Understand, Optimize, and Perfect Product Motion
SIMULIA Multibody System Dynamics & Motion Simulation
Overview
SIMULIA Multibody System Dynamics and Motion Simulation provide engineers with deep insights into how complex mechanical and mechatronic systems move and interact. Integrated within the 3DEXPERIENCE platform, this solution enables precise motion analysis of assemblies—from vehicles and machinery to turbines and engines—helping teams design safer, more efficient, and reliable products faster.
SIMULIA Simpack Software Product
Overview
SIMULIA Simpack is an advanced multibody system (MBS) simulation software designed to analyze and predict the dynamic behavior of complex mechanical systems. From individual experts to enterprise-level engineering teams, Simpack enables the creation of virtual prototypes that improve performance, durability, and comfort. Known for its fast, robust solver and unmatched accuracy, Simpack empowers technology leaders to design smarter, safer, and more efficient products across industries.
Features
Experience high-fidelity simulation, collaboration, and precision with Simpack technology.
High-Fidelity Virtual Prototyping
Build precise digital representations of complex mechanical systems for motion and dynamics analysis.
Exceptional Solver Performance
Benefit from Simpack’s fast, stable, and advanced solver for real-time and nonlinear simulations.
Scalable Collaboration
Deploy seamlessly across teams and departments—from single users to global enterprises.
Real-Time Simulation Capability
Run dynamic models directly in real-time environments such as driving or hardware-in-the-loop simulators.
Reliable and Accurate Results
Utilize advanced mathematical techniques to ensure robust and high-precision simulation outcomes.
Applications
Discover how Simpack drives innovation across diverse engineering industries.
Automotive & Motorsport
Simulate full-vehicle dynamics including suspension, drivetrains, and handling for performance and comfort optimization.
Rail & Transportation
Analyze motion and stability of trains, tracks, and bogies to ensure safety and ride quality.
Aerospace & Defense
Evaluate actuation systems, landing gears, and flexible mechanisms for improved reliability and control.
Energy & Power Systems
Model internal combustion engines, electric motors, and generators to enhance efficiency and reduce vibration.
Industrial Machinery & Robotics
Optimize components, gears, and robotic motion to improve productivity and operational lifespan.