MAGMagic

The design platform for magnetic position sensors

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.

Not another FEM solver

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.

  • Start from parametrized templates

    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.

  • Any mounting configuration

    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.

  • Feasibility against real sensor chips

    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.

  • Test chip misalignment in near real time

    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.

  • No simulation expertise required

    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.

  • Secure by design

    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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