Alternatives to Simufact Additive

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.

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.

Simr (formerly UberCloud) is revolutionizing the world of simulation operations with our flagship solution, Simulation Operations Automation (SimOps). Designed to streamline and automate complex simulation workflows, Simr enhances productivity, collaboration, and efficiency for engineers and scientists across various industries, including automotive, aerospace, biomedical engineering, defense, and consumer electronics. Our cloud-based infrastructure provides scalable and cost-effective solutions, eliminating the need for significant upfront investments in hardware. This ensures that our clients have access to the computational power they need, exactly when they need it, leading to reduced costs and improved operational efficiency. Simr is trusted by some of the world's leading companies, including three of the seven most successful companies globally. One of our notable success stories is BorgWarner, a Tier 1 automotive supplier that leverages Simr to automate its simulation environments, significantly enhancing their efficiency and driving innovation.

Enhance product development and accelerate the launch process with FLOW-3D, an exceptionally precise CFD software adept at addressing transient, free-surface challenges. Accompanied by our cutting-edge postprocessor, FlowSight, FLOW-3D offers a comprehensive multiphysics suite. This versatile CFD simulation platform empowers engineers to explore the dynamic interactions of liquids and gases across a diverse array of industrial sectors and physical phenomena. With a strong emphasis on multi-phase and free surface applications, FLOW-3D caters to various industries, including microfluidics, biomedical technology, civil water infrastructure, aerospace, consumer goods, additive manufacturing, inkjet printing, laser welding, automotive, offshore enterprises, and energy sectors. As a remarkably effective multiphysics resource, FLOW-3D combines functionality, user-friendliness, and robust capabilities to support engineers in achieving their modeling goals, ultimately driving innovation and efficiency in their projects. By leveraging FLOW-3D, organizations can overcome complex challenges and ensure that their designs are optimized for success in competitive markets.

GENOA 3DP is a comprehensive software suite and design tool tailored for additive manufacturing across polymers, metals, and ceramics. Its simulate-to-print capabilities highlight strong performance and user-friendly interaction, making it an effective choice for diverse applications. With the ability to deliver precision at the micro-scale and significantly minimize material waste and engineering time, GENOA 3DP can be swiftly incorporated into any manufacturing process to ensure optimal additive manufacturing outcomes. Rooted in advanced failure analysis techniques and enhanced by multi-scale material modeling, this tool empowers engineers to reliably forecast issues like voids, net shapes, residual stress, and crack propagation in as-built additive manufacturing components. By offering a consistent approach to enhance part quality, decrease scrap rates, and adhere to specifications, GENOA 3DP effectively connects the fields of material science and finite element analysis, ultimately driving innovation in the manufacturing sector. This integration fosters a deeper understanding of material behaviors, paving the way for more efficient production methodologies.

Additive Works specializes in software solutions designed to ensure a "first-time-right" additive manufacturing process, which is achieved by incorporating advanced analysis and simulation tools into the Laser Beam Melting (LBM, SLM, DMLS, Metal 3D Printing) workflow. Responding to the evolving demands and challenges within the realm of industrial additive manufacturing, their software suite Amphyon aims to drastically lower pre-processing expenses while advancing the automation of metal additive manufacturing. The ASAP-Principle outlines four essential steps towards establishing a stable, efficient, and trustworthy process chain: Assessment, Simulation, Adaption, and the Process itself. During the Assessment phase, a comprehensive evaluation of all potential build orientations is conducted, taking into account both economic and physical factors, which allows for the identification of design constraints and the determination of optimal orientations. This meticulous approach not only enhances the efficiency of the manufacturing process but also ensures higher quality outcomes in the final products.

VPS-MICRO estimates the lifespan of manufactured components by modeling the characteristics of their constituent materials. This innovative software is founded on three fundamental principles. First, durability is influenced not just by the stress applied but also by how the material responds to that stress. Second, the materials used in creating intricate components and systems often exhibit non-uniform properties. Lastly, computational resources are more cost-effective and quicker compared to traditional physical testing or prototyping methods. Building upon these concepts, VEXTEC’s VPS-MICRO® serves as a sophisticated computational tool that effectively considers a material’s response to imposed stress, its inherent variability, various damage mechanisms, geometric factors, and the operational conditions over time. Consequently, it produces a three-dimensional, time-sensitive simulation that reliably mirrors the real-world physics behind the onset, progression, and reasons for material damage, offering valuable insights for engineers and designers alike. This capability not only enhances understanding but also aids in improving the design and reliability of future products.

Fusion 360 seamlessly integrates design, engineering, electronics, and manufacturing into one cohesive software environment. It offers a comprehensive suite that combines CAD, CAM, CAE, and PCB capabilities within a single development platform. Additionally, users benefit from features like EAGLE Premium, HSMWorks, Team Participant, and various cloud-based services, including generative design and cloud simulation. With an extensive range of modeling tools, engineers can effectively design products while ensuring their form, fit, and function through multiple analysis techniques. Users can create and modify sketches using constraints, dimensions, and advanced sketching tools. It also allows for editing or fixing imported geometry from other file formats with ease. Design modifications can be made without concern for time-dependent features, enabling flexibility in the workflow. Furthermore, the software supports the creation of intricate parametric surfaces for tasks such as repairing or designing geometry, while history-based features like extrude, revolve, loft, and sweep dynamically adapt to any design alterations made. This versatility makes Fusion 360 an essential tool for modern engineering practices.

Digimat-AM is a software solution offered by Digimat that provides simulation capabilities for the additive manufacturing process, enabling both printer manufacturers and end-users to detect potential manufacturing challenges. Additionally, it fine-tunes printing parameters to enhance productivity and optimize the performance of the final product before the initial print is made. By leveraging numerical simulation, users can significantly reduce the number of trials needed, transforming complex testing into just a few clicks. This powerful tool equips engineers with the ability to simulate various processes, including FFF, FDM, SLS, and CFF, for both unfilled and reinforced materials. It also forecasts potential issues such as warpage, residual stresses, and the microstructure that may arise during printing. Furthermore, Digimat-AM facilitates the analysis of the intertwined thermal and structural responses in both types of polymers, ensuring that the correct manufacturing settings are established for precise printing. Ultimately, this innovative solution serves to connect the intricacies of the printing process with material properties and the performance of the final parts produced.

Elevate your product design and development process by utilizing Creo, the advanced 3D CAD/CAM/CAE software that enables you to imagine, design, create, and innovate with ease. In today's competitive landscape, product design and manufacturing teams face increasing demands to enhance efficiency and reduce costs while maintaining high standards of creativity and quality. Thankfully, Creo offers a diverse and scalable suite of 3D CAD tools that stand out in the market. The latest version, Creo 7.0, introduces groundbreaking advancements in generative design, real-time simulation, multibody design, additive manufacturing, and more. Transitioning your ideas from initial concept to digital prototype has never been simpler, more accurate, or more intuitive than with Creo, which has been at the forefront of CAD technology for over three decades. With the release of Creo 7.0, PTC showcases its expertise in enriching an already powerful toolset, leveraging strategic partnerships to further enhance its functionalities and meet evolving industry needs. This evolution points to a future where your design capabilities can grow alongside your business aspirations.

The Ansys Additive Suite provides essential insights that help designers, engineers, and analysts prevent build failures while ensuring that parts meet precise design specifications. This all-encompassing solution covers the full spectrum of the workflow, which includes design for additive manufacturing (DfAM), validation, print design, process simulation, and material exploration. Within the Additive Suite, users have access to tools such as Additive Prep, Print, and Science, along with Ansys Workbench Additive. Many features in Ansys Workbench allow for the creation of parametric analysis systems, enabling the examination and optimization of various parameters like part orientation and positioning. This suite is offered as an additional module for those holding an Ansys Mechanical Enterprise license. The integration of these tools facilitates a more streamlined approach to additive manufacturing, enhancing the overall efficiency and reliability of the production process.

The industrial application of Metal Additive Manufacturing (AM) presents a fresh set of challenges for numerous enterprises. In the initial stages of integrating AM technology, many companies invest weeks in trial and error to refine their build configurations, leading to inefficiencies and unnecessary expenditures. To mitigate these issues, the software AdditiveLab employs advanced simulation technology that forecasts the results of metal-deposition AM processes, thereby minimizing the need for extensive testing. This innovative tool allows for the rapid identification of areas prone to failure, enabling the optimization of manufacturing setups to boost success rates and ultimately conserve both time and financial resources. Designed with the specific engineering requirements of AM professionals in mind, AdditiveLab eliminates the necessity for in-depth simulation expertise. Its intuitive user interface and automated model preparation streamline the simulation process, allowing users to achieve results with just a few clicks. Furthermore, the integration of AdditiveLab into the AM workflow can significantly enhance overall productivity and efficiency in manufacturing operations.

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.

Currently, engineering teams frequently rely on specialized simulation tools from various vendors to assess different design characteristics, which can lead to inefficiencies and higher costs due to the use of multiple software solutions. To address these challenges, SIMULIA offers a comprehensive suite of cohesive analysis products that enable users with varying levels of simulation knowledge and expertise to collaborate effectively while sharing simulation data and approved methodologies without compromising information integrity. The Abaqus Unified FEA product suite provides robust and comprehensive solutions for both standard and advanced engineering challenges, catering to a wide range of industrial applications. In the automotive sector, engineering teams can analyze complete vehicle loads, dynamic vibrations, multibody systems, impact and crash scenarios, nonlinear static situations, thermal interactions, and acoustic-structural relationships, all while utilizing a unified model data structure and integrated solver technology. This seamless integration enhances collaboration and improves the overall efficiency of the engineering process, allowing teams to innovate more rapidly.

Netfabb® software offers robust features for preparing builds, enhancing designs for additive manufacturing, simulating metal printing processes, and organizing CNC post-processing. Users can import models from numerous CAD formats and utilize repair features to swiftly fix any issues. To ensure models are ready for production, adjustments can be made to wall thicknesses, surface roughness, and other characteristics. The software identifies support necessities, allowing users to generate support structures with semi-automated tools. It also facilitates the conversion of organic, free-form mesh files into boundary representation models, which can be exported in formats like STEP, SAT, or IGES for CAD applications. Furthermore, 2D and 3D packing algorithms help arrange parts efficiently within the build volume. Custom reports can be created to encompass essential manufacturing and quoting details, while users can formulate build strategies and set toolpath parameters to optimize surface quality, part density, and processing speed. This comprehensive suite makes it easier for manufacturers to streamline their workflows and improve production efficiency.

Vampire (Virtual Additive Manufacturing System): This software simulates 3D printing in order to predict and analyze the results. It also performs heat transfer analysis and deformation analysis based on thermal expansion and prediction. It is important to identify and address various manufacturing problems in advance, as 3D additive manufacturing can be expensive and time-consuming. This can be done by using analysis techniques that are suitable for additive manufacturing. Vampire offers key tools to build a smart preprocessing system for this purpose.

Utilize COMSOL's multiphysics software to replicate real-world designs, devices, and processes effectively. This versatile simulation tool is grounded in sophisticated numerical techniques. It boasts comprehensive capabilities for both fully coupled multiphysics and single-physics modeling. Users can navigate a complete modeling workflow, starting from geometry creation all the way to postprocessing. The software provides intuitive tools for the development and deployment of simulation applications. COMSOL Multiphysics® ensures a consistent user interface and experience across various engineering applications and physical phenomena. Additionally, specialized functionality is available through add-on modules that cater to fields such as electromagnetics, structural mechanics, acoustics, fluid dynamics, thermal transfer, and chemical engineering. Users can select from a range of LiveLink™ products to seamlessly connect with CAD systems and other third-party software. Furthermore, applications can be deployed using COMSOL Compiler™ and COMSOL Server™, enabling the creation of physics-driven models and simulation applications within this robust software ecosystem. With such extensive capabilities, it empowers engineers to innovate and enhance their projects effectively.

Solid Edge is a collection of software tools that are affordable, easy-to-use, maintain, and easy to use. It advances all aspects of product development, including mechanical and electrical design, simulation, production, technical documentation, data management and cloud-based collaboration. Solid Edge is based on Siemens industry-leading technologies and offers the most comprehensive and innovative approach to product development for mainstream markets.

MASTA serves as a comprehensive collection of CAE tools designed for the creation, simulation, and analysis of driveline systems, spanning from initial concepts to final production. It allows for the precise and swift development of transmission systems, whether starting from scratch or utilizing existing designs. Users gain an in-depth understanding of how mechanical components will perform throughout their lifecycle, particularly under various customer duty cycles. This software enables the early identification of potential failure modes during the product development phase, facilitating quicker adjustments to design. Key performance metrics can be predicted efficiently during the design process, allowing for extensive evaluation of modifications to transmission configurations, component choices, materials, and manufacturing techniques within a simulated environment. Full system simulations are feasible for any transmission or driveline setup, and integrating manufacturing simulations during design helps to minimize both development time and costs. The unique and modern framework of MASTA, developed entirely in C#, enhances its stability and compatibility with current and future operating systems. Overall, MASTA stands out as a robust solution that addresses the evolving needs of driveline design and analysis.

Simufact Welding is a versatile product line that delivers extensive capabilities for simulating the elastic-plastic behavior of materials alongside structural welding processes. This software encompasses a variety of welding techniques, enabling users to model and simulate numerous thermal joining methods, including conventional arc and beam welding as well as brazing. Furthermore, it allows for the modeling of heat treatment processes, variations in cooling and unclamping setups, and the mechanical loading of welded structures. It is essential to identify critical distortions related to assembly, bulging, imbalances, and clearances during the simulation process. Users can also explore and enhance clamping tools before making any financial commitments to tool investments. This software aids in determining the most effective welding directions and sequences, ultimately leading to improved welding outcomes and more efficient production processes. Additionally, it supports engineers in refining their designs for optimal performance and reliability.

Simcenter Femap is a sophisticated simulation tool designed for the creation, modification, and analysis of finite element models pertaining to intricate products or systems. This software allows users to implement advanced workflows for modeling individual components, assemblies, or entire systems, enabling them to assess how these models react under realistic conditions. Moreover, Simcenter Femap offers robust data-driven capabilities and graphical visualizations for results interpretation, which, when paired with the top-tier Simcenter Nastran, provides a holistic CAE solution aimed at enhancing product performance. As manufacturers strive to develop lighter yet more robust products, there is a growing emphasis on the utilization of composite materials. Simcenter stands at the forefront of composite analysis, continually advancing its material models and element types to meet industry demands. Furthermore, Simcenter accelerates the simulation process for laminate composite materials by providing an integrated connection to composite design, streamlining workflows for engineers in the field. This integration ultimately fosters innovation and efficiency in product development, paving the way for more sustainable manufacturing practices.

Ansys Sherlock stands out as the sole reliability physics-based tool for electronics design that delivers quick and precise life expectancy assessments for electronic components, boards, and systems during the initial design phases. By automating the design analysis process, Ansys Sherlock enables the rapid generation of life predictions, thus eliminating the "test-fail-fix-repeat" cycle that often hampers development. Designers can effectively model the interactions between silicon–metal layers, semiconductor packaging, printed circuit boards (PCBs), and assemblies, allowing for accurate predictions of potential failure risks stemming from thermal, mechanical, and manufacturing stresses, all prior to creating prototypes. Additionally, Sherlock's extensive libraries, which house over 500,000 components, facilitate the seamless transformation of electronic computer-aided design (ECAD) files into computational fluid dynamics (CFD) and finite element analysis (FEA) models. Each of these models is equipped with precise geometries and material properties, ensuring that stress information is accurately conveyed for reliable predictions. This capability not only enhances design efficiency but also significantly reduces the risk of costly errors in the later stages of product development.

Subjecting your designs to real-world scenarios can significantly enhance product quality while simultaneously minimizing the costs associated with prototyping and physical testing. The SOLIDWORKS® Simulation suite offers a user-friendly collection of structural analysis tools that employ Finite Element Analysis (FEA) to forecast how a product will behave in actual physical conditions by virtually evaluating CAD models. This comprehensive portfolio is equipped with capabilities for both linear and non-linear static and dynamic analyses. With SOLIDWORKS Simulation Professional, you can refine your designs by assessing mechanical resistance, durability, topology, natural frequencies, as well as examining heat transfer and potential buckling issues. Additionally, it facilitates sequential multi-physics simulations to enhance design accuracy. On the other hand, SOLIDWORKS Simulation Premium allows for an in-depth assessment of designs concerning nonlinear and dynamic responses, dynamic loading conditions, and composite materials. This advanced tier also features three specialized studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamics, ensuring a thorough evaluation of your engineering projects. By leveraging these powerful tools, engineers can achieve greater design confidence and innovation.

Harness the capabilities of Simpleware software to effortlessly handle 3D and 4D imaging data sourced from MRI, CT, and micro-CT scans. Explore your data through sophisticated visualization techniques, thorough analysis, and precise quantification methods. Develop accurate models that are primed for design, simulation, and 3D printing processes. The latest Simpleware W-2024.12 update enhances the software's integration of AI-driven segmentation tools and optimized design functionalities, significantly speeding up your 3D image processing and analytical workflows. Our cutting-edge platform for 3D image processing and model creation enables the transformation of 3D and 4D image data into products and workflows that integrate effortlessly with design and simulation applications. With a user-friendly interface, you can quickly access all necessary tools and features. Conduct extensive analyses of even the most intricate 3D image datasets, ensuring the generation of top-tier design and simulation-ready models that meet your exacting standards. This advancement allows users to leverage the latest technology for better results in their projects.

Inventor® Nastran® is a finite element analysis (FEA) tool integrated within CAD software, enabling engineers and analysts to perform a diverse range of studies using various materials. This software provides comprehensive simulation capabilities that encompass both linear and nonlinear stress analysis, dynamic simulations, and heat transfer assessments. It is exclusively accessible through the Product Design & Manufacturing Collection, which includes a suite of powerful tools designed to enhance workflows within Inventor. In addition to advanced simulation features, this collection also offers 5-axis CAM, nesting tools, and access to software like AutoCAD and Fusion 360, ensuring a holistic approach to product design and manufacturing processes. By utilizing Inventor Nastran, professionals can streamline their analysis and improve their design outcomes significantly.

Siemens NX software offers a robust and adaptable integrated platform that enhances the efficiency and speed of product delivery. This innovative solution brings forth advanced design, simulation, and manufacturing capabilities, allowing organizations to harness the potential of the digital twin concept. NX supports all phases of product development, covering everything from initial concept design to engineering and manufacturing, providing a cohesive toolset that integrates various disciplines, maintains data integrity, and ensures design intent, thereby optimizing the overall workflow. One particularly effective approach within NX is the generative design process, which empowers engineers to swiftly create new products while adhering to specific design parameters. This iterative methodology yields quick results, enabling engineers to refine designs through variations in constraints until they achieve optimal solutions that satisfy all project requirements. Ultimately, this flexibility in design processes enhances innovation and accelerates time-to-market for new products.

Simply launch a standard web browser like Chrome or Firefox and search for "caeplex" to get started. It is compatible with all major operating systems, including Windows, MacOS, GNU/Linux, iOS, and Android. The heavy computations occur on our servers, meaning CAEplex can be utilized on virtually any existing computer, laptop, tablet, or smartphone without the need for hardware upgrades or maintenance. There’s no requirement to purchase a new device or enhance the RAM of your older models. Our standout feature is the combination of "ease and speed," allowing you to solve a CAEplex case from initial input to final results in under a minute with our streamlined three-step process. If you happen to find a faster finite element analysis application, we would love to hear about it. CAEplex is accessible from any mobile device, including older or damaged tablets and phones, ensuring you can access and showcase your projects from anywhere at any time. Embrace an agile development process that incorporates simulation, which we prefer to call "modeling," along with additive manufacturing and seamless online collaboration, enhancing your workflow significantly. This flexibility allows you to stay productive, regardless of your location or device limitations.

PoligonSoft offers a suite of advanced simulation software designed to enhance and refine the process of metal casting. This software suite empowers users to anticipate potential defects in the final product. Key Analysis Features Include: Fluid Flow during Pouring Formation of both Large and Microscale Porosity Stresses that Remain After Solidification Distortions and Shape Changes Development of Fractures at Various Temperatures Fluid Pressures Erosion of the Mold Material Our software stands out for its ability to streamline production, reduce material waste, and eliminate the need for repeated designs, thereby ensuring that the production cycle is optimized from the start. PoligonSoft's analytical capabilities are built upon three fundamental systems: fluid dynamics, heat transfer, and mechanical stresses. These, combined with an array of advanced features, facilitate the simulation of a wide range of casting methods, including specialized techniques.

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.

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.

Sunata™, the cloud software developed by Atlas 3D, intelligently selects the optimal orientation for your components while creating the essential support structures needed for effective additive manufacturing processes. This service adheres to ITAR regulations and is specifically designed for use with Direct Metal Laser Sintering (DMLS) printers. Sunata™ not only determines the best orientations for parts but also produces the required support frameworks. It evaluates more than 100 potential orientations, providing detailed optimization logs. Users can assess thermal displacement to minimize distortion, calculate support volume, anticipate support removal efforts, and estimate build durations. Additionally, it offers precise cost estimates for prints, ensuring that you achieve successful results right from the start, every single time. With Sunata™, you can enhance the efficiency and reliability of your additive manufacturing projects significantly.

Utilizing the 3DEXPERIENCE® platform, SIMULIA provides advanced simulation tools that help users better understand and analyze our environment. The applications offered by SIMULIA streamline the assessment of material and product performance, reliability, and safety prior to the development of physical prototypes. These tools deliver robust simulations for various scenarios such as structures, fluids, multibody interactions, and electromagnetics, all while being seamlessly integrated with product data, even for complex assemblies. The comprehensive technology for modeling, simulation, and visualization is fully embedded within the 3DEXPERIENCE platform, which includes capabilities for process capture, publication, and reuse. By allowing simulation data, outcomes, and intellectual property to be linked to the platform, customers can maximize their current investment in simulation capabilities, transforming these assets into valuable resources that foster innovation for all users involved. This integration not only enhances workflow efficiency but also encourages collaborative advancements across different teams and projects.

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

MapleSim serves as a sophisticated modeling solution that spans from the use of digital twins for virtual commissioning to creating system-level models for intricate engineering design endeavors, enabling significant reductions in development time and costs while effectively addressing real-world performance challenges. By enhancing control code rather than relying on hardware modifications, you can eliminate vibrations and pinpoint the underlying causes of performance issues through in-depth simulation insights. This powerful tool allows for the validation of design performance prior to moving on to physical prototypes. Leveraging cutting-edge methods, MapleSim not only drastically shortens model development time but also enhances understanding of system behavior and facilitates rapid, high-fidelity simulations. As your simulation requirements evolve, you can easily scale and connect your models. With its adaptable modeling language, you can extend your designs further by integrating components across various domains within a virtual prototype, tackling even the most difficult machine performance challenges with confidence. Overall, MapleSim empowers engineers to innovate with efficiency and precision, ensuring that their designs meet the rigorous demands of modern engineering projects.

Luminary Cloud represents the cutting-edge of computer-aided engineering as the first SaaS platform designed to deliver rapid insights to engineers, enabling them to conduct simulations, analyses, and iterations that were previously unattainable. Experience the remarkable ability to perform simulations in mere minutes using some of the most powerful GPUs available in the cloud. Your raw simulation data can be securely stored, accessed, and analyzed, leading to valuable insights that enhance engineering design optimization. By expediting experiments, you can improve product design quality while minimizing defects. This platform significantly accelerates time to market by enhancing engineering efficiency and reducing costs associated with hardware, prototyping, and physical testing. Empower your team to achieve their most innovative designs through quicker insights and outcomes, all facilitated by the most user-friendly simulation platform. With the capability to run rapid simulations at any scale, collaborate globally through project sharing, and begin analyzing results without delay, your engineering process will be transformed for the better. The future of engineering design is here, making it easier than ever to bring innovative products to life.

Ansys Mechanical stands out as an exceptional finite element solver, featuring capabilities in structural, thermal, acoustics, transient, and nonlinear analyses to enhance your modeling processes. This powerful tool allows you to tackle intricate structural engineering challenges, facilitating quicker and more informed design choices. The suite's finite element analysis (FEA) solvers permit the customization and automation of solutions for structural mechanics issues, enabling the examination of various design scenarios through parameterization. With its extensive array of analysis tools, Ansys Mechanical provides a versatile environment, guiding users from geometry preparation to integrating additional physics for enhanced accuracy. Its user-friendly and adaptable interface ensures that engineers at any experience level can swiftly obtain reliable results. Overall, Ansys Mechanical fosters an integrated platform that leverages finite element analysis (FEA) for comprehensive structural evaluations, proving invaluable for modern engineering projects.

Tackle intricate engineering problems by improving the efficiency of simulations. Simcenter 3D stands out as one of the most thorough and seamlessly integrated CAE solutions available. It allows you to create and assess the performance of complex products through groundbreaking advancements in simulation efficiency. By bringing together various physics domains within a single modeling environment, you can quickly gain deeper insights into how your product performs. This integrated platform facilitates all aspects of CAE pre- and post-processing, allowing for a streamlined workflow. With unmatched tools for geometry manipulation, you can easily defeature and simplify CAD geometry from any origin. Additionally, its extensive meshing and modeling capabilities cater to diverse simulation needs, granting you the exceptional ability to connect your analysis model with design data seamlessly. This connection not only accelerates the often tedious modeling process but also ensures that your analysis models remain aligned with the most current design iterations, ultimately enhancing productivity and accuracy in your engineering projects. By adopting Simcenter 3D, you can significantly reduce development time while improving the quality of your simulations.

Collimator is a simulation and modeling platform for hybrid dynamical system. Engineers can design and test complex, mission-critical systems in a reliable, secure, fast, and intuitive way with Collimator. Our customers are control system engineers from the electrical, mechanical, and control sectors. They use Collimator to improve productivity, performance, and collaborate more effectively. Our out-of-the-box features include an intuitive block diagram editor, Python blocks for developing custom algorithms, Jupyter notebooks for optimizing their systems, high performance computing in cloud, and role-based access controls.

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.

ETAP®, a full-strength analytical engineering software company, specializes in the analysis, simulation monitoring, control, optimization and automation of electrical power system. ETAP's electrical engineering software is the most complete and comprehensive integrated power system enterprise solution.

The sixth-generation DYNAFORM Die Simulation Software presents an advanced platform that boasts a user-friendly and visually appealing interface designed for ease of use. Focused on the stamping process, this software minimizes the need for extensive CAE expertise and simplifies geometry and element tasks. Among its notable enhancements, users will find a well-structured tree management system for operations, a dedicated simulation data manager, and customizable icon groupings for quick access to drop-down menu features. Additionally, it offers distinct applications that operate independently, integrated pre- and post-processing capabilities, a multi-window view for better analysis, and the convenience of accessing functions with right-click options. Supporting large-scale forming simulations, the software includes a geometry management tool, a process wizard for optimizing blank sizes, a comprehensive material library, new draw bead shapes, and an efficient coordinate system manager. The combination of these features enhances the overall simulation experience, making it a powerful tool for engineers and designers alike.

Adams aids engineers in analyzing the dynamics of moving components and the distribution of loads and forces across mechanical systems. Often, product manufacturers face challenges in grasping the actual performance of their systems until later stages of the design process. While mechanical, electrical, and other subsystems undergo validation in line with their specific requirements during the systems engineering phase, comprehensive testing and validation of the entire system occur too late, resulting in costly and risky rework and design modifications. As the leading and most utilized Multibody Dynamics (MBD) software globally, Adams enhances engineering productivity and lowers product development expenses by facilitating early validation of system-level designs. This allows engineers to assess and manage intricate interactions among various disciplines, such as motion, structures, actuation, and controls, ultimately leading to optimized product designs that prioritize performance, safety, and user comfort. By addressing potential issues earlier in the process, Adams empowers engineers to create more reliable and efficient products.

ProModel is a cutting-edge discrete-event simulation tool designed to facilitate the planning, design, and enhancement of both new and existing systems in manufacturing, logistics, and various operational areas. This technology enables users to create accurate representations of real-world processes, capturing their natural variability and interconnectedness, which is essential for effective predictive analysis of potential modifications. By focusing on key performance indicators, you can optimize your system's performance. The software allows for the creation of an animated, interactive model of your business environment derived from CAD files, process maps, or Process Simulator models, providing a clear visualization of processes and policies in motion. This visualization aids in brainstorming sessions, where you can explore potential adjustments and devise scenarios to test improvements aimed at meeting business goals. Additionally, you have the capability to run multiple scenarios concurrently and analyze their outcomes using the Output Viewer, which is built on advanced Microsoft® WPF technology, enhancing the decision-making process. This comprehensive approach to simulation not only aids in immediate problem-solving but also fosters long-term strategic planning and innovation.

CoTherm is a sophisticated coupling and process automation tool that serves as a liaison between various CAE applications. It simplifies the task of process automation, making it invaluable for conducting sensitivity analyses, executing design of experiments, or managing multiple CAE models within a unified framework. This functionality enhances efficiency in pre-processing, transient thermal analysis, and post-processing tasks. With a licensed version of CoTherm, users receive ready-made templates for frequently encountered coupling and automation challenges. The software also features advanced optimization functions that identify the most suitable input parameters for your design. Any CAE analysis can benefit from its general optimization subprocesses, ensuring improved outcomes. CoTherm employs a mathematically robust approach, incorporating both global and local optimization methods, which alleviates uncertainty and simplifies the design process. It seamlessly integrates with a wide range of popular thermal and CFD codes, and its robust features allow for the coupling of any software that operates via command line or configuration files. This versatility makes CoTherm a vital asset for engineers seeking to enhance their design workflows and optimize their simulation processes.

Ansys Gateway powered with AWS is the solution to developers, designers, engineers, and others who want to manage their Ansys Simulation & CAD/CAE development in the cloud. You can access cloud computing resources anywhere, on any device, via your web browser. Cloud applications can be created, customized, and connected with minimal technical knowledge. You can simply install third-party applications alongside Ansys apps. AWS cloud can help you accelerate innovation by removing the hardware barrier on-premises for High Performance Computing (HPC). Ansys' expertise in the configuration and deployment of Virtual Desktop Interfaces (VDI), and High Performance Computing (HPC) is your advantage Your AWS subscription allows you to manage and control your cloud CAD/CAE consumption and costs.

Sentaurus Process serves as a sophisticated simulator in one, two, and three dimensions, specifically designed for the advancement and fine-tuning of silicon semiconductor process technologies. This next-generation tool effectively tackles the complexities associated with both contemporary and forthcoming process technologies. Featuring an array of cutting-edge process models, including standardized parameters that have been calibrated using data from equipment manufacturers, Sentaurus Process offers a robust framework for accurately simulating a diverse spectrum of technologies, ranging from nanoscale CMOS to expansive high-voltage power devices. Additionally, it integrates seamlessly into a complete suite of essential TCAD products, facilitating multi-dimensional simulations of processes, devices, and systems through an intuitive user interface. With its capabilities for rapid prototyping, development, and optimization, Sentaurus Process enables extensive physics-based process modeling. Furthermore, it allows for the enhancement of device performance by carefully optimizing the thermal and mechanical stress within process structures, accounting for historical stress factors. In this way, Sentaurus Process not only addresses current needs but also prepares users for future technological advancements.

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.

Utilizing the distinctive and inherently dynamic Lattice Boltzmann-based physics, the PowerFLOW CFD solution conducts simulations that effectively replicate real-world scenarios. With the PowerFLOW suite, engineers can assess product performance at the early stages of design, before any prototypes are constructed—this is when alterations can have the most substantial effects on both design and budget. The PowerFLOW system seamlessly imports intricate model geometries and conducts aerodynamic, aeroacoustic, and thermal management simulations with high accuracy and efficiency. By automating domain discretization and turbulence modeling along with wall treatment, it removes the need for manual volume meshing and boundary layer meshing. Users can confidently execute PowerFLOW simulations using a large number of compute cores on widely utilized High Performance Computing (HPC) platforms, enhancing productivity and reliability in the simulation process. This capability not only accelerates product development timelines but also ensures that potential issues are identified and addressed early in the design phase.

Ansys Discovery introduces an innovative simulation-driven design tool that integrates instant physics simulation, high-fidelity simulation, and interactive geometry modeling into a singular, user-friendly platform. This groundbreaking product merges interactive modeling with various simulation features, empowering users to tackle essential design inquiries at the early stages of the design process. By adopting this proactive approach to simulation, teams can significantly reduce time and resources spent on prototyping as they concurrently examine numerous design ideas without delays for simulation feedback. Ansys Discovery effectively addresses vital design questions swiftly and accurately, enhancing overall productivity and performance by removing prolonged waits for simulation outputs. This capability allows engineers to prioritize innovation and optimize product performance, ultimately leading to a reduction in labor costs and physical prototyping expenses. Additionally, by facilitating the early resolution of design challenges, Ansys Discovery contributes to a notable increase in return on investment (ROI) throughout your organization, making it an invaluable asset for engineering teams.

Complex technical systems, such as machinery and manufacturing facilities, are characterized by their intricate nature, as they include a wide array of components and subsystems drawn from various technical fields and are increasingly equipped with sensors and control mechanisms. The interactions among these components play a crucial role in influencing safety, efficiency, and user comfort. SimulationX provides a unified platform for the modeling, simulation, and analysis of these technical systems, covering areas like mechanics, hydraulics, pneumatics, electronics, controls, and various physical behaviors including thermal and magnetic effects. With extensive libraries of components that feature application-specific model elements, you can easily access the necessary tools tailored to your project requirements, making the process more streamlined and effective. This versatility allows for thorough examination and optimization of complex systems across multiple disciplines.