Speed-up Your Modeling with Distributed Computing
Collection of Elementary Simulation Tasks
Optical modeling and design tasks typically demand the processing of many
elementary simulations. The reasons for that are manifold and include examples
like the following ones.
- Polychromatic sources and ultrashort pulses
- Multimode sources
- Processing a full field of view (FOV)
- Scanning system parameters
- Tolerancing
- Optimization
High-Speed Processing
In each scenario or its combinations, a collection of elementary simulations
must be processed. Instead of performing one simulation after the other, distributed computing enables the concurrent processing of simulations of the collection.
The achieved simulation speed directly scales with the size of the applied computer network.
Example
Use Case
Coherence Measurement with White-Light Interferometry – Analysis Using Distributed Computing in VirtualLab Fusion
To speed up your optical design process, the coherence measurement is performed using distributed computing in VirtualLab Fusion.
Use Case
Investigation of Diffraction in Interferometer Caused by Sharp Relief – Analysis by Using Distributed Computing
A Michelson interferometer is used to analyze a podium sample with different wavelengths.
Use Case
Simulation of a Test Image in an AR Waveguide Using Distributed Computing
A waveguide combiner is illuminated with a test image that consists of more than 10,000 pixels.