#Optisystem waveguides software
All field data can be exported for use in third-party software tools such as Matlab™ or Origin™ for further processing or publication. Using OptiFDTD Analyzer, you can observe time domain and frequency domain (using FFT or DFT transforms) amplitude, phase, real or imaginary values of any field component recorded by your detectors. OptiFDTD provides extensive simulation analysis tools. Stanford University Advanced simulation post processing tools Impressed with the technical support we have Versatile simulation tool and we have been very Simulations of CMOS image sensor pixels toĮvaluate their optical effciency. “We are using OptiFDTD to perform 2D and 3D For memory intensive simulations, you can use our Linux 3D simulation engine, specifically designed to take advantage of Linux computer clusters. It is optimized to run efficiently on multiple cores and processors in a single machine using shared memory, providing the best possible performance and minimum memory footprint (as compared to distributed memory architectures such as MPI).
#Optisystem waveguides 64 Bit
OptiFDTD takes advantage of modern 64 bit operating systems and processors. Band-gaps are automatically outlined in the resulting band diagram. The PWE band solver can scan through k-space following the irreducible Brillouin zone and find eigenfrequencies of your structure. Plane Wave Expansion band solver for photonic crystalsįully integrated 2D PWE band solver and photonic crystal editor can help you design and simulate any type of photonic crystal problem (1D, 2D, 3D). OptiFDTD post-processing tools can take advantage of automation functionalities and assist you in optimizing your design. Parameter sweeps provide an easy to use graphical interface for defining parametric simulations, where one or two parameters vary at each iteration. The language is easy to learn and provides standard programming structures such as objects, loops, and tests. OptiFDTD designs and simulations can be fully automated using a powerful Visual Basic scripting language. OptiFDTD and OptiBPM can easily interoperate in order to extend the simulation range attainable by OptiFDTD alone. Designs from third party CAD software can be readily imported and exported using widespread formats such as DXF and GDSII. OptiFDTD provides a complete and user-friendly 3D graphical user interface to enable the design, simulation and analysis of complex devices. KEY FEATURES Integrated simulation environment
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