CODE V v2025.03(Optical.Lens Design)

CODE V's advanced optimization algorithms and user-friendly interface streamline the design process, reducing development time and enhancing productivity. With CODE V, you can confidently deliver high-quality optical systems on time and within budget.

CODE V incorporates built-in intelligence to optimize your design process and enhance performance. 

while Glass Expert selects the optimal set of glasses to maximize design performance and control manufacturing costs. 

With built-in tolerancing features, CODE V ensures fast and accurate analysis, making it easy to avoid costly manufacturing mistakes down the road. These intelligent tools enable you to focus on innovation and quality.

CODE V's Beam Synthesis Propagation (BSP) sets the standard for precision and efficiency in diffraction analysis. This powerful tool uses a beamlet-based algorithm with proprietary enhancements to deliver extremely accurate modeling of diffracted wavefronts. Whether you're working on laser scanning systems, segmented aperture systems, or any other application requiring precise diffraction analysis, CODE V's BSP ensures you achieve the highest level of accuracy and performance.

Multi-Environment Coupling (MECo): Achieve unprecedented athermalization of lens systems. Easily set up multiple environments at specific temperature and pressure settings, check system performance throughout the design process, and model lens designs based on any mounting technique (including spacer-based, seat-based, edge-mounted, and combinations).

Extensive Libraries: Access built-in libraries of optical system models (including patents), components, and optical glasses.

Comprehensive Graphics Capabilities: Create pictures, data plots, shaded displays, and perform 3D visualizations and diffraction-based image simulations.

Non-Sequential Surface Modeling: Model unusual optical systems with non-sequential surface modeling.

Fast 2D Image Simulation: Quickly visualize optical system performance with 2D image simulation.

High-Fidelity Model Transfer: Transfer models to LightTools for illumination, ghost image, and stray light analysis.

Meta Optic Design Add-On: Combine ray tracing with electromagnetic field solvers to simplify the design of systems that include both conventional optics and metalenses.