GASP Alternatives

Ansys Motor-CAD is a dedicated electric machine design tool for fast multiphysics simulation across the full torque-speed operating range. Motor-CAD enables design engineers to evaluate motor topologies and concepts across the full operating range, to produce designs that are optimized for performance, efficiency and size. Motor-CAD software’s four integrated modules—EMag, Therm, Lab, Mech—enable multiphysics calculations to be performed quickly and iteratively, so users can get from concept to final design in less time. Fast calculations and streamlined data input processes leave time for Motor-CAD users to explore more motor topologies and fully assess the impact of advanced loss effects in the initial stages of an electromechanical design. The release includes powerful new features for design optimization, multi-physics analysis and system modelling for electric motors. Fast multiphysics simulation across a full torque-speed operating range.

By leveraging our unique, inherently transient Lattice Boltzmann-based physics PowerFLOW CFD solution performs simulations that accurately predict real world conditions. Using the PowerFLOW suite, engineers evaluate product performance early in the design process prior to any prototype being built — when the impact of change is most significant for design and budgets. PowerFLOW imports fully complex model geometry and accurately and efficiently performs aerodynamic, aeroacoustic and thermal management simulations. Automated domain discretization and turbulence modeling with wall treatment eliminates the need for manual volume meshing and boundary layer meshing. Confidently run PowerFLOW simulations using large number of compute cores on common High Performance Computing (HPC) platforms.

OpenFOAM is the free, open-source CFD software developed primarily by OpenCFD Ltd since 2004. It has a large user base across most areas of engineering and science, from both commercial and academic organizations. OpenFOAM has an extensive range of features to solve anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to acoustics, solid mechanics and electromagnetics. OpenFOAM is professionally released every six months to include customer-sponsored developments and contributions from the community. It is independently tested by ESI-OpenCFD's application specialists, development partners and selected customers, and supported by ESI's worldwide infrastructure, values and commitment. Quality assurance is based on rigorous testing. The process of code evaluation, verification and validation includes several hundred daily unit tests, a medium-sized test battery run on a weekly basis, and a large industry-based test battery-run.

Simcenter STAR-CCM+ is a multiphysics computational fluid dynamics (CFD) software for the simulation of products operating under real-world conditions. Simcenter STAR-CCM+ uniquely brings automated design exploration and optimization to the CFD simulation toolkit of every engineer. The single integrated environment includes everything from CAD, automated meshing, multiphysics CFD, sophisticated postprocessing, and design exploration. This allows engineers to efficiently explore the entire design space to make better design decisions faster. The additional insight gained by using Simcenter STAR-CCM+ to guide your design process ultimately leads to more innovative products that exceed customer expectations. Significantly improving a battery design across its whole operating range is a challenging task, and involves the simultaneous optimization of numerous parameters. Simcenter provides a complete simulation environment for the analysis and design of the electrochemical system.

Simulate real-world designs, devices, and processes with multiphysics software from COMSOL. General-purpose simulation software based on advanced numerical methods. Fully coupled multiphysics and single-physics modeling capabilities. Complete modeling workflow, from geometry to postprocessing. User-friendly tools for building and deploying simulation apps. The COMSOL Multiphysics® software brings a user interface and experience that is always the same, regardless of engineering application and physics phenomena. Add-on modules provide specialized functionality for electromagnetics, structural mechanics, acoustics, fluid flow, heat transfer, and chemical engineering. Choose from a list of LiveLink™ products to interface directly with CAD and other third-party software. Deploy simulation applications with COMSOL Compiler™ and COMSOL Server™. Create physics-based models and simulation applications with this software platform.

With CONSELF you can exploit Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA) to improve your products design: minimize drag and fluid dynamics losses, increase efficiency, maximize heat exchange performances, estimate pressure loads, verify material resistance, evaluate components shape deformation, calculate natural frequencies and modes, and much more. Static and dynamic simulations are available for Structural Mechanics, with both elastic and plastic materials behavior. Modal and frequency analyses can also be carried out starting from most common CAD neutral file formats.

Kombyne™ is an innovative new SaaS high-performance computing (HPC) workflow tool, initially developed for customers in the defense, automotive, and aerospace industries and academic research. It allows users to subscribe to a range of workflow solutions for HPC CFD jobs, from on-the-fly extract generation and rendering to simulation steering. Interactive monitoring and control are also available, all with minimal simulation disruption and no reliance on VTK. The need for large files is eliminated via extract workflows and real-time visualization. An in-transit workflow uses a separate process that quickly receives data from the solver code and performs visualization and analysis without interfering with the running solver. This process, called an endpoint, can directly output extracts, cutting planes or point samples for data science and can render images as well. The Endpoint can also act as a bridge to popular visualization codes.

Adaptive Research is pleased to announce the immediate release of the CAESIM 2024 simulation platform, providing advanced computational fluid dynamics modeling with multi-physics capabilities. The new software release provides new tools and capabilities that optimize the modeling process and provide the CFD engineer with fast simulation solutions.

SimFlow is a desktop Computational Fluid Dynamics (CFD) analysis software for Windows and Linux OS. It is based on OpenFOAM libraries, acting like an OpenFOAM GUI. It is a professional CAE package for engineers offering fully-featured 3D simulations. SimFlow is a powerful general-purpose CFD software. It combines an intuitive graphical user interface with the advantages of the open-source OpenFOAM® libraries. Download SimFlow and use it for free in an evaluation mode to solve the most complex problems you face as an engineer, scientist or student. Maybe you use CFD software on a daily basis or maybe just want to start your adventure. Install SimFlow, rediscover the CFD world without any time limit and enjoy powerful fluid simulation software.

Optimize product designs and reduce time to market with FLOW-3D, a highly-accurate CFD software that specializes in solving transient, free-surface problems. FLOW-3D‘s complete multiphysics suite includes our state-of-the-art postprocessor, FlowSight. FLOW-3D provides a complete and versatile CFD simulation platform for engineers investigating the dynamic behavior of liquids and gas in a wide range of industrial applications and physical processes. FLOW-3D focuses on free surface and multi-phase applications, serving a broad range of industries including microfluidics, bio-medical devices, water civil infrastructure, aerospace, consumer products, additive manufacturing, inkjet printing, laser welding, automotive, offshore, energy and automotive. A uniquely powerful, multiphysics tool, FLOW-3D provides the functionality, ease-of-use and power that helps engineers advance their modeling objectives.

Make Better Decisions with Tecplot 360, the most complete CFD Post processor. More CFD simulations are being run, grid sizes are getting larger, and data sets are being stored remotely. It’s essential that you have the right tools to handle large data sets, automate workflows, and visualize parametric results. Tecplot 360 helps you spend less time waiting and more time discovering. Integrate XY, 2D & 3D plots and get them looking exactly the way you want. Communicate your results with brilliant images and animations. Automate the boring stuff with PyTecplot Python scripting. Never miss a result when analyzing parametric data with Chorus. Securely access large, remote data with SZL-Server client-server. Load Tecplot, FLUENT, PLot3D, CGNS, OpenFOAM, FVCOM, VTU data and 22 other CFD, FEA, structural analysis, and industry-standard data formats. Report and compare solutions in a multi-frame environment with multiple pages.

Ansys Icepak is a CFD solver for electronics thermal management. It predicts airflow, temperature, and heat transfer in IC packages, PCBs, electronic assemblies/enclosures, and power electronics. Ansys Icepak provides powerful electronic cooling solutions that utilize the industry-leading Ansys Fluent computational fluid dynamics (CFD) solver for thermal and fluid flow analyses of integrated circuits (ICs), packages, printed circuit boards (PCBs), and electronic assemblies. The Ansys Icepak CFD solver uses the Ansys Electronics Desktop (AEDT) graphical user interface (GUI). Perform conduction, convection, and radiation conjugate heat transfer analyses, with many advanced capabilities to model laminar and turbulent flows, and species analysis including radiation and convection. Ansys’ complete PCB design solution enables you to simulate PCBs, ICs, and packages and accurately evaluate an entire system.

The popularity of ESS is mainly owing to our niche solutions in the automotive market. The success of our solutions in the competitive environment led ESS to set foot into the “on-demand” domain. With the alsim cloud, we are achieving something no one else has pulled off before. We offer simulation tools that can be used by anyone without any CFD knowledge on a pay-per-use basis. This ensures all consumers – students, engineers and businesses alike – can equip themselves with our cutting-edge techniques. Apart from the offline product offerings, we also serve our customers across all industries with solutions & reports based on our simulation results. We work closely with our customers in identifying their requirements and problem areas to provide them with highly accurate simulation results. Equipped with in-depth experience of industrial processes and robust solvers, we have been able to provide service to some of the major OEMs across the world with success.

SimScale is a cloud-based web application that plays a key part in simulation software for many kinds of industries. The platform allows the use of Computational Fluid Dynamics (CFD), Finite Element Analysis (FEA), and Thermal Simulation. It also offers 3D simulation, continuous modeling, and motion & dynamic modeling.

Autodesk CFD is a computational fluid dynamics simulation software that engineers and analysts use to intelligently predict how liquids and gases will perform. Autodesk CFD helps to minimize the need for physical prototypes while providing deeper insight into fluid flow design performance. Autodesk CFD provides engineers with a range of powerful tools for system design optimization. Fluid flow and free surface movement. Thermal management for electronics cooling. BIM integration for occupant comfort of HVAC in AEC and MEP. The Application Programming Interface (API) and scripting functions expand the base capabilities of Autodesk CFD through the Decision Center’s customization and automation of common tasks. In addition, the Decision Center automates system design comparisons to speed up design-based decision making.

6SigmaET is an electronics thermal modeling tool that uses advanced computational fluid dynamics (CFD) to create accurate models of electronic equipment. Designed specifically for the electronics industry, our thermal simulation software ushers in unparalleled intelligence, automation and accuracy to help you meet your requirements and overcome thermal design challenges. Since its inception in 2009, 6SigmaET has become the fastest-growing thermal simulation software in the electronics cooling market. The versatility of 6SigmaET allows you to simulate the thermal performance of electronic components: ranging from the smallest ICs to the largest, most powerful servers. Learn more about 6SigmaET's value to your industry by watching one of our videos or exploring our case studies. The complete CAD geometry of a device and PCB design can be imported into 6SigmaET for thermal analysis, reducing model creation time.

HyperWorks provides easy-to-learn, effective workflows that leverage domain knowledge and increase team productivity, enabling the efficient development of today’s increasingly complex and connected products. The new HyperWorks experience was created to free engineers to move from physics to physics, domain to domain, and even create reports without ever leaving their model. Create, explore and optimize designs within HyperWorks to produce robust designs that accurately model structures, mechanisms, fluids, electromagnetics, electrical, embedded software, systems design, and manufacturing processes. The solution-specific workflows enhance a growing number of engineering processes including fatigue analysis, concept design optimization, CFD modeling, and design exploration. Each provides a meticulously designed and intuitive user interface, differentiated for each user profile while remaining consistent and easy to learn.

SpectreUQ™ builds on the mature and sophisticated DAKOTA software from Sandia National Laboratories and adds a wizard to guide the engineer through the UQ process. The details of the disciplined UQ process are handled behind the scenes. It uses a database to store results from experiments and simulations in a structured fashion and provides interactive graphing and visualization tools. Provided via an annual subscription without user count restrictions and in source code form. SpectreUQ™ unlike other methods is non-intrusive to the simulation; it runs alongside the code, not within it. Using your own HPC, you are free to evaluate hundreds of flight conditions to train built-in surrogate models. Easy to learn and use, tuned over hundreds of hours of use on actual UQ studies. The Oberkampf-Roy method is used to guide the process of ingesting experimental data and CFD results. Interactive plots of results are easy to explore and publish.

Azore is a computational fluid dynamics software tool for analyzing fluid flow and heat transfer. CFD provides engineers and scientists a method for analyzing a wide array of fluid mechanics, thermal, and chemical problems numerically on a computer. Many different types of fluid dynamic situations can be simulated using Azore, including air, gas, liquid, or particulate-laden flows. For liquid systems, modeling the flow of water through a piping system or evaluating water velocity profiles around submerged objects are common uses of Azore. The flow of air or gases can also be analyzed such as simulating the ambient air velocity profiles of wind as it passes around buildings or investigating the flow and heat transfer inside a room, duct system, mechanical equipment, or industrial process. Azore CFD can be used to simulate essentially any incompressible, steady-state, or transient fluid flow model, including problems that involve conjugate heat transfer and species transport.

Unified CAE environment for virtual product development. The team at GMTO is using MSC Apex to help the giant telescope withstand earthquakes in Chile while helping humanity understand the universe. Immerse yourself in a fun, easy to use environment; a game-like experience that is referred to by engineers as ‘addictive’. MSC Apex structures packages a user interface for scenario definition and results post-processing, as well as integrated solver methods. This solution is unique in that it combines computational parts and assemblies technology with a generative framework, which enables interactive and incremental analysis. The integration of the user interface with solver methods gives the user a unique ability to interactively and incrementally validate that FEM models are solver ready. At the user’s demand, a series of solver checks can be run against individual parts and assemblies and the model diagnostics are reported in the Analysis Readiness panel.

Simulate the fluid flow, heat transfer, and fluid forces that are critical to the success of your designs. SOLIDWORKS® Flow Simulation is an intuitive Computational Fluid Dynamics (CFD) solution embedded within SOLIDWORKS 3D CAD that enables you to quickly and easily simulate liquid and gas flows through and around your designs to calculate product performance and capabilities. SOLIDWORKS® products are easy to learn and use, and work together to help you design products better, faster, and more cost efficiently. SOLIDWORKS Flow Simulation enables you and your team to simulate fluid flow, heat transfer, and fluid forces that are critical to the success of your product. Companies of all sizes need integrated solutions to help them innovate and grow their business. With integrated CFD tools you can efficiently analyze the effects of fluid flow, heat transfer, and related forces on your projects and process multiple “what if” scenarios to help you optimize designs quickly.

Known for its extreme robustness, CFX is the gold standard CFD software when it comes to turbomachinery applications. Both solver and models are wrapped in a modern, intuitive, and flexible GUI, with extensive capabilities for customization and automation using session files, scripting and a powerful expression language. Highly scalable high-performance computing will help speed up simulations including pumps, fans, compressors and turbines. New manufacturing methods have opened the door to more effective turbine cooling channel geometries. The new geometries will lead to better performance and efficiency but are more complex. To achieve highly accurate results, a team of Purdue engineers turned to Ansys CFX. The engineers executed key computations with little turnaround time. With the extra time, they could perform more in-depth comparisons and run further simulations to fully optimize their product.

Accelerate engineering with the industry's only intuitive, comprehensive CFD platform for multidisciplinary design and optimization. Computational fluid dynamics (CFD) is an aspect of multiphysics system analysis that simulates the behavior of fluids and their thermodynamic properties using numerical models. Engineers use the Cadence Fidelity CFD platform design processes, such as propulsion, aerodynamics, hydrodynamics, and combustion, to improve and increase the efficiency of products by reducing time-consuming and expensive physical testing. Fidelity CFD platform provides an easy-to-use end-to-end CFD solution for multidisciplinary design and optimization, in applications such as aerospace, automotive, turbomachinery, and marine industries. The platform, with its streamlined workflows, massively parallel architecture, and state-of-the-art solver technology, provides unprecedented performance and accuracy and increases engineering efficiency for today’s design challenges.

Based on computational physics, Energy2D is an interactive multiphysics simulation program that models all three modes of heat transfer, conduction, convection, and radiation, and their coupling with particle dynamics. Energy2D runs quickly on most computers and eliminates the switches among preprocessors, solvers, and postprocessors typically needed to perform computational fluid dynamics simulations. It allows you to design "computational experiments" to test a scientific hypothesis or solve an engineering problem without resorting to complex mathematics. Work is also underway to incorporate other types of energy transformations and support multiple types of fluids. The conduction part of Energy2D is highly accurate, but the convection and radiation parts are not 100% accurate. Hence, in cases that involve convection and radiation, Energy2D results should be considered qualitative. More than 40 scientific papers have used Energy2D as a research tool.

AKL FlowDesigner is a computational fluid dynamics (CFD) simulation software that enables wind analysis by easily importing 3D models of buildings or urban blocks developed by modeling tools such as Autodesk Revit, GRAPHISOFT ARCHICAD, Rhinoceros and SketchUp. AKL FlowDesigner is BIM capable in IFC format. Architects, designers, engineers and consultants can use AKL FlowDesigner early in the design process to understand and visualize airflow around their projects. Early analysis reduces design time and gives a powerful impression to clients. CFD simulation of AKL FlowDesigner gives you the maximum benefit in the application of AEC (architecture, engineering and construction) industry. Airflow simulation used to be a complex and time-consuming task requiring deep technical knowledge. No more! AKL FlowDesigner allows any user to create simulations and analyze airflow in minutes. No engineering degree or complex calculations are required!

PIPE-FLO® is the world's leading fluid flow analysis and design modeling solution for those who design, operate, and manage mission-critical fluid processing environments. A suite of products to increase the speed and accuracy of fluid system modeling calculations—making design, commissioning, operation, and modification of fluid piping systems more efficient and effective. PIPE-FLO from Revalize is your strategic partner in mastering complex fluid systems and staying a step ahead of future challenges with engineering precision and operational excellence. Join thousands of designers, operators, and manufacturers worldwide who have transformed their fluid operations with PIPE-FLO from Revalize.

Modelon’s OPTIMICA Compiler Toolkit, the most advanced Modelica-based mathematical engine on the market, offers users a powerful solution for the automation, simulation and optimization of system behaviors throughout the model-based design cycle. Trusted as the compiler for Modelon Impact, OPTIMICA enables users to build multi-domain physical systems by choosing from thousands of available model components. OPTIMICA’s state-of-the-art solvers empower evaluation of complex physical systems – supporting transient simulations as well as steady-state computations and dynamic optimization. The sophisticated mathematical engine can manipulate and simplify models to improve performance and robustness, serving industries and applications ranging from automotive and active safety to energy and power plant optimization. To meet the increased need for regulating power in today’s energy market, start-up optimization of thermal power plants is a key industrial need.

Subject your designs to real world conditions to raise product quality while reducing prototyping and physical testing costs. SOLIDWORKS® Simulation is an easy-to-use portfolio of structural analysis tools that use Finite Element Analysis (FEA) to predict a product’s real-world physical behavior by virtually testing CAD models. The portfolio provides linear, non-linear static and dynamic analysis capabilities. SOLIDWORKS Simulation Professional enables you to optimize your design, determine product mechanical resistance, product durability, topology, natural frequencies, and test heat transfer and buckling instabilities. It can also perform sequential multi-physics simulations. SOLIDWORKS Simulation Premium lets you efficiently evaluate your designs for nonlinear and dynamic response, dynamic loading, and composite materials. SOLIDWORKS Simulation Premium includes three advanced studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamics.

20-sim is a modeling and simulation software package for mechatronic systems. With 20-sim you can enter models graphically, similar to drawing an engineering scheme. With these models, you can simulate and analyze the behavior of multi-domain dynamic systems and create control systems. You can even generate C-code and run this code on hardware for rapid prototyping and HIL-simulation. 20-sim provides you with features that allow you to create models very quickly and intuitively. You can create models using equations, block diagrams, physics blocks and bond graphs. Various features help you to build your models, simulate them and analyze their performance. Models are built in the 20-sim editor. This editor contains a large model library with building blocks to help you to construct models. The model library contains many components such as block diagrams and bond graphs.

Analytic Solver Optimization - 100% upward compatible from the Excel Solver - handles every type and size of the conventional optimization problem (without uncertainty). Unlike other optimization software, it algebraically analyzes your model structure and maximally exploits multiple cores in your PC. You can solve nonlinear models 10 times larger, and linear models 40 times larger than the Excel Solver, get solutions much faster – and plug-in Solver Engines to handle up to millions of variables! Analytic Solver Simulation gives you easy-to-use, powerful Monte Carlo simulation and risk analysis, decision trees, and simulation optimization using Frontline’s advanced Evolutionary Solver. With 60 probability distributions plus compound distributions, automatic distribution fitting, rank-order and copula-based correlation, 80 statistics, risk measures and Six Sigma functions, multiple parameterized simulations and more.

AGVortex is the CAE program for mathematical modelling of fluid and gas flows around airfoils. Here is implemented innovational solver based upon vorticity dynamics. This approach allows to resolve LES turbulence model on the multi-core processors and clusters that use parallel computing. But it needs much less computing power. Fewer number of equations and unknown functions in flow dynamics gives a gain in calculation process and imposes lower requirements for the computational resources. So, technologically, 3D modelling using LES turbulence model is possible today. An application consists of 3D editor, control panel, modeling area. The planned improvements: new solid types, turbulence models based upon vorticity . The trial version has limitations on the size of the grid, maximum Reynolds number, restrictions in the settings. System requirements: Win x64, vc++ redistributable, openGL drivers.

DIGIMU® generates digital polycrystalline microstructures representative of the material's heterogeneities (compliance with the topological characteristics of the microstructure). The boundary conditions applied to the REV are representative of that experienced by a material point at the macroscopic scale (thermomechanical cycle of the considered point). Based on a Finite Elements formulation, the various physical phenomena involved during metal forming processes are simulated (recrystallization, grain growth, Zener pinning due to second phase particles, etc.). In order to improve digital precision and to reduce computation times, the software is capable of providing a precise description of the interfaces (grain boundaries) while using an appropriate number of elements thanks to a fully automated anisotropic meshing and remeshing adaptation technology.

Address complex engineering challenges by enhancing simulation efficiency. Simcenter 3D is one of the most comprehensive, fully-integrated CAE solutions. Simcenter 3D helps you model and evaluate complex product performance through revolutionary improvements in simulation efficiency. By integrating multiple physics domains together from a single simulation modeling environment, you gain better insight into your product’s performance faster. Simcenter 3D is an integrated environment in which you perform all of your CAE pre- and post-processing. Unrivaled geometry manipulation tools help you intuitively defeature and abstract computer-aided design (CAD) geometry from any source. Comprehensive meshing and modeling tools support multiple simulation applications and give you the unique capability to associate your analysis model with design data. This helps you speed up the tedious modeling process and keep analysis models in sync with the latest design.

OnScale is the first Cloud Engineering Simulation platform. It combines powerful multiphysics solver technology with the limitless compute power of cloud supercomputers. With OnScale, engineers can run massive numbers of full 3D multiphysics simulations in parallel to create true Digital Prototypes digital representations of physical high-tech devices that capture the complete behavior of a device over its operating envelope. With OnScale Solve we want to provide you with an awesome Cloud Engineering Simulation experience that’s easy, powerful, and gets the job done. OnScale Solve is built to run on public and private cloud supercomputers and includes a functional web-based UI, an API to efficiently integrate into any design workflow, scripting languages to fully customize engineering simulations, and plugins to enhance its modeling capabilities. OnScale Solve gives engineers the simulation capability necessary to synthetically generate data to train sophisticated AI/ML algorithms.

Over the past two decades, software technologies have advanced greatly and HPC computing has scaled by orders of magnitude. Our human ability to comprehend simulation results has remained the same. Simply making plots and movies in the traditional way does not scale when dealing with multi-billion cell meshes or ten’s of thousands of timesteps. Automated solution assessment is accelerated when features and quantitative properties can be produced directly via eigen analysis or machine learning. Easy-to-use industry standard FieldView desktop coupled to the powerful VisIt Prime backend.

CF-MESH+ is the latest CFD meshing software version developed by Creative Fields. It comprises advanced meshing workflows with an easy-to-use front-end interface allowing for superior user experience and efficiency. It features a powerful set of tools and functionalities for generating quality CFD meshes in arbitrary complex geometries encountered within the industry. The software features a degree of robustness that will help you enhance your productivity and get a competitive advantage in your simulation efforts.

Ingrid Cloud is an online tool that automates the entire process of wind simulations. Our computational model has virtually zero human intervention, making it easy-to-use and accurate. We make CFD simple and affordable. The unique technology is based on research conducted at KTH Royal Institute of Technology for the past 15 years.

Ansys Fluent is the industry-leading fluid simulation software known for its advanced physics modeling capabilities and industry leading accuracy. Ansys Fluent gives you more time to innovate and optimize product performance. Trust your simulation results with a software that has been extensively validated across a wide range of applications. With Ansys Fluent, you can create advanced physics models and analyze a variety of fluids phenomena—all in a customizable and intuitive space. Accelerate your design cycle with this powerful fluid simulation software. Ansys Fluent contains the best-in class physics models and can accurately and efficiently solve large , complex models. Ansys Fluent unlocks new potentials for CFD analysis. A fluid simulation software with fast pre-processing and faster solve times to help you be the fastest to break into the market. Fluent’s industry leading features enable limitless innovation, while never making a compromise on accuracy.

Ansys Sherlock is the only reliability physics-based electronics design tool that provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early stage design. Ansys Sherlock automated design analysis provides fast and accurate life predictions for electronic hardware at the component, board and system levels in 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. With embedded libraries containing over 500,000 parts, Sherlock rapidly converts electronic computer-aided design (ECAD) files into computational fluid dynamics (CFD) and finite element analysis (FEA) models. Each model contains accurate geometries, material properties and translates stress information.

Wind is a difficult to grasp. In an urbanized environment, its behavior becomes more complex in contact with buildings, and many effects can occur: speed-ups (Venturi effect), vortices, plunging flows, interference, detachments, etc. The built environment thus creates a microclimate that often causes discomfort for users. To achieve sustainable architecture and urban planning, it is essential to study these aerodynamic phenomena and to integrate them as early as possible in urban projects. its study is more and more requested by project owners in many countries. Its consideration is necessary for the proper development of an outdoor public space and the well-being of users. UrbaWind allows you to compute the wind comfort of pedestrians according to the comfort standards of different countries.

Altair Activate can be applied to model and simulate a broad range of products as a system-of-systems to discover better designs, faster. Products in every industry are becoming increasingly complex and electrified, as well as smarter and more connected. Multi-disciplinary system-level simulation capabilities help develop smart, complex mechatronic systems holistically while enabling more streamlined product development teamwork and workflows. Altair Activate breaks down silos between mechanical subsystems, electrical subsystems, control subsystems, electronic subsystems, software, hardware-in-the-loop, data analytics, and more. Model thermal-fluid system dynamics using 1D modeling &and simulation (rather than using only 3D CFD) to yield nearly-as-accurate results significantly faster – to enable more design exploration and optimized performance in less time.

Ansys Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes, and materials. The integrated design environment provides scripting capability, advanced post-processing, and optimization routines. This finely tuned implementation of the FDTD method delivers best-in-class solver performance over a broad spectrum of applications. The integrated design environment provides scripting capability, advanced post-processing and optimization routines, allowing you to focus on your design and leave the rest to us. A range of benefits allow for flexible and customizable models and simulations. Ansys Lumerical FDTD models nanophotonic devices, processes and materials so you can focus on creation. Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes and materials. This finely tuned implementation of the FDTD method delivers reliable, powerful and scalable solver performance over a broad spectrum of applications.

Tidy3D is Flexcompute's ultrafast electromagnetic (EM) solver. The solver is based on the finite-difference time-domain (FDTD) method. Thanks to the highly optimized co-design of software and hardware, Tidy3D runs simulations orders of magnitude faster than other EM solvers on the market. With the lightning fast speed, you can also solve problems hundreds of wavelength in size, which is often not feasible with conventional approaches.

CAESES® foundation is a powerful and flexible parametric 3D modeler. The main purpose: Robust variable geometry with fewer parameters. Create a clean and robust parametric geometry that is ideal for automated meshing and analysis. Integrate, launch and control your simulation runs. Let it be your flexible GUI for process automation incl. 3D post-processing. CAESES® offers integrated methods for automated design explorations and shape optimization. Optimize imported geometries by using the shape deformation and morphing techniques of CAESES. CAESES® is a command-driven platform that can be fully scripted and customized. Includes batch mode capabilities. Accelerate your shape optimization process by mapping the results of an adjoint flow analysis to the geometry parameters. Get your flexible CAESES model in just a few days! Customized to your needs and easy to use. No CAESES expertise required.

Ansys Maxwell is an EM field solver for electric machines, transformers, wireless charging, permanent magnet latches, actuators and other electr mechanical devices. It solves static, frequency-domain and time-varying magnetic and electric fields. Maxwell also offers specialized design interfaces for electric machines and power converters. With Maxwell, you can precisely characterize the nonlinear, transient motion of electromechanical components and their effects on the drive circuit and control system design. By leveraging Maxwell’s advanced electromagnetic field solvers and seamlessly linking them to the integrated circuit and systems simulation technology, you can understand the performance of electromechanical systems long before building a prototype in hardware. Maxwell offers a trusted simulation of low-frequency electromagnetic fields in industrial components.

XFdtd is a full-wave 3D electromagnetic (EM) simulation software created by Remcom. This innovative and full-featured electromagnetic simulation solver provides high-performance computing options and simplifies the analysis of the most complex EM problems. XFdtd offers a wide range of applications that include microwave device design, antenna design and placement, radar and scattering, biomedical applications, automotive radar, waveguides, military and defense contracts, RFID, EMC/EMI, and more.

Simcenter MAGNET is a powerful electromagnetic field simulation solution for performance prediction of motors, generators, sensors, transformers, actuators, solenoids, or any component with permanent magnets or coils. Simcenter MAGNET helps you predict the performance of any component with permanent magnets or coils. Perform low-frequency electromagnetic field simulations. Simcenter MAGNET includes capabilities to accurately model the physics of 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 for complex problems like magnetic levitation or complex motion to be accurately modeled and analyzed. This is made possible with a unique smart re-meshing technology.

AVEVA PRO/II™ Simulation is a steady-state simulator that optimizes plant performance by improving process design, operational analysis, and performing engineering studies. AVEVA PRO/II Simulation optimizes plant performance by improving process design and operational analysis and performing engineering studies. Designed to perform rigorous heat and material balance calculations for a wide range of chemical processes, AVEVA PRO/II Simulation offers a wide variety of thermodynamic models to virtually every industry. Design new processes and evaluate alternate plant configurations for the most cost-effective operation. AVEVA PRO/II Simulation is now available via the cloud with on-demand access, seamless maintenance, and flexible usage. Take advantage of our strong support team with 15+ years of experience. AVEVA PRO/II Simulation optimizes plant performance by improving process design and operational analysis, and performing engineering studies.

Today, product simulation is often being performed by engineering groups using niche simulation tools from different vendors to simulate various design attributes. The use of multiple vendor software products creates inefficiencies and increases costs. SIMULIA delivers a scalable suite of unified analysis products that allow all users, regardless of their simulation expertise or domain focus, to collaborate and seamlessly share simulation data and approved methods without loss of information fidelity. The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology.

Frost 3D software allows you to develop scientific models of permafrost thermal regimes under the thermal influence of pipelines, production wells, hydraulic constructions, etc., taking into account the thermal stabilization of the ground. The software package is based on ten years experience in the field of programming, computational geometry, numerical methods, 3D visualization, and parallelization of computational algorithms. Creation of 3D computational domain with surface topography and soil lithology; 3D reconstruction of pipelines, boreholes, basements, and foundations of buildings; Import of 3D objects including Wavefront (OBJ), StereoLitho (STL), 3D Studio Max (3DS) and Frost 3D Objects (F3O); Library of thermophysical properties of the ground, building elements, climatic factors and the parameters of cooling units; Specification of thermal and hydrological properties of 3D objects and heat transfer parameters on the surfaces of objects.