Alternatives to MuSES

DigitalClone®, for Engineering is the only software that integrates multiple scales of analysis into a single package. It is the world's best gearbox reliability prediction tool. DC-E, in addition to the modeling and analysis capabilities at the level of the gearbox and the gear/bearing, is the only software that models fatigue life using detailed, physics-based models (US Patent 10474772B2). DC-E allows the construction of a digital twin of a gearbox. This includes all stages of the asset's lifecycle, from design and manufacturing optimization to supplier selection to failure root cause analysis to condition based maintenance and prognostics. This computational environment reduces the time and cost of bringing new designs to market and maintaining them over time.

Azore is software for computational fluid dynamics. It analyzes fluid flow and heat transfers. CFD allows engineers and scientists to analyze a wide range of fluid mechanics problems, thermal and chemical problems numerically using a computer. Azore can simulate a wide range of fluid dynamics situations, including air, liquids, gases, and particulate-laden flow. Azore is commonly used to model the flow of liquids through a piping or evaluate water velocity profiles around submerged items. Azore can also analyze the flow of gases or air, such as simulating ambient air velocity profiles as they pass around buildings, or investigating the flow, heat transfer, and mechanical equipment inside a room. Azore CFD is able to simulate virtually any incompressible fluid flow model. This includes problems involving conjugate heat transfer, species transport, and steady-state or transient fluid flows.

Computer Generated Forces (CGF), a powerful platform that can fill your synthetic environments with airspace, battlefield, maritime, or urban activity. VR-Engage allows users to play the role of a human character, a ground vehicle driver, gunner or commander, or as a pilot of a fixed-wing plane or helicopter. High-performance image generator with game-like visuals. For training and simulation projects, this product was designed by simulation and modeling experts. The physics of light in any wavelength can be represented by physically accurate sensors. Applications that allow you to model, simulate, visualize, or participate in multi-domain simulations of the whole earth. Multi-domain computer-generated forces. Multi-role virtual simulation. Image generator and battlefield visualization. EO, IR and NVG imaging sensors. Synthetic aperture radar simulation.

C-Radiant, an add-on module, provides physics-based spectral render and autogain, noise, and sensor special effects for Aechelon's pC-Nova photo generator. It uses advanced shader technology and does not require any hardware post-processing sensor solutions. C-Radiant spectral renders can be used in conjunction with Aechelon Technology’s C-Genesis geospecific database architecture and tool sets. The database contains material descriptions that are not limited to one band, but for all spectrums. This allows for the generation of correlated multiple sensors like Radar, Forward Looking InfraRed and Night Vision Goggles (NVG). This allows for perfect mutual correlation at 60Hz between all sensors and Out-The-Window.

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.

WaveFarer, a high-fidelity simulator of radars, accounts for multipathing and scattering caused by structures and vehicles within the immediate environment. It also accounts for atmospheric and scattering effects at frequencies up to 100 GHz and beyond. Applications include simulations of automotive drive scenarios and indoor sensors. WaveFarer features allow for fast and accurate analysis in a simulation of scenarios where radars are in close proximity to targets, structures, and other features. WaveFarer supports all applications that are relevant to the analysis and simulation of a radar system. This includes evaluating the placement of radar sensors and target returns in a simulated driving scenario. This includes the analysis of target radar cross-section (RCS) as well as the impact of materials.

CONSELF allows you to use Computational Fluid Dynamics and Finite Element Analysis (FEA), which can be used to improve the design of your product: minimize drag and fluid dynamics losses; maximize heat exchange performances; estimate pressure loads; verify material resistance; evaluate components shape deformation; calculate natural frequencies, modes and other modes. Structural Mechanics can be performed dynamically or statically, using both elastic and non-elastic materials. You can also perform frequency and modal analyses starting from the most common CAD neutral file formats.

Frost 3D software lets you create scientific models of permafrost temperatures under the thermal influence from pipelines, production wells and hydraulic constructions. This software takes into account the thermal stability of the ground. The software package is based upon ten years of experience in programming, computational geometry and numerical methods. It also allows for parallelization of computational algorithm. 3D computational domain created with soil lithology and surface topography. 3D reconstruction of pipes, boreholes and basements and foundations of buildings; Importation of 3D objects, including Wavefront (OBJ), StereoLitho(STL), 3D Studio Max (F3O), and Frost 3D Objects (3DS), Library of thermophysical property of ground, building elements and parameters of cooling units; Specification and heat transfer parameters on objects' surfaces and thermal and hydrological characteristics.

You will find a modular, open-source virtual driving simulator that allows you to test against a variety objectives and performance requirements. Ansys VRXPERIENCE Driving Simulator powered by SCANeR™ allows you to create scenarios, test software, and consider vehicle dynamics. It allows you to create a virtual driving environment for testing performance and analyzing the results. VRXPERIENCE Driving Simulator allows for an immersive, simulated test-drive experience in a realistic setting. You can conduct thorough safety assessments and drive millions of virtual kilometers in days. This will accelerate development by 1,000x when compared to road-testing. As passenger cars become more digitalized and autonomous, they will require advanced technologies such as sensors like cameras, radars and lidars as well as embedded software that supports automated control systems.

In markets where safety of welded assemblies are essential, analysis using TRANSWELD®, offers a global solution to anticipate welding defect. Our simulation software integrates multiple physical models to simulate the actual behavior of the metal when it is in a liquid/mushy condition to perform a comprehensive analysis of the material's evolution. TRANSWELD®, enables the study of the microstructure in the solid-state assembly. You can then ensure the conformity without having to go through the prototyping phase. Our software is 100% predicative. You can observe welding processes numerically using real conditions. You can, for example, visualize the heat source movements during the simulation of laser or arc welding.

OpenFOAM is a free and open-source CFD program that was developed by OpenCFD Ltd. It has been in use since 2004. It is used by many people from both academic and commercial engineering and science fields. OpenFOAM offers a wide range of features that can solve complex fluid flows, including those involving chemical reactions, heat transfer, turbulence, and turbulence, as well as acoustics and solid mechanics. OpenFOAM is professionally updated every six months to include customer-sponsored development and contributions from the community. It is independently tested by ESI OpenCFD's application experts, development partners, and selected customers. It is supported by ESI’s global infrastructure, values, and commitment. The basis of quality assurance is rigorous testing. The code evaluation, verification, and validation process includes several hundred daily unit test runs, a medium-sized test run on a weekly basis, as well as a large industry-based test run.

AVEVA PRO/II™, Simulation is a steady state simulator that optimizes plant performance through process design, operational analysis, engineering studies, and improved process design. AVEVA PRO/II simulation optimizes plant performance through improved process design, operational analysis, and engineering studies. AVEVA PRO/II Simulation is designed to perform heat and material balance calculations for a wide variety chemical processes. For the most cost-effective operation, you can design new processes or evaluate alternative plant configurations. AVEVA PRO/II simulation is now available online with seamless maintenance, on-demand access, and flexible use. Our support team has over 15 years of combined experience. AVEVA PRO/II simulation optimizes plant performance through process design improvements and operational analysis. It also performs engineering studies.

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.

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.

MIMIC Simulator simulates real-world lab environments with 100,000 devices at a fraction the cost of traditional equipment. It allows users to interact with the simulator and learn how to develop, sell, evaluate, deploy, and train enterprise management applications. Users can create a virtual environment that is customizable and includes simulated IoT sensors, gateways, routers hubs switches, WiFi/WiMAX/LTE devices and probes as well as cable modems, servers, workstations, and cables. The MIMIC Simulator suite contains: MIMIC SNMP Simulator – SNMPv1, SNMPv2c and SNMPv3 as well as SYSLOG Simulation MIMIC NetFlow Simulator – NetFlow, IPFIX and SYSLOG together with SNMP MIMIC sFlow Simulator – sFlow, SYSLOG and SNMP MIMIC Web Simulator – SOAP, REST and XML based Web Services vSphere, vCenter Hyper-V. RHEV, RHEV–M, VirtualBox. Cisco Prime Collaboration Solutions. WinRM with SNMP MIMIC IOS/JUNOS/Telnet Simulation - Cisco IOS/JUNOS/Telnet SIMULATOR - Cisco IOS/JUNOS, Telnet SSH, SYSLOG

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.

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.

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).

GASP is a structured/unstructured, multi-block CFD flow solver which solves the Reynolds Averaged Navier-Stokes (RANS) equations as well as the heat conduction equation for solid bodies. Organization based on hierarchical-tree. All processing from pre- to post-processing are done in one interface. Stable and unstable 3-D, Reynolds-Averaged Navier-Stokes Equations, (RANS), and subsets. Multi-block structured/unstructured grid topology. Support for tetrahdras, hexahedras, prisms, pyramids and more with unstructured mesh. Integration with the portable extensible toolkit to support scientific computation library. Uncoupling systems, including turbulence, and chemistry, for better computational efficiency. Support for all parallel computers, including clusters. The user is able to see the integrated domain decomposition.

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.

Software for finite element analysis using CAD-embedded software. You can use a wider range of study types and materials to aid your analysis. Inventor®, Nastran®, provides finite element analysis tools for engineers and analysts. Simulation includes many types of analysis, including dynamics, heat transfer, linear and nonlinear stress and dynamics. Inventor Nastran can only be found in the Product Design & Manufacturing Collection. The Product Design & Manufacturing Collection includes advanced simulation, 5-axis CAM and nesting tools, as well as AutoCAD and Fusion 360.

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.

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.

e-hub NDI stands for Engineering hub for non-destructive inspection. The software is a flexible tool for a wide range of manufacturing inspection requirements. Design & Simulate software, then create the program for the controller. e-hub NDI simulates and programs robotic non-destructive tests offline. The sensor performing the inspection can be in direct contact with the part being inspected or not.

Metariver Technology Co., Ltd. develops innovative and creative computer-aided engineering (CAE) analysis S/W based upon the most recent HPC technology and S/W technologies including CUDA technology. We are changing the paradigm in CAE technology by using particle-based CAE technology, high-speed computation technology with GPUs, and CAE analysis software. Here is an introduction to our products. 1. Samadii-DEM: works with discrete element method and solid particles. 2. Samadii-SCIV (Statistical Contact In Vacuum): working with high vacuum system gas-flow simulation. 3. Samadii-EM (Electromagnetics) : For full-field interpretation 4. Samadii-Plasma: For Analysis of ion and electron behavior in an electromagnetic field. 5. Vampire (Virtual Additive Manufacturing System): Specializes in transient heat transfer analysis.

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.

Optimized sensor design results in a 36% reduction in the product's power consumption. Acceleration of their R&D efforts through the ability to simultaneously test hundreds upon hundreds of sensor components and design variations. The ability to find design flaws in just hours, rather than weeks, which reduces the time-to market for new products. Its cutting-edge algorithms are integrated in a simple, intuitive user interface to allow for the easy design of great touch screen products. Fieldscale solvers allow for complex simulations. You can perform thousands, if not millions, of calculations and run multiple scenarios to get the results in a single day. Fieldscale finally makes it possible to realize optimal design faster than your competitors.

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.

Simcad Pro allows you to visualize, analyze, and optimize process flow systems within an interactive simulation modeling environment. Optimize, plan, optimize, and reorganize processes and procedures, while optimizing layouts, automation, scheduling, and facility improvement. Simcad Pro integrates historical and live data to offer the best simulation tool on the marketplace. Multiple industries can use these applications, including manufacturing, automation and logistics, distribution warehouse, food & beverage, and services. Multi-Threaded – 64 bit Engine Simulator-on-the-fly - You can make real-time modifications to the model as the simulation is running. You can animated the model in 3D, 2D, and VR using Ray Tracing, light effects, and shadows. Singular model building environment. Smart, Spatially Aware Agents. Sub-Flows. Collision Avoidance. Real-Time Connectivity. Spaghetti Diagrams and Congestion Analysis, Heat Maps Efficiency, OEE. Extensive reporting and analysis tools. Scenario Analyzer.

An electromagnetic sensor includes a "front end" that generates and receives electromagnetic waves through a subsystem called a Receiver/EXciter. A "back-end", which performs signal and data processing, is usually implemented in software, is also included. Each subsystem must be designed and developed separately before being integrated together. Integration testing presents problems that can slow down and complicate the development of the overall sensor. This is due to the interdependencies between these subsystems, which cannot be tested during development. Software patches, configuration upgrades and waveform changes become significantly more costly as they cannot be verified at the operational site. These issues can be addressed by the Virtual Receiver/EXciter, (VREX). It uses a simulated front end.

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.

Tecplot RS, an integrated visualization and analytical software for reservoir engineers, is designed specifically for oil and natural gas reservoirs. It simplifies the management and interpretation reservoir simulation data by using comprehensive XY plots and 2D cross-sections. The platform allows users to import data from different simulation sources. This allows them to organize results, validate models and effectively communicate findings between teams. Recent updates, like the 2023 R1 version, have introduced features that enhance the assessment of history matching quality by allowing selection sets to be created based on deviation band. The software also supports the visualization negative values on stamp plots to aid in the analysis and trends of fluid behavior within reservoirs. Tecplot RS's user-friendly interface ensures a quick learning curve. It is complemented by free online training and full technical support.

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.

The Akselos Cloud platform provides a complete Digital Twin framework through the cloud. It offers an end-to-end solution that automates asset condition updates and asset loads, as well as clear dashboards that show current asset integrity.

Mission Management Platform (MMP). The Mission Management Platform software suite can be installed in a modular MSCCS configuration without restrictions regarding the number control working positions (CWP). Nurjana developed the NT MMP framework. It can be installed in a modular MSCCS configuration without restrictions regarding the number of control work position (CWP). The MMP software for MSCCS has two main categories of Software Modules. Each module can be made up of various NT standard components (e.g. Libraries and building blocks: Mission Setup and Analysis Applications, Scenario Definition and Pre–Mission Control Module. This Module allows the user to create a Range Abstraction Layer. It also contains the environment data structure that is used to represent various entities, such as the projectiles, geographical terrain, and environment. The Range Abstraction Layer

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®.

Mimic Simulation Software allows for dynamic simulation that simulates plant behavior in real-time. Mimic is designed for process automation experts and not simulation specialists. It seamlessly integrates with DeltaV and other offline control systems. You can use the exact same operator graphics, controls and controls to train new or inexperienced operators. Mimic™, Simulation Software allows for accurate simulations of plant behavior in real-time. Mimic is designed for the end-user, integrator, or anyone with process automation experience. It can be integrated easily and automatically with your existing off-line control system. You can use the same operator graphics to train operators or test configuration.

Simcenter MAGNET provides a powerful electromagnetic simulation solution to predict the performance of motors and generators. It can also be used for predicting the performance of sensors, transformers. actuators, solenoids or any other component with permanent magnets. Simcenter MAGNET allows you to predict the performance of any part with permanent magnets or coils. Simulate low-frequency electromagnetic fields. Simcenter MAGNET has the ability to accurately model electromagnetic devices. This includes the ability to model manufacturing processes, temperature-dependent material properties, magnetization and de-magnetization modeling, and vector hysteresis models among others. Simcenter MAGNET also has a built-in motion solver with a six-degree-of-freedom capability. It allows complex problems such as magnetic levitation and complex motions to be accurately modelled and analyzed. A unique smart remeshing technology makes this possible.

Kombyne™, a new SaaS high performance computing (HPC), workflow tool, was initially designed for customers in the aerospace, defense, and automotive industries. It is now available to academic researchers. It allows users to subscribe for a variety of workflow solutions for HPC-related jobs, including on-the-fly extraction generation and rendering to simulation steering. Interactive monitoring and control are available with minimal simulation disruption, and no reliance upon VTK. Extract workflows and real time visualization eliminate the need for large files. In-transit workflows use a separate process that receives data from the solver and performs visualizations and analysis without interfering in the running solver. The endpoint, also known as an extract, can output point samples, cutting planes, and point samples for data science. It can also render images. The Endpoint can also be used to bridge to popular visualization codes.

Multifunctional dynamics simulator that seamlessly integrates into Autodesk 3ds Max or V-Ray. Chaos® Phoenix can create a wide variety of effects, including smoke, liquids and flames, explosions as well as rigid body simulations, ocean waves and mist. It is easy to set up and quick to use, and the powerful simulation engine allows for complete control over more complicated effects. Chaos® Phoenix is a one-stop solution for fluid dynamics. Simulate fire, smoke and liquids, as well as ocean waves, splashes and mist, and other fluid dynamics. Designed for 3D artists who need to create dynamic FX quickly using presets, quick setup and intuitive controls. Viewport allows you to preview and render interactively. You can adjust simulations as you go. You can create all kinds of fluid effects based on physical properties using flexible controls that allow you to quickly render, retiming, and refine simulations. Integrated seamlessly into 3ds Max, optimized to render with Chaos Vray®.

Engineering groups are using niche software tools from different vendors to simulate product attributes. Multi-vendor software products can lead to inefficiencies and increase costs. SIMULIA offers a scalable suite unified analysis products that allows all users, regardless their simulation expertise or domain focus to collaborate seamlessly and share simulation data and approved methods without losing information fidelity. Abaqus Unified FEA offers powerful and complete solutions to complex engineering problems across a wide range of industrial applications. Automotive industry engineering groups can consider full vehicle loads, dynamic vibrations, multibody systems and impact/crash using a common model structure and integrated solver technology.

The SIGMASOFT® VIRTUAL MOULDING simulation software provides you with a significant edge in the injection and compression mold industry: - Evaluate and optimize processes & complete moulds - Increase efficiency, productivity and part quality - Reduce waste associated with trial and error

Simulating and analyzing your product design will reduce the cost of physical prototyping and increase your products' durability and reliability. It is crucial to your product development to use digital prototypes to understand the performance of your designs in real-world situations. Creo Simulation was designed exclusively for engineers. It includes structural, thermal and vibration analysis solutions, as well as a comprehensive set finite element analysis (FEA). You can validate and analyze the performance of 3D virtual prototypes with Creo Simulation before you even make the first part. We offer unique and flexible simulation solutions to our customers. This section will give you a better understanding of what we can do to meet your needs. Contact a Creo representative if you have any questions regarding our tool stack.

Autodesk CFD, a computational fluid dynamics simulation program, is used by engineers and analysts to predict how liquids will perform. Autodesk CFD reduces the need for physical prototypes and provides deeper insight into fluid flow design performance. Autodesk CFD offers engineers a variety of powerful tools to optimize system design. Fluid flow and surface movement are possible. Thermal management for electronics cooling. BIM integration to ensure occupant comfort in HVAC systems in AEC and MEP. The Decision Center allows customization and automation of common tasks through the Application Programming Interface (API), and scripting functions. The Decision Center automates system design comparisons in order to accelerate design-based decision making.

Simufact Additive, a powerful and scalable solution for the simulations of metal-based additive manufacturing processes, is available. Simufact Additives can be used to optimize metal 3D printing and rapid prototyping. Simufact additive can help you significantly reduce the number test prints. We want to help you create AM components with repeatable dimensions. Simufact Additive's multiscale approach to simulation combines the best of both mechanical and thermal methods in one unique software solution. You can choose the simulation method that best suits your needs. Simufact Additive, a specialized software solution, is dedicated to the simulation and analysis of additive manufacturing processes. This is reflected in a lean operation concept for the user.

ENVI-met 3D microclimate simulation software. It can be used for many purposes, including urban planning, building design, energy efficiency, and other climate parameters. ENVI-met can simulate many climate conditions, including day and night temperatures, humidity, wind speed and solar radiation in cities. The software can simulate the effects of different building materials such as glass or stone on the climate in the surrounding environment. It is used to predict how urban design changes will affect the microclimate and human thermal comfort in cities around the world. It is vital that cities become more resilient and healthier as climate change is having a significant impact on the planet. ENVI-met can help support these goals by assessing the potential of new buildings, green space, and urban planning, and making informed decisions.

You can create vast worlds, complex characters, or dazzling effects. Engaging animation tools can bring life to believable characters. Maya®, a Maya®, software, allows you to create 3D objects and scenes. You can create realistic effects, from explosions to cloth simulation. You can quickly create blockbuster-worthy effects with a new visual programming environment that uses dynamic solvers. Bifrost Graph Editor allows you to create custom graphs. With ready-to-use graphs, you can create stunning effects such as snow and sand, dust storms, and explosions. Arnold can render your most complicated projects. Arnold is designed to handle complex characters, lighting, and scenery. Arnold integrates with Maya so you can quickly see high-quality previews of Arnold and make changes. Arnold's intuitive, artist-friendly interface and simple controls will help you save time.

Fusion 360 brings together design, engineering, electronics and manufacturing in one software platform. Get integrated CAD, CAM, CAE & PCB on a single development platform. EAGLE Premium, HSMWorks and Team Participant are also included. You also have access to consumptive services such as cloud simulation, generative design, and cloud rendering. A comprehensive range of modeling tools is available to help you design products. You can ensure the form, fit and function of your products using a variety of analysis methods. You can create and edit sketches using sketch constraints, dimensions, as well as a powerful suite if sketch tools. Edit and repair imported geometry from non native file formats. You can make design changes without worrying too much about time-based features. Edit complex parametric surfaces to repair, patch or design geometry. You can create history-based features such as extrude, revolve and loft that are updated with design changes.

FLOW-3D is a highly accurate CFD software that solves transient, free-surface issues. It can help you optimize product designs and reduce time to market. FLOW-3D's multiphysics suite also includes FlowSight, our state-of the-art postprocessor. FLOW-3D is a versatile CFD simulation platform that engineers can use to study the dynamic behavior liquids and gases in a variety of industrial applications and physical processes. FLOW-3D is a free surface and multiphase simulation platform that serves a wide range of industries, including aerospace, microfluidics and bio-medical devices as well as water civil infrastructure and automotive. FLOW-3D is a multiphysics tool that is unique in its power and versatility. It helps engineers achieve their modeling goals.

IVRESS is a simulation product that provides users with a virtual reality environment. It's an object-oriented virtual reality toolkit that allows developers to create immersive interactive environments. Although this may sound lofty, IVRESS has a large library of prebuilt objects that can make it much easier. You can select any area you wish and manipulate it with ease. It is possible to create realistic scenes using photorealistic rendering features such as transparency and texture mapping. After you have built a VR environment using IVRESS, you will be able to use the spatial navigation control for flying through the scene. This allows you to view models from all sides. R&D teams who have modeled scenes in older software will be able to import VRML97 and PLTO3D objects immediately.