Best Optical Design Software with a Free Trial of 2025

Ansys SPEOS offers predictive capabilities for illumination and optical system performance, significantly reducing both prototyping time and costs while enhancing the efficiency of your products. With a user-friendly and detailed interface, Ansys SPEOS boosts productivity through GPU utilization for simulation previews and provides seamless integration with the Ansys multiphysics ecosystem. The tool's accuracy has been validated by the International Commission on Illumination (CIE) against the CIE 171:2006 standards, demonstrating the advantages of its light modeling software. Activate the lighting in your virtual model to easily investigate light propagation in a three-dimensional space. The SPEOS Live preview feature includes both simulation and rendering tools, allowing for an interactive design experience. By conducting accurate simulations on the first attempt, you can reduce iteration times and accelerate your decision-making, all while automatically optimizing the designs for optical surfaces, light guides, and lenses. This innovative approach not only streamlines the design process but also empowers creators to achieve higher precision in their optical designs.

Integrating Monte Carlo ray tracing, analytical methods, CAD import/export capabilities, and optimization techniques, this system employs a comprehensive macro language to tackle various challenges in illumination design and optical analysis effectively. With TracePro’s intuitive 3D CAD interface, users can build models by either importing lens design or CAD files or by directly generating solid geometries. The software leverages a true solid modeling engine to deliver reliable and consistent models for various applications. Moreover, TracePro features a swift and precise ray tracing engine that accurately traces rays to all surfaces, including imported splines, ensuring that no intersections are overlooked and preventing the occurrence of “leaky” rays. One of the standout features of TracePro is its Analysis Mode, which provides a highly interactive environment for in-depth examination. In this mode, users can evaluate every surface and object both visually and quantitatively, enhancing the overall analytical experience. This blend of capabilities makes TracePro a powerful tool for professionals in the field.

Ansys Zemax OpticStudio is a sophisticated optical design software that is widely employed by educational institutions and businesses around the world for the creation and evaluation of optical systems, including those used for imaging, illumination, and lasers. The software features an intuitive interface that combines analysis, optimization, and tolerancing capabilities, making it easier to develop intricate optical systems applicable across various fields. It supports both sequential and non-sequential ray tracing, which allows for accurate representation of light behavior as it travels through different optical elements. Additionally, its advanced capabilities include structural and thermal analysis, empowering users to evaluate how environmental conditions might affect optical system performance. With a rich library of materials and optical components, OpticStudio significantly enhances the precision of its simulations. Furthermore, Ansys provides a complimentary version of OpticStudio for students, offering them the opportunity to gain practical experience in optical design and analysis, which is essential for their future endeavors in the optics industry. This initiative not only fosters a deeper understanding of optics but also encourages innovation and creativity among budding engineers.

OSLO, which stands for Optics Software for Layout and Optimization, is a sophisticated optical design software created by Lambda Research Corporation. This program combines cutting-edge ray tracing capabilities with analytical and optimization techniques, all powered by a high-speed internal compiled language, which allows users to tackle a diverse range of optical design challenges. With an open architecture, OSLO offers substantial flexibility for designers to set and manage system parameters based on their unique needs. The software proficiently models a variety of optical elements, such as refractive, reflective, diffractive, gradient index, aspheric, and freeform optics. Its advanced ray tracing algorithms, complemented by robust analytical tools, serve as a reliable foundation for optimizing and assessing various optical systems, including lenses and telescopes. Additionally, OSLO has been utilized in the creation of a wide array of optical systems, ranging from space telescopes and camera lenses to more specialized applications like zoom lenses and microscopy. This versatility makes OSLO a valuable asset for professionals in the optical design field.

Ansys Lumerical Multiphysics serves as advanced software for simulating photonic components, allowing for the integrated design of these elements by effectively capturing the interplay of various multiphysics phenomena such as optical, thermal, electrical, and quantum well interactions, all within a cohesive design platform. Designed specifically for engineering workflows, this user-friendly product design software enhances the user experience, enabling quick design iterations and delivering in-depth insights into actual product performance. By merging real-time physics with precise high-fidelity simulations in an accessible interface, it promotes a shorter time-to-market for innovative designs. Among its key offerings are a finite element design environment, integrated multiphysics workflows, extensive material models, and robust automation and optimization capabilities. The suite of solvers and streamlined processes in Lumerical Multiphysics effectively reflects the complex interactions of physical effects, facilitating accurate modeling of both passive and active photonic components. This comprehensive approach not only enhances design efficiency but also leads to improved product reliability and performance evaluations.

LightTools is an all-encompassing 3D software designed for optical engineering and design that facilitates virtual prototyping, simulation, optimization, and the creation of photorealistic renderings in illumination applications. By allowing users to swiftly develop illumination designs that function effectively on the first attempt, it minimizes the number of prototype iterations needed and speeds up the time it takes to bring products to market. Among its notable features are advanced solid modeling capabilities with complete optical precision, exceptional ray tracing performance that allows users to control accuracy and resolution, as well as the option to generate light sources from any geometric configuration, providing unparalleled flexibility. The software also includes specialized tools tailored for specific applications, enabling users to efficiently construct comprehensive models, along with an extensive library of sources and materials that encompasses LEDs and BSDF measurements. Furthermore, it boasts strong data exchange capabilities for mechanical CAD information and maintains an interactive, dynamic connection with SOLIDWORKS, enhancing user experience. Additionally, LightTools offers a variety of licensing options for its multiple modules, ensuring that users can select configurations that best suit their unique requirements.

Synopsys OptSim stands out as a highly acclaimed simulator for photonic integrated circuits (PICs) and fiber-optic systems, empowering engineers to effectively design and refine photonic circuits and associated systems. With its cutting-edge algorithms for both time and frequency domains, it provides a dedicated photonic environment that ensures precise simulation results. OptSim can operate independently, complete with its own graphical user interface, or be integrated within the OptoCompiler Photonic IC design platform for enhanced functionality. When combined with OptoCompiler, it allows for electro-optic co-simulation alongside Synopsys PrimeSim HSPICE and PrimeSim SPICE electrical circuit simulators, offering a seamless experience with the PrimeWave Design Environment that facilitates advanced simulations, analyses, and visualizations, including parametric scans and Monte Carlo methods. Additionally, the software is equipped with a comprehensive array of libraries containing photonic and electronic components, as well as various analysis tools, and is compatible with a wide range of foundry process design kits (PDKs), making it an invaluable resource for engineers in the field. Its versatility and depth of features make Synopsys OptSim a crucial tool for anyone involved in photonic design.

Synopsys OptoCompiler stands out as the first comprehensive design platform in the industry that seamlessly integrates electronic and photonic design capabilities. This innovative solution merges advanced photonic technology with Synopsys' proven electronic design tools, allowing engineers to efficiently and accurately create and validate intricate designs for photonic integrated circuits. By offering a schematic-driven layout alongside sophisticated photonic layout synthesis within a single interface, OptoCompiler effectively connects photonic specialists with integrated circuit designers, thereby enhancing the accessibility, speed, and flexibility of photonic design processes. The platform's support for electronic-photonic co-design ensures scalable methodologies, while its robust features for hierarchical design facilitate collaboration among multiple designers, significantly reducing product development timelines. Additionally, OptoCompiler is equipped with specialized native photonic simulators that work in tandem with widely recognized electrical simulators, delivering precise simulation results that account for variations in statistical data. This combination of features makes OptoCompiler a pivotal tool for advancing the field of integrated photonic design.

RayViz is an add-in for SOLIDWORKS created by Lambda Research Corporation that allows users to integrate and save optical properties seamlessly within the SOLIDWORKS CAD interface. This feature enables users to assign optical traits from the TracePro property database, ensuring that these properties are embedded within the SOLIDWORKS model itself. Users have the capability to define light sources and execute ray tracing directly in SOLIDWORKS, which aids in visualizing light rays and their trajectories, thereby supporting tasks like verifying beam paths, spotting vignetting caused by mechanical elements, and detecting light leakage in light guides. Additionally, RayViz comes equipped with catalogs of LED sources and those featuring Gaussian and Lambertian beam profiles. A notable benefit of using RayViz is its functionality to save SOLIDWORKS models in the TracePro file format, which allows for thorough optical analysis within TracePro. Moreover, should any changes be made to the SOLIDWORKS model, users can easily synchronize these updates using the "update from RayViz" feature in TracePro, enhancing workflow efficiency. This integration ultimately streamlines the design process for optical engineers by combining powerful tools in a unified platform.

VirtualLab Fusion is a cutting-edge optical design software that streamlines fast physical optics modeling by linking different field solvers via a distinctive operator and channel approach. This integration allows for effective simulations that achieve a harmonious balance between precision and speed. The software comes equipped with an array of packages customized for particular optical design requirements, offering an assortment of tools and features to cater to various applications. With its user-friendly interface, VirtualLab Fusion makes the design process more accessible, enabling users to prioritize innovation and optimization in their projects. Additionally, the platform includes resources such as tips, tricks, training sessions, and webinars to further boost user expertise and proficiency in utilizing the software. This comprehensive support ensures that users can fully leverage the capabilities of the software for their optical design endeavors.

Easily and swiftly design reflector or lens geometries using LucidShape FunGeo, which utilizes innovative algorithms to automatically generate optical shapes tailored to specified illuminance and intensity patterns. This distinctive and practical method allows you to prioritize overall design goals instead of getting bogged down by the complexities of intricate optical elements. By utilizing GPUTrace, you can significantly speed up LucidShape illumination simulations, achieving remarkable enhancements in processing speed. As the pioneering optical simulation software harnessing the power of graphics processing units, LucidShape offers speed improvements that far exceed traditional multithreading methods. Additionally, LucidShape's visualization tool provides a platform to showcase luminance effects when various light sources interact within a model, allowing for a comprehensive depiction of the interplay between system geometry and illumination. This combination of powerful features makes LucidShape an invaluable asset for designers and engineers in the optical field.