Fast and Cost-Effective Compressor Map Generation using Cloud-Based CFD
View WebinarHigher complexity doesn't imply higher cost
View Blog PostCreating complex geometry simply and mixing lattice structures with easy in nTop Platform.
View VideoSoftware solutions like nTop Platform enable engineers to design medical implants that are biologically-relevant and optimized for osseointegration.
View Blog PostLearn how nTopology's generative design software, nTop Platform, allows engineers to automate workflows, optimize designs, and go right to manufacturing.
View Blog PostComplex modeling operations, often seen as risky or fragile in traditional CAD software, do not fail in nTop Platform. Because of automation, things like large scale fillet operations can be condensed to a property or variable as part of a separate modeling operation.
View Blog PostEveryone wants lighter parts, be it for quicker cars, cheaper air travel, or simply bragging rights at your next group bike ride. But it's often difficult to know where to start, with the endless combinations of materials, processes, and design tools available today. Here's a list of 5 techniques to get you started on putting your parts on a diet.
View Blog PostVirtual Testing of Severe Service Control Valve with Autodesk CFD in the AWS Cloud
View WebinarAfton Chemical Corporation HPC Case Study: Fluid Performance
View WebinarSimulation is a good choice to find the best frequency to heat the step properly.
View Blog PostThe Surface Impedance approach enables simulation of high frequency induction heating in few minutes, without building a huge mesh. Induced heat in a steel strip is accurately calculated in 10 minutes for 300 kHz, while traditional FEM simulation takes about 10 hours.
View Blog PostHeating of the 10 cm 45 teeth gear up to the austenitization temperature performed with overnight simulation, taking into account changes of magnetic properties over Curie temperature. You can get hardening profile without cutting the gear and optimise frequency within in a couple of days.
View Blog Post1h simulation allows to test performance of a new-designed coil virtually, saving time and money for building it.
View Blog PostMaking product development seamless and efficient across disciplinary boundaries requires blurring the lines between systems modeling, design, and analysis, while capturing a complete, accurate, traceable, and configuration-managed digital record of the product’s definition as it evolves—a complete Digital Thread of product data. Download this article from Digital Engineering.
View ArticleThe idea of simulation governance is easy to understand: The application of numerical simulation technology must be properly governed in every organization. In this article, ESRD Chairman and Co-Founder Dr. Barna Szabó explains that the responsibility for simulation governance rests with board-level executives. They exercise this responsibility through setting the goals, objectives and metrics to ensure that the economic value of numerical simulation is positive.
View Blog PostADAS (Advanced Driving Assistance Systems ) and AD (Autonomous Driving) systems are the next big frontier for automotive companies. The challenge lays in finding the right balance between minimizing the number of accidents and casualties while maximizing the comfort of traveling in complex conditions.
View Blog PostExperts, non-experts, companies, associations, and volunteers are coming together to create a public resource portal that supports advanced simulation across product development teams.
View ArticleCoupling in-house Finite Element code with Ansys Fluent
View WebinarBoosted by new, easier to use tools and more readily available computer resources, simulation technology is increasingly used more frequently and earlier in the design process, and by a wider array of professionals.
View ArticleLet's discuss the importance of keeping your digital twins in sync with real products. Models so accurate they’re a digital twin of the product you’re creating can help you throughout the design and development process. 1D models can help you determine the best architecture for your multi-physics system, 3D models can help you design into the details, and testing can help you improve modelling realism. Combining all the three technologies gives you the highest possible accuracy while making design decisions. But in today’s world the design job isn’t done when you ship. You have to be able to take feedback, track how products are used – with detailed data coming from the increasing numbers of sensors in modern devices – and then use that to support, maintain and improve the products you have out in the market, as well as incorporating all that information into your next generation. That means keeping your digital twins in sync with the real products, even once they’re in customers’ hands.
View ArticleHow can food and beverage companies use the digital twin and industrial IoT to dramatically improve production performance? This eBook shares the value of the digital twin and IIoT for companies that produce food and consumer packaged goods. Then, it shares some practical examples and advice to get started down the path to streamline R&D and new product development, optimize production plans, increase performance, gain production intelligence, improve quality, and compete as an integrated supply chain.
View ArticleIn a commissioned study of IoT decision makers conducted by Forrester Consulting on behalf of Siemens in May 2019, respondents of varied IoT maturity levels recognized that digital twins can continuously improve their product offerings and improve product quality.
View ArticleKaren Willcox is a leading aerospace researcher and expert in simulation-based engineering who specializes in the aerospace industry. Her work on simplified simulation models has made it possible to accelerate the development and design of complex systems.
View ArticleInnovation and new technology applications are being established as part of core business management tools and are starting to appear in the area of managing M&A. When M&A is announced, organisations are committing to buy an asset or asset groups – at which point a due diligence effort is usually conducted to establish the actual state of the asset. Digital Twins have shown significant promise for the management of assets, and could also be transformational in the M&A process to qualify the quality of the assets.
View ArticlePREVIOUS WEBINAR AVAILABLE ON DEMAND The phrase “digital twin” has become the be-all-and-end-all of manufacturing buzzwords, stirring up Utopian views on what it can do for predictive maintenance, simulation and more. But how is a digital twin different from a 3D CAD product model? Can it ever live up to its full potential? Is anyone really making use of digital twins? In this LIVE webcast, DE challenges panelists to discuss: a no-nonsense definition of digital twins; the types of products that make sense as digital twins; real-world examples of digital twins in operation.
View WebinarDigital twins are virtual representations of physical products. They have the ability to unlock value and optimization throughout a product’s lifecycle. By leveraging real-world data from IIoT-connected product and physics-based simulations, digital twins can better inform and predict product performance. This enables users to develop new designs, operations and controls to optimize performance, reduce downtime and enable service-based products — often without the customer needing to upgrade hardware. The technology to get an IIoT digital twin running is available, however, many organizations are having a hard time implementing and connecting all of the digital, physical and data assets together. With the help of ANSYS Twin Builder and PTC ThingWorx, engineers can simplify the creation of digital twins using physics-based simulations.
View Blog PostFor industry and the internet of things (#IoT), digital twins, offering virtual representations of real-world products will be the innovation backbone of the future. Entire systems can be simulated and tested long before a physical prototype has been built. Even operation of existing systems can be further optimized using a #DigitalTwin. Imagine the extraordinary possibilities merging them with artificial intelligence (#AI). Industry experts for digital twins are already using all these possibilities in concrete applications. Siemens Stories on Digital Twin: https://sie.ag/2FSldHZ Make use of it: https://sie.ag/2XcV2q8
View VideoKaren Willcox is a leading aerospace researcher and expert in simulation-based engineering who specializes in the aerospace industry. Her work on simplified simulation models has made it possible to accelerate the development and design of complex systems. Karen E. Willcox is Director of the Oden Institute for Computational Engineering and Sciences and a Professor of Aerospace Engineering and Engineering Mechanics, at the University of Texas at Austin. She holds the W. A. “Tex” Moncrief, Jr. Chair in Simulation-Based Engineering and Sciences and the Peter O'Donnell, Jr. Centennial Chair in Computing Systems. Prior to joining the Oden Institute in 2018, she spent 17 years as a professor at the Massachusetts Institute of Technology, where she served as Professor of Aeronautics and Astronautics, the founding Co-Director of the MIT Center for Computational Engineering, and the Associate Head of the MIT Department of Aeronautics and Astronautics. She is also an External Professor at the Santa Fe Institute.
View ArticleExploring how digital twins are shaping our digital fabric and engineering future.
View ArticleAt the center of the "Simulation and Digital Twins" colloquium was the question of how to better monitor processes and plants using digital twins, and how simulations offer completely new possibilities for 3D production.
View ArticleIndustrial research requires simulation experts with a passion for digital twins. In the race to innovate, their enthusiasm makes the crucial difference.
View PresentationFrom RevSim sponsor PLM Alliances' principal Rich McFall comes this excellent CMSights Blog: In this month’s CMsights we asked Configuration Management practitioner, standards influencer, trainer, and author Kim Robertson to help us distill all the hype about digital twins and digital threads so we can understand their impact on as-maintained configuration management for long-life aerospace & defense equipment. Kim Robertson has over 39 years of experience in the A&D sector and is a co-author of “Configuration Management: Theory, Practice and Application” which is being used as the text for a graduate level course in C&DM at the Technical University of Eindhoven. He holds a CMPIC Configuration Management Principles and Implementation certification and is a National Defense Industrial Association (NDIA) Certified Configuration Data Manager (CCDM). Kim is a member of the SAE International G-33 committee for CM Standards and worked on Revision C of SAE/EIA-649.
View Blog PostManned diving operations are a necessary part of maintaining offshore oil and gas assets, but also a very costly and dangerous process. With new technological developments such as Digital Twins, could a future where divers no longer have to work on offshore rigs be in sight? Umar Ali explores the potential of ‘zero dive.’
View ArticleBECOMING A PREDICTIVE DIGITALLY ENABLED COMPANY”, presented by Front End Analytics, reveals how FEA’s Predictive Analytics 3.0, deployed using EASA, is enabling the adoption of artificial intelligence (AI), machine learning (ML) and digital twins for next generation simulation and modeling.
View PresentationFor industry and the internet of things (#IoT), digital twins, offering virtual representations of real-world products will be the innovation backbone of the future. Entire systems can be simulated and tested long before a physical prototype has been built. Even operation of existing systems can be further optimized using a #DigitalTwin. Imagine the extraordinary possibilities merging them with artificial intelligence (#AI). Industry experts for digital twins are already using all these possibilities in concrete applications.
View VideoHPC Case Study Valve Design: Clippard Instrument Laboratory had a proportional valve that was not delivering consistent performance. See how Democratizing HPC was able to help.
View WebinarEASA's Sebastian Dewhurst discusses how much faster the learning process would be if an algorithm "knew". There would be far fewer failures early on, and far less data would be required.
View Blog PostLearn why it is essential that Sim Apps implement Numerical Simulation technologies which enable the practice of Sim Gov in order for the vision of democratization of simulations to be realized, as well as why it is important for engineering managers to get on the Sim Gov train sooner rather than later.
View WebinarDemocratizing High Performance Computing: North Sea Asset Life Extension: Assessing Impacts on Helicopter Operations
View WebinarDemocratizing HPC Case Study: Transmission Simulation
View WebinarPresented at NAFEMS World Congress 2019 - A tool-agnostic, unified, requirements-driven, systems-centric data model is required to best capture data for simulation and SPDM. This paper presents case studies to illustrate the benefits of this approach for representing and managing the simulation data and automating complex multi-fidelity, multidisciplinary simulations that include dynamic controls software.
View PresentationCase Study: Gas Liquid Two-Phase Flow Application - Evaluation of gas rate due to liquid flow in energy plant liquid storage facility
View WebinarGPU-powered simulation advances democratization of simulation.
View ArticleDeveloping efficient processes to gain critical information to test aerodynamics and analyze racing behavior on various tracks keeps NASCAR ahead of the curve.
View WebinarOur third installment details application options and look at some of the solution providers who are helping companies implement the processes and tools to more fully leverage engineering simulation.
View ArticleIn this Blog post, Pointwise President, John Chawner shares the company's work to automatically generate an unstructured or hybrid mesh on and around virtually any geometry model.
View Blog PostWatch and download the presentation given by Steve Karman, Pointwise, Inc. at the Pointwise User Group Meeting about how Pointwise used custom Glyph scripts to automatically generate high-quality unstructured meshes for Engineering Sketch Pad (ESP) geometries, saving time and freeing users from repetitive and tedious tasks.
View PresentationTechnical Paper presented at AIAA SciTech 2019 describes a process that automatically creates unstructured meshes from water-tight geometry input using Glyph scripting. Utilizing this process, one can reduce meshing time by up to 90% and manual input from hours to minutes.
View ArticleThe phrase “digital twin” has become quite the manufacturing buzzword, stirring up Utopian views on what it can do for predictive maintenance, simulation and more. But how is it different from a 3D CAD product model? Can it ever live up to its full potential? In this LIVE webcast, DE engages expert panelists to discuss the topic.
View WebinarDemocratizing HPC Case Study: CFD Analysis of a V6 Intake Manifold with STAR-CCM+
View WebinarSimulation and analysis (S&A) has traditionally been a complex undertaking handled by a small community of CAE simulation experts. They typically work on complex problems and the specialized simulation software they use reflects that intricacy.
View ArticleMany of today's PLM solutions are notably not focused on enhancing functionality to support engineering, instead focusing on capabilities for other aspects of this business. In this video, we talk about how Aras has invested in simulation and system engineering capabilities for Innovator.
View Blog PostESTECO President, Carlo Poloni shares some ingredients that have proven to be essential for effective decision making in the digital world.
View Blog PostFrom Engineering.com - Verdi Ogewell posted on February 06, 2019
View ArticleConfigurable safety relays help prevent injuries and damage in factory automation systems by cutting off electrical power in response to data received from sensors. When a safety relay fails, the production line must be halted until the relay can be repaired or replaced, resulting in expensive downtime.
View ArticleOhio Supercomputer Center Case Study on Pallet Design
View WebinarDigital Engineering Editor, Jamie Gooch writes how configuration management, system thinking and sustainable transformation guide Aras expansion.
View ArticleThe oil and gas industry is always searching for ways to produce energy at lower costs. To achieve this goal, the industry can apply oil and gas digital twins to various industrial equipment. Physics-based digital twins provide prognostics and health management which enables system optimization and predictive maintenance.
View Blog PostCase Study – Dielectric Heating of an Insulated Block
View WebinarDesign World Magazine, April 2019: Through the process of “democratization” organizations can safely put the power of engineering simulation into the hands of those who are not experts in using CAE software, including product designers, new engineers and even those in technical sales and customer support.
View ArticleRev-Sim Coffee Break Webinar Series. Democratizing HPC Part 10
View WebinarRev-Sim Coffee Break Webinar Series. Democratizing HPC Part 9
View WebinarCambashi, a leading UK-based computer/software market analyst firm has just published this article on the growing importance of Digital Twins.
View ArticleIndustry 4.0 and digital twins are buzzwords we hear on a daily basis. But how far have companies come, and how does COMSOL come into play in the new era? Here, we will look into one successful case, where ABB Traction Motors intends to make mass customization available by using simulation applications for electric motor design. By turning high-fidelity multiphysics models into simulation applications, new analysis capabilities are planned to be available to several departments, from product design to sales.
View ArticleCOMSOL Blog: "Is the term “digital twin” just hype, or a trick to get a new angle to sell modeling software? In this blog post, we discuss the difference between models, applications, and digital twins. We conclude that although the term has been misused to a certain extent (in relation to the original formulation), there is substance behind it."
View ArticleGrowth in the Internet of Things is spurring interest in digital twins. Here's how you can make money from it.
View Article"By definition, a virtual sensor is a type of software that, given the available information, processes what a physical sensor otherwise would. It learns to interpret the relationships between the different variables, and observes readings from the different instruments. Think of it as a kind of a “ghost” of the physical sensor." (Chad Jackson)
View Blog PostSiemens PLM Software partners with Modelon, plans to integrate Modelon’s OPTIMICA Compiler Toolkit as the Modelica engine for Simcenter Amesim 17.
View Blog PostModelon’s hydraulics and pneumatics capabilities are now available within ANSYS Twin Builder. Learn more about the Fluid Power Library.
View Blog PostCarbon Capture and Storage (CCS) technology is steadily emerging as a leading technology for the decarbonization of large-scale commercial powerplants. In this blog, researchers of The Norwegian University of Science and Technology study the effectiveness and implementation of CCS technology using Modelon's modeling and simulation solutions.
View WebinarTrying to decide when to use GPUs on HPC? Check out this whitepaper!
View ArticleIn an interview with Insights Success, David Heiny, CEO and Co-founder of SimScale, shares his insights into the company’s journey and its simulation solutions and services.
View ArticleSimScale's Anastasia Churazova writes about democratizing simulation in this 2018 blog post.
View Blog PostRev-Sim Coffee Break Webinar Series. HPC (High Performance Computing) Part 7: Democratizing HPC - CFD Modeling of ABB Transformers
View WebinarZF applies the latest VR and simulation technology.
View Blog PostPeople have been feeding sensor data to simulations for years. How are Digital Twins different? This post explains the key difference between the two scenarios.
View Blog PostAkselos to generate Digital Twins of pressure vessels within the OGTC robotics program.
View Blog PostDemocratizing HPC. Ohio Supercomputer Case Study: Aircraft Design
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