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Altair® SimLab®

Multiphysics Workflows with CAD Associativity

SimLab is a process-oriented multidisciplinary simulation environment to accurately analyze the performance of complex assemblies. Multiple physics including structural, thermal and fluid dynamics can be easily setup using highly automated modeling tasks, helping to drastically reduce the time spent creating finite element models and interpreting results. Altair’s robust, accurate and scalable solvers can run either locally, on remote servers or in the cloud,

An intuitive and self-explanatory graphical user interface covers all aspects of the modeling process. Instead of tedious geometry clean-up, work is performed directly on the geometry – imported and updated via the bi-directional CAD coupling - by defining mesh specifications for individual regions.

SimLab Overview Video

Quick Links

SimLab Applications Community Altair One™

Why SimLab?

Multiphysics

Seamlessly perform accurate linear and nonlinear structural, thermal, and computational fluid dynamics analyses locally or in the cloud.

Automated

Highly efficient feature recognition algorithms, process-oriented automation templates, and an intuitive GUI dramatically speed up the model build phase.

CAD Coupling

Geometry modifications, part variants, and assembly updates are easily managed via the bi-directional CAD coupling.

Key Features

Robust, Repeatable Simulation Workflows

Increase efficiency of simulation cycles with shareable, robust, and repeatable simulation workflows. Eliminate manual solid meshing, model setup, solver execution, and post-processing for high accuracy and consistency across the organization.

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Intuitive User Environment

Solve statics, dynamics, heat transfer, fluid flow, and electromagnetic problems in minutes directly from within SimLab’s intuitive user environment.

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Live Syncing to Parametric CAD

Rapidly explore and evaluate design changes on-the-fly with live synching to popular parametric CAD systems including CATIA, Pro/E Siemens NX, and SolidWorks.

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Automation: DOE/Optimization

Automation enables easy setup of results and convergence, design of experiments (DOE), and optimization.

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Comprehensive Solver Support

A common environment across pre- and post-processing with interfaces to several common FE solvers enables users to be versatile even when projects require to work with various tools.

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Multiphysics

SimLab enables efficient model setup of multidisciplinary, and multiphysics problems including co-simulation of disciplines, such as structural, CFD, electromagnetics, and thermal analysis.

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Workflow

  1. Getting Started
     
  2. Modeling: Bearings and Weldings
     
  3. Computational Fluid Dynamics (CFD)
     
  4. Vibro-Acoustic Analysis
     
  5. Structural Optimization
     

Featured Capabilities

Wistia

Automated Results Convergence

 
Wistia

Integration CAD/FEA for Optimization/DOE

 
Wistia

Automated Weld Mesh

 
Wistia

Automated Bearings Mesh Creation

 
Wistia

Mesh Editing with Face Replace

 
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Automated LBCs Assignment

 

Additional Resources

Customer Stories
Knowledge Base
Product Forum

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