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Главная » 2012»Октябрь»8 » Optical Research Code V 10.4 296 x86 [2012, ENG] + Crack
Optical Research Code V 10.4 296 x86 [2012, ENG] + Crack
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[left]Code V используется для моделирования, анализа, оптимизации, а также обеспечить изготовление поддержки развития оптических систем для различных приложений.[/left]
[left]Год: 2012 Размер: 298 Мб Разработчик: Optical Research Язык интерфейса: Английский Таблетка: Присутствует (купитьлицензию можна на оф сайте, цена на год около 12000 долл.США, 12000$ в год за Code V - по-моему это академическая лицензия, на компанию будет стоить в два раза больше. ) Совместимость с 7, Vista: только с х86 (32-бит) Версия: 10.4 Build 296 Разрядность: 32bit Системные требования: Windows XP/Vista/7
Оригинальное описание: CODE V is used to model, analyze, optimize, and provide fabrication support for the development of optical systems for diverse applications. It provides a powerful and yet easy-to-use toolkit of optical techniques and calculations that enables you to create superior designs that will work right when built.
What's new? BSP GENERAL COMPLEX FIELD INPUT CODE V 10.4 adds support for general complex field input to BSP. This gives users flexibility to customize the input beam (light source) description by providing detailed maps of the beam’s intensity and phase. For example, complex optical field data can be imported from external software programs that model waveguides for photonic devices. This feature also allows the definition and propagation of higher-order laser modes.
BSP BIREFRINGENT CRYSTAL MODELING BSP has been extended to model extraordinary ray propagation through uniaxial, birefringent crystals. This enhances BSP’s ability to accurately model beam propagation through devices that manipulate the polarization of light, including optical telecommunication devices and lithography lenses.
BSP PRE-ANALYSIS ENHANCEMENTS The BSP pre-analysis feature, which determines recommended sampling, resampling and other BSP analysis settings based on the user’s lens system configuration and required output, is now more robust when used with systems with a Gaussian input field followed by small collimation elements, a common configuration in many optical telecommunication devices.
BSP MULTIPROCESSOR SUPPORT BSP now takes advantage of parallel processing on multi-core architecture CPUs, enabling designers to obtain BSP analysis results in a fraction of the time needed using a single processor.
GLASS EXPERT TOOL Now fully integrated into CODE V, the Glass Expert tool uses a unique algorithm to find the best set of real glasses for a user’s lens design that provides superior color correction (including the generation of apochromatic systems) while considering factors such as glass transmission, cost, weight and other criteria. The result is a practical final set of glasses that eliminates the need for time-intensive glass selection.
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