Lambda Research Corporation sets itself apart as a cost effective, single source solution for optical/illumination design and analysis software. Lambda sells three software programs to accelerate your product design to market, TracePro®, OSLO® and RayViz™. TracePro is award-winning opto-mechanical software for the design, analysis and optimization of optical and illumination systems. With an intuitive CAD interface and powerful interactive optimizers, TracePro offers users a sophisticated and power optical design environment combined with a short learning curve to accelerated product time-to-market. OSLO (Optics Software for Layout and Optimization) is a powerful optical design program with the scope needed to meet today’s optical design requirements. In addition to classical lens design features, OSLO combines advanced ray tracing, analysis, and optimization methods with a high speed macro language to solve a wide variety of new problems in optical design. RayViz is our fast & accurate raytracing add-in to the popular SOLIDWORKS® CAD program. RayViz is an affordable SOLIDWORKS solution for meshing optical and mechanical design work together in an easy-to-use CAD environment.
Lambda also sells metrology equipment for surface measurement, and provides consulting services.
Light Tec offers optical design tools and optical engineering services. Light Tec’s team is made of 15 employees at 2 locations, one in Hyères (France) and one in Munich (Germany).
The tools proposed include:
– Optical design software tools (Code V, LightTools, LucidShape, RSOFT) + technical support and training.
– Scattering measurement tools including the development and sales of industrial products (“Mini-Diff” and “Reflet”).
With a high-skilled team of optical engineers, the company also offers consulting and measurement services. For additional information, please visit Light Tec website: www.lighttec.fr
OPTIS is the world leading software editor for the advanced scientific simulation and visualization of lighting, materials and human vision within a Virtual Reality environment. Its solutions allow designers, ergonomists and engineers to simulate and optimize lighting performance, product appearance, perceived quality and visual brand identity and meet regulation, in a fully-immersive environment.
OPTIS CAD embedded solutions are fully integrated into your design process. OPTIS 3D High End Simulations allow you to experience your future product in a virtual reality center using a physics based approach that ensures safety and quality and enhance visual signature of your products. With these tools, simply enjoy working in a collaborative environment at any stage of your product life cycle, from design to engineering, to marketing. Optimize the development time and cost thanks to the OPTIS’ flexible and efficient software tool set.
OPTIS makes it possible to simulate the spectral radiation of the source which will illuminate the colored object. Depending on its color, the object will return only part of the light and it’s this light/object combination that results in the final color of the product. It’s precisely this phenomenon that we reproduce in our solutions, and the reason why we can say that the results you get with our software are “physically correct”. OPTIS software is the only approach to date that guarantee the ultra-realistic color of an object.
PRC Krochmann offers measurement devices for light, radiation and color, as well as calibrations and photometric measurements. In business for more than 30 years, we are able to offer the most suitable instrumentation for every customer and area of application:
– lamps, luminaire and glas industry
– research and national laboratories
– designers and operators of public lighting
– institutions of life sciences and culture
Our instruments are being used for the development of new products as well as for quality control and reference instrumentation in national laboratories. We put an emphasis on offering customized solutions and the quality and precision of our products are well-known all over the world.