MAGMagic is a physics-based software platform that simulates, optimizes and validates magnetic position sensors in a virtual environment — exploring design variants and assessing real-world feasibility before committing to hardware. The same magnetostatic engine also supports current-sensing applications where an eddy-current model is not required.
It brings the same approach as IPSMagic to a different physical domain: a proprietary electromagnetic solver, far faster than general-purpose FEM tools, that turns simulation work into rapid design iteration. It runs entirely in the cloud — any browser, no installation — with computation executed on our infrastructure, not your machine.
MAGMagic is not a finite-element code like most tools on the market. It is built on numerical methods developed through more than two decades of fundamental research in computational electromagnetics — over 130 peer-reviewed publications and a portfolio of patents, some co-developed with global technology companies.
This rethought numerical core is what delivers the speed: real design exploration becomes possible, with rigorous, validated methods behind every result. Engineers get answers in the time it takes to think, not the time it takes to mesh.
Begin with ready-made, fully parametrized templates of magnets and ferromagnetic structures, rather than building a model from scratch. Adjust the parameters to your geometry and the simulation is ready to run.
Design sensors for end-of-shaft and side-shaft (off-axis) configurations alike, with the magnetic source modeled as permanent magnets, currents, or an externally applied field — covering the real range of magnetic position-sensing arrangements.
MAGMagic includes a database of partner sensor chips, each with its field-reading window encoded from the manufacturer's specification. The platform checks whether your design keeps the magnetic field within the chip's readable range across the full temperature excursion and chip placement — turning a feasibility question that normally takes prototypes into an immediate, virtual answer. This is the difference between simulating a field and knowing the sensor will actually work.
Vary the chip position and see the effect on the field reading almost instantly. Because the engine is so fast, chip-placement misalignment can be explored interactively — so you understand the assembly tolerance of your design, not just its nominal behavior, before committing to hardware.
The platform is tuned to magnetic position sensing, giving engineers usable results immediately with a near-zero learning curve. No meshing, no solver setup, no specialist knowledge — the physics is handled for you.
MAGMagic runs on cloud infrastructure tested by independent firms through penetration testing, with rigorous measures protecting both our intellectual property and our users' data.
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