EikoTwin DIC 1.2 Demo
This video presents the last updates in EikoTwin DIC 1.2.
Design High-Quality Plastic Components Faster Using S-Life Plastics
An Introductory webinar to S-Life Plastics by PART Engineering, available through the Altair Partner Alliance.
S-Life-Plastics is an easy-to-use software that conducts a short-term, long-term and fatigue strength assessment based on FEA results for plastic components made out of unreinforced or reinforced thermoplastic materials.
In order to conduct a strength assessment S-Life Plastics only needs the local stress tensor, provided by the appropriate result file of the particular FE solver. Additionally the user has to enter some basic information about the material and loading conditions. With that S-Life Plastics provides the resulting static and cyclic utilization ratios as contour plots. For every individual node a comprehensive numerical report of the most important assessment variables can be requested for documentation purposes.
Vehicle Lightweighting with DesignLife
The push for lighter weight products continues and with it the challenge increases for engineers to retain the required strength and durability. Fatigue calculations are vital to evaluate where mass reduction can be achieved without sacrificing durability.
This webinar will discuss the fatigue calculation methods relevant to maintaining durability in today's advanced lightweight structures.
AutoML, Explainable AI, Custom Nodes + More: New Workflow Conveniences in Altair Knowledge Studio
Discover the new capabilities of Knowledge Studio that were released in 2020 to keep the tool moving as fast as science evolves.
2020 has been a slow and complicated year for some industries but not for technology. Technology continues to evolve at a fast pace and so should the solutions that support. Knowledge Studio has added some amazing features in 2020 to keep up with the trends in Data Science.
Watch our lively discussion on the following new features:
-Explainable AI capabilities for black box models
-Automated machine learning for analysts that are not data scientists
-Model Stacking to combine learnings from many models
-Custom node creation through coding to keep work within the tool
-Other new capabilities
Smart Product Development
The benefits of launching a smart product line are unquestioned – recurring revenue, data-driven product decisions, post-launch feature updates, new user experiences, and many more – but developing and maintaining a smart product line brings new challenges. Where should you put sensors to collect data? How will you connect to the internet? Is your connection secure? Is the signal strong enough? How do you know your smart product software will work for 10,000 devices? 100,000? 1,000,000? You will need to find technology and expertise to help you overcome these questions and the thousands of others that come in developing a smart product. Traditional product development will only go so far for smart products; instead, smart products need “smart” product development.
This “lunch and learn” will explore some of the considerations and expertise needed for smart product development and the technologies that can help.
Improving the Lightweight Design of an Electric Drive System Using Fatigue Analysis
Innovative lightweight design is the key to reducing consumption and pollutant emissions. Especially the paradigm shift currently underway towards more electrification demands new possibilities for saving weight to be explored. Thus the aim of this webinar is to show how a fatigue life analysis can be carried out for a modern electric drive system. Since vibration phenomena play an essential role here, a modal fatigue analysis is carried out. We present all the necessary steps to set up the modal fatigue analysis in FEMFAT channelmax and the fatigue results. The e-drive system will be subjected to an engine run-up simulation. The add-on tool HARMONIC is used for the data preparation.
Altair Monarch with RPA Automation Demo
This demo covers a use case in digital transformation by moving more customers to e-statements to reduce mailing costs, and human touch of mail. Altair Monarch simplifies the process of extracting data from the core banking platform to identify those customers who are still receiving statements by mail. RPA takes the information that was cleaned and properly formatted by Monarch, to enter it into the core banking platform to change the mailing status to electronic.
Inspire Mold 2020 Introduction
In this course, you will have the opportunity to learn about the Inspire Mold 2020 interface along with tools and workflows contained within Inspire Mold. Modules contained within the course provide detailed descriptions of the tools and workflows within Inspire Mold. You will also have the opportunity to watch and perform hands-on exercises within each module.
Breaking the Mold: Altair Inspire Mold Product Launch
With automatic mold generation, instantaneous configuration testing, and always-3D adaptive computation, our design simulation technology is mind-bogglingly fast, friendly, and accurate.
Get a better understanding of part filling, packing, cooling, warpage, while reducing molding defects long before a mold is designed.
Reduce concept and testing times from days to hours, and hours to minutes.
Cut product development costs
Make better product design decisions early
Deliver production-ready tools on time and on budget
Questions? Go to the Inspire Mold Community and participate to the discussion!
Activate for Systems Simulation and Controls
In this course you will find several topics covering Systems Simulations and Controls. The topics are broken into modules detailing each step of the process.
Enhance Aerospace Design Processes And Lower Development Costs with Altair SimSolid
During this webinar, we will showcase a game-changing design simulation technology for structural analysis that can augment and complement established design and PLM processes. Built from the ground up to handle large, complex models, Altair SimSolid provides fast and accurate simulation results - unmatched in the industry - to drive early and timely design decisions.
This robust technology, integrated in a modern, intuitive and easy-to-use interface, empowers designers and design engineers with a validated tool to conduct rapid design studies via upfront structural simulation. This rapid design performance feedback helps organizations minimize costly and time-consuming design iterations and conduct fewer tests. It not only shortens the overall product development cycle but, importantly, also lowers the cost of design, all while helping improve structural performance targets.
- Understand how to reduce physical prototyping, thereby reducing costs
- Improve structural performance targets
- Discover rapid design studies
Innovative Tools for the Next Generation Data Scientist
We’ll take you through Knowledge Studio which is a market-leading easy to use machine learning and predictive analytics solution that rapidly visualizes data as it quickly generates explainable results - without requiring a single line of code.
Knowledge Studio is a perfect fit to help manage credit and fraud risk, marketing analytics, product lifecycle design, customer loyalty programs, and supply chains.
From healthcare to financial services, telecommunications to product warranty claims, Knowledge Studio enables analytics teams to gain useful, actionable insight from their data.
Techniques we’ll walk you through:
Who should attend?
This event is perfect for anyone working with and analysing complex data in their organisations.
Antenna Coupling on an Electrically Large Object
Calculate the S-parameters (coupling) over a frequency range for three monopole antennas located near the front, middle and rear of a Rooivalk helicopter mock-up.
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.
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.
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.
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.
Different Ways to Feed a Horn Antenna
Calculate the far field pattern of a pyramidal horn antenna at 1.645 GHz.
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.
Results of Monopole Antenna on a Finite Ground Plane
View and post-process the results in POSTFEKO.
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.
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.
Using the MLFMM for Electrically Large Models
Consider the resource saving advantage of using the MLFMM for electrically large models.
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).
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.
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.
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.
Exposure of Muscle Tissue Using the MoMFEM Hybrid
Calculate the exposure for a sphere of muscle tissue illuminated by a dipole antenna.
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.
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.
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.
Waveguide Splitter with FEKO
See a demonstration of creating ana analysis of a waveguide splitter.
Optimization with FEKO
See a demonstration of the optimzation capabilities within FEKO on a bent dipole.
Pattern Optimisation of a Yagi-Uda Antenna
Optimise a Yagi-Uda antenna design to achieve a specific radiation pattern and gain at 1 GHz. The Yagi-Uda antenna consists of a dipole, reflector and two directors.
Optimizing the Productivity of Mines with Bulk Material Simulation
In this webinar we will introduce EDEM software, explain how it can be used to optimize the performance of bulk material handling and processing equipment, and go through examples of applications in the mining industry.
Challenges faced by mine operators
Introducing EDEM simulation technology
EDEM applications examples:
Live Q&A with our engineer
Medical Device Design and Optimization Leveraging Additive Manufacturing
Technology for designing optimized parts for additive manufacturing, from initial design through simulation of the 3-D printing process will be showcased. An extended example using a customized hip-implant will be used to highlight the various technologies used throughout the process. A brief overview of capabilities will be provided at the beginning, and a summary of benefits will conclude the discussion.
Learn How Northrop Grumman Uses Altair Asymptotic EM Solver to Validate Measurement
Join us for this OnDemand webinar, where Northrop Grumman engineer Keith Snyder demonstrates Altair Feko simulations to compare with measured patterns of a slant 45-degree omni directional antenna on a rolled edge ground plane. Advantages of using sampled nearfield currents in combination with large element physical optics (LE-PO) solution in Altair Feko in determining the far fields will be presented.
Altair Monarch Application for Procurement and Finance OnDemand Webinar
Watch this OnDemand Data Analytics Webinar to learn how Altair Monarch can help Procurement and Finance team improve their data efficiency and automate their data preparation.
Pharmaceutical Powder Process Modeling using the Discrete Element Method (DEM)
In this technical webinar hosted in collaboration with the Center for Structured Organic Particulate Systems (C-SOPS) at Rutgers University, experts will discuss how DEM can be used to better understand powders and optimize pharmaceutical manufacturing processes.
The focus will be on 3 main questions and areas:
- What is the residence time distribution of particle blends?
- How to study powder properties changes due to shear?
- How to understand API agglomeration in continuous powder flow?
Presentations will also cover examples of applications of Altair EDEM software and techniques for calibrating powders.
PollEx Unified Part Library Editor (UPE)
In this tutorial we will review the PollEx unified Part Library Editor for creating integrated part libraries.
PollEx PCB Thermal for Board Level Analysis
In this tutorial we will look at using PollEx to run a PCB Thermal Simulation for Board Level Analysis.
PollEx PCB Signal Integrity for Board Level Analysis
In this tutorial we will look at using PollEx to run PCB Signal Integrity for Board Level Analysis.
PollEx PCB Power Integrity for Board Level Analysis
In this tutorial we will look at using PollEx to run a PCB Power Integrity for Board Level Analysis.
PollEx PCB Redmark Plus for PCB Design Mark-up
In this tutorial we will look at the PollEx Redmark Plus capabilities for PCB design mark-up.
Activate for Hydraulic Simulation
In this course you will find 4 modules to help you learn how to use Altair Activate for Hydraulic Simulation.
OptiStruct Optimization 2020
The purpose of this self paced course is to cover the basics of OptiStruct Optimization. The course contains modules introducing the basic optimization types and giving an over of each. Many exercises are available in the modules that use the See It, Try It methodology. See It allows you to watch a video demonstration of the exercise covered in the section, while Try It gives you a pdf and model to try it in the software on your own.
Inspire Introduction 2020
In this course, you will have the opportunity to learn about the Inspire 2020 interface along with tools and workflows contained within Inspire. Modules contained within the course provide detailed descriptions of the tools and workflows within Inspire. You will also have the opportunity to watch and perform hands-on exercises within each module.
Battery Performance, Lifetime, and Safety
As battery technologies advance and consumers expect extended range and shorter charge times, using transient thermal simulation to predict battery performance has become increasingly crucial. Join us as we demonstrate how you can leverage TAITherm software and Battery Extension to accurately predict battery performance, lifetime, and safety in a wide range of real-world environmental conditions.
We will show you how to simulate different usage scenarios, and how heat produced by the battery can lead to failure including thermal runaway. We will take you inside TAITherm software while exploring case studies and examples of past results.