Simulation
LMS Imagine.Lab platform
The innovative Model-Based System Engineering approach for mechatronic system developmentAccelerating the engineering process
The increasing product complexity including more controls and software is driving the market towards systems engineering. Processes are transforming into model-based systems engineering approaches to support mechatronic product development. Multi-physics system simulation in combination with controls, also known as mechatronic system simulation, is essential to validate alignment to performance requirements during all development phases. With the new developments in the LMS Imagine.Lab platform, LMS answers the trend towards model-based systems engineering by making multi-physics subsystem and system models available as “plant” models to frontload controls engineering based on MiL, SiL and HiL development approaches.
LMS Imagine.Lab, an open software platform for Mechatronic System Simulation
LMS is a solid choice for model-based systems engineering thanks to the latest developments in LMS Imagine.Lab. Geared towards mechatronic system simulation, the LMS Imagine.Lab platform offers an open approach starting from functional requirements to physical modeling and simulation.
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LMS Imagine.Lab AMESimCreate and run multi-physics simulation models to analyze complex system behavior and support the design of controlled system from early specification to subsystem testing. |
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LMS Imagine.Lab SysDMStore and organize system mechanical and controls models and data across the organization. |
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LMS Imagine.Lab System SynthesisSynthesize ever more complex systems and create product architectures based on performance requirements. |
LMS Virtual.Lab
LMS Virtual.Lab Rev 11 makes virtual simulation even more realisticThe integrated environment for functional performance simulation
LMS Virtual.Lab is an integrated suite of 3D FE and multi body modeling software which simulates and optimizes the performance of mechanical systems for structural integrity, noise and vibration, system dynamics and durability. Using LMS Virtual.Lab, engineering teams can build accurate simulation models, simulate their real-life performance, quickly assess multiple design alternatives and optimize designs before prototype construction.
Accurately simulate real-life behavior
This suite accurately models and simulates mechanical design behavior in real-life circumstances. Its robust and accurate solvers and innovative tools take actual user circumstances into account. LMS Virtual.Lab accurately detects weak spots and allows users to efficiently explore multiple design alternatives in time to impact major design decisions.
Streamline product development
LMS Virtual.Lab covers all the process steps and required technologies to perform an end-to-end design assessment in each key discipline.
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LMS Virtual.Lab AcousticsAcoustic simulation. Create and run multi-physics simulation models to analyze complex system behavior and support the design of controlled system from early specification to subsystem testing. |
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LMS Virtual.Lab MotionLMS Virtual.Lab Motion offers a highly efficient, completely integrated solution to build multibody models that simulate the full-motion behavior of complex mechanical system designs. |
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LMS Virtual.Lab Noise and VibrationLMS Virtual.Lab Noise and Vibration is developed to efficiently analyze, refine and optimize the vibro-acoustic behavior of a design. |
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LMS Virtual.Lab CorrelationLMS Virtual.Lab Correlation allows users to combine test-based and virtual component models into system-level models for more productive simulation. |
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LMS Virtual.Lab DurabilityLMS Virtual.Lab Durability allows engineers to design reliable products right from the start. |
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LMS Virtual.Lab StructuresLMS Virtual.Lab Structures offers a scalable solution for structural modeling and analysis, integrating advanced model creation and manipulation tools to efficiently generate component, subsystem and full-system models. |
LMS Samtech
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CAESAMCAESAM is a high level CAE integration platform allowing the customization and management of the entire engineering process, involving commercial software and in-house skill tools... |
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SAMCEF RotorsSAMCEF Rotors is a solution specifically dedicated to the analysis of rotor dynamics of fast rotating machines, like turbo machines, propellers, fans, etc.. Based on Finite Element Theory, SAMCEF for Rotors enables the computation of critical speeds as well as responses to excitations, in the frequency and.. |
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TEA PipeTEA Pipe is a professional application dedicated to Piping and Tubing Simulation. It will allow the user to simulate mounting scenario and calculate initial and then operating positions and efforts in the pipe. In addition, it can be used to prevent vibration and check for excessive curvature or collision with other objects... |
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SAMCEF Wind TurbinesSAMCEF Wind Turbines is a professional solution dedicated to wind turbine mechanical design and optimization. It provides engineers with a easy access to the dynamic behavior of the wind turbine assembly and also to detailed analyses of all relevant Wind Turbine components... |
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SAMCEF Solver suiteSAMCEF is LMS Samtech's general-purpose analysis solver suite. It is based on the Finite Elements Method and covers a large range of applications, from basic to very advanced, in numerous industrial fields. |
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SAMCEF FieldSAMCEF Field is LMS Samtech’ Graphical User Interface driving all Finite Elements based SAMCEF solvers, from Linear, Non-Linear and Thermal Analyses potentially containing flexible Multi-Body Simulation features to dedicated solutions like SAMCEF Rotors and SAMCEF Powerlines and Substations. |
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SAMCEF embedded in CATIA V5Thanks to SAMCEF Gateway and TEA software, CATIA V5 users benefit from LMS Samtech recognized expertise in high quality Finite Element Analysis, respectively for preliminary design activities and for detailed verifications. |
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BOSS quattroBOSS quattro is an open application manager for parametric analyses, design of experiments, multidisciplinary optimization and sensitivity analysis, statistic analyses and updating. |
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EUROPLEXUSEUROPLEXUS is a general Finite Element Software for the non-linear dynamic analysis of Fluid-Structure systems subjected to fast transient dynamic loading: explosive fluids, impacts, flow variations (subsonic, transonic and supersonic), dynamics of pipelines in the presence of internal flow. |
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SAMCEF Powerlines & SubstationsSAMCEF Powerlines & Substations is our professional solution dedicated to simulation of the mechanical behavior of the electricity supply network. It computes static configurations when imposing either cable length, tension at some point or maximum sag. |
NUMECA International
Innovative CFD solutionsAccelerating the engineering process
NUMECA International's product strategy is based on the development of automated and customized Flow Integrated Environments (FINETM):
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Fine/TurboFINETM/Turbo is a Flow Integrated Environment dedicated to the simulation of rotating and turbo machinery flows. |
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Fine/OpenFINETM/Open is a Flow Integrated Environment dedicated to the simulation of complex internal and external applications. |
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Fine/MarineFINETM/Marine is a Flow Integrated Environment especially designed for marine applications. |