Better Product Decisions Earlier with Simulation-driven Design
Altair® Inspire™ democratizes modeling and simulation making it accessible to all designers and engineers, particularly if they don’t have time for (or access to) traditional CAD tools. It now provides a robust history-based CAD modeling approach to create and modify geometry easily and quickly.
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Reduce e-Motor Multiphysics Optimization Cycle from Weeks to Hours
By combining computationally efficient reduced-order models and detailed CAE analysis with process automation of repetitive and tedious tasks, Altair provides workflows for early system models, mixed-fidelity simulations, and multiphysics validations, across domains including electrification or advanced manufacturing. In this example, we're showing the end-to-end multiphysics optimization cycle of an electric motor, reducing the simulation process time from weeks to hours.
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Bringing Augmented Intelligence to a Broad Range of CAE Tools
Engineering adoption of AI is transforming product development yet again. AI-driven design, augmented simulation, and predictive analytics are all contributing to increase collaboration, speed up design convergence, and achieve greater product innovation. The latest release of Altair® HyperWorks® includes features like shapeAI, which quickly finds and classifies parts "by shape" inside geometry files or finite element meshes by applying machine learning.
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Interference and Collocation Interference Demonstration
Radio interference occurs when two or more RF systems affect one another’s smooth operation. This normally occurs when two or more RF systems are operating physically close to one another and they are operating in such a way that one of the transmitters negatively impacts one or more receivers. Through this demonstration video you will learn how to analyze and mitigate collocation interference on a ship and also how to analyze and find solutions for interferences between ground radio stations.
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Collocation Interference Analysis Workflow And Exercise
RF co-site interference occurs when two or more co-located RF systems affect one another’s smooth operation. This normally occurs when two or more RF systems are operating physically close to one another and they are operating in such a way that one of the transmitters negatively impacts one or more receivers. This document explains you the workflow and includes an exercise following the steps to solve a co-site interference problem from the creation of the transmitters, receivers and antennas, through the stations and coupling loss matrices, and to the analysis.
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Manoeuvring demonstration using Esso Osaka
This video tutorial makes use of the sample project vessel Esso Osaka to demonstrate a time domain manoeuvring operation. The turning circle of the Esso Osaka is calculated.
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Working with the Generic Frigate sample project
This video tutorial shows the process of opening the Generic Frigate project. Several steps are needed to add details already configured for the ShipMo3D project. Download the sample project files from here: https://dsaocean.com/shipmo3d/downloads/
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PollEx PCB Verification for Design for Electrical Engineering Plus
In this tutorial we will look at using PollEx PCB verification for electrical engineering plus.
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Introduction to CADFEKO
In thei s video you will get an introduction to the CADFEKO interface.
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PollEx Underfill for Generating BGA Underfill Location
In this tutorial we will look at using PollEx to find the BGA Underfill location using the Underfill option.
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PollEx Test Point Location Generator for Extracting Test Point Location
In this tutorial we will look at using PollEx to extract the test point location using the test point location generator.
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PollEx Solder Quantity Calculator for Estimating Solder Amount
In this tutorial we will look at using PollEx to estimate the quantity of solder on a model.
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PollEx Router Machine JIG Generator for Extracting Router JIG Data
In this tutorial we will look at using PollEx to extract router JIG data.
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PollEx PCB Worksheet Planner for PCB Design Working Planner
In this tutorial we will look at using PollEx to create the PCB design working planner.
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PollEx PCB Golden Sample for PCB Design Golden Sample Generator
In this tutorial we will look at using PollEx to generate a PCB golden sample.
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PollEx Mounting Emulator for Verifying the Component Location and Angle
In this tutorial we will look at using PollEx to verify the component location and angle using the Mounting Emulator.
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PollEx Mounting Data Extractor for Extracting SMT Library Format
In this tutorial we will look at using PollEx to extract the SMT library format using the Mounting Data Extractor.
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PollEx Metal Mask Manager for Generating and Managing Metal Mask
In this tutorial we will look at using PollEx to generate and manage the metal mask using the Metal Mask Manager.
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PollEx Logic Verification for Logic Design for Electrical Engineering Logic DFE
In this tutorial we will look at using PollEx to to verify the DFE logic design for electrical engineering.
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PollEx Logic for Schematic Design Review
In this tutorial we will look at using PollEx for schematic design review.
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PollEx Gerber to PCB for Converting Gerber to Intelligent PCB Design Format
In this tutorial we will look at using PollEx to convert gerber files to intelligent PCB design format.
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PollEx GDSII Compare for Comparing and Extracting GDSII Format
In this tutorial we will look at using PollEx to compare and extract GDSII format using the GDSII Compare tool.
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PollEx CAM for Gerber Review
In this tutorial we will look at using PollEx CAM to review Gerber data.
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PollEx BOM for Reviewing a Bill of Materials
In this tutorial we will look at using PollEx BOM to review the bill of materials.
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PollEx Block JIG Generator for Extracting Block JIG Files from PCB Layout
In this tutorial we will look at using PollEx Block JIG Generator to extract block JIG files from the PCB layout.
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Introduction to POSTFEKO
In the is video you will receive an introduction to POSTFEKO.
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Feko Profile in HyperMesh
This video will provide an overview of the Feko profile in HyperMesh.
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Altair Feko Demonstration
This video will provide a demonstraiton fo Altair Feko.
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Windscreen Antenna on an Automobile
Calculate the input impedance of a windscreen antenna constructed from wires. The windscreen consists of a layer of glass and a layer of foil.
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Antenna Coupling using an Equivalent Source and Ideal Receiving Antenna
Calculate the coupling between two horn antennas separated by 60 wavelengths. A metallic plate between the horn antennas blocks the line-of-sight coupling. Replace the horn antennas with a far field equivalent source and receiving antenna.
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Horn Feeding a Large Reflector
Calculate the gain for a cylindrical horn feeding a parabolic reflector at 12.5 GHz. The reflector is electrically large (diameter of 36 wavelengths) and well separated from the horn. Several techniques available in Feko are considered to reduce the required resources for electrically large models.
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Dielectric Lens Antenna
Calculate the radiation pattern of a dielectric lens antenna. The lens is illuminated by an equivalent far field source with an ideal cosine pattern. The lens structure is modelled using the ray launching geometrical optics (RL-GO). Compare the RL-GO solution with a hybrid FEM/MoM solution.
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Different Ways to Feed a Horn Antenna
Calculate the far field pattern of a pyramidal horn antenna at 1.645 GHz.
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Aperture Coupled Patch Antenna
Calculate the input reflection coefficient of an aperture coupled patch antenna. Use continuous frequency sampling to minimise runtime. Compare results for a finite and infinite dielectric.
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Results of Monopole Antenna on a Finite Ground Plane
View and post-process the results in POSTFEKO.
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Log Periodic Dipole Array Antenna
Calculate the radiation pattern and input impedance for a log periodic dipole array (LPDA) antenna. Non-radiating transmission lines are used to model the boom of the LPDA antenna.
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MIMO Elliptical Ring Antenna (Characteristic Modes)
Calculate the current distribution and far fields for a MIMO elliptical ring antenna. Use characteristic mode analysis to calculate the results for different modes.
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Using the MLFMM for Electrically Large Models
Consider the resource saving advantage of using the MLFMM for electrically large models.
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RCS and Near Field of a Dielectric Sphere
Calculate the radar cross section and the near field inside and outside of a dielectric sphere using the surface equivalence principle (SEP).
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RCS of a Thin Dielectric Sheet
Calculate the bistatic radar cross section of an electrically thin dielectric sheet. The sheet is modelled using the thin dielectric sheet approximation and is illuminated by an incident plane wave.
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Calculating Field Coupling into a Shielded Cable
Calculate the coupling between a monopole antenna and a nearby shielded cable that follows an arbitrary path above a ground plane.
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Antenna Radiation Hazard (RADHAZ) Safety Zones
Calculate the safety zones around a Yagi-Uda antenna based on radiation INIRC88 and NRPB89 standards. View the safety zone ISO surfaces.
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Exposure of Muscle Tissue Using the MoMFEM Hybrid
Calculate the exposure for a sphere of muscle tissue illuminated by a dipole antenna.
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Using a Non-radiating Network to Match a Dipole Antenna
Match a short dipole for resonance at 1.4 GHz with an LC matching section. The matched network is modeled using a Spice circuit and S-parameters.
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Subdividing a Model Using Non-Radiating Networks
Calculate the input impedance of a circularly polarised patch antenna fed through a microstrip branch coupler. Replace the branch coupler with a non-radiating network and compare with a full solution.
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Effect of Incident Plane Wave on an Obstacle Using Time Analysis
Observe the effect of an obstacle on a plane wave. Obtain frequency domain results using a wideband simulation using the method of moments (MoM). Perform post-processing of the frequency domain data to obtain a time response.
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Waveguide Splitter with FEKO
See a demonstration of creating ana analysis of a waveguide splitter.
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Optimization with FEKO
See a demonstration of the optimzation capabilities within FEKO on a bent dipole.
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