Radioss 2019/2019.1 Overview
Watch this video to see the new features available in the Radioss 2019 and 2019.1 releases.
Product Overview Videos
Maximize Productivity in SimSolid
Getting started with SimSolid? View this video to see how you can get started and maximize your productivity with the tool.
Quick Start
Altair HyperWorks - CFD Workflow
In this course you will have the opportunity to learn about HyperWorks CFD. Modules contained within the course provide detailed descriptions of the tools and workflows within HyperWorks CFD. You will also have the opportunity to watch demonstrations and perform hands on exercises throughout the modules.
A login to Altair Connect is required to access this course.
eLearning
HyperWorks X
In this course you will have the opportunity to learn about HyperWorks X. Modules contained within the course provide detailed descriptions of the tools and workflows within HyperWorks X. You will also have the opportunity to watch demonstrations and perform hands on exercises throughout the modules.
A login to Altair One is required to access this course.
eLearning
Solid Modeling of a Mechanical Part
A short workflow illustrating the power of solid modeling and editing in Inspire Studio, applied to a junction pipe with flanges.
Quick Start
Create and Control NURBS Curves & Surfaces
Utilize Non-uniform Rational B-Splines (NURBS) curves and surfaces to accurately represent even the most complex shapes with flexibility and precision.
Quick Start
Signal Processing in Maple
Maple offers many signal processing tools that help you extract meaning from your data. From transforms and spectrograms to filter design and cepstrum analysis, you can use these tools in an environment that lets you document your analysis as you do your calculations.
Webinars
The Secrets to Fast AND Accurate Simulation Webinar
No Tradeoffs Required!
There has always been a required compromise when it comes to structural simulation. This tradeoff required users to select a tool that excels in either depth/accuracy OR speed (you have likely experienced this yourself).
With Altair SimSolid, this compromise is no longer necessary. SimSolid works directly on CAD geometry and gives its users incredibly accurate design insight in seconds to minutes.
Blazingly Fast AND Incredibly Accurate Simulation is possible! View our webinar to learn more!
Webinars
Fast Forward Your Nonlinear Analysis with OptiStruct
Simulate the effects of large displacements, material nonlinearity and advanced contacts with Altair OptiStruct™.
OptiStruct is the industry standard for the optimization of topology, composites, mechanisms and additive manufactured parts, but over the past three decades, it has evolved into a comprehensive linear and nonlinear analysis solution, delivering the functionality that customers of traditional nonlinear implicit codes expect coupled with the high performance they need.
Watch this webinar to learn about how OptiStruct is being used to reduce software cost, simulate faster, and improve design process efficiency.
Webinars
e-Motor Concept Quick Design with Altair FluxMotor
Altair FluxMotor is a straightforward platform dedicated to the pre-design of electric rotating machines. It enables the designer to build a machine from standard or customized parts, add windings and materials to quickly run a selection of tests and easily compare the machine performance. In addition, they can predict the machine performance at one or more working points, and also for complete duty cycles. By coupling FluxMotor to Altair HyperStudy design exploration and optimization solution, Altair offers designers a unique process to optimize their motor concept at an early design stage. They can select and focus on the topologies that fulfill the main specifications before going further in their EM design with Altair Flux and perform Multiphysics analysis.
Quick Start
Automated Tests and Reports with Altair FluxMotor
Altair FluxMotor is a straightforward platform dedicated to the pre-design of electric rotating machines. It enables the designer to build a machine from standard or customized parts, add windings and materials to quickly run a selection of tests and easily compare the machine performance. In addition, they can predict the machine performance at one or more working points, and also for complete duty cycles. By coupling FluxMotor to Altair HyperStudy design exploration and optimization solution, Altair offers designers a unique process to optimize their motor concept at an early design stage. They can select and focus on the topologies that fulfill the main specifications before going further in their EM design with Altair Flux and perform Multiphysics analysis.
Quick Start
Discover Altair FluxMotor: Easy-to-Use Software Dedicated to e-Motor Concept Design
Altair FluxMotor is a straightforward platform dedicated to the pre-design of electric rotating machines. It enables the designer to build a machine from standard or customized parts, add windings and materials to quickly run a selection of tests and easily compare the machine performance. In addition, they can predict the machine performance at one or more working points, and also for complete duty cycles. By coupling FluxMotor to Altair HyperStudy design exploration and optimization solution, Altair offers designers a unique process to optimize their motor concept at an early design stage. They can select and focus on the topologies that fulfill the main specifications before going further in their EM design with Altair Flux and perform Multiphysics analysis.
Quick Start
e-Motor Concept Optimization Coupling with Altair FluxMotor and Altair HyperStudy
By coupling Altair FluxMotor for e-Motor concept design with Altair HyperStudy, more design exploration and optimization can be accomplished, while considering duty cycles.
Further information are available on Altair connect.
Quick Start
Inspire Motion 2019
In this course you will have the opportunity to learn about Inspire Motion. Modules contained within the course provide detailed descriptions of the tools and workflows within Inspire Motion. You will also have the opportunity to watch and perform hands on exercises.
eLearning
Battery & Motor Thermal Management for Electric Vehicles
The key element of an electric vehicle (EV) is the battery and batteries are known to produce heat during their charge-discharge cycle. An efficient thermal management system (TMS) is of paramount importance. The battery TMS affects the cost, life, and range of the EV. A battery TMS study or an EV TMS study involves the use of thermal and fluid physics and Altair’s AcuSolve (Computational Fluid Dynamics based Simulation Technology), was used to carry out this study. The importance of finding new methods for effectively and accurately designing TMS that control temperature and optimize the performance of Li-ion batteries. This can be used to study and optimize the Battery Thermal Management System and other Thermal Management requirements arising in an electric vehicle which involves both active and passive cooling. A similar issue of heat (unwanted) exists in Motors as well, in this, we shall cover the Multiphysics simulation of Motors which shall include both electromagnetics and CFD Thermal studies of both air and liquid coolant motors.
Webinars
NVH Refinement for Electric Vehicles
Replacement of traditional combustion engines with an electric powertrain, bring electro-mechanical induced tonal and high-frequency whine noise. In addition, tire and aerodynamic turbulent noise become more prominent in the absence of a standard Internal Combustion Engine. Also, the perceived sound quality imposes a new set of challenges. This leads to completely new methods of NVH refinement, keeping the decades of research aside. As it is important to address these issues at the design and development stage, adopting the new simulation techniques to manage future NVH challenges in e-Mobility is of the prime challenge to the traditional NVH engineers. In this webinar, we shall discuss some of those key NVH challenges specific to electric vehicles and appropriate simulation processes to develop countermeasures.
Webinars
System Modelling for Electric Vehicles
Electric Vehicles (EV) are complex systems and need to be connected, automated, lighter & smarter all at once. This calls for systems engineering where different systems are seen whole instead of in silos. Experience e-Mobility Simulation using Altair Model-Based System simulation solutions with real-time motor controller implementation on HIL (Hardware in the loop) with the micro-controller. Its intuitive block diagram environment allows users to model and simulate continuous and discrete dynamical systems, mix signal-based, physical modeling and Co-simulation with electro-magnetic & multi-body dynamics. End to end system-level virtual simulation for complete e-Mobility is made possible.
Webinars
Traction Motors Design & Multidisciplinary Optimization
Traction Motor play key role in the electric vehicle/hybrid electric vehicle (EV/HEV) development process. The design of a High-Performance e-Motor is a complex undertaking. Engineers have conflicting constraints to consider including efficiency, temperature, weight, size, and cost. To explore more ideas, better understand their designs and improve performance, Altair HyperWorks™ has a workflow to guide motor designers through an efficient process of Simulation-Driven Design. This analysis and optimization solution supports multi-disciplinary teamwork and reduces design times.
Webinars
Altair Digital Twin Platform
As product complexity increases, making smarter, faster and more informed decisions to deliver exceptional results is critical. Altair’s Digital Twin Platform can help. Using CAE, IoT, machine learning and data intelligence, you can “twin” products to help optimize product performance and reliability, as well as extend its lifecycle and improve on next-generation technologies.
Product Overview Videos
Model Based Development of Mechatronic Products
Learn how next generation math and system design products can be applied right from concept studies, control design, multi-domain system performance optimization to controller implementation & testing.
Webinars
Sensorless AC Motor Control
Webinar from Prof. Dr. D.W.J. Pulle
Webinars
Increasing Design Optimization and Confidence Through Advanced Weld Fatigue Analysis and Simulation
Welding is a commonly used technique in different industries to join two metal parts. Parts that are welded, tend to fatigue in the welded regions, even in a well-designed structure. Therefore, it is necessary to make a fatigue assessment of the welded joints. The fatigue assessment of welded parts should be highly prioritized to ensure a good evaluation of the durability of the weld structure.
There are different types of approaches that can be used to evaluate the fatigue life of welds. This presentation illustrates how different welding methods such as spot welds or seam welds are considered in nCode DesignLife software which can be used within the Altair partnership program.
This webinar deals with Shell/Solids and Spot welds modeled with nCode DesignLife. It starts with the theoretical approaches, goes on with the modeling techniques and shows the results in DesignLife.
Webinars
Altair Acquires Polliwog Co. Ltd, Growing Software Toolset for Electronic Design Automation (EDA)
Design and engineering require a system-level view of products and systems. The integrated design of mechanical behavior and electronics is a trademark of today’s product development. Based on a strong foundation of mechanical simulation software, Altair has expanded into areas of systems simulation and electromagnetics. Altair’s Pollex PCB solvers and verification tools extend these capabilities into a new domain, allowing Altair to provide software for system-level design decisions.
Product Overview Videos
Inspire Studio - Getting Started
Overview of Tool Ribbon, Tool-belt, World Browser, Preferences, and Help.
Quick Start
Inspire Studio - Workspace
Overview of Pan, Rotate, Zoom, Navi-Cube, Camera Setup/Editing, Modeling windows, and View Modes.
Quick Start
Inspire Studio - Modeling
Overview of Creation Mode, Edit Mode, Guide Bar, and Exit tool.
Quick Start
Practical Aspects of Multi-Body Simulation with HyperWorks
This book intends to serve as a guide helping you to get started with Multi Body Dynamics Simulation (MBD). It is more a quick reference to learn some of the basics – we deliberately refrain from theoretical discussions and too much math.
Training Materials
Inspire Render - Rendering
Overview of Materials, Environments, and Darkroom.
Quick Start
Advanced Hystheresis Simulation Using Preisach Model - Altair Flux
Newly introduced in Altair Flux, the hysteresis modeling based on Preisach's model enables a better evaluation of iron losses and remanence effects. Flux captures the complexity of electromechanical equipment to optimize their performance, efficiency, dimensions, cost or weight with precision, bringing better innovation and value products to end users. Flux simulates magneto static, steady-state and transient conditions, along with electrical and thermal properties.
Quick Start
Taking Demagnetization Into Account - Altair Flux
Demagnetization simulation: considering the magnet demagnetization phenomena during the solving process simulation enables very accurate predict the device performance, and measure the impact on EMF and torque for instance. Flux captures the complexity of electromechanical equipment to optimize their performance, efficiency, dimensions, cost or weight with precision, bringing better innovation and value products to end users. Flux simulates magneto static, steady-state and transient conditions, along with electrical and thermal properties.
Quick Start
Advanced e-Motor Design Dedicated Environment - Altair Flux FeMT
Designing an e-Motor has never been a simple task. Altair Flux, the solution for accurate electromagnetic detailed design, not only enables to quickly generate 2D and 3D motor models with its Overlays. Its new module now produces efficiency maps and automatic reports in the same appreciated FluxMotor supportive environment. Flux captures the complexity of electric motors and electromechanical equipment to optimize their performance, efficiency, dimensions, cost or weight with precision, bringing better innovation and value products to end users. Flux simulates magneto static, steady-state and transient conditions, along with electrical and thermal properties.
Quick Start
New Features of Altair Flux Electromagnetic and Thermal Simulations
Altair Flux captures the complexity of electromechanical equipment to optimize their performance, efficiency, dimensions, cost or weight with precision, bringing better innovation and value products to end users. Flux simulates magneto static, steady-state and transient conditions, along with electrical and thermal properties.
Quick Start
e-Motor Concept Optimization Coupling with Altair FluxMotor and Altair HyperStudy
Designers starting with a blank page face an unlimited number of configurations and need to quickly select machines types. By coupling Altair FluxMotor to Altair HyperStudy design exploration and optimization solution, Altair offers designers a unique process to optimize their motor concept at an early design stage, defining their constraints and their objectives. A typical objective is to reach maximum global efficiency across a given duty cycle. Then, designers can select and focus on the topologies that fulfill the main specifications before going further in their design.
Quick Start
Model Export to Altair Flux
Once a designers has defined its motor concept in Altair FluxMotor and evaluated its global performance, he can perform more detailed analysis, exporting his machine in Altair Flux and working with high-fidelity models. Significantly, Flux enables more accurate prediction of motor behavior, with advanced losses computation, considering eccentricities, magnet demagnetization, effects of manufacturing process, and couple to Altair HyperWorks for multiphysics analysis.
Quick Start
e-Motors Comparison and Ranking with Altair FluxMotor
Quickly design and optimize concept machines while offering efficient comparison capabilities, Altair FluxMotor enables designers to make informed early strategic choices to select the most appropriate topologies.
Product Overview Videos
Altair Embed Digital Power Intro
Introduction playlist to Altair Embed digital power
Training Materials, Tutorials
Buck Converter Series
Playlist on Buck Converters with Altair Embed
Training Materials, Tutorials
PMSM Series
Altair Embed playlist-PMSM
Training Materials, Tutorials
Controlling LED's Playlist
Playlist on controlling LED's with Altair Embed
Training Materials, Tutorials
Embed Plot Blocks Series
Playlist on Plot Blocks with Embed
Training Materials, Tutorials
Delays, Counters, & Discrete Integrators Playlist
Playlist on delays, counters, & discrete integrator with Altair Embed
Training Materials, Tutorials
Fixed Point Series
Fixed point playlist with Altair Embed
Training Materials, Tutorials
Optimizing CAE Data Preparation Processes Using CADdoctor
As the use of 3D data throughout the produce lifecycle broadens, it is ever more essential to prepare high-quality 3D CAD geometry models to streamline the entire simulation process. CADdoctor is a tool to streamline CAD geometry preparation to make the data suitable for the HyperMesh simulation process. This helps to achieve reducing your simulation lead time and improving the accuracy of the simulation result. This presentation will be an introduction to one of the leading software on the Altair Partner Alliance and how this software has been benefitting users throughout the globe.
Webinars
Signal-Based Modeling Playlist
A playlist on signal-based modeling
Training Materials, Tutorials
Altair Embed Arduino Series
Embed playlist on Arduino
Training Materials, Tutorials
Embed Drone Control Series
Playlist on Altair Embed-Drone control
Training Materials, Tutorials
Altair Embed - Salient PM Motor Control Series
Playlist on Altair Embed Salient motor control
Training Materials, Tutorials
Introduction to Humanetics FE Dummy Models
An introductory webinar to Humanetics Finite Element (FE) Dummy Models, available through the Altair Partner Alliance. FE Dummy Models is a large suite of highly detailed and validated finite element crash dummy models to virtually simulate the behavior of the Anthropomorphic Test Dummies used in crash testing to evaluate the human injuries.
Finite Element Analysis (FEA) has been the trend in virtual crash design over the last two decades. The predictive capabilities of FEA allow engineers to fully analyze a crash event in a virtual environment. This potentially saves significant costs by better understanding vehicle and restraint performance upfront, and therefore limiting the number of physical tests that need to be executed and contributing significantly to the improvement of safety in the vehicles. Since 1995, Humanetics has developed a large suite of highly detailed and validated finite element crash dummy models to compliment physical product testing; these models are available in the codes most commonly used for crash simulation, including Altair’s RADIOSS.
Webinars