missing the physical reason behind a design behavior. Zenoriq was created to make this interpretation step more systematic, traceable, and reusable.
Vision
The long-term vision is an engineering workflow where nonlinear effects are not treated as isolated surprises, but as structured information that can guide design, validation, and product decisions. Zenoriq starts with MEMS and chip-scale systems, where small geometric and multiphysics interactions can have large consequences for performance, robustness, and operating range.
Research and pilots
Technical scoping is welcome
Zenoriq is in prelaunch. Research collaborations, technical scoping, and focused pilot discussions are welcome where nonlinear behavior, operating margins, coupling paths, or root-cause understanding are central engineering problems.
Best-fit conversations
Nonlinear MEMS design, operating limits, coupling problems, device-aware KPIs, and workflows where simulation results must become engineering decisions.
Discuss technical scoping