FDTD SOlutions8.6.0 电磁波仿真软件 使用时域有限差分法解麦克斯韦方程组采用业界公认的时域有限差分(FDTD)方法,FDTD Solutions能够使设计师快速解决所面临的最具挑战性的光子设计问题。快速原型设计和高度精确的模拟减少了对昂贵的实际原型试制的依赖,因而可以更 快地评估设计理念,降低产品研发成本。FDTD Solutions在不同的应用领域都可以帮助您的成功,从基础光子学研究到当前工业应用的设计理念和产品开发的评估, 例如成像、照明、生物光子学、光伏产业以及许多其它领域。
使用FDTD Solutions的主要受益 降低产品开发成本:通过内置的优化模块和高精度算法,用户得以快速进行虚拟原型试制,从而降低昂贵的物理原型试制;缩短入市场时间:特殊设计的一个高度优化的仿真引擎可以充分利用最先进的计算系统进行大量的设计评估;提高生产力,精心设计的软件工具简单易用, 方便用户快速学习和快速使用。 FDTD Solutions 的主要特点: 仿真任意形貌的二维和三维器件 在多台计算机上并发并行计算 包含优化模块 仿真任意色散材料,非线性材料,增益材料和各向异性材料 多核和多节点系统分布式并行计算 优化的计算引擎 先进的网格算法 强大的文本程式脚本语言 参数化设计和三维层次结构布局 包含共形网格技术在内的高级网格算法
FDTD Solutions 的主要应用: FDTD Solutions用于解决各种各样的应用,涉及光的散射、衍射和辐射传播。 FDTD Solutions已经用于许多工程问题。包括但不限于:CMOS图像传感器像素,Thin Film Silicon Solar Cell Photovoltaics,LED\OLED Light Extraction。更多详细应用可以参见官网介绍。 FDTD Solutions is a 3D Maxwell solver, capable of analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features. FDTD Solutions empowers designers to confront the most challenging photonic design problems. Rapid prototyping and highly-accurate simulations reduce reliance upon costly experimental prototypes, leading to a quicker◇◇essment of design concepts and reduced product development costs. FDTD Solutions can facilitate your success in diverse application areas, from fundamental photonics research to current industrial applications in imaging, lighting, biophotonics, photovoltaics, and many more. Benefits: Highly-optimized computational engine able to exploit multi-core computing systems in everything from laptops to high-performance computing clusters. Broad operating system and hardware support (including Amazon EC2) enables for high throughput design◇◇essment on all available leading-edge computational systems. Parallelized parameter sweep/optimization framework combined with concurrent computing on multiple computers allows for rapid virtual prototyping. Proprietary multi-coefficient material modeling capability combined with Lumerical’s flexible material framework accurately accounts for broadband linear material dispersion as well as nonlinear, gain and anisotropic effects. 64位的同学请注意!
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