Alternatives to Simcenter MAGNET

Ansys Maxwell solves EM fields for electric machines, transformers and wireless charging. It also works with actuators, permanent magnet latches and other electrmechanical devices. It can solve static, frequency-domain, and time-varying electric fields. Maxwell also offers specialized interfaces for power converters and electric machines. Maxwell allows you to precisely characterize the transient, nonlinear motion of electromechanical components as well as their effects on the drive circuit design and control system design. Maxwell's electromagnetic field solvers can be seamlessly linked to the integrated circuit or systems simulation technology to enable you to understand the performance of electromechanical system before you build a prototype in hardware. Maxwell provides a reliable simulation of low-frequency electromagnetic field in industrial components.

Ansys MotorCAD is a dedicated tool for electric machine design. It allows you to quickly simulate multiphysics across the entire torque-speed operating range. Motor-CAD allows engineers to evaluate motor topologies across the entire operating range. This allows them to create designs that are optimized for size, efficiency, and performance. Motor-CAD software's four modules, Emag, Therm Lab, Mech, allow multiphysics calculations to be performed quickly, iteratively, and users can move from concept to final design in a shorter time. Motor-CAD users can explore more motor topologies and fully evaluate the impact of advanced loss effects during the initial stages of an electrical mechanical design with Motor-CAD's streamlined data input process. This release features powerful new features for design optimization and multi-physics analysis, as well as system modeling for electric motors. Multiphysics simulations are fast across the entire torque-speed range.

6SigmaET is an electronic thermal modeling tool that uses advanced computational Fluid Dynamics (CFD), to create precise models of electronic equipment. Our thermal simulation software is specifically designed for electronics. It offers unparalleled intelligence, automation, and accuracy to help you meet all your requirements and overcome any thermal design challenges. 6SigmaET is the fastest-growing thermal simulator software in the electronics cooling market since its inception in 2009. 6SigmaET's versatility allows you to simulate the thermal performance electronic components, from the smallest ICs up to the most powerful servers. Watch one of our videos to learn more about 6SigmaET's benefits for your industry. Or, browse our case studies. You can import the entire CAD geometry and PCB designs into 6SigmaET to perform thermal analysis. This will reduce the time it takes to create models.

Energy2D, a multiphysics simulation program based on computational physics and combining particle dynamics, models all three modes for heat transfer: conduction, convection and radiation. Energy2D runs fast on most computers, eliminating the need to switch between preprocessors and solvers and postprocessors that are usually required for computational fluid dynamics simulations. It allows you design "computational experiment" to test a hypothesis or solve a problem in engineering without resorting complex mathematics. There are also plans to support different fluid types and incorporate other types energy transformations. Energy2D's conduction is very accurate, but its convection and radioactivity parts are not. Energy2D should therefore be considered qualitative in cases involving convection and/or radiation. Energy2D has been used in more than 40 scientific publications.

Simcenter Nastran is a leading finite element method (FEM), solver for computational performance and accuracy, reliability, and scalability. Simcenter Nastran offers powerful solutions for structural analysis, optimization, aeroelasticity, thermal analysis and rotor dynamics. Simcenter Nastran provides all the solutions in one solver. This simplifies modeling and makes it easier to use all solution types. Simcenter Nastran is available as a standalone enterprise solver and as an integrated solver within Simcenter 3D. It helps manufacturers and engineering suppliers in aerospace, electronics, heavy machine, medical device, and other industries with their critical engineering computing requirements so they can produce safe and reliable designs in shorter design cycles.

Simcenter Femap is an advanced simulation program that allows you to create, edit, and inspect finite element models of complex products and systems. Simcenter Femap allows you to create complex models of components, assemblies, and systems. This allows you to determine the model's behavior when it is exposed to real-world conditions. Simcenter Femap, which is a powerful data-driven and graphically driven results visualization and evaluation, can be combined with Simcenter Nastran to provide a comprehensive CAE solution that enhances product performance.

SimScale, a web-based cloud application, plays an important role in simulation software for many industries. The platform supports Computational Fluid Dynamics, Finite Element Analysis (FEA), as well as Thermal Simulation. It also provides 3D simulation, continuous modeling, motion & dynamic modelling.

Simulate complex engineering problems to improve simulation efficiency. Simcenter 3D is a comprehensive, fully integrated CAE solution. Simcenter 3D allows you to model and evaluate complex product performances through revolutionary improvements in simulation efficiency. By integrating multiple physics models into a single simulation environment, you can gain a better understanding of your product's performance. Simcenter 3D provides an integrated environment where you can perform all your CAE post-processing. Unrivaled geometry manipulating tools allow you to intuitively defeature or abstract computer-aided designs (CAD) geometry. Multi-application modeling and meshing tools are available to support multiple simulations and give you the ability to link your analysis model and design data. This allows you to speed up the modeling process and keep the analysis models in sync.

Simcenter Flotherm, with its 34 years of development, user feedback and extensive experience in electronic cooling simulations for thermal analysis, is the leading software solution. It accelerates development from IC packages, PCBs, and enclosures to large systems, such as data centres. Fast, accurate CFD simulations of electronics cooling can improve electronics thermal management and reliability from the initial pre-CAD exploration through to final verification. Simcenter Flotherm is a tool that integrates into the electronics development workflow to allow thermal engineers to run simulations, and to provide accurate results in a timely manner. It also provides feedback to other engineering functions. It supports thermal management and simulation-based decisions from early-stage architectural to final thermal design validation. This helps reduce development time and eliminates the risk of expensive reliability-related warranty costs, or any late-stage respins.

Ansys Fluent, the industry-leading fluid sim software, is known for its superior physics modeling capabilities as well as industry-leading accuracy. Ansys Fluent allows you to innovate and optimize your product performance. You can trust your simulation results when you use software that has been thoroughly tested across a variety of applications. Ansys Fluent allows you to create advanced physics models, analyze fluid phenomena, and more - all in an intuitive and customizable environment. This powerful fluid simulation software will accelerate your design cycle. Ansys Fluent has the best-in-class physics models. It can efficiently and accurately solve large, complex models. Ansys Fluent unlocks the potential for CFD analysis. Fluid simulation software that is fast and efficient. This software will help you to be the best in the market. Fluent's industry-leading features allow for endless innovation without compromising on accuracy.

Induction heat treatment simulations provide comprehensive information on temperature gradients from surface to core as well as the location of areas that undergo phase transformations. SIMHEAT®, for example, can monitor the effect of coil geometry, current frequency and even the location of concentrators within the heat-affected zone. Material modelling considers electrical and magnetic properties that are temperature-dependent. SIMHEAT®, a standalone solution, can be used in conjunction with Transvalor software. The perfect interoperability ensures seamless results transfer between solutions. SIMHEAT®, with all its capabilities and functionalities, is also integrated into our FORGE®, dedicated to the simulation and analysis of hot, semi-hot, and cold forming processes.

EMWorks offers the best-in-class electromagnetic simulation software to support electrical and electronic design. It also has multiphysics capabilities. The company's products can be seamlessly integrated in Autodesk Inventor® and SOLIDWORKS. Applications include power electronics, antennas and RF components, signal integrity and power of high speed interconnects, and electromechanical and power electronics. EMS is an electromagnetic field simulation program that can be used to optimize electromagnetic and electromechanical devices, such as transformers and electric motors, actuators and sensors within Autodesk®, and Inventor®.

Simcenter Amesim, the most integrated and scalable platform for system simulation, allows system engineers to simulate and optimize mechatronic system performance. This will increase overall system engineering productivity, from the initial development stages to the final performance validation and controls calibration. Simcenter Amesim is a combination of ready-to-use multiphysics libraries and industry-oriented solutions. It supports powerful platform capabilities that allow you to quickly create models and perform analysis. This open environment can be easily integrated with major computer-aided designing (CAD), computer-aided engineering and controls software packages.

ColdStream is an engineering platform for thermal simulation that runs in the cloud. It supports your entire thermal management process, from thermal design to thermal analysis. Diabatix's Thermal Simulation Software allows your business to accelerate product development by using only the latest technologies. Get insights on temperature distribution, heat dissipation and fluid flow, thermal resistance and thermal radiation, cooling capability, and more. ColdStream will find the most suitable heat sinks for your electronic devices and products. In just a few simple clicks, you can upload your geometry, configure the thermal simulator operating conditions, and set the design objectives for your heat sinks.

Ansys Sherlock, a reliability-physics-based electronic design tool, provides fast and accurate life predictions at the component and board levels for electronic hardware in early design stages. Ansys Sherlock automates the design analysis of electronic hardware. It provides accurate and fast life predictions at the component, board, and system levels during early design stages. Sherlock bypasses the 'test-fail-fix-repeat' cycle by empowering designers to accurately model silicon-metal layers, semiconductor packaging, printed circuit boards (PCBs) and assemblies to predict failure risks due to thermal, mechanical and manufacturing stressors--all before prototype. Sherlock quickly converts embedded libraries containing more than 500,000 parts into computational fluid dynamics and finite element analysis models. Each model includes accurate geometries, material characteristics, and stress information.

Complex technical systems, such as machines and manufacturing plants are common. They are made up of many components and subsystems. These systems are often based on different technical domains and more often equipped with sensors and controls. Their dynamic interactions can have a significant effect on safety, performance, comfort, and quality. SimulationX is a single platform that allows you to model, simulate, and analyze technical systems. This includes mechanics, hydraulics and pneumatics, controls, electronics, and controls as well as thermal and magnetic behavior. You will have all the tools you need with comprehensive component libraries that include application-oriented elements.

SINDA/FLUINT is a powerful and proven heat transfer and fluids simulation tool that has been providing users with these capabilities for decades. These capabilities continue to grow each year. SINDA/FLUINT provides a generalized, comprehensive tool for simulating thermal/fluid system simulations, such as those used in the electronics, automotive and petrochemical industries, power generation, medical and aerospace industries. SINDA/FLUINT allows you to gain a better understanding and save time and money through a faster and easier design process. You decide what is important, and how you want to answer your design performance questions. The application is also completely extensible, making it the most versatile software product for thermal and fluids on the market. You can choose which features you want and decide on the accuracy and approximation levels that are appropriate. Also, you can decide on what outputs you need.

Thermal Desktop is a complete model creation tool. Objects such as finite element, lumped capacitance, and built-in finite differences can be combined in any way. Thermal-specific objects, such as insulation, heat loads and heaters, can be added to any model, from automotive components to manned satellites. Thermal Desktop allows full parameterization by using variables and arbitrarily complicated expressions instead of hardwired numbers. These variables, also known as symbols, enable models to be quickly manipulated by a few keystrokes. This makes it easy to update or maintain the model, perform sensitivity studies, and investigate what-if scenarios. This gives you access to SINDA/FLUINT’s optimization and reliability modules, as well as automatic model correlation.

Our unique, transient Lattice Boltzmann physics PowerFLOW CFD solution allows simulations to accurately predict real-world conditions by leveraging this unique technology. PowerFLOW suite allows engineers to evaluate product performance before any prototype is built. This is when budgets and design impact are most important. PowerFLOW imports complex model geometry and performs accurate and efficient aerodynamic, thermal management and aeroacoustic simulations. Automated domain modeling and turbulence modeling without the need to manually volume mesh or boundary layer mesh can be done with PowerFLOW. PowerFLOW simulations can be run confidently on a large number of compute cores running on common High Performance Computing platforms (HPC).

Remcom has created XFdtd, a full-wave electromagnetic (EM) simulation program. This full-featured electromagnetic simulator solver offers high-performance computing options and simplifies analysis of the most difficult EM problems. XFdtd has many applications. It can be used for microwave device design, antenna placement, radar and scattering as well as biomedical applications.

CoTherm, a coupling software and process automation program, acts as a liaison between CAE programs. CoTherm simplifies process automation. It can be used to run sensitivity studies, design of experiments or multiple CAE models in a single process. This capability can streamline preprocessing, thermal analysis or transient analysis. CoTherm provides templates for common coupling and automation tasks. CoTherm has optimization capabilities to determine the best inputs for your design. The general optimization sub-processes can be used to optimize any CAE analysis. CoTherm’s mathematically rigorous solution, including multiple global and local methods, removes guesswork from your design process. CoTherm supports a wide range of thermal and CFD code. CoTherm’s powerful tools enable the coupling of any program that can be run from the command line or config files.

Take advantage of the power of thermal analysis for natural solidification in a software package that is affordable and capable. CAPlite has a simple, step-by-step graphical user interface that is ideal for anyone who does not have experience with casting software. CAPlite takes you from a CAD model through to the post-processing. Natural solidifications provide results in minutes. CAPlite can identify casting problems in all types of castings, from die casting to sandcasting. Natural solidifications are easy to use and can be used to enhance your entire casting process at any stage. They can help identify defects or visualize the otherwise abstract solidification process. CAPlite gives you the power of natural sinterings and more, allowing you to improve your castings for a fraction of their cost.

FEATool Multiphysics – "Physics Simulator Made Easy" – a fully integrated physics simulation, FEA and CFD toolbox. FEATool Multiphysics provides a fully integrated simulation platform that includes a unified user interface for several multi-physics solvers such as OpenFOAM and Computational fluid dynamics (CFD), including SU2 Code and FEniCS. This allows users to model coupled physics phenomena, such as those found in fluid flow and heat transfer, structural, electromagnetics acoustics and chemical engineering applications. FEATool multiphysics is a trusted tool for engineers and researchers in the energy, automotive and semi-conductor industries.

Simcenter STAR -CCM+ is a multiphysics fluid dynamics (CFD), software that simulates products under real-world conditions. Simcenter STAR–CCM+ is a unique CFD simulation toolkit that allows for automated design exploration and optimization. This integrated environment contains everything you need, including CAD, automated meshing and multiphysics CFD. It also includes sophisticated postprocessing and design exploration. Engineers can efficiently explore the entire design space and make better design decisions quicker. Simcenter STAR -CCM+ provides additional insight that can be used to guide your design process, resulting in more innovative products that meet customer expectations.

Modelon's OPTIMICA Compiler Toolkit is the most powerful Modelica-based mathematical engine available. It allows users to automate, simulate, and optimize system behavior throughout the model-based design process. OPTIMICA is the compiler for Modelon's Impact. It allows users to create multi-domain physical systems using thousands of model components. OPTIMICA's state of the art solvers enable evaluation of complex physical system - supporting both transient simulations and steady-state computations as well dynamic optimization. The sophisticated mathematical engine can simplify and manipulate models to improve performance and robustness. This engine is used in a variety of industries and applications, including automotive, active safety, energy and power plant optimization. Start-up optimization of thermal power plant is essential to meet the increasing demand for power regulation in today's energy market.

SIMULIA is powered by the 3DEXPERIENCE®, platform. SIMULIA provides realistic simulation applications that allow users to see the world around them. SIMULIA applications speed up the process of evaluating performance, reliability, and safety of products and materials before committing to physical prototypes. Powerful simulation of structures, fluids and electromagnetics scenarios, including complex assemblies, directly linked to the product data. The 3DEXPERIENCE Platform integrates modeling, simulation, visualization technology, process capture, publication and re-use. Customers can maximize the value of their existing investments in simulation horsepower by allowing simulation data and results to be connected to the platform. This allows for true corporate assets that fuel innovation for all users.

Simulation modeling, also known as Predictive modeling, is a powerful tool for creating computer models that are exact copies or simulations of existing systems. These models are built using AutoCAD and enhanced visually with animation to ensure that they run exactly like the real thing. The model can also run real-world product or patient schedules. Additionally, the behavior of the computer model can easily be compared to the real system if it is available. Once a simulation model is created, it can be used to run detailed experiments and tune the model for exceptional performance, without ever disturbing the actual system. Simulating is often used to create new systems. Our simulation models can be used to create the perfect facility, hospital or clinic for your company. Simulation can also be used to improve existing systems that are underperforming.

Simpack is a general multibody simulation (MBS), which allows engineers and analysts to simulate non-linear motions of any mechanical or mechatronic systems. Simpack allows engineers to create and solve virtual 3D models to simulate dynamic motion, coupling forces, and stresses. Simpack is used in the automotive, engine and HIL/SIL/MIL sectors. However, it can also be applied to other branches of mechanical engineering. Simpack simulation software is especially well-suited for high frequency transient analysis, even in the acoustic range. Simpack was originally designed to handle complex nonlinear models with flexible bodies, and severe shock contact.

Ansys Lumerical FDTD, the gold-standard in modeling nanophotonic devices and processes, is the Ansys Lumerical FDTD. The integrated design environment allows for scripting, advanced post-processing and optimization routines. This finely tuned implementation delivers the best-in-class solver performance across a wide range of applications. The integrated design environment allows you to focus on your design while we take care of the rest. Flexible and customizable models and simulations are possible with a variety of benefits. Ansys Lumerical FDT Models nanophotonic devices, processes, and materials so that you can concentrate on creating. Lumerical FDTD, the gold-standard in modeling nanophotonic devices and processes, is the Lumerical FDTD. This carefully crafted implementation of the FDTD method provides reliable, powerful, and scalable solver performance across a wide range of applications.

AnyCasting Software has been a leading simulation program for castings for over 20 years. We are currently working with companies that manufacture automobiles, ships and heavy material industries. We have sold over 600 copies in the world and solved and provided technical consulting on over 470 projects. AnyCasting offers stress analysis that can be used to simulate deformation, heat and stress analysis. It can also help users design the best mold by providing automatic mold designing. Hyundai Motors and Hyundai Heavy Industries are among the domestic customers who have been satisfied. Identify the location of gas defect caused by the isolation air during the filling process and flow of the melt. Our software locates defects by comparing air pressure to the pressure in the melt.

MapleSim can be used to create digital twins for virtual commissioning and system-level models for complex engineering designs projects. It is an advanced modeling tool that allows you to reduce development time, lower costs, diagnose real-world performance issues, and reduce development time. You can eliminate vibrations using better control code and not hardware upgrades. With detailed simulation results, diagnose root-cause performance issues. Validate new designs before they are physically prototyped. MapleSim is an advanced system-level simulation and modeling tool that uses modern techniques to significantly reduce model development time, provide more insight into system behavior and produce high-fidelity simulations.

Geminus unleashes predictive intelligence by combining AI and physics with multifidelity modeling. Our first-principles AI transforms the physical world's constraints into resilient predictive models. Geminus uses sparse data to quickly analyze complex industrial systems and predict the impact on your business. Geminus' multi-fidelity approach merges models with data, allowing you to create highly accurate surrogates that are more than 1,000x faster than simulation. Geminus is the only tool that accurately quantifies model uncertainty. This allows you to be confident in your predictions, and the decisions they make. Geminus reduces the time it takes to create models from months to hours. It also requires far less data and computes more resources than traditional AI or simulation methods. Geminus models are infused with knowledge of the behavior of real-world systems.

RadCAD uses an ultra-fast Monte-Carlo ray-tracing algorithm that is accelerated by octa-trees to compute radiation exchange and view factors. C&R Technologies' innovations to the ray-tracing process resulted in a highly efficient thermal radiation software. RadCAD models diffuse or specular surfaces accurately, regardless of the density of nodes. The number of nodes is determined by the thermal solution, not by the accuracy requirements for the radiation. RadCAD uses user-defined databases for optical properties. Each surface coating defines absorptivity and transmissivity as well as reflectivity and specularity for both solar and infrared spectrum regimes. These properties can be defined in relation to incident angle, or even wavelength dependence.

Creator, which is natively based on OpenFlight 3D simulation models, is the original software to create optimized 3D models for your virtual environment. Creator is the industry standard software for creating optimized 3D models for virtual environments. Content creators are continually challenged to create more detailed models, better performance, and greater realism. Content creators have a wide range of tools to help them create models, modify or import existing models, and enhance objects for use with sensor-capable simulations. Creator gives you complete control over the modeling process and allows you to quickly create highly optimized, physically accurate 3D models. Creator allows you to create models faster and more precisely by allowing you to interact with your models at every level, from the database to the single vertex attribute.

Software that improves asset performance. All in one integrated suite: maintenance and spares optimizations, availability studies, reliability centered maintenance, cost evaluations of life cycles, and accelerated testing. Connect directly to SAP or MAXIMO and analyze data. Weibull analysis can be used to identify critical equipment and automatically create failure models. Simulate your maintenance plans to optimize them and reduce costs. Predict system availability to optimize your design. Simulation of multiple-product capacities with target cost penalties. Model system dependencies using fault trees or RBDs. Create operational rules to accurately simulate performance. Find the best policy for spares. In the ALT module, you can predict life cycle costs and analyze test data to identify stressed failures. Process reliability module identifies trends in plant performance.

Multiphysics software from COMSOL allows you to simulate real-world designs, processes, and devices. Multipurpose simulation software that uses advanced numerical methods. Fully coupled multiphysics and single physics modeling capabilities. The entire modeling process, from geometry to postprocessing. Easy-to-use tools for creating and deploying simulation applications. The COMSOL Multiphysics® software provides a consistent user interface regardless of engineering application or physics phenomena. Add-on modules offer specialized functionality for electromagnetics and structural mechanics. You can choose from a variety of LiveLink™, products to interface with CAD or other third-party software. COMSOL Server™ and COMSOL Compiler™, allow you to deploy simulation applications. This software platform allows you to create simulation applications and physics-based models.

Your designs can be tested under real-world conditions to improve product quality and reduce prototyping and testing costs. SOLIDWORKS®, Simulation is a simple-to-use suite of structural analysis tools that uses Finite Element Analysis to predict a product’s real-world physical behavior. This can be done by virtually testing CAD models. The portfolio offers dynamic, static, and linear analysis capabilities. SOLIDWORKS Simulation Professional allows you to optimize your design, determine product mechanical resist, product durability, and test heat transfer instabilities and buckling instabilities. It can also perform multi-physics sequential simulations. SOLIDWORKS Simulator Premium allows you to efficiently evaluate your designs for dynamic response, nonlinear, and composite materials. SOLIDWORKS Simulation Premium offers three advanced studies: Nonlinear Dynamic, Linear Dynamics, and Non-Linear Static.

Hardware-in the-loop simulation can be trusted and cost-effective for testing actual equipment. It is ideal for testing complex equipment, such as automobiles, planes, missiles satellites, rockets, locomotives, and airplanes. Instead of testing on the road or with real-devices, testing is done in a virtual environment. The test environment is largely replaced by mathematical models so that components can be inserted in a closed loop. This allows for more reproducible, systematic, and faster tests, which are also more reliable. Simulation Workbench is a real-time modeling environment that runs on RedHawk Linux. It allows simultaneous hardware-in-the loop simulation solutions. SIMulation Workbench is a complete framework that allows you to create and execute hardware-in the-loop simulations in real time.

ProModel is a discrete event simulation technology that can be used to plan, design, and improve existing manufacturing, logistics, and other operational systems. It allows you to accurately model real-world processes including their inherent variability, interdependencies, and potential changes. Optimize your system to meet your key performance indicators. From CAD files, process or values stream maps or Process Simulator models, create a dynamic, animated computer model that represents your business environment. You can clearly see and understand the current policies and processes in action. Use the model to brainstorm possible changes and to create scenarios to test them. You can run different scenarios and compare the results in the Output Viewer, which is built with the latest Microsoft®, WPF technology.

ProModel is a discrete event simulation technology that can be used to plan, design, and improve existing manufacturing, logistics, and other operational systems. It allows you to accurately model real-world processes including their inherent variability, interdependencies, and potential changes. Optimize your system to meet your key performance indicators. From CAD files, process or values stream maps or Process Simulator models, create a dynamic, animated computer model that represents your business environment. You can clearly see and understand the current policies and processes in action. Use the model to brainstorm possible changes and to create scenarios to test them. You can run different scenarios and compare the results in the Output Viewer, which is built with the latest Microsoft®, WPF technology.

MASTA is a comprehensive suite of CAE software that allows you to design, simulate and analyze driveline systems from conception through to manufacturing. MASTA allows you to quickly and accurately design transmission systems from scratch, or import concepts. Completely understand the life cycle of a mechanical component over the customer's duty cycle. Identify potential failure points early in product development. Rapidly predict key performance characteristics during the design stage. You can easily explore changes in transmission layout, components selection, and/or design, as well as manufacturing processes, in a virtual environment. You can run full system simulations of any transmission or driveline configuration. To reduce development time and cost, incorporate manufacturing simulation into the design phase. MASTA's unique, modern architecture is written in C# and makes it a much more stable alternative to current and future operating system solutions.

ExtendSim includes all the tools you need to simulate any type of scenario. There is a package for every purpose, including building models, running models and analysis. ExtendSim has products for building, experimenting, and analysing models. There are Model Developer Editions and more specialized packages that can be used to run models, analyze models, or as a learning tool. Visit User Types to determine which package is best for you. You can create, use, and interact with models. You can also build custom interfaces and component designs, and exchange data with other applications. ExtendSim Model Developer Edition (MDE), has the same core capabilities. These allow you to create and modify models and interfaces, set values and settings, run simulations, animations, and perform analysis and optimization. You can also save and export your results.

It is essential to model light propagation and its effect in order to measure product performance, human comfort, perception, and safety. Ansys Optics simulates a system's optical performance, evaluates its final illumination effect, and predicts and validates the effects of lighting and material variations on appearance. All this is done in real-world conditions. To create the ultimate virtual customer experience, visualize your product before it is actually made. No matter what style of project you have, Ansys Optics and optical simulation software can help you find the best solution. The software solves complex optical problems quickly and improves visual appearance to increase perceived quality. You can significantly improve the quality of your final product by combining engineering and design processes into one, connected workflow. In a live, immersive environment, prepare and evaluate virtual prototypes of a cockpit HMI.

VPS-MICRO simulates the behavior of the materials used to predict the life expectancy of manufactured parts. VPS-MICRO is based on three inescapable truths. Durability is not solely a function applied stress. It is a combination of that stress as well as the material's reaction. Complex components and systems require a variety of materials. Computer cycles are faster and more affordable than prototyping or physical testing. VEXTEC's VPSMICRO®, a computational software, uses these ideas to help it calculate a material's response to stress, its variability, all its damage mechanisms, and its geometry. It also accounts for the conditions of its use over time. The simulation accurately and efficiently simulates the real world physics of damage and how it occurs.

HAULSIM connects fleet assets, mining operations plans and people to create a 'digital twin of any mining operation - underground or open pit - that accurately represents any mine site haulage operations. HAULSIM, which has a 3-D Discrete Event Simulation engine (DES) at its core, is the only mining simulator software that can quantify changes as the models reflect all aspects of a mine site, including variability, interactions, and dependencies. Real data can be used to make decisions about a mine haulage system. This allows the user to test multiple 'whys' and 'what if' scenarios in order to reduce operating costs, optimise performance, and ensure operational safety and efficiency.

HyperWorks offers easy-to-learn and effective workflows that leverage domain expertise and increase team productivity. This allows for efficient development of today's complex and connected products. Engineers can now move seamlessly from one domain to another with the new HyperWorks experience. They can even create reports without ever leaving the model. HyperWorks allows you to create, explore, and optimize designs. These designs can accurately model structures, mechanisms and fluids as well as electrical, embedded software, systems designs, and manufacturing processes. The solution-specific workflows improve a variety of engineering processes, including fatigue analysis, CFD modeling, concept design optimization, design exploration, and CFD modeling. Each interface is intuitive and well-designed, and differentiated for each user. It's also consistent and easy to use.

DIGIMU®, on the other hand, generates digital microstructures polycrystalline that are representative of the material heterogeneities. (Compliance with topological characteristics of microstructure). The boundary conditions applied to REV are representative of those experienced by a material at the macroscale (thermomechanical cycles of the considered point). The simulation of the different physical phenomena that occur during metal forming is based on a Finite Elements formula (recrystallizations, grain growths, Zener pins due to second phase particles etc.). The software can provide a precise description of interfaces (grain boundary) and reduce computation time by using a suitable number of elements. This is possible thanks to an automated anisotropic remeshing and meshing adaptation technology.

GENOA 3DP is a software suite that allows you to create additive manufacturing designs for metals, polymers and ceramics. It is a versatile tool that can simulate printing and offers seamless user interaction. GENOA 3DP is fast and easy to integrate into any process that allows for the best AM build. GENOA 3DP is based on progressive failure analysis and multi-scale material modelling. It allows engineers to accurately predict crack growth, void, residual stress, crack growth, and other anomalies that are associated with AM parts. GENOA 3DP bridges material science and finite elements analysis by providing a repeatable method to improve part quality, reduce scrap rates, and meet specifications.

Tidy3D, Flexcompute's ultrafast electromagnetic solver (EM), is a fast and accurate electromagnetic solver. The solver uses the finite-difference-time-domain (FDTD). Tidy3D's simulations are orders of magnitude faster thanks to the highly optimized codesign of software and hard-ware. You can solve problems up to hundreds of wavelengths in size with the lightning-fast speed.

Ansys Exalto, a post-LVS RLCk extractor software solution, allows IC designers to capture unknown crosstalk between different blocks in their design hierarchy. It extracts lumped-element parasitics from the design hierarchy and generates an accurate model for electrical and magnetic coupling. Exalto interfaces well with most LVS tools, and can be used in conjunction with the RC extraction tool you choose. Ansys Exalto post LVS RLCk extraction allows IC designers to accurately predict electromagnetic and substrate-coupling effects for signoff on circuits previously "too large to analyze." The extracted models can be back-annotated to any schematic or netlist and support all circuit simulators. Modern silicon systems have seen a rise in RF and high speed circuits. This has made electromagnetic coupling a first-order effect that must be accurately modelled to ensure silicon success.