Rsoft Cad Manual Site
The RSoft CAD Environment serves as the foundational design interface for the Synopsys RSoft Photonic Device Tools. It acts as the control center where users define the structural geometry, material properties, and simulation parameters for photonic components before passing them to specific solvers like BeamPROP, FullWAVE, or DiffractMOD. Design Hierarchy and Interface
Once the geometry is finalized, the CAD interface is used to set up the simulation "engines."
Launch Conditions: Users define the input light source, such as a Gaussian beam, a fiber mode, or a plane wave. The launch position and direction are visually represented in the CAD layout.Monitors: These are virtual sensors placed within the design to record data. Power monitors measure transmission and reflection, while slice monitors capture the spatial distribution of the electromagnetic field at specific cross-sections.Grid and Mesh: The CAD provides tools to define the computational grid. Users can choose between uniform meshing or non-uniform (sub-gridding) to resolve fine structural details while maintaining efficiency. Data Analysis and Integration rsoft cad manual
A key feature of the RSoft CAD is its use of symbolic variables. Rather than entering static numerical values for lengths or widths, users can define variables (e.g., "width = 0.5"). This allows for easy parametric sweeps and optimization, as changing a single variable updates all dependent objects in the design. Object Construction and Properties
RSoft CAD provides several ways to define how light interacts with the structure. The Material Editor allows for the inclusion of frequency-dependent (dispersive) data, which is critical for accurate FDTD simulations in FullWAVE. Users can also define "Effective Index" profiles to simplify 3D problems into 2D simulations, significantly reducing computation time without sacrificing essential physics. Simulation Setup and Execution The RSoft CAD Environment serves as the foundational
By mastering the RSoft CAD environment, designers can efficiently prototype complex optical structures, ranging from simple waveguides and gratings to advanced photonic crystals and metasurfaces.
The CAD tool also supports a "Layer" system. This is particularly useful for integrated photonics (PIC) design, allowing users to group objects into specific fabrication levels, such as the silicon core layer, cladding layer, or metal contact layer. Material and Index Modeling The launch position and direction are visually represented
Components: These include basic shapes like blocks, cylinders, and polygons.Segments: Specifically designed for waveguide-based structures, segments can be straight, tapered, or curved (S-bends and arcs).Profiles: Every object is assigned a "profile" which dictates its refractive index or optical properties. Profiles can be simple dielectric constants, complex dispersive materials from a library, or user-defined anisotropic tensors.