Most simulations fail to predict real material appearance. Explore Ocean™’s physical, spectral, and computational pipeline that delivers predictive results engineers can trust.
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Tag: light quantification
At DVN Munich 2026, Eclat Digital presents Ocean™, a physically accurate optical simulation software for predictive validation of automotive lighting appearance and performance.
Advanced optical simulation with Ocean™ helps watchmakers choose the right glass, refine geometries, and test coatings accurately — reducing prototypes and enhancing design confidence.
Ocean™ software’s spectral ray tracing enables highly accurate daylighting simulations, optimizing lighting and energy efficiency for sustainable architecture
Ocean™ 2024’s glare analysis tool optimizes visibility and comfort with advanced metrics, fisheye projections, and color-coded results for building and automotive applications.
Global illumination: Combine accurate lighting simulation and computational efficiency with Ocean™
Ocean™ combines precise light simulation and computational efficiency for global illumination, with bi-directional path tracing and multi-importance sampling.
Learn the differences between path tracing and ray tracing, and how Ocean uses advanced techniques to create physics-based visuals for scientific applications.
Ocean™ uses advanced technology to improve product design. Using optical data to create virtual product, our software provides reliable, accurate digital twins.
Lighting study use case aiming at quantifying the amount of light that reaches the ground in a greenhouse to maximize the agricultural yield.
In this article, we propose a quantitative study of the light distribution inside a car using the spectral ray tracer software, Ocean™. More precisely, the study will focus on the direct and indirect lighting coming from door emitters.