Alternatives to Ansys Discovery

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.

Ansys Motor-CAD serves as a specialized tool for the design of electric machines, facilitating rapid multiphysics simulations throughout the entire torque-speed operating range. It allows design engineers to assess various motor configurations and concepts to create designs that maximize performance, efficiency, and compactness. With its four integrated modules—EMag, Therm, Lab, and Mech—Motor-CAD enables quick and iterative multiphysics calculations, significantly reducing the time from initial concept to finalized design. This efficiency in calculations and streamlined data input processes provides users with the opportunity to investigate a broader array of motor topologies and thoroughly evaluate the effects of advanced loss mechanisms in the early phases of electromechanical design. The latest release boasts enhanced capabilities for design optimization, multiphysics analysis, and system modeling tailored specifically for electric motors, ensuring that engineers have the tools they need for cutting-edge development. Ultimately, Motor-CAD's fast multiphysics simulation capabilities across the full torque-speed range empower engineers to innovate and refine electric motor designs with unprecedented efficiency.

Ansys SpaceClaim offers a distinctive user interface, innovative modeling technology, and a versatile set of tools that facilitate the creation and modification of imported geometries without the intricacies often found in conventional CAD systems. While managing existing CAD models, users can effortlessly de-feature and streamline geometry using automated tools that are straightforward to master. This software is particularly suited for engineers who require rapid 3D solutions but lack the time to navigate elaborate CAD tools. SpaceClaim equips analysts with capabilities that expedite geometry preparation for simulations, whether that involves de-featuring CAD models, isolating fluid domains, or converting a model to beam and shell elements. By alleviating geometry-related obstacles, SpaceClaim allows analysts to concentrate on their simulations without interruption. With enhanced control over geometry, analysts can foster simulation-driven design, reduce delays between design and analysis teams, and quickly assess how modifications to designs affect outcomes, ultimately leading to more efficient workflows and better project results. Consequently, the integration of SpaceClaim into engineering practices significantly enhances productivity and collaboration.

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.

Ansys Cloud Direct’s powerful, easy-to-access HPC cloud solution will change the way you think about simulation. Unlike other simulation cloud solutions, Ansys Cloud Direct is simple to set up and navigate, will not break your workflow and does not require cloud experts to operate. Ansys Cloud Direct is all about Workflow, Performance, Support.

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.

When utilized early in the product development process, Inspire enhances the creation, optimization, and examination of innovative and structurally efficient components and assemblies through collaborative efforts. Its award-winning interface for geometry creation and modification can be mastered within just a few hours, all while providing the robust power of Altair solvers. The structural analysis capabilities, validated by NAFEMS, allow for swift and accurate evaluations using Altair® SimSolid®, making it possible to analyze extensive assemblies and intricate parts. Additionally, it offers dynamic motion simulation and load extraction through the trusted multi-body systems analysis of Altair® MotionSolve®. Furthermore, Altair® OptiStruct® sets the industry benchmark for structural efficiency with its topology optimization, facilitating generative design that yields practical and manufacturable geometries. Inspire empowers both simulation analysts and designers to conduct what-if analyses more quickly and easily, fostering an environment of collaboration and innovation. This approach not only enhances productivity but also encourages teams to explore a wider range of design possibilities earlier in the development cycle.

Ansys Fluent stands out as the premier fluid simulation software, distinguished by its cutting-edge physics modeling features and unmatched precision. By utilizing Ansys Fluent, you can dedicate more time to innovation and enhancing product efficiency. This software is backed by extensive validation across diverse applications, ensuring you can rely on its simulation outcomes. With Ansys Fluent, creating sophisticated physics models and evaluating various fluid dynamics phenomena is seamless within a user-friendly and customizable interface. This robust simulation tool significantly expedites your design process, allowing for quicker iterations and improvements. Boasting top-tier physics models, Ansys Fluent can effectively and accurately tackle intricate, large-scale simulations. The software unveils new possibilities for computational fluid dynamics (CFD) analysis. Additionally, its rapid pre-processing capabilities and swift solving times empower you to be the quickest in bringing your products to market. Fluent's unmatched features foster boundless innovation while maintaining a steadfast commitment to precision and reliability. Ultimately, Ansys Fluent not only enhances your design capabilities but also positions you ahead of the competition in a fast-paced industry.

Ansys Autodyn enables the simulation of material responses to various events, including short-duration severe mechanical loadings, high pressures, and explosions. This software combines advanced solution techniques with user-friendly features, making it accessible for quick comprehension and simulation of significant material deformation or failure. It offers a diverse range of models to accurately capture complex physical phenomena, such as the interactions between liquids, solids, and gases, as well as phase transitions in materials and shock wave propagation. With seamless integration into Ansys Workbench and its intuitive user interface, Ansys Autodyn stands out in the industry by facilitating the generation of precise results efficiently. The inclusion of the smooth particle hydrodynamics (SPH) solver enhances its capabilities for explicit analysis, ensuring comprehensive support for various simulation needs. Furthermore, Ansys Autodyn allows users to choose from multiple solver technologies, ensuring that the most suitable solver is applied for different components of the model, thus optimizing performance and accuracy.

Ansys HFSS is a versatile 3D electromagnetic (EM) simulation tool used for the design and analysis of high-frequency electronic devices such as antennas, interconnects, connectors, integrated circuits (ICs), and printed circuit boards (PCBs). This powerful software allows engineers to create and evaluate a wide range of high-frequency electronic products, including antenna arrays, RF and microwave components, and filters. Renowned among engineers globally, Ansys HFSS is essential for developing high-speed electronics utilized in various applications like communication systems, advanced driver assistance systems (ADAS), satellites, and Internet of Things (IoT) devices. The software's exceptional performance and precision empower engineers to tackle complex challenges related to RF, microwave, IC, PCB, and electromagnetic interference (EMI) issues. With a robust suite of solvers, Ansys HFSS effectively addresses a myriad of electromagnetic challenges, making it an indispensable resource in the field of electronic design. As technology progresses, the relevance of such simulation tools becomes increasingly critical in ensuring optimal performance in modern electronic systems.

Ansys LS-DYNA stands out as the leading explicit simulation software widely utilized for various applications, including drop testing, impact analysis, penetration scenarios, collisions, and ensuring occupant safety. Renowned as the most extensively used explicit simulation tool globally, Ansys LS-DYNA excels in modeling the behavior of materials subjected to brief yet intense loading conditions. Its comprehensive suite of elements, contact formulations, and material models enables the simulation of intricate models while allowing precise control over every aspect of the issue at hand. The software offers a broad range of analyses, boasting rapid and effective parallel processing capabilities. Engineers can investigate simulations that involve material failure, examining how such failures evolve through components or entire systems. Additionally, LS-DYNA adeptly manages models with numerous interacting parts or surfaces, ensuring that the interactions and load transfers between complex behaviors are accurately represented. This capability makes LS-DYNA an invaluable tool for engineers facing multifaceted simulation challenges.

Conducting a 2D throughflow simulation is an essential phase in the design process of rotating machinery. Ansys Vista TF not only delivers swift results but also enhances your understanding of the design, uncovering potential issues that may not have been previously recognized. By engaging in initial design iterations in a 2D format, you can streamline the transition to comprehensive 3D analysis, ultimately saving both development time and engineering resources. This software empowers users to gain deeper insights into their rotating machinery designs, allowing for refinement of product performance during the early stages of design. The significance of a high-performance turbocharger cannot be overstated, as it plays a vital role in overall engine efficiency. Engineers at PCA sought a solution to optimize turbocharger functionality while also identifying the most effective strategies for their challenges. Ansys Vista TF emerged as the optimal solution, thanks to its capacity to provide rapid, high-quality insights within an efficient workspace, thereby significantly aiding their design process. Additionally, the ability to quickly iterate designs using this software has proven invaluable for maintaining competitive advantages in the industry.

Ansys SPEOS offers predictive capabilities for illumination and optical system performance, significantly reducing both prototyping time and costs while enhancing the efficiency of your products. With a user-friendly and detailed interface, Ansys SPEOS boosts productivity through GPU utilization for simulation previews and provides seamless integration with the Ansys multiphysics ecosystem. The tool's accuracy has been validated by the International Commission on Illumination (CIE) against the CIE 171:2006 standards, demonstrating the advantages of its light modeling software. Activate the lighting in your virtual model to easily investigate light propagation in a three-dimensional space. The SPEOS Live preview feature includes both simulation and rendering tools, allowing for an interactive design experience. By conducting accurate simulations on the first attempt, you can reduce iteration times and accelerate your decision-making, all while automatically optimizing the designs for optical surfaces, light guides, and lenses. This innovative approach not only streamlines the design process but also empowers creators to achieve higher precision in their optical designs.

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.

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.

Ansys Motion, now incorporated within the Mechanical interface, represents a cutting-edge engineering solution built upon a sophisticated multibody dynamics solver. This innovative tool facilitates rapid and precise assessments of both rigid and flexible entities, allowing for a comprehensive evaluation of physical phenomena through a holistic approach to mechanical systems. Ansys Motion employs four closely linked solving methodologies: rigid body, flexible body, modal, and meshfree EasyFlex, providing unmatched capabilities for analyzing various systems and mechanisms in any desired combination. It can effectively handle large assemblies with millions of degrees of freedom while accounting for both flexibility and contact effects. Standardized connections and joints enable seamless integration and loading of these systems. Moreover, the ability to conduct simulations within Ansys Motion using the same interface as traditional structural analysis promotes the reusability of a single model for multiple applications, resulting in significant reductions in time and effort required for complex projects. This streamlined workflow enhances productivity and fosters innovation in engineering design.

Ansys VRXPERIENCE Perceived Quality delivers a cutting-edge, physics-driven solution for assessing designs that encompass variations in lighting, colors, and materials. This platform enables you to test and validate your product designs within a relevant context. With VRXPERIENCE Perceived Quality, you can swiftly evaluate different design options for both materials and lighting. This method empowers you to confirm your selections against established design specifications, allowing for the identification of optimal lighting and material pairings under realistic conditions. You can produce a virtual prototype from a 3D model with ease, facilitating early decision-making in the design phase through real-time optical simulations. By utilizing Ansys VRXPERIENCE Perceived Quality's immersive virtual reality visualizations, you can incorporate physics-based lighting scenarios to accurately assess how your chosen lighting and material options will manifest in the real world. This comprehensive approach not only enhances design accuracy but also streamlines collaboration among team members throughout the development process.

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.

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.

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.

The Ansys HPC software suite allows users to leverage modern multicore processors to conduct a greater number of simulations in a shorter timeframe. These simulations can achieve unprecedented levels of complexity, size, and accuracy thanks to high-performance computing (HPC) capabilities. Ansys provides a range of HPC licensing options that enable scalability, accommodating everything from single-user setups for basic parallel processing to extensive configurations that support nearly limitless parallel processing power. For larger teams, Ansys ensures the ability to execute highly scalable, multiple parallel processing simulations to tackle the most demanding projects. In addition to its parallel computing capabilities, Ansys also delivers parametric computing solutions, allowing for a deeper exploration of various design parameters—including dimensions, weight, shape, materials, and mechanical properties—during the early stages of product development. This comprehensive approach not only enhances simulation efficiency but also significantly optimizes the design process.

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.

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.

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.

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.

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.

Utilizing the Ansys Electronics solution suite significantly reduces testing expenses, guarantees adherence to regulations, enhances product reliability, and substantially shortens development timelines. This approach enables you to create advanced and superior products that stand out in the market. By harnessing Ansys' simulation capabilities, you can address the most vital elements of your designs effectively. Our solutions empower you to tackle critical issues in product design through comprehensive simulation. Whether you're involved in antenna, RF, microwave, PCB, package, IC design, or even electromechanical devices, we offer industry-leading simulators that serve as the gold standard. These tools assist you in overcoming various challenges related to electromagnetic forces, temperature variations, signal integrity, power integrity, parasitic effects, cabling, and vibrations in your designs. Furthermore, we enhance this process with thorough product simulation, which facilitates achieving first-pass success in designing complex systems such as airplanes, automobiles, smartphones, laptops, wireless chargers, and more. By integrating our solutions, you position yourself to excel in innovation and engineering excellence.

Ansys Lumerical Multiphysics serves as advanced software for simulating photonic components, allowing for the integrated design of these elements by effectively capturing the interplay of various multiphysics phenomena such as optical, thermal, electrical, and quantum well interactions, all within a cohesive design platform. Designed specifically for engineering workflows, this user-friendly product design software enhances the user experience, enabling quick design iterations and delivering in-depth insights into actual product performance. By merging real-time physics with precise high-fidelity simulations in an accessible interface, it promotes a shorter time-to-market for innovative designs. Among its key offerings are a finite element design environment, integrated multiphysics workflows, extensive material models, and robust automation and optimization capabilities. The suite of solvers and streamlined processes in Lumerical Multiphysics effectively reflects the complex interactions of physical effects, facilitating accurate modeling of both passive and active photonic components. This comprehensive approach not only enhances design efficiency but also leads to improved product reliability and performance evaluations.

nCode DesignLife serves as a proactive design tool that pinpoints essential areas and estimates realistic fatigue lifespans based on top finite element (FE) analysis results applicable to both metals and composites. This innovative tool empowers design engineers to enhance their approach beyond basic stress assessments, enabling them to simulate real-world loading scenarios and thereby mitigate the risks of both under-design and over-design in their products, which can lead to expensive modifications later on. Additionally, the software offers features like virtual shaker testing, fatigue analysis for welds, vibration fatigue assessments, crack growth monitoring, fatigue evaluation for composites, and thermo-mechanical fatigue studies. It leverages advanced technologies for analyzing multiaxial stress, weld integrity, short-fiber composites, vibrational impacts, crack propagation, and thermal stress fatigue. With a user-friendly graphical interface, it facilitates comprehensive fatigue analysis using data from leading FEA tools such as ANSYS, Nastran, Abaqus, Altair OptiStruct, LS-Dyna, among others. Moreover, it incorporates multi-threaded and distributed processing capabilities, enabling efficient handling of large finite element models and optimizing overall usage schedules. This powerful combination of features ultimately ensures that engineers can deliver more reliable and efficient designs.

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.

Understanding how light travels and influences both product efficacy and human experience is essential for assessing performance and ensuring comfort, perception, and safety. Ansys Optics stands out by effectively simulating the optical characteristics of a system, assessing the ultimate lighting effects, and forecasting the repercussions of variations in lighting and materials on appearance and perceived quality, all within realistic scenarios. With this advanced visualization tool, you can conceptualize your product prior to its creation, thereby enhancing the virtual experience for customers. Allow Ansys Optics and its optical simulation capabilities to guide you towards optimal solutions for any project style. The software adeptly addresses intricate optical challenges while enhancing visual aesthetic quality. By integrating design and engineering into a seamless workflow, you can significantly boost the final quality of your product, creating true-to-life visualizations that resonate with users. Additionally, you can develop and evaluate virtual prototypes of a cockpit HMI within an immersive, real-time setting, providing a comprehensive understanding of user interaction. This process not only improves design outcomes but also fosters innovation in product development.

Ansys Chemkin-Pro stands at the forefront of modeling intricate, chemically interactive systems. It has undergone rigorous validation for a wide array of chemistry-related applications and is recognized for its remarkably rapid simulation capabilities. In the current landscape of energy regulations, there is a pressing demand for high yields, efficiency, and quality while minimizing byproducts and waste. Ansys Chemkin-Pro serves as a chemical kinetics simulator that accurately represents idealized reacting flows, offering valuable insights into outcomes prior to production testing. Relying solely on experimental testing for confirming chemical processes can be economically challenging, especially with the rapid design cycles of today. Consequently, effective simulation plays a pivotal role in developing cost-efficient designs, facilitating quicker market entry for new products. Notably, Mitsuo Koshi, an esteemed chemical kineticist and passionate fireworks enthusiast, has gained recognition for judging prestigious fireworks competitions throughout Japan. Each year, the displays become increasingly spectacular; however, this escalation comes with the downside of rising emissions, raising concerns about environmental impact. As such, the balance between artistry in fireworks and environmental responsibility is becoming an ongoing challenge for both chemists and pyrotechnicians alike.

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.

Simufact Additive is an advanced and adaptable software tool designed for simulating metal-based additive manufacturing techniques. Learn how to effectively utilize Simufact Additive to enhance your metal 3D printing and rapid prototyping efforts. By employing this software, you can greatly minimize the need for numerous test prints. Our objective is to furnish you with a solution that enables the production of additive manufacturing components with consistent dimensional accuracy on the first attempt. The multi-scale approach of Simufact Additive integrates the most effective methods into a singular software solution, ranging from a rapid mechanical technique to an intricate thermal-mechanical coupled transient analysis that offers exceptional precision in simulation results. Users can select the most suitable simulation method according to their specific requirements. Simufact Additive stands out as a specialized software solution focused solely on the simulation of additive manufacturing processes, which is evident in its streamlined operating framework. This focused approach not only enhances usability but also improves overall efficiency in the design and production workflow.

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.

Elevate your product design by incorporating simulation and analysis, which helps minimize expensive physical prototyping while enhancing the durability, reliability, and safety of your products. Employing digital prototypes to assess the performance of your designs in real-world scenarios is crucial for successful product development. Creo Simulation is specifically tailored for engineers, featuring a robust suite of structural, thermal, and vibration analysis tools along with an extensive range of finite element analysis (FEA) capabilities. With Creo Simulation, you can effectively evaluate and affirm the performance of your 3D virtual prototypes prior to producing the first physical component. We provide adaptable and innovative simulation solutions to meet the distinct needs of our customers. This section serves as a resource to explore our offerings tailored to your requirements, and should you have any inquiries about our toolset, please do not hesitate to reach out to a Creo representative for assistance. This proactive approach ensures that your products not only meet but exceed expectations in their respective markets.

Streamline your simulation toolchain and link it to advanced algorithms for robust design optimization. Prepare for your future requirements in parametric and simulation-driven virtual product development by utilizing Ansys optiSLang. This innovative platform continuously evolves to meet the demands of CAE-based Robust Design Optimization (RDO). Its cutting-edge algorithms are designed to efficiently and automatically identify the most robust design configurations, thus replacing the tedious, manual methods previously employed in RDO. By incorporating optiSLang as your solution for process integration and design optimization, you will be empowered to make informed decisions more quickly. Enhance the search for optimal and robust design configurations by leveraging the automation of the search process, complemented by interactive visualization and AI technologies. With its advanced algorithms for design exploration, optimization, robustness, and reliability analysis, you can achieve superior decision-making with reduced effort, ultimately leading to a more efficient design optimization process. Embrace this transformative approach to elevate your product development and stay ahead in a competitive landscape.

Fusion 360, along with PowerMill® CAM software, delivers advanced CNC programming solutions tailored for intricate 3- and 5-axis production processes. Users can now benefit from enhanced access to Fusion 360, its collaborative features through Fusion 360 Team, and a suite of advanced manufacturing tools available via Fusion 360 extensions. PowerMill boasts an extensive library of programming strategies that help streamline CNC operations. The software also significantly cuts down on programming times by enabling swift toolpath calculations. Users can simulate, verify, and optimize the movements of CNC machines and industrial robots effectively. With Fusion 360, users are equipped with tools for 3D modeling, generative design, simulation, and electronics, fostering enhanced collaboration and creativity. Additionally, there are specialized modeling tools designed to facilitate the preparation of complex geometries, which ultimately leads to superior CAM programming outcomes. The simulation capabilities further aid in refining plastic part designs and enhancing the mold tools necessary for their production. A prominent manufacturer in the United States leverages a combination of Autodesk Moldflow, PowerMill, and PowerShape to design and produce top-tier injection molds, illustrating the practical applications of these integrated technologies in achieving high-quality manufacturing results. This integration not only boosts efficiency but also elevates the overall quality of the finished products.

Autodesk VRED is an advanced software solution for 3D visualization and virtual prototyping, crafted to animate intricate data effectively. It empowers users to produce exceptional renderings either locally or through the cloud, allowing for seamless visualization, design validation, and collaboration across various devices, including those equipped for virtual reality. With VRED, designers and engineers can easily develop product presentations, conduct design reviews, and construct virtual prototypes utilizing interactive GPU ray tracing alongside both analytic and cloud-rendering options. This software converts complex engineering and design datasets into a comprehensive digital control model, serving as a unified source of truth for all stakeholders. Users gain the ability to access the most current design data from anywhere, at any time, enabling high-quality collaborative reviews on desktops, mobile devices, or in a VR environment through an array of tools and streaming APIs. VRED not only facilitates data preparation and virtual prototyping but also enhances virtual photography, visual simulation, collaboration, and extended reality experiences, making it an essential tool for modern design workflows. Its versatility and robust feature set make it invaluable for teams looking to innovate and refine their product development processes.

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.

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

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.

Pharos integrates Ansys' exceptional electromagnetic (EM) engine capabilities with a unique high-capacity circuit simulation engine, enabling comprehensive coupling analysis and the identification of potential EM crosstalk aggressors for each victim node. By pinpointing the most vulnerable nets, designers can strategically direct their design choices to mitigate EM crosstalk issues, thereby reducing risks throughout the design process. This tool not only has an extraordinary extraction engine but also features a built-in simulation component that facilitates in-depth EM analysis and categorizes potential crosstalk aggressors affecting each victim net. As a result, designers can concentrate on the nets that pose the highest risk within their designs. Given the increasing complexity of designs and the extensive range of magnetic field interference, it becomes a daunting challenge to identify every susceptible victim/aggressor net pair affected by EM crosstalk. Therefore, the effective use of Pharos can significantly enhance the reliability and efficiency of the design workflow.

Moldex3D stands out as the premier CAE solution for the plastic injection molding sector globally. Its advanced analysis capabilities enable comprehensive simulations across a diverse array of injection molding techniques, facilitating the optimization of product designs and manufacturability. Furthermore, Moldex3D boasts exceptional compatibility with leading CAD systems, creating a versatile design platform driven by simulation. Tailored for automotive manufacturers and design engineers, it allows for the simulation and validation of intricate auto parts and molds utilizing authentic 3D technology. By employing Moldex3D, automotive designers and manufacturers can effectively oversee the entire product life cycle, from initial concept through to design and production. This proactive approach assists component designers and suppliers in identifying and resolving potential issues at an early stage, enhancing overall efficiency. Additionally, the capability to visualize the complete injection molding process for auto parts empowers users to devise solutions more swiftly and effectively, ultimately streamlining their operations.