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Altair® Twin Activate™

Converging Multidisciplinary System Simulation with Digital Twins

Altair® Twin Activate™ is an open and flexible integration solution that enables whole system simulation with real-time digital twin deployment through any stage of the product lifecycle.

Through a unique block-diagram modeling environment, teams can model systems and systems-of-systems of any complexity. They can then test and predict system performance under various conditions using Altair’s digital twin solution that converges multidisciplinary, multiphysics simulation with revolutionary artificial intelligence (AI), data analytics, and high-performance computing (HPC) technologies.

Twin Activate’s purpose-driven simulation capabilities facilitate mixed-fidelity modeling that helps teams define simulation areas of interest. This efficient approach saves time and resources while quickly generating the most meaningful analyses possible. What’s more, unparalleled collaboration is the key; teams from different engineering domains can contribute to the same source models, incorporate existing workflows, eliminate information bottlenecks, and gain deeper, actionable insights faster.

Why Twin Activate?

Two-arm robots on the factory floor; multi-colored mesh pattern on one robot represents digital twin.

Holistic Assessment

Simulate entire product system and system-of-systems performance to better assess overall behavior and interactions between components and subsystems. Incorporate multidisciplinary aspects in your simulations, including coupling 1D and 3D models.

Three-blade wind turbine; one blade has a white mesh pattern that represents a digital twin.

Digital Twins

Connect reduced order models (ROMS) to physical assets. Leverage live data streams and simulated data to test models through what-if scenarios and inform designs starting at the concept stage. With Twin Activate, organizations unlock limitless insight, accelerate innovation, and improve engineering decisions throughout all phases of development.

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Open and Flexible

Twin Activate’s integration platform offers seamless connectivity and interoperability between multidisciplinary systems by supporting native Modelica, Spice, Python, OpenMatrix (OML), and C languages. Additionally, it enables collaboration through the Functional Mock-up Interface (FMI) standard and supports digital twins through open protocols such as MQTT.

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Get Started with the Altair® Twin Activate™ Personal Edition

Experience multidisciplinary simulation with the Altair Twin Activate Personal Edition – the ultimate system simulation solution tailored for non-commercial, hobbyist, and personal use.

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Key Features

1D System Simulation

Simulating at the system-level is much faster than 3D simulation and enables complete product performance assessment. Relying on greater levels of model abstraction enables rapid design exploration and deeper performance insight early in the design cycle.

Block Diagrams, Control System Design

The intuitive block-diagram modeling environment enables easy development of today's smart systems involving sensors, actuators, feedback, and built-in logic.

Mix Signal-Based and Physical Modeling Within Diagrams

Leverage the power of pre-defined Modelica libraries for modeling common mechanical, electrical, hydraulic, and thermal components.

Code Generation

Compile models into executable code that captures dynamic behavior; use the code for a variety of applications: block customization, exporting to other simulation environments, standalone Windows and Linux applications or specific targets such as Arduino, and more.

Seamless Integration with Other Altair Tools

True multidisciplinary system simulation is possible via co-simulation with Altair® MotionSolve® for controlled multibody dynamics, Altair® Flux® for controlled motor performance, and Altair® PSIM™ for power converter and motor drive simulation.

Import and Export Support for Functional Mock-Up Interface (FMI)

Enables model exchange or co-simulation connections to all tools that support the FMI standard.

Key Capabilities

1D Block Diagram Modeling

 

Physical Modeling via Modelica

 

Combining 1D Signal and Physical Blocks

 

Open System Integration via FMI

 

1D/3D Active Suspension Example

 

0D and 1D Modeling