Alternatives to VSim

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.

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.

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.

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.

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.

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

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.

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.

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.

OnScale is the original Cloud Engineering Simulation platform. It combines multiphysics solver technology and the unlimited compute power of cloud supercomputers to create a powerful platform for Cloud Engineering Simulation. OnScale allows engineers to run large numbers of full 3D multiphysics simulaions simultaneously. This allows them to create digital prototypes of high-tech devices. These digital representations can be used to capture the entire behavior of the device within its operating envelope. OnScale Solve is a cloud-based engineering simulation that provides a powerful, easy-to-use, and effective experience. OnScale Solve can run on both public and private cloud supercomputers. It includes a web-based UI, API to integrate into any design workflow, scripting language to customize engineering simulations and plugins to improve its modeling capabilities. OnScale Solve provides engineers with the ability to simulate data and train advanced AI/ML algorithms.

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.

CFD is the only comprehensive, intuitive platform available for multidisciplinary design. Computational Fluid Dynamics (CFD) is a multiphysics system analysis technique that simulates fluid behavior and thermodynamic properties by using numerical models. Engineers can use the Cadence Fidelity CFD Platform to reduce the time and cost of physical testing for design processes such as propulsion and aerodynamics. The Fidelity CFD Platform is an end-toend CFD solution that is easy to use for multidisciplinary design, optimization, and other applications in the aerospace, automotive turbomachinery and marine industries. The platform's streamlined workflows and massively parallel architecture along with state-of-the art solver technology provide unprecedented performance and accuracy for today's design problems.

SwiftComp is a multiscale, multiphysics composite sim code that delivers 3D FEA accuracy at the speed of simple engineering models. SwiftComp makes it possible for engineers to model composites as easily and accurately as metals using traditional structural elements in their FEA codes. This allows them to capture all the microstructural details while preserving accuracy. SwiftComp enables unified modeling of 1D (beams), 2D(plates/shells) or 3D structures. This allows for the calculation of all the effective properties. SwiftComp can be used independently to simulate composite testing or as a plug in to your existing structural tools that support high-fidelity composites modeling. SwiftComp can calculate the best structural model to use in macroscopic structural analysis and perform dehomogenization in order to compute the pointwise stresses within the microstructure. SwiftComp interfaces directly with ABAQUS and ANSYS.

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.

Engineers and researchers can use WELSIM finite-element analysis software to create prototype virtual products and conduct simulation studies.

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.

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.

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.

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.

Ansys Totem SC is the industry's trusted leader in power noise and reliability signoffs for analog and mixed signal designs that are built on cloud-native elastic computing infrastructure. Ansys Totem SC is the industry's most trusted standard for voltage drop and electromigration multiphysics signoff solutions for transistor-level and mixed signal designs. Totem-SC has a proven track record of thousands upon thousands of tapeouts. Its cloud-based architecture gives it speed and capacity to handle full-chip analyses. All major foundries have certified signoff accuracy for all finFET nodes below 3nm. Ansys Totem SC is a transistor level power noise and reliability analysis platform that can analyze analog mixed-signal IP as well as fully custom designs. It generates IP models for RedHawk SC-level power integrity signoff and compact chip models for power delivery networks at the chip- and system-level. Industry-proven, foundry-certified analog/mixed-signal EM/IR solution.

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.

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.

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.

Open a web browser like Firefox or Chrome, and search online for "caeplex." This works on any operating system, including Windows, MacOS (GNU/Linux), iOS, Android, and Windows. CAEplex runs on our servers, so it can be used on any PC, laptop, tablet, or phone. There is no need to buy a new computer or add RAM to an old one. Our key feature is "ease and speed". A CAEplex case can easily be solved from scratch to the final results in under one minute using our 3-step workflow. We would love to hear from you if you have a faster FEA application. CAEplex can work from any mobile device, including tablets or phones. Access your work anywhere, at any time. Enjoy agile development that leverages simulation (we prefer to say "modeling") and additive manufacturing.

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.

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.

During their lifetime, cold-forming tools are subjected to high mechanical and tribological stress. In some cases, these stresses can cause premature tool damage. The tools are an important part of manufacturing costs of a part, so it is important to anticipate these problems well during the design. COLDFORM®, allows you to analyze the mechanical die strength to prolong their service life. The software can calculate stress distribution in the die along with deformations and wear, temperatures, and damage at any point during the process. COLDFORM®, can perform rapid analyses consisting of applying stresses obtained from the forming process calculation to the tools. COLDFORM®, in addition, is capable of performing coupled tool/part computations that give extremely precise results. The functionalities dedicated to prestressed tools allow for accurate determination of the prestressing required to ensure the interference fit between the tools.

samadii/em oftware that analyzes and calculates the electromagnetic field in 3d space using the Maxwell equation using vector FEM ad GPU computing. it provides electrostatics, magnetostatics as well and induction electronics, including the low-frequency and high-frequency ranges. samadii/em provides a multi-physics approach and high-performance electromagnetics simulation, with Samadii you can quickly address problems from semiconductors and displays to wireless communications, etc.

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®.

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.

NVIDIA Modulus, a neural network framework, combines the power of Physics in the form of governing partial differential equations (PDEs), with data to create high-fidelity surrogate models with near real-time latency. NVIDIA Modulus is a tool that can help you solve complex, nonlinear, multiphysics problems using AI. This tool provides the foundation for building physics machine learning surrogate models that combine physics and data. This framework can be applied to many domains and uses, including engineering simulations and life sciences. It can also be used to solve forward and inverse/data assimilation issues. Parameterized system representation that solves multiple scenarios in near real-time, allowing you to train once offline and infer in real-time repeatedly.

Tecplot 360 is the most comprehensive CFD Post processor. Make better decisions with Tecplot 360. More CFD simulations are being performed, grid sizes are increasing, and data sets can be stored remotely. It is essential to have the right tools to manage large data sets, automate workflows, visualize parametric results, and visualize them. Tecplot 360 allows you to spend less time waiting and more time exploring. Integrate XY, 2D and 3D plots to get them exactly how you want. Brilliant images and animations can help you communicate your results. PyTecplot Python scripting automates the tedious stuff. Chorus makes it easy to analyze parametric data. Securely access remote data via the SZL-Server client/server. Load Tecplot and FLUENT. Multi-frame environments with multiple pages can be used to report and compare solutions.

Ansys LSDYNA is the industry's most popular explicit simulation software. It can be used for applications such as drop tests, impact and penetration, occupant safety, and many more. Ansys LS DYNA is the most widely used explicit simulation program in this country. It can simulate the response of materials to short periods and severe loading. You can simulate complex models using the many elements, contact formulas, material models, and other controls. LS-DYNA provides a wide range of analyses with fast and efficient parallelization. Engineers can solve simulations that involve material failure. They can look at how the failure progresses through parts or through systems. It is possible to model complex interactions between parts and surfaces, as well as the load passing and interactions between them.

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.

SimFlow is a desktop Computational Fluid Dynamics analysis software for Windows OS and Linux OS. It is based upon OpenFOAM libraries and acts as an OpenFOAM GUI. It is a professional CAE package that engineers can use to create 3D simulations. SimFlow is a powerful CFD software that can be used for all purposes. SimFlow combines the intuitive graphical user interface of OpenFOAM®, with the benefits of the open-source OpenFOAM®. SimFlow is free to download and you can use it in an evaluation mode to solve some of the most difficult problems that you face as an engineer or scientist. Perhaps you use CFD software every day or just want to get started on your adventure. SimFlow is a powerful fluid simulation software that allows you to rediscover CFD without any time limits.

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.

nCode DesignLife is an online design tool that identifies key locations and calculates realistic fatigue life from leading finite element results for metals and composites. Designers can do more than simple stress analysis. They can simulate actual loading conditions and avoid costly design changes. Products can include functions for fatigue of welds and vibration fatigue, crack growth detection, fatigue in composites, and thermo-mechanical fatigue analysis. Advanced technology for multiaxial, vibration, crack growth and thermo-mechanical fatigue. A graphical interface that makes it easy to perform fatigue analysis using the most popular FEA results data such as ANSYS, Nastran and Altair OptiStruct. Multi-threaded and distributed processing capabilities to process large finite element models as well as complete usage schedules.

GT STRUDL®, a structural engineering software, offers a complete solution. It includes 3D CAD modeling and 64 bit high-performance computation solvers in all versions. GT STRUDL has all the tools needed to analyze a wide range of structural engineering and finite elements analysis problems. It can do this accurately in a fraction the time it takes to use other structural design software. Structural design software is used by structural engineers to create safe and effective designs. It also helps them manage the complexity of many scenarios across a variety of industries, such as power, civil engineering and marine. GT STRUDL includes many quality features such as interoperability and structural analysis, database-driven designing, and quality assurance.

DigitalClone for Additive Manufacturing (DCAM) is a comprehensive suite of metal additive manufacturing simulation and modeling capabilities that allows for seamless design and analysis support. DC-AM uses a multiscale, multi-physics analysis approach to link the process - microstructure and fatigue relationship of additively produced parts to enable computational assessment for quality and performance. DC-AM encourages the adoption of AM in safety-critical sectors by providing unprecedented insight into build conditions and the characteristics and final parts. This allows for a reduction in time and cost, as well as allowing for a reduction in the time and costs required to qualify parts.

SPACE GASS is a 3D analysis and design program that can be used for multiple purposes. It is able to design beams, trusses, frames, buildings, towers and tanks, as well as cable structures and bridges. Capabilities include a 64-bit multi-core solver, silky smooth 3D rendered graphics, plate finite elements, frame elements, cable elements, tension/compression-only elements, moving loads and links to many CAD and building management programs. Why SPACE GASS? You can save time and money by choosing a safe and effective design. A silky smooth interface allows you to see your changes visually. A fast sparse matrix solver which fully exploits multi-core processors' parallel processing power. There are many structural modeling tools, analysis options, and design modules. Video tutorials that will guide you through the difficult stuff. For use in floating or stand-alone networks.

Mesh can affect the speed, accuracy, convergence, and speed of a simulation. Ansys offers tools to create the best mesh for precise, efficient solutions. Ansys is a general-purpose, high-performance, intelligent, automated meshing software that produces the best mesh for precise, efficient multiphysics solutions. It can be used to create simple, automatic meshing or highly crafted mesh. Smart defaults are integrated into the software to make meshing easy and intuitive. They deliver the required resolution to properly capture solution gradients for reliable results. Ansys offers a variety of meshing options, from automated meshing to hand-crafted meshing. There are many options available for meshing high-order elements to linear elements, fast tetrahedrals and polyhedrals to high-quality hexagonal and mosaic. Ansys meshing capabilities reduce time and effort required to achieve accurate results.

Advanced molecular modeling can transform drug discovery and materials research. Our physics-based computational platform combines differentiated solutions for predictive modelling, data analytics, collaboration, and collaboration to allow rapid exploration of chemical space. Our platform is used by industry leaders around the world for drug discovery and materials science in fields such as aerospace, energy, semiconductors and electronics displays. The platform powers our drug discovery efforts, from target identification through hit discovery to lead optimization. It also powers our research collaborations to create novel medicines for critical public healthcare needs. Our team includes more than 150 Ph.D. scientists. This allows us to invest heavily in R&D.

Based on a density map, REM3D® can predict parts resistance, as well as noise, insulation and comfort properties. Simulate a dual foam pouring to observe the transition zones. By taking into account "mold-tilting", realistic process conditions are translated to be as near to reality as possible. Integration of functionalities, such as automatic mould tilting or gravity's impact on melt flow, allows you to analyze real conditions in your processes and guarantee homogeneity. The study of the injection positions limits the occurrence of defaults. You can make accurate predictions about the resistance of your parts, but also the insulation and comfort properties of foams. REM3D®, for plastics with fibres, determines the orientation of the fibers during the filling phase and after cooling.

SolidFEA, our innovative solid finite-element analysis tool, is designed to make advanced structural design affordable and accessible. It is powered by the Calculix engine and offers detailed sub-model analyses at a lower cost and with less hardware than competitors such as Abaqus. SolidFEA is ideal for complex engineering challenges such as steel connections and bridge design. Its ease of use, IFC file compatibility and ease of use make it a great complement to our GenFEA structural analysis software. SolidFEA is a revolutionary step in structural engineering, bridging a gap that existed for ages due to prohibitive costs, complicated learning curves and high-end computing demands associated with solid finite elements analysis (FEA). It is designed for ease of use and supports IFC file formats, making it an easy addition to engineering workflows.

Ansys Mechanical is a top-of-the-line finite element solver that can be used to improve your modeling. It has structural, thermal, acoustics and transient capabilities. Ansys Mechanical allows you to solve complex structural engineering issues and make faster design decisions. The suite includes finite element analysis (FEA), which allows you to automate and customize solutions for structural mechanics problems. You can also parameterize these solvers to analyze multiple design scenarios. Ansys Mechanical offers a wide range of analysis tools and is a dynamic tool. Ansys Mechanical provides a dynamic environment that allows you to connect additional physics and prepare geometry for analysis. Engineers of all levels can access the intuitive and customizable interface to quickly and easily find answers. Ansys Mechanical provides an integrated platform that uses finite elements analysis (FEA), for structural analysis.

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.

Every project is difficult, but the geotechnical analysis does not have to be. PLAXIS 2D offers fast computations. Advanced finite element and limit equilibrium analysis of rock and soil deformation and stability. Also, soil structure interaction, groundwater and heat flow. PLAXIS 2D, a powerful and easy-to-use finite-element software for 2D analysis and stability in geotechnical and rock mechanics, is available. PLAXIS is used by the top engineering firms and institutions in civil and geotechnical engineering. PLAXIS 2D can be used for many applications, including excavations, foundations, embankments, and foundations, as well as tunneling, mining and oil and gas extraction. PLAXIS 2D provides all the necessary tools to perform safety analysis and deformation of soil and rock. It does not need to take into account creep, steady-state groundwater, thermal flow, consolidation analysis or any other time-dependent effects.

SafeGrid Earthing Software is ideal for designing earthing systems. The software can perform accurate, finite element based calculations. SafeGrid Earthing software has been proven to be affordable, reliable, and easy-to-use. The software calculates substation grid resistance, touch and voltages, and lightning protection. The software has been helping industries for the past ten years. It includes all modules necessary to design a safe earthing system in the safe grip. It includes: Fault current distribution. Soil modelling. Grid. Safety criteria Secure results You also get support from our earthing experts engineers along with the software. SafeGrid Earthing software saves time and money on your projects.

RT-LAB is OPAL's real-time simulation program that combines performance and enhanced user experience. RT-LAB is fully integrated with MATLAB/Simulink® and allows for the most complex model-based design to interact with real-world environments. It allows for complex simulations in real-time, including those in aerospace, power electronics and power systems. RT-LAB was first applied on the Canada Arm of the Canadian Space Agency almost 20 years ago. It has revolutionized systems engineering in space, on ground, and at sea. RT-LAB allows engineers and scientists to quickly develop new prototypes and perform the most rigorous testing required for new technologies.

Fatigue Essentials is a desktop program that can be used to efficiently perform structural fatigue analysis. Fatigue Essentials is a user-friendly program that allows you to conduct stress-life analyses using either classical stress calculations or linked to FEMAP™, and using the finite element-generated stresses. The program follows a tree structure to guide users through the analysis. The following load, material, and spectrum branches provide general options for analysis. There are options for input methods and variations within each branch. Analyses results can be viewed on-screen and used to create reports or damage contour plots in FEMAP. Covers most engineering requirements. Classic mode with user input stress. Professional mode (FEMAP-linked). This mode allows you to read nodal stress and push back results in damage contour plots. You can choose to either input stress and cycles interactively or file input.