ZWSim 2022 SP2 (x64) Multilanguage
x64 | Languages:Multilanguage | File Size: 1.45 GB
Description
ZWSim is CAE simulation software independently owned by ZWSoft. ZWSim includes general pre-and post-processing functions, integrates structural simulation, electromagnetic simulation, fluid simulation solver (secondary development demo), and supports multi-disciplinary simulation.
ZWSim-EM, the 3D full-wave electromagnetic simulator developed by ZWSOFT, released today with plenty of new features, demonstrating its impressively quick iteration as a new-comer in the CAE field.Debuting in 2018, ZWSim-EM is an important milestone for ZWSOFT’s all-in-one CAx strategy, aiming to satisfy users’ whole-process needs from designing, simulating to manufacturing and constructing. This year, it comes with a significant highlight – the newly added FEM algorithm, as well as more complete pre- and post-processing capabilities.
FEM Algorithm: Satisfies More Types of EM Simulation
Except for optimizing the original EIT algorithm, FEM (Finite Element Method) is added in this version. It is a frequency-domain algorithm based on tetrahedral meshes, which can adapt to the irregular surfaces of 3D objects. Therefore, it is able to simulate high-precision geometries, that are, electrically small and fine structures, like high-frequency array antennas, helical antennas, coaxial connectors, high-speed connectors, etc., broadening the application range and satisfying more EM simulation needs.
Pre-processing: Get Full Ready for Simulation
For pre-processing, series or parallel Lumped Elements (RLC), including resistance (R), capacitor (C) and inductance (L) can be loaded. Field Monitors can be set for EM field and far-field that need the calculation of frequency points or bands before simulation, which can reduce the amount of calculation and thus accelerate simulation.
Material Library has been updated with more common and dispersion materials. You can also customize materials and import third-party material libraries. Model Library is also available with customizable parametric models, which can be used directly anytime.
For mesh generation, you can increase the density of critical points, for example, designate them as you need and let lines of meshes pass through to control mesh generation. What’s more, the quality of Yee hexahedral meshes can be checked, so that the mesh quality can be further guaranteed.
Post-processing: Friendlier for Viewing, Capturing and Adjusting
Post-processing becomes more user-friendly now. For example, the generated simulation results can be processed again according to the input mathematical expressions. With Feature Tracking, the characteristics of results such as maximum and minimum values, bandwidth, etc. can be quickly captured, enabling you to obtain key data more efficiently.
Fast Iteration and Firm Determination in CAE
This year, from V1.1 to V2.0, the R&D team of ZWSim-EM tackled 49 core technologies concerning solving, pre- and post-processing, and brought forth the ZWSim-EM 2022 you see today. ZWSOFT is determined to invest in the CAE field to satisfy users’ needs for multi-disciplinary simulation-driven design, increasing design quality and efficiency while saving costs.
System Requirements
System Requirements
OS:Windows 8 / Windows 10 / Windows 11
CPU:Intel Core 2 Duo or AMD Athlon X2 CPU or higher (recommended)
Disk Space:4 GB free space in OS disk, 2 GB free space in installation
Memory:2GB or more (recommended)
GPU: 1GB or more (recommended)
Resolution:1024 x 768VGA display with True Color (minimum) 1440x900 with NVidia 8 series or Radeon HD series or higher
Whats New
ZWSim New Features
-ZWSim-EM Added FEM algorithm wave port(2.0 In the FEM algorithm, the wave port excitation source is added, which can be used in the simulation of waveguide cavities, horn antennas, etc., which can improve the simulation accuracy and broaden the simulation application scenarios.
-ZWSim Structural Add mesh picking tool (V2.2)
-Add a new tool for mesh picking, which can help to quickly select all displayed meshes and mesh nodes.
Add analysis transform function (V2.2)
Added the function of switching simulation tasks, which allows the simulation tasks to switch among the 11 simulation task types currently supported. The pre-processing information such as material properties, loads and constraints will be inherited or discarded automatically. The new simulation task can directly use the mesh generated by the previous task.This capability provides great convenience when you need to perform multiple types of simulation analysis on the model.
Add mesh flaw checking function (V2.2)
Geometry defects or improper meshing may lead to some improper meshing in the model. Incorrect mesh can result in failure during calculation or lead to a result of deviation. The new function supports mesh detection, which can locates defective meshes to support model repair or mesh adjustment. The software provides a wealth of defect detection rules, which can detect interference meshes, non-manifold meshes, open edges, degenerate meshes, self-intersecting meshes, duplicated meshes, etc., which may be detrimental to the calculation.
Boundary conditions or loads support the selection of mesh nodes or elements(V2.0)
When defining the boundary conditions or loads of the model, users can select mesh nodes or elements.
You need to change object type to Mesh node or Mesh face when you use this function. It supports box selection and click selection. See the figure below for details.
Added fast frequency algorithm (V2.2)
On the basis of the original discrete frequency sweep algorithm, a new fast frequency sweep algorithm is added, which improves the simulation efficiency and smoothness of the result curve.
EIT algorithm optimization(V2.0)
The EIT algorithm engine is optimized to improve the simulation accuracy and can deal with more complex simulation application scenarios
Added FEM algorithm(V2.0)
FEM algorithm is added, and algorithm can be switched to solve the same simulation problem in the same simulation environment. The FEM algorithm is especially suitable for the simulation of resonant structures, fine structures, and frequency-dependent materials, which broadens the simulation application of ZWSim-EM.
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