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1. #Cst microwave studio error log file software
2. #Cst microwave studio error log file code
3. #Cst microwave studio error log file simulator
4. #Cst microwave studio error log file windows

– Ability to switch between different software components including:ĬST DESIGN STUDIO (CST DS), CST MICROWAVE STUDIO (CST MWS), CST EM STUDIO (CST EMS),ĬST PARTICLE STUDIO (CST PS), CST MPHYSICS STUDIO (CST MPS), CST PCB STUDIO (CST PCBS), CST CABLE STUDIO (CST CS) Components included in the CST STUDIO SUITE suite:ĬST MICROWAVE STUDIO – CST MWS: The leading edge of the instrument for speed and accuracy in 3D simulation of high frequency devices.ĬST EM STUDIO – CST EMS: A simple tool for designing and analyzing static, low frequency devices such as motors, sensors, transformers and more.ĬST PARTICLE STUDIO – CST PS: Used to simulate fully rigid or moving particles. – Automatically create power point slides – (OLE) Automatic Server Linking and Embedding (COM / DCOM) – Variable tools, parameters and message window Features and Features of CST STUDIO SUITE Software: Fest3D and Spark3D are also installed and usable with this package. ! The 2020 version of this collection, together with Antenna Magus software, is trademarked by Dassault Systèmes and is a subsidiary of SIMULIA. This software can offer significant benefits such as shorter development cycles, virtual prototyping before practical testing, and product optimization without the need for multiple tests. The CST STUDIO SUITE has an integrated design environment, with ease of assembly and modeling, multi-functionality and professional-grade simulation across all electromagnetic systems and circuits. With this software you can design, model, assemble electromagnetic devices and circuits in 3D, as well as simulate. CST Studio Suite includes CST tools for designing and optimizing wide-frequency static operating systems in the visual field.

#Cst microwave studio error log file simulator

Several examples with CST projects are located in examples/ folder.CST STUDIO SUITE is an electromagnetic simulator software that CST says is the culmination of years of research and development with great accuracy and efficient solutions for electromagnetic design. CST project create in cst_project folder. To start using scripts firstly need to change path_to_CST_DE Then create_cst_project method creates project.

#Cst microwave studio error log file code

This code creates simple geometry contain 18 wires equally distributed on create_cst_project ( name = "circular_geometry", path_to_CST_DE = path_to_CST_DE, path_to_geometry_folder = route_to_folder, path_to_CST_project = route_to_folder )

#Cst microwave studio error log file windows

get_circular_geometry ( radius = radius, lengths_of_wires = lengths, wire_radius = 1e-3, delta_angle = 0 ) return circular_geometry # During using scripts or notebooks for creating projects # all the CST Microwave studio windows must be closed !!! # Creating an array of 18 vertical aligned wires with length 2 # on of imaginary cylinder with radius 4 circular_geometry = circular_geometry_equal_wires ( 2, 18, 4 ) output = circular_geometry. txt geometries and CST projects route_to_folder = r "Absolute\Path\To\FOLDER" def circular_geometry_equal_wires ( length, number_of_wires, radius ): lengths = circular_geometry = simple_geometries. append ( wire ) return Geometry ( wires )Įxamples from cst_geometry import simple_geometries # Path to CST DESIGN ENVIRONMENT.exe path_to_CST_DE = r "Absolute\Path\To\CST DESIGN ENVIRONMENT.exe" # Route to folder with. sin ( phi ), length / 2 ), radius = wire_radius ) wires. sin ( phi ), - length / 2 ), point1 = ( radius * np. pi, number_of_wires, endpoint = False ) + delta_angle wires = for i, length in enumerate ( lengths_of_wires ): phi = angles wire = Wire ( point0 = ( radius * np. import numpy as np from cst_geometry import Wire, Geometry def get_circular_geometry ( radius, lengths_of_wires, wire_radius = 1e-3, delta_angle = 0 ): number_of_wires = len ( lengths_of_wires ) angles = np. To create your own geometry use Wire and Geometry classes. append ( wire ) return wires wires = create_wires_by_rule () geometry = geometry ( wires ) from cst_geometry import Wire, Geometry def create_wires_by_rule (): wires = #. export_geometry is a method for exporting geometry as. create_cst_project is a method for creating a. For initializing Geometry object you should pass a list of Wire objects. Geometry object allows to easily export geometry to CST Microwave Studio or just export.