OpTaliX

Polaris-M is an optical design and polarization analysis software developed by Airy Optics, Inc., integrating ray tracing-based optical design methods with polarization calculus, 3D simulation, anisotropic materials, diffractive optic simulation, stress birefringence, and diffraction theory. Developed over a decade at the University of Arizona's Polarization Laboratory and licensed to Airy Optics in 2016, it includes over 500 functions for ray tracing, aberration calculation, polarization elements, stress birefringence, diffractive optical elements, polarization ray tracing calculus, and liquid crystal cells and optical elements. Polaris-M requires Mathematica, providing a powerful macro language for optical design and a deep set of algorithms for graphics, computer algebra, interpolation, neural networks, and numerical analysis. The software features comprehensive documentation with active help pages accessible via the F1 key, offering explanations, inputs, outputs, and live examples.

Ansys SPEOS predicts the illumination and optical performance of systems to save on prototyping time and costs while improving your product’s efficiency. Ansys SPEOS delivers an intuitive and comprehensive user interface, enhanced productivity with use of GPUs for simulation previews and easy access to the Ansys multiphysics ecosystem. SPEOS has been assessed by the International Commission on Illumination (CIE) against CIE 171:2006 test cases, assessing the accuracy of light modeling software and showing the performance benefits of Ansys SPEOS. Turn on the light in your virtual model and intuitively explore the propagation of light in 3D. The SPEOS Live preview function features simulation and rendering capabilities so you can design products interactively. Cut iteration time and speed up your decision-making process by performing simulations correctly the first time, automatically designing for optical surfaces, light guides and optical lenses.