ANSYS.2023.R1.Lumerical.Suite.Win64-SSQ

Ansys LumericalxtddqLumerical Solutions software is a high-performance 3D FDTD Maxwell equation solution application for the design, analysis, and optimization of nanophotonic devices, processes, and materials. By using the finite difference time domain (FDTD) method, Lumerical Solutions solves the most complex photonic development problems. Rapid prototyping and high-fidelity simulation reduce the need for expensive experimental prototypes, enabling faster identification and lower product development and release costs. Lumerical Solutions can dramatically accelerate success in applications ranging from basic photonic research to systems engineering in imaging, lighting, biophotonics, photovoltaics, and more.

Lumerical Solutions analyzes the interactions of ultraviolet rays, visible and infrared radiation using complex structures. The solution accurately takes into account material dispersion at long wavelengths thanks to its own material simulation function. This allows the end user to efficiently calculate device response over a wide bandwidth. A highly optimized calculation engine allows the operation of multi-core computing systems - from laptops to computer clusters, and a built-in optimization tool accelerates the generation of optimized nanophotonic devices.

Key features of Lumerical Solutions
Simulation of arbitrary geometry in two- and three-dimensional space.
Simultaneous execution of calculations on multiple computers.
Using an optimization framework.
Modeling of dispersive, nonlinear, anisotropic materials.
Parallel computing in multi-core and multi-node systems.
Optimized computing engine.
Advanced meshing algorithms, including conformal meshes.
Powerful scripting language.
Development of a parameterization structure and a hierarchical structure.
Create movies with simulation dynamics

Lumerical Solutions analyzes the interactions of ultraviolet rays, visible and infrared radiation using complex structures. The solution accurately takes into account material dispersion at long wavelengths thanks to its own material simulation function. This allows the end user to efficiently calculate device response over a wide bandwidth. A highly optimized calculation engine allows the operation of multi-core computing systems - from laptops to computer clusters, and a built-in optimization tool accelerates the generation of optimized nanophotonic devices.
Key Features of Lumerical Solutions: Simulate
arbitrary geometry in 2D and 3D.
Simultaneous execution of calculations on multiple computers.
Using an optimization framework.
Modeling of dispersive, nonlinear, anisotropic materials.
Parallel computing in multi-core and multi-node systems.
Optimized computing engine.
Advanced meshing algorithms, including conformal meshes.

Composition of Suite
Lumerical CHARGE
Lumerical DGTD
Lumerical FDTD
Lumerical FEEM
Lumerical HEAT
Lumerical INTERCONNECT
Lumerical MODE
Lumerical STACK
Lumerical RCWA
Lumerical FDE
Lumerical FME
Lumerical varFDTD

 

    

Windows, Design, CAD, Analysis