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Generation of Antenna Array Excitation
See how Altair Compose can be used for the automatic generation of antenna array excitations. You can seamlessly perform the necessary calculations, data formatting and output for use with Altair Feko.

Wireless Network Design for Railway Scenarios, Including Tunnels and Metro Stations
Key challenges for train/metro operators are increasing traffic volumes, ensuring passengers safety and security during their journey, as well as providing real time multimedia information and access to social networks in stations and tunnels. To meet these requirements various broadband telecommunication networks based on WiFi, GSM-R, LTE need to be put in place.

This webinar will show how WinProp is used for the wireless network design and deployment in various railway scenarios including tunnels and metro stations, inside train wagons, as well as along railway tracks. Both antennas and leaky feeder cables can be deployed in the 3D environment of the station/tunnel scenario including the train.

Improving Electric Vehicle Range with Advanced Losses Computation Considering PWM Across a Full Duty Cycle
Introducing electric traction in automotive brings new challenges for the design of electric machines. Nowadays designers have to consider increasing constraints like efficiency, temperature, weight, compactness, cost but also stricter regulations, while reducing time to market. Fortunatly, Altair proposes disruptive methodologies to make relevant choices in the early stage of the design, based on numerical simulation and optimization techniques.

Once the machine has been selected and designed in Altair FluxTM this webinar covers how an electric motor design's performance is evaluated and maximized considering its global efficiency along the whole driving cycle.

The next design challenge is to get an accurate estimation of the losses, which becomes more and more strategic in the design process in order to accelerated speed to market with balanced design and confidence. This estimation is also a key issue of thermal design. Therefore, the study of losses (in particular non-conventional losses) is crucial. Two methods are proposed to take the current wave form into account: by using an equivalent circuit model in Altair ActivateTM system modelling software, or by representing the PWM in Flux circuit context.

SimLab Tutorials - Solver Setup for Thermal Steady State Analysis
Create material and apply properties; create user-defined contacts; apply thermal loads and define loadcases; define lines static loadcases with the temperature leadcase included; create proper solver settings for each loadcase; export and solve for multi-physics analysis

SimLab Tutorials - Setting up a CFD Steady State Analysis - Manifold
Define boundary and initial conditions; create material and apply properties; edit the solver settings to run the analysis

SimLab Tutorials - Conjugate Heat Transfer
Create a tetra mesh with CFD boundary layer; work with turbulence and temperature equations; define CFD boundary conditions based on inflow average velocities and convective heat flux; define symmetry plane; create material and define properties; run and post-process a CFD steady state analysis

SimLab Tutorials - Steady Flow in a Centrifugal Blower
Create a tetra mesh with CFD boundary layer; work with moving reference frame; define CFD boundary conditions based on turbulence viscosity ratio; edit the solver settings; run and post-process the analysis

SimLab Tutorials - Natural Convection Around a Hot Cylinder
Create a tetra mesh with CFD boundary layer; apply gravity and define Heat source; apply initial and temperature boundary condition; create symmetry planes; visualize results as contour or as vector

SimLab Tutorials - Turbulent Flow in a Mixing Elbow
Import custom ribbon; create a tetra mesh with CFD boundary layer; apply CFD boundary conditions; run a steady state turbulent flow analysis; visualize results as contour or as vector

SimLab Tutorials - SPH Analysis with nFX - Drivetrain
Define nFX material and properties; apply simulation conditions; create nFX particles; export solver deck

SimLab Tutorials - Modal Frequency Response Analysis of a Crank Shaft
Create a modal frenquency response analysis in the solution browser; define an excitation load based on applied loads; create a table with modal damping values; define the solution settings and output requests; compute solution and review results; plot and X Y graph for the displacements versus frequency

SimLab Tutorials - Modal Frequency Response Analysis of a Sphere
Create isotropic and fluid material and define the properties accordingly; define acoustic behavior to a shell entity; apply enforced displacement to be used for an excitation load; create solver settings and output requests; compute the solution and review the results; plot an XY graph for the pressure versus frequency

SimLab Tutorials - Pre-Tensioned Bolt Analysis of Connecting Rod
Import material database, create washer surface and define property; create solid bolts with pretension; define loads, constraints and contacts; define loadcase and solver settings; compute and review the results

SimLab Tutorials - Linear Static Analysis of ConRod
Create linear static solution; define constraints and loads; define contacts; create material and apply properties; run the analysis and review the results

SimLab Tutorials - Normal Mode Analysis - Brake Assembly
Create coincident mesh with join tool; create normal analysis solution; define constraints and spring elements; apply stick contact type; solve and review the displacement and stress

SimLab Tutorials - Modal Frequency Response Analysis_Bracket
Create RBE and apply constraints; apply an excitation load; create material and apply properties; define a load case and modify the solution parameters; run the analysis and plot the frequency dependent results

SimLab Tutorials - Non Linear static Analysis_flex plate
Apply symmetry constraints; apply enforced displacement constraint; create 3d bolt with pretension; create advanced contacts; create loadcase; modify solution parameters; solve and review the results

SimLab Tutorials - TFSI_AutoSolve
Import model containing a CFD solution; check the loads and boundary conditions created on a second solution; create a loadcase that included the output temperature and pressure from the CFD solution; review the mapped loads and results

SimLab Tutorials - Coupled Linear Structural Thermal Analysis
Create a heat transfer solution and add thermal constraints and heat flux; create a linear static solution and include the thermal analysis subcase as loadcase parameters; visualize the loadcases results separately

SimLab Tutorials - Linear Steady State Heat Convection Analysis
Create a steady state heat transfer solution; apply thermal loads such as constant temperature and uniform convection; solve and visualize grid temperature

SimLab Tutorials - Linear Transient Heat Transfer Analysis
Split faces using chaining edges; create a transient heat transfer solution; create material with thermal properties; define initial conditions; apply thermal loads such as time dependent heat flux and convection; define solver settings and analyze

SimLab Tutorials - Steady State Heat Transfer Analysis
Create different materials with thermal properties for the cylinder, fin and insulators; create steady state heat transfer; apply tie contacts between the bodies; define thermal loads such as flux and convection

SimLab Tutorials - Suspension Insulator
Create electrostatics solution using flux solver; create dielectric material by atributing a relative permitivity; define region physics such as air, dielectric and perfect conductor; create tangential field symmetry plane; compute and review the results

SimLab Tutorials - Transient Heat Transfer Cooling Time Study - Casted Housing
Create material with thermal properties; create transient heat transfer; define initial conditions; define time dependent convection; define the solver settings and analyze

SimLab Tutorials - Conjugate Heat Transfer
Create a tetra mesh with CFD boundary layer; work with turbulence and temperature equations; define CFD boundary conditions based on inflow average velocity and convective heat flux; define symmetry plane; create material and define properties; run and post-process a CFD steady state analysis

SimLab Tutorials - Steady Flow in a Centrifugal Blower
Create a tetra mesh with CFD boundary layer; work with moving reference frame; define CFD boundary conditions based on turbulence viscosity ratio; edit the solver settings; run and post-process the analysis

SimLab Tutorials - Transient Flow in a Mixing Elbow
Create a navier-stokes flow transient solution; apply average velocity inlets and define outlet; create convective wall and define symmetry plane; define initial conditions; create material and define solid and fluid properties; defineproper solution parameters; update results and review the output

SimLab Tutorials - Thermal FSI of Exhaust Manifold
Extract fluid surface from the solid; create CFD tetra mesh and boundary layer; apply boundary conditions with constraint option activated; run and post-process steady state analysis

SimLab Tutorials - Turbulent Flow in a Mixing Elbow
Import custom ribbon; create a tetra mesh with CFD boundary layer; apply CFD boundary conditions; run a steady state turbulent flow analysis; visualize results as contour or asa vector

SimLab Tutorials - Natural Convection Around a Hot Cylinder
Create a tetra mesh with CFD boundary layer; apply gravity and define heat source; apply initial and temperature boundary conditions; create symmetry planes; visualize results as contour or as vectors

SimLab Tutorials - Setting-up a Model for Molding Process
Import, position and inspect a CAD model; create mesh controls, surface mesh and organize the parts; create solution and define polymer properties to the bodies; define initial and boundary conditions; apply solver settings, export the deck and solve

SimLab Tutorials - Parametric DOE Optimization using CAD Software Creo
Create a CAD parametrized model in PTC creo; create a project in simlab; run a project using interactive mode; set up a DOE study and run the experiments

SimLab Tutorials - Topology Optimization with Manufacturing Constraints
Create RBE connectors; create LBC and load cases; define the design space for a topology optimization; define responses; create manufacturing constraints; set an optimization objective; run an optimization with OptiStruct

SimLab Tutorials - Topology Optimization with Pattern Constraints_Y Bracket
Create RBE connectors; work with specifications for loads and loadcases; set up a topology optimization including pattern constraints; run an optimization with OptiStruct; view and post-process optimization results

SimLab Tutorials - Parametric Optimization using HyperStudy - Part I
Start recording a nominal problem; create parameters; import a parametrized CAD file; create a 2D/3D mesh using the parameters; solve and define the study responses

SimLab Tutorials - Parametric Optimization using HyperStudy - Part II
Create a new study inside HyperStudy; register solver script; setup nominal problem; conduct a DOE study; build a fit model; optimize on the fit

SimLab Tutorials - Topology Optimization with Solutions - Bracket
Create a linear static solution, define loads and boundary conditions then compute; define a topology optimization, design space, constraints, response and objective; export the optimized shape as .stl; import the .stl file and perform a mesh cleanup; transfer properties and LBCs to the optimized geometry and apply TIE contact; re-analyze the model then review the results

SimLab Tutorials - Bore Distortion
Import a results file with split faces; create a coordinate system; compute the bore distortion; view and export bore distortion results

SimLab Tutorials - Post-Processing Optimization Results
View and post-process results of topology optimization

SimLab Tutorials - Groups and Colors in Automation
Use color information to create groups; create groups automatically from features; obtain edge groups from faces and bodies; use boolean operations between groups; run a project in different models

SimLab Tutorials - Scripting with Process Recording_ConRod
Record a process into JavaScript or Pythonscript; re-run the recorded script on a different model

SimLab Tutorials - Process Recording using Parameters_ConRod
Record a process into JavaScript or Pythonscript using a set of process parameters; re-run the recorded script using different parameter values

SimLab Tutorials - Process Recording using Templates_ConRod
Use mesh-, LBC- and loadcase templates during a process recording; record a process including solver setup and solver execution

SimLab Tutorials - QuickMesh_Gear
Import a CAD geometry; Quickly tetmesh a solid body using different global settings; Export your mesh.

SimLab Tutorials - Mesh Controls_Gear
Identify, select and isolate geometry features; Tetmesh a solid body using Mesh controls; Export a mesh template based on the face color.

SimLab Tutorials - Volume Meshing with Layers_Housing
Request locally a given amount of tet layers through thin walls; Create a volume mesh with Tet10 from an existing, encolsed Tri6 mesh; Auto cleanup a volume mesh based on different quality criteria.

SimLab Tutorials - Meshing with Body Break_Engine Assembly
Update CAD features; Import a mesh template; Cut and separate a section of a body using Region mesh control; Remove details using Logo mesh control; Mesh a valve seat; Create a circular gasket imprint

SimLab Tutorials - Meshing with Process Automation_Piston
Perform a mesh automatically running a Javascript or Pythonscript from the process automation menu

SimLab Tutorials - Quick Imprinted Mesh for Parasolid Assemblies
Generate an assembled surface/shell mesh from a parasolid file; Generate an assembled volume/solid mesh; Transfer groups to the meshed assembly

SimLab Tutorials - Hex Meshing using Extrude function_Y Bracket
Hex mesh 2.5D geometries using extrude; Hex mesh axial symmetric bodies; Edit the number of hex layers through a body.

SimLab Tutorials - Region Definition by Two Planar Faces
Create region mesh control based on 2 planar faces; Edit the dimensions of the cuboid region by changing the values, scaling and moving the region; Create region mesh control based on 2 intersecting planes

SimLab Tutorials - Weld Modeling
Prepare the mesh for a triangular weld; Create a triangular weld; Prepare the mesh for a bead weld; Create the bead weld

SimLab Tutorials - Welding Process with Connection
Create a bead weld using the open loop edges; Connect weld bead bodies defining a spline curve trajectory; Perform a boolean operation between weld bodies and the weld bead

SimLab Tutorials - Exploring Weld Basic Feature
Weld two bodies containing a gap; Configure weld parameters within the weld basic feature

SimLab Tutorials - Tetra Mesh with Boundary Layers - Manifold
Create fluid domain; Create a volume mesh with boundary layers

SimLab Tutorials - CFD Meshing of an Exhaust Manifold
Create a surface mesh, modify layers and apply volume layers mesh control; Generate fluid body; Generate boundary layer and volume mesh

SimLab Tutorials - CFD Meshing Of a Differential Gearbox
Join cylindrical and planar faces; create inlet and outlet faces by filling holes; Select surfaces connected to a face; Generate fluid body; Create boundary layer and volume elements

SimLab Tutorials - Defeaturing and Cleanup_Gear
Simplify your model by removing features; Locally remesh faces; quality cleanup your mesh

SimLab Tutorials - Mesh Editing_Housing
Local remesh faces, if needed with grid mesh; Manual cleanup elements by swapping and collapsing edges; Defeature the model by flattening and aligning faces

SimLab Tutorials - Editing holes and circular faces_Housing
Remove and modify holes; Change the number of elements around/along circular faces; Align faces and edges to a given radius; Remesh partial cylinders

SimLab Tutorials - Advanced Grid Meshing
Use different methods to create grid meshing; Interactive meshing, Mesh transition, Project to CAD, Three sided faces, Intersection picking

SimLab Tutorials - Edit Mesh of Section Cut_Engine Assembly
Replace faces within a model; Translate faces and features using transform; Create identical/mirrored faces with replace faces

SimLab Tutorials - Gasket Meshing
Imprint gasket edges on faces; Create gasket faces using edge offset; Create gasket bodies using extrude; Imprint gasket faces using Imprint gasket

SimLab Tutorials - Logo removal
Remove a logo from meshed bodies

SimLab Tutorials - Assembly with shared nodes
Align cylindrical surfaces; Create shared cylindrical/planar faces; Check for shared entities; Separate shared entities to obtain coincident nodes; Cleanup joined parts through re-meshing

SimLab Tutorials - Assembly with Shared Nodes
Create shared cylindrical/planar faces; check for shared entities; cleanup joined parts through re-meshing; display equivalence nodes

SimLab Tutorials - Thread Removal
Select cylinders based on a defined radius; create groups using select adjacent layers; create mesh control; use remove thread tool; remesh cylindrical faces using isoline mesh control; remesh cylindrical faces by modifying layers; change cylinder radius

SimLab Tutorials - Model Compare using Fringe Plot
Search differences between models by using fringe plot

SimLab Tutorials - Auto 1D Bolts
Create/edit 1D bolt definition file; create automatically 1D bolts with/without pretension

SimLab Tutorials - Auto Hex Bolts
Create 3D bolts using faces/groups; merge and move bolts in a model; create solid pretension loads using Select

SimLab Tutorials - CAD based Hex Bolts
Create 3D bolts from CAD bolts; Create pretension load using Create; copy/reposition the bolts

SimLab Tutorials - Create 1D Bolts
Create 1D bolt head; create 1D bolt thread; Join the bolts using connect

SimLab Tutorials - Quick Modal Analysis
Create RBEs; constraint a model; set up and execute a quick normal mode analysis; view the results

SimLab Tutorials - Analysis 1D Pretension and Bearing Pressure
Define material and properties; define quickly 1D bolts with pretension; defining loads and constraints; define contacts; export solver deck; run a linear static analysis with OptiStruct; visualize entities

SimLab Tutorials - Linear Static Analysis of Connecting Rod
Create a local coordinate system; define contraints and loads; define contacts; create material and apply properties; export to solver and import results

SimLab Tutorials - Normal Mode Analysis of an Assembly
Create matching faces through assembly; assign load, mass and spring connection; assign material and properties; execute the analysis and verify results

SimLab Tutorials - Thermal Stress Analysis_Safety Valve Assembly
Apply constraints on 1D bolts RBE nodes; apply pressure loads; create mapping of thermal loads; import contact definition; create material and apply properties; create load case; solve and review the results

SimLab Tutorials - Non-Linear Static Analysis
Apply symmetry constraints; apply enforced displacement constraint; create 3d bolt with pretension; create advanced contacts; create load case; modify solution parameters; solve and review the results

SimLab Tutorials - Solver Setup for Non-Linear Analysis
Create group-based 3d bolts with pretension; apply user-defined contacts; create material with elasto-plastic curve; apply constraints and bearing pressure; create loadcases and define non-linear static solver settings

SimLab Tutorials - Modal Frequency Response Analysis_Bracket
Create RBE and apply constraints; apply an excitation load; create material and apply properties; define a load case and modify the solution parameters; run the analysis and plot the frequency dependent results

Coupled Electro-Magnetic and Acoustic Simulation of an In-Wheel Electric Motor
At Elaphe, the engineers have been facing the NVH challenges from the very beginning. The topology of this electric motor, which on the one hand enables the team to use the otherwise empty space inside the wheel, can on the other hand, result in some new and unexplored NVH challenges. The experience over the years has proven that NVH is a bottleneck in the design cycle of Elaphe's motors and this was the main motivation for a more automated and more user-friendly NVH simulation workflow. Within the NVH, noise radiation was the area Elaphe was most interested in.



Traction Motor - 20 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use.

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System Modeling & Control System - 27 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use.

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Using Math for Post-Processing Aerospace CAE Data
Learn how Altair Compose™ can help you reduce the number of tools required to import data from Finite Element Analysis (FEA), then perform useful post-processing calculations, and visualize the results in useful ways.

Battery Thermal Management - 13 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use. Open to startups, OEM and supplier alike, we invite you to join our 3-part live webinar series.

We will discuss the various challenges in EV systems and how Altair solutions play an important role in the design & development stage. Namely, how you can cut down development time and cost while improving your designs, how you can rapidly prototype your ideas, tame the complexities involved in a highly complex system and lots more. We will highlight some unique challenges for EVs specific to India and discuss how to address them.

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Virtual Drive Tests for ADAS Radar Sensors and Communication Antennas
This webinar shows how Altair WinProp considers the full environment including buildings, cars, street objects in order to get accurate representations of the radio waves impinging on the installed car antennas and the multipath radar channels including reflections, diffractions and scattered contributions. For the efficient analysis the car objects can be also replaced by their corresponding radar cross sections (pre-calculated in Altair Feko). Thus allowing the realistic and fully reproducible evaluations of different options for the antennas and sensors including their integration and configuration.

Improving E-Motor Acoustics with Seamless Multiphysics Simulation
Discover Altair SimLab's automated workflow for coupled electromagnetic and vibration analysis

Using Multiphysics Optimization to Design High Performance Rotating Machines
Light-weight, low cost, compact, high efficiency are some of the many objectives and constraints that have to be considered when designing a rotating machine.

To meet these various challenges it is necessary to take into account several physical aspects:

- electromagnetic
- structural
- thermal

This presentation shows how Altair HyperStudy can involve several Altair solvers to consider different requirements into a single optimization and will be illustrated through various examples.


Considering Temperature Constraints in the Design of Electric Machines
Because of always more compact and high efficiency systems, temperature is a critical constraint in electric machine design.

Depending on the design stage, different levels of modeling can be proposed:

- 1D for fast pre-design, to
- full 3D CFD models for the validation stage.

This presentation shows, through a complete example how the Altair platform for innovation helps machine designers to manage temperature distribution and evolution.

Fast Assessment and Optimization of the Energy Efficiency of Electric Machines with Altair Flux
In the early stage of the design of an electric machine, it is key to assess its potential in terms of global energy efficiency when submitted to specific duty cycles.

This presentation will show how:

- FluxMotor is able to extract efficiency maps in a very fast way.
- FluxMotor can be coupled to Altair HyperStudy for design exploration and optimization studies, considering the efficiency over duty cycles as an objective function to be maximized.


ICAT Meets Automotive Safety and Regulatory Requirements with Altair Simulation Software
ICAT is one of the leading centres for testing, R&D, design, development and validation in support of a Government of India funded initiative to develop facilities for automotive testing & development. To meet the challenges of the automotive industry, they need to employ optimization to decrease vehicle weight while maintaining proper strength. For a major challenge for the rollover testing for bus industry, they used Altair Radioss for roll over simulation and Altair OptiStruct for optimization leading to shortened development time for their customers by over 50%.

Processing CAE Data via Advanced Mathematical Scripting
High level, Matrix-based Numerical computing language & unified programming environment for all types of math from solving matrix analysis, differential equations signal analysis and control systems. It is an integrated HyperWorks post processing tool.

A Motivating, Inspirational Forum for Learning: Thoughts from Attendees at the 2018 Global ATC
Thoughts from attendees express the energy and passion emanating through the exchange of knowledge, information, ideas and stories by technology leaders and industry executives at the 2018 Global Altair Technology Conference.

Highly Optimized Passive Lubrication System for an EV Transmission
Presentation by Dr. Milos Stanic, nanoFluidX Product Manager at Altair.



Optimising the rotational losses of an EV transmission is essential to improve range. Whilst bearing and gear losses are well understood, the interaction between rotating components and transmission fluid rarely exploited other than reducing lubricant viscosity. Effective methods for modelling drag and fluid transfer around a transmission have not robustly existed previously.



Converting electrical power into mechanical power to drive a fluid pump is wasteful. However, in tightly packaged EV transmissions where thermal cooling is limited it is essential to manage the lubricant. A novel method for passively moving fluid around an EV transmission with low losses has been developed. The system uses existing components in the gearbox to move fluid in a controlled manner. The cost savings of using this technology can be used directly elsewhere to improve vehicle range.



In order to iterate through potential design solutions a suitable computer based modelling approach had to be developed. A new smoothed particle hydrodynamics approach was created to predict the fluid movement and the drag level on the remaining components. A correlation of this approach was carried out with real world testing to prove its validity.

Automotive NVH Development - Past, Present, and Future Technology Challenges
Dr. Per-Olof Sturesson, Senior Director Driving Dynamics and Noise & Vibration Centre at Volvo Cars, keynote presentation at the 2018 Global ATC in Paris, France.

Over the last decades, the utilization of CAE has increased substantially in the vehicle NVH refinement process. Today CAE is a fully integrated in the NVH development due to significant innovations in computer algorithms, application software and hardware systems. The numerous challenges with respect to NVH driven by the introduction of new technologies can be mitigated by means of extensive utilization of CAE delivering products faster to the market. The presentation will cover a retrospective, current status and an outlook.

The Digitalization Trends and Structural Design in Maritime Industry
Dr. Toshiro Arima, Corporate Officer, Director of Rule Development and ICT Division at ClassNK, keynote presentation at the 2018 Global ATC in Paris, France.

In this presentation, the current state of digitalization of maritime industry, structural rules and evaluation software used for hull structural design will be introduced. In addition, the efforts being made by ClassNK, one of the world's largest classification societies, to use digitalization to ensure ship safety will be also introduced.

Zaha Hadid Presents Innovation in AEC
Eddie Can, Senior Associate at Zaha Hadid Architects, keynote presentation at the 2018 Global ATC in Paris, France.

During his speech Mr. Can will focus on the relationship between highly complex design documents and construction technique that minimize cost while working on a custom and double curved surface for one of the largest and most iconic construction sites of the globe.

Experimentation Matters: Driving Innovation Through Simulation
Prof. Stefan Thomke, William Barclay Harding Professor of Business Administration at Harvard Business School, keynote presentation at the 2018 Global ATC in Paris, France.

Why do companies constantly come out with exciting innovations while others have great difficulty? Professor Thomke shows that an organization's ability to innovate depends on constantly experimenting with new products, processes, customer experiences and business models. During his keynote, Prof. Thomke explains why business experimentation is so critical to the management of innovation, underscores the huge potential of simulation (and new digital platforms), and outlines what managers must do to integrate them successfully. Drawing on two decades of research in multiple industries, he provides striking illustrations of how companies execute innovation more effectively.

Join the Simulation Revolution: Introduction to Altair SimSolid
SimSolid is a game-changing simulation technology for designers and design engineers. SimSolid accelerates product exploration with highly accurate engineering simulation:

-Analyze complex assemblies in seconds to minutes
-Simulate more, prototype less
-Predict product performance for better design decision making

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