Altair HW 2017.2 Win64
- کاربرد : نرم افزار شبیه سازی CAE
- نسخه :Version 2017.2
- نوع فایل : نرم افزار
- زبان : انگلیسی
- سیستم عامل : Windows 32Bit & 64Bit
- تولید کننده : Altair Engineering, Inc
- سال تولید : 2017
توضیحات
Altair HyperWorks Suite یک پلت فرم نرم افزار شبیه سازی CAE است که اجازه می دهد تا به ایجاد محصولات برتر به همراه هزینه های موثر بپردازید. نرم افزار HyperWorks Suite جامع ترین راه حل های معماری در صنعت از جمله تجزیه و تحلیل, تجسم فکری, مدیریت داده ها, بهینه سازی ساختاری, تعامل آب و سازه و پویایی چند بدنه برنامه های کاربردی را فراهم می کند.
ویژگی و امکانات Altair HyperWorks Suite :
لیست ماژول ها :
HyperMesh
تشکیل ماژول از داده های ورودی, الگو های تقسیم, استفاده از مواد itp انجام تجزیه سریع و کارآمد از مدل اصلی
اجرا در محیط های مختلف برای حل مسائل مختلف
HyperCrash
ماژول محاسبه تاثیر پویا و برخورد
OptiStruct و RADIOSS
حل مشکلات ساختاری و غیر خطی, در حال اجرا از یک پوسته یا به طور جداگانه
HyperView و HyperView Player
ماژول برای تجسم و پردازش
HyperStudy و HyperStudy DSS
بهینه سازی عملکرد و تجزیه و تحلیل چند متغیره
HyperGraph و HyperGraph 3D
پردازش به صورت سه بعدی و با پتانسیل بزگ
نمایشگر و برنامه حل کننده برای حل مشکلات اجسام متحرک و دینامیک
کاملا سازگار (به طور مستقیم یا معکوس) با استفاده از MSC.ADAMS
بهینه سازی جدید acoustic, ترکیب حرارتی/ بهینه سازی مکانیکی
وظایف تجزیه و تحلیل ریاضی
ماژول داشبورد مبتنی بر وب برای Data Manager
بهبود قایل توجه اینترفیس CAD/CAE
ScriptView – محصول جدید برای اشکال زدایی اسکریپت و Tcl
بهبود نتایج توپولوژی و توپوگرافی برای طراحی
ویژگی و امکانات Altair HyperWorks Suite :
لیست ماژول ها :
HyperMesh
تشکیل ماژول از داده های ورودی, الگو های تقسیم, استفاده از مواد itp انجام تجزیه سریع و کارآمد از مدل اصلی
اجرا در محیط های مختلف برای حل مسائل مختلف
HyperCrash
ماژول محاسبه تاثیر پویا و برخورد
OptiStruct و RADIOSS
حل مشکلات ساختاری و غیر خطی, در حال اجرا از یک پوسته یا به طور جداگانه
HyperView و HyperView Player
ماژول برای تجسم و پردازش
HyperStudy و HyperStudy DSS
بهینه سازی عملکرد و تجزیه و تحلیل چند متغیره
HyperGraph و HyperGraph 3D
پردازش به صورت سه بعدی و با پتانسیل بزگ
نمایشگر و برنامه حل کننده برای حل مشکلات اجسام متحرک و دینامیک
کاملا سازگار (به طور مستقیم یا معکوس) با استفاده از MSC.ADAMS
بهینه سازی جدید acoustic, ترکیب حرارتی/ بهینه سازی مکانیکی
وظایف تجزیه و تحلیل ریاضی
ماژول داشبورد مبتنی بر وب برای Data Manager
بهبود قایل توجه اینترفیس CAD/CAE
ScriptView – محصول جدید برای اشکال زدایی اسکریپت و Tcl
بهبود نتایج توپولوژی و توپوگرافی برای طراحی
Description
FEKO is a comprehensive computational electromagnetics (CEM) software used widely in the telecommunications, automobile, aerospace and defense industries. FEKO offers several frequency and time domain EM solvers under a single license. Hybridization of these methods enables the efficient analysis of a broad spectrum of EM problems, including antennas, microstrip circuits, RF components and biomedical systems, the placement of antennas on electrically large structures, the calculation of scattering as well as the investigation of electromagnetic compatibility (EMC). WinProp is a dedicated tool for wave propagation modeling and radio network planning.
FEKO also offers tools that are tailored to solve more challenging EM interactions, including dedicated solvers for characteristic mode analysis (CMA) and bi-directional cables coupling. Special formulations are also included for efficient simulation of integrated windscreen antennas and antenna arrays.
Combined with the MLFMM, and the true hybridization of the solvers, FEKO is considered the global market leader for antenna placement analysis.
Introduction to CADFEKO
CADFEKO is the FEKO component that facilitates the creation of CAD geometry using canonical structures and perform boolean operations. It also supports the import and modification of CAD models and meshed geometries. The setting of material properties, solution parameters and the required calculations defined by the user, are all part of the CADFEKO model. If an optimisation search is required, the optimisation parameters and the goal functions can be specified.
Introduction to POSTFEKO
POSTFEKO is used mainly for two purposes: to validate meshed geometry and to analyse results. Validation of mesh geometry is done so that users can confirm that their models are correct before starting a simulation. This is particularly useful when models are created using EDITFEKO, but is just as relevant for CADFEKO modelling. Analysis of results is the other primary function of POSTFEKO. Once a model has been simulated, POSTFEKO can be used to display and review the results. A variety of tools are available to help visualise data in a constructive manner.
Multiple models, with their geometry (in *.fek files) and results (in *.bof files), can be displayed in a single POSTFEKO project session. The displays are automatically updated each time the model and/or results are updated.
Applications
- 3D antenna design: analysis of horns, microstrip patches, wire antennas, reflector antennas, conformal antennas, broadband antennas, arrays
- Antenna placement :analysis of antenna radiation patterns, radiation hazard zones, etc. with an antenna placed on a large structure, e.g. ship, aircraft, armoured car
- Electromagnetic coupling and interference (EMC, EMI) : analysis of diverse EMC problems including shielding effectiveness of an enclosure, cable coupling analysis in complex environments, e.g. wiring in a car, radiation hazard analysis
- Bio-electromagnetics : analysis of homogeneous or non-homogeneous bodies, SAR extraction
- 3D RF components : analysis of waveguide structures, e.g. filter, slotted antennas, directional couplers
- 3D EM circuits : analysis of microstrip filters, couplers, inductors, etc.
- Radomes : analysis of multiple dielectric layers in a large structure
- Scattering problems
- RCS analysis of large and small structures
Productivity Features:
FEKO offers many features to enhance the productivity and performance of the simulations.
- Adaptive Frequency Sampling (AFS)
Rapid calculation of frequency sweeps
- Cable Coupling
Include complex cable bundle networks in full-wave simulations
- Characteristic Mode Analysis
Calculate the current modes of a structure along with the associated eigenvalues, modal significance and characteristic fields.
- Error Estimation and Adaptive Meshing
Assess the mesh quality and errors that might be caused by insufficient mesh
- Graphics Processing Unit (GPU) Acceleration
Accelerate simulation speed with GPU processing
Large Finite Array Analysis
Model large finite arrays optimally taking into account mutual coupling and edge effects.
- Lua Scripting and Automation
Control FEKO with Lua scripts and automate repetitive actions.
-Multiple Solution Configurations
Solve several problems using a single model.
- Non-Radiating Networks
Include complex networks in full-wave simulations
Fast Continuous Far Field Calculations
Automatically compute a continuous representation of a far-field radiation pattern.
- Optimisation
Optimise parameters in parametric models
- Out-of-Core Solver
Maximum solver efficiency when employing secondary memory
- Periodic Analysis
For repetitive linear and planar structures
- Symmetry
For increased solver efficiency
- Time Domain Analysis
Pulse excitations and outputs
FEKO also offers tools that are tailored to solve more challenging EM interactions, including dedicated solvers for characteristic mode analysis (CMA) and bi-directional cables coupling. Special formulations are also included for efficient simulation of integrated windscreen antennas and antenna arrays.
Combined with the MLFMM, and the true hybridization of the solvers, FEKO is considered the global market leader for antenna placement analysis.
Introduction to CADFEKO
CADFEKO is the FEKO component that facilitates the creation of CAD geometry using canonical structures and perform boolean operations. It also supports the import and modification of CAD models and meshed geometries. The setting of material properties, solution parameters and the required calculations defined by the user, are all part of the CADFEKO model. If an optimisation search is required, the optimisation parameters and the goal functions can be specified.
Introduction to POSTFEKO
POSTFEKO is used mainly for two purposes: to validate meshed geometry and to analyse results. Validation of mesh geometry is done so that users can confirm that their models are correct before starting a simulation. This is particularly useful when models are created using EDITFEKO, but is just as relevant for CADFEKO modelling. Analysis of results is the other primary function of POSTFEKO. Once a model has been simulated, POSTFEKO can be used to display and review the results. A variety of tools are available to help visualise data in a constructive manner.
Multiple models, with their geometry (in *.fek files) and results (in *.bof files), can be displayed in a single POSTFEKO project session. The displays are automatically updated each time the model and/or results are updated.
Applications
- 3D antenna design: analysis of horns, microstrip patches, wire antennas, reflector antennas, conformal antennas, broadband antennas, arrays
- Antenna placement :analysis of antenna radiation patterns, radiation hazard zones, etc. with an antenna placed on a large structure, e.g. ship, aircraft, armoured car
- Electromagnetic coupling and interference (EMC, EMI) : analysis of diverse EMC problems including shielding effectiveness of an enclosure, cable coupling analysis in complex environments, e.g. wiring in a car, radiation hazard analysis
- Bio-electromagnetics : analysis of homogeneous or non-homogeneous bodies, SAR extraction
- 3D RF components : analysis of waveguide structures, e.g. filter, slotted antennas, directional couplers
- 3D EM circuits : analysis of microstrip filters, couplers, inductors, etc.
- Radomes : analysis of multiple dielectric layers in a large structure
- Scattering problems
- RCS analysis of large and small structures
Productivity Features:
FEKO offers many features to enhance the productivity and performance of the simulations.
- Adaptive Frequency Sampling (AFS)
Rapid calculation of frequency sweeps
- Cable Coupling
Include complex cable bundle networks in full-wave simulations
- Characteristic Mode Analysis
Calculate the current modes of a structure along with the associated eigenvalues, modal significance and characteristic fields.
- Error Estimation and Adaptive Meshing
Assess the mesh quality and errors that might be caused by insufficient mesh
- Graphics Processing Unit (GPU) Acceleration
Accelerate simulation speed with GPU processing
Large Finite Array Analysis
Model large finite arrays optimally taking into account mutual coupling and edge effects.
- Lua Scripting and Automation
Control FEKO with Lua scripts and automate repetitive actions.
-Multiple Solution Configurations
Solve several problems using a single model.
- Non-Radiating Networks
Include complex networks in full-wave simulations
Fast Continuous Far Field Calculations
Automatically compute a continuous representation of a far-field radiation pattern.
- Optimisation
Optimise parameters in parametric models
- Out-of-Core Solver
Maximum solver efficiency when employing secondary memory
- Periodic Analysis
For repetitive linear and planar structures
- Symmetry
For increased solver efficiency
- Time Domain Analysis
Pulse excitations and outputs
برای اطلاع از طریقه نصب به فایل How to Install.txt رجوع شود.
