Altair’s one total twin solution empowers organizations to transform their products, systems, and processes. With features that combine leading simulation, high-performance computing (HPC), artificial intelligence (AI), data analytics, and Internet of Things (IoT) capabilities, teams can design, build, test, optimize, evaluate what-if scenarios, perform predictive maintenance, and extend the remaining useful life (RUL) of their products—without the need of physical prototypes.
Altair’s flexible, connected capabilities and smart product development solutions also enable comprehensive cross-functional system evaluation, which eliminates information silos and communication bottlenecks during product development. With these capabilities, organizations become more efficient and can deploy digital twin technology when and where they need it — through any or all lifecycle stages — from pre-production conceptual design through in-service performance.
In the pre-production stage, organizations can deploy the as-specified twin, which covers specifications and requirements, development, and simulation. These twins help teams design, analyze, and optimize performance in the earliest stages of the system lifecycle without requiring expensive prototypes.
As system concepts mature into detailed designs, organizations can deploy the as-designed twin for validation studies, real-world performance prediction, and streamlined mechatronic product development. Teams can also converge multiphysics simulation with advanced HPC, AI, and data analytics capabilities in a unified, cohesive environment.
Products for pre-production include Altair® Twin Activate™, Altair® Inspire™, Altair Drive, Altair® HyperWorks®, Altair® PollEx™, Altair® Flux®, Altair Compose®, Altair® Feko®, Altair® PSIM™, Altair® EEvision™, XLDyn, and Altair consulting services.
For systems that have reached the production stage, the as-built twin helps teams evaluate advanced virtual system dynamics under what-if scenarios, deploy reduced order modeling (ROM), detect design sensitivities, and resolve test failures. Organizations benefit from capabilities that enable mixed-reality simulations that lead to optimal designs — especially concerning very large structures or situations that are otherwise impossible to evaluate in the real world. Teams can also resolve test failures with multibody and controls simulation, and real-time visualization.
Organizations can use the as-manufactured twin to evaluate integrated software, processors, and hardware involved with system controls, such as human-driver, ergonomics, immersion, and virtual reality. Teams can simulate realistic and unexpected events, improve workability and operation windows, and produce high-fidelity displays of innovations in interactive, realistic environments.
Products for post-production include Altair Embed®, Altair® MotionSolve®, Altair® HyperStudy®, Altair® Panopticon™, Design Explorer inside of Altair® DesignAI™, and Altair consulting services.
See examples of digital twins for systems in pre- and post-production.
The as-sustained twin handles predictive analytics and maintenance of systems that are in service. Teams can leverage real-time data stream analytics and machine learning to optimize system performance, deliver ideal maintenance routines, trigger insights based on anomaly detection, determine a system’s RUL, and more. This capability delivers fast, real-time insights about system status, which helps organizations make optimal operational adjustments to maximize system life and avoid failures.
The Altair® RapidMiner® platform houses the tools users need for systems-in-service, including Altair® IoT Studio™, Altair SLC™, Altair® Monarch®, Altair® Knowledge Studio®, in addition to Altair's consulting services.
See examples of digital twins for systems in service.
Learn how Leonardo uses Altair digital twins.
At the core of our digital twin integration platform are our flexible, agile, and vendor-agnostic software capabilities for executing twins in production and connecting them to real-world data in real-time. This platform provides the essential building blocks for digital twin developers from various specialties to get started fast, scale efficiently, and streamline changes as systems evolve over time.
Learn how our platform and One Total Twin™ solution are helping numerous industries like yours:
See examples of digital twin integration.
Deploying a digital twin means you can make stronger, data-driven decisions about your product’s future. The detailed and in-depth information a digital twin provides empowers you to convert empirical insights to action, improving customer satisfaction through increased product reliability and improved performance. Altair provides you with the digital twin building blocks that allow you to connect disparate development disciplines and enable simulation-driven teamwork.
Electrical engineers, controls specialists, system engineers, structural designers, dynamics specialists, manufacturing experts, software developers and data scientists are provided with a new way to collaborate and gain holistic system understanding. Altair helps you understand how your product truly behaves in the real-world so you can make better decisions for your product's future.
Digital twins are especially powerful for product validation when physical prototype validation is unrealistic. Sometimes prototypes are too expensive, or operate in difficult to replicate environments, or require human intervention. In these scenarios, using a digital twin instead of a physical twin can help you understand your product's behavior for substantially less investment.
Additionally, digital twins can be subjected to many more experiments at much higher frequencies. They are the cost-effective, safe, and accurate way of testing your hypotheses before committing to print for manufacturing, patent for prosthetics, grid for racing, or go for launch.
In production, digital twins improve your asset’s performance, efficiency and remaining useful life. They are a digital window into your asset’s operation, applying physics and machine learning in real time so you can gain otherwise inscrutable information into behavior then translate it directly to action. This reduces the cost of operation, avoids production stoppages from catastrophic failures, and extends the working life of individual assets.
The Altair digital twin integration platform is the only solution that gives you a window to address the full complexity of your asset's operation — machine learning insights blended with physics simulation — to help you find hidden inefficiencies and correct them.
While digital twins' usefulness is unquestioned, their effective implementation can be difficult – every problem to be addressed with a digital twin needs a different approach to find the optimal solution. Altair addresses this complexity through a unique blend of physical simulation methods, data analytics, and machine learning techniques to provide a complete picture of the status of a product in the real world. Our approach can help you add virtual sensors where physical sensors are impossible, intuit maintenance needs ahead of catastrophic breakdowns, and optimize test rig performance — all within one ecosystem.
At any stage in your system lifecycle and through all levels of complexity, Altair can solve your most difficult problems with our one total digital twin solution.
A conversation with Selcuk Sever, Principal Engineer at Switch Mobility, discussing its collaboration with Altair to accurately predict the range of its electric buses. With accurate range prediction, Switch Mobility can give its public transport authority customer confidence that electric buses can meet the requirements of their bus routes.
Digital twin adoption is on the rise across various industries, replacing physical prototypes with comprehensive models that consider real-world scenarios and loading conditions. Organizations need integrated data and simulation platforms to stay ahead of the competition and ensure ongoing future leadership. Trust and efficiency are achieved through digital twins that align with actual product usage, enabling faster and more cost-effective testing. Operating system digital twins transform operational and risk management decisions, while trusted digital twins contribute to sustainability goals. Altair's one total twin solution converges simulation, high-performance computing, data analytics, and artificial intelligence seamlessly throughout the entire product life cycle. These advancements empower organizations to drive innovation and shape the future of their industries.
In a world where everything is becoming more and more connected, Mabe, a leader in home appliances, is leveraging the convergence of big data, analytics and simulation to accelerate innovation. Martin Ortega, Senior Design Engineer at Mabe, explains how they are using Altair's AI, data analytics and simulation solutions to uncover insights, create new business opportunities, and advance product development. Learn more - click here to read how connected products deliver big ROI.
Industry Innovator Luca Gatti Luca invites you to a virtual coffee break, to see why it is necessary to model and deeply study the physics behind a cup of coffee. Learn why Gruppo Cimbali SpA is creating digital twins of their coffee machines to fully embrace the digital transformation.