Alternatives to OnScale Solve

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.

OrCAD® X is a unified PCB design software platform. It offers significant improvements to ease of use, performance and automation. Our product suite includes applications for schematic, PCB layout, simulation and data management. OrCAD X Capture, a schematic design solution for electrical circuit creation and documentation, is one of OrCAD's most popular products. PSpice®, our virtual SPICE simulation engine integrated into Capture, allows you to prototype and verify your designs using industry-leading native analog, mixed signal, and advanced analysis engines. OrCAD X Presto and OrCAD X PCB editor are two PCB layout tools that allow designers to easily collaborate between ECAD/MCAD teams and build better PCBs faster. OrCAD X Presto is our new, simplified interface for novice designers, electrical engineers and PCB designers focused on quick turn PCB designs.

FEATool Multiphysics – "Physics Simulator Made Easy" – a fully integrated physics simulation, FEA and CFD toolbox. FEATool Multiphysics provides a fully integrated simulation platform that includes a unified user interface for several multi-physics solvers such as OpenFOAM and Computational fluid dynamics (CFD), including SU2 Code and FEniCS. This allows users to model coupled physics phenomena, such as those found in fluid flow and heat transfer, structural, electromagnetics acoustics and chemical engineering applications. FEATool multiphysics is a trusted tool for engineers and researchers in the energy, automotive and semi-conductor industries.

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.

Energy2D is an interactive multiphysics simulation program grounded in computational physics, designed to model the three primary modes of heat transfer: conduction, convection, and radiation, while also integrating particle dynamics. This software operates efficiently on a wide range of computers, simplifying the process by removing the need for switches between preprocessors, solvers, and postprocessors that are usually necessary for computational fluid dynamics simulations. Users can create "computational experiments" to explore scientific hypotheses or address engineering challenges without the need for intricate mathematical formulations. Additionally, development is ongoing to introduce various energy transformation types and to enhance support for different fluid types. While Energy2D excels in accurately modeling conduction, its representations of convection and radiation are not entirely precise, which means results involving these elements should be regarded as qualitative. Over 40 scientific papers have utilized Energy2D as a valuable research instrument, showcasing its adoption in the academic community. As the program evolves, its capabilities are expected to expand further, potentially offering more comprehensive insights into complex physical interactions.

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.

EMWorks offers top-tier electromagnetic simulation software designed for electrical and electronics engineering, incorporating multiphysics features. Their solutions are fully integrated into SOLIDWORKS and Autodesk Inventor®, catering to a wide range of applications such as electromechanical systems, power electronics, antennas, RF and microwave components, as well as ensuring power and signal integrity in high-speed interconnects. One of their flagship products, EMS, serves as a powerful tool for simulating and optimizing electromagnetic and electromechanical devices like transformers, electric motors, actuators, and sensors within the SOLIDWORKS® and Autodesk® Inventor® environments. Additionally, EMWorks2D is a specialized 2D electromagnetic simulation software that focuses on planar and axis-symmetric geometries, also fully embedded in SOLIDWORKS, allowing users to perform quick simulations prior to transitioning to 3D models. This functionality not only enhances the design process but also accelerates overall product development, making it easier for engineers to refine their designs efficiently. By leveraging these advanced tools, users can achieve optimal performance in their electronic designs while saving valuable time in the engineering workflow.

VSim is a sophisticated Multiphysics Simulation Software tailored for design engineers and research scientists who seek accurate solutions for complex challenges. Its exceptional integration of Finite-Difference Time-Domain (FDTD), Particle-in-Cell (PIC), and Charged Fluid (Finite Volume) methodologies ensures reliable outcomes across various applications, including plasma modeling. As a parallel software tool, VSim adeptly tackles large-scale problems, with simulations that execute rapidly thanks to algorithms optimized for high-performance computing environments. Renowned by researchers in over 30 countries and utilized by professionals across fields such as aerospace and semiconductor manufacturing, VSim guarantees results with verified accuracy that users can depend on. Developed by a dedicated group of computational scientists, Tech-X’s software has garnered thousands of citations in scientific literature, and VSim is prominently featured in many leading research institutions worldwide. Furthermore, its continued evolution reflects the commitment to meeting the ever-growing demands of modern scientific inquiry.

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.

Adaptive Research is excited to unveil the CAESIM 2024 simulation platform, which is now available for immediate use, featuring enhanced computational fluid dynamics modeling along with multi-physics functionalities. This latest software version introduces innovative tools and features designed to streamline the modeling process, enabling CFD engineers to achieve rapid simulation results with greater efficiency. Additionally, the platform aims to enhance user experience through improved interfaces and capabilities.

SwiftComp is an innovative composite simulation software that combines multiscale and multiphysics capabilities to provide the precision of 3D finite element analysis (FEA) with the simplicity of basic engineering models. This groundbreaking tool simplifies the modeling process for engineers, allowing them to treat composites with the same ease as metals while maintaining accuracy and capturing intricate microstructural details. It offers cohesive modeling for structures that are one-dimensional (like beams), two-dimensional (such as plates or shells), and three-dimensional, effectively calculating the material properties required. Users can utilize SwiftComp independently for virtual composite testing or as an enhancement to existing structural analysis tools, thereby integrating high-fidelity composite modeling into their workflows. Additionally, SwiftComp excels in determining the optimal structural model for macroscopic analysis and includes capabilities for dehomogenization, which enables the calculation of pointwise stresses within the microstructure. It seamlessly connects with established software such as ABAQUS and ANSYS, further broadening its applicability in engineering projects. As a result, SwiftComp significantly enhances the efficiency and effectiveness of composite material modeling in various engineering applications.

NVIDIA Modulus is an advanced neural network framework that integrates the principles of physics, represented through governing partial differential equations (PDEs), with data to create accurate, parameterized surrogate models that operate with near-instantaneous latency. This framework is ideal for those venturing into AI-enhanced physics challenges or for those crafting digital twin models to navigate intricate non-linear, multi-physics systems, offering robust support throughout the process. It provides essential components for constructing physics-based machine learning surrogate models that effectively merge physics principles with data insights. Its versatility ensures applicability across various fields, including engineering simulations and life sciences, while accommodating both forward simulations and inverse/data assimilation tasks. Furthermore, NVIDIA Modulus enables parameterized representations of systems that can tackle multiple scenarios in real time, allowing users to train offline once and subsequently perform real-time inference repeatedly. As such, it empowers researchers and engineers to explore innovative solutions across a spectrum of complex problems with unprecedented efficiency.

In industries where the integrity of welded structures is critical, TRANSWELD® provides a cutting-edge and comprehensive solution for predicting potential welding imperfections. This advanced simulation software employs multi-physical models to accurately reflect the actual behavior of metal in both liquid and mushy phases, enabling an in-depth analysis of material transformations. Furthermore, TRANSWELD® facilitates the examination of the microstructure in solid-state assemblies. With this tool, you can ensure that your welded components meet required standards without the need for physical prototypes. Our software is entirely predictive, allowing users to digitally observe welding processes under realistic conditions. For instance, it enables the visualization of the heat source movement during simulations of techniques such as laser welding or arc welding, enhancing understanding and efficiency in the welding process. Such capabilities not only streamline production but also significantly reduce the risk of defects in the final product.

Simcenter STAR-CCM+ is an advanced multiphysics computational fluid dynamics (CFD) software that enables the simulation of products in conditions that mimic real-life scenarios. This software stands out by incorporating automated design exploration and optimization into the CFD toolkit accessible to engineers. With a unified platform that encompasses CAD, automated meshing, multiphysics CFD capabilities, and advanced postprocessing, it empowers engineers to thoroughly investigate the entire design landscape, facilitating quicker and more informed design choices. By leveraging the insights offered by Simcenter STAR-CCM+, the design process becomes more strategic, ultimately resulting in innovative products that surpass customer expectations. Enhancing a battery's performance across its complete operating spectrum is a complex endeavor that necessitates the concurrent optimization of various parameters. In this context, Simcenter delivers a comprehensive simulation environment tailored for the analysis and design of electrochemical systems, fostering a deeper understanding of their behavior. This holistic approach allows engineers to tackle intricate challenges with confidence and precision.

Ansys Totem-SC stands out as the established and reliable leader in the realm of power noise and reliability validation for both analog and mixed-signal designs, utilizing a cloud-native elastic compute framework. Recognized as the benchmark solution for voltage drop and electromigration multiphysics sign-off at the transistor level, Ansys Totem-SC has proven its effectiveness across numerous tapeouts, leveraging a cloud-based infrastructure to provide the necessary speed and capacity for comprehensive full-chip assessments. Its accuracy in signoff has been validated by all major foundries, supporting advanced finFET technologies down to 3nm. This platform excels in power noise and reliability analysis specifically for analog mixed-signal intellectual property and fully custom designs. Moreover, it generates IP models that facilitate SOC-level power integrity signoff in conjunction with RedHawk-SC and develops compact chip models for power delivery networks applicable at both chip and system levels. The solution is not only industry-proven but also certified by foundries, making it a highly regarded choice for analog and mixed-signal electromigration and IR analysis. With Ansys Totem-SC, designers can confidently ensure the integrity and reliability of their power delivery systems throughout the design process.

The mesh significantly impacts the precision, convergence, and speed of a simulation. Ansys offers a suite of tools designed to create the most suitable mesh for delivering precise and efficient solutions. Their general-purpose, high-performance, automated, and intelligent meshing software is capable of generating the optimal mesh for accurate multiphysics solutions, ranging from straightforward automatic meshing to meticulously crafted mesh designs. The software incorporates smart defaults that simplify the meshing process, making it intuitive and effortless, while ensuring the necessary resolution to effectively capture solution gradients for reliable outcomes. Ansys’s meshing solutions cater to a wide variety of needs, from basic automated meshing techniques to advanced, custom meshing options. The available methods encompass a broad range of meshing techniques, including high-order and linear elements, as well as rapid tetrahedral and polyhedral meshes, alongside high-quality hexahedral and mosaic configurations. By leveraging Ansys's meshing capabilities, users can significantly minimize the time and resources required to achieve accurate simulation results, ultimately enhancing productivity and efficiency in their projects. Thus, the integration of Ansys meshing tools can transform the simulation process, leading to a more streamlined workflow and improved outcomes.

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.

Enhance engineering processes with the only comprehensive and user-friendly CFD platform designed for multidisciplinary design and optimization. Computational fluid dynamics (CFD) plays a crucial role in multiphysics system analysis, allowing for the simulation of fluid behavior and thermodynamic characteristics through advanced numerical models. Engineers leverage the Cadence Fidelity CFD platform for various design tasks, including propulsion, aerodynamics, hydrodynamics, and combustion, to enhance product efficiency while minimizing the need for costly and time-intensive physical testing. This robust Fidelity CFD platform offers a seamless end-to-end solution tailored for applications across aerospace, automotive, turbomachinery, and marine sectors. With its efficient workflows, massively parallel architecture, and cutting-edge solver technology, the platform delivers remarkable performance and accuracy, significantly boosting engineering productivity in addressing contemporary design challenges. Ultimately, Fidelity stands out by not only simplifying complex processes but also enabling engineers to innovate rapidly and effectively.

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.

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.

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.

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.

Ansys RedHawk-SC stands as the industry's premier solution for voltage drop and electromigration multiphysics sign-off in digital designs, recognized for its reliability. Its advanced analytics swiftly uncover vulnerabilities and facilitate what-if scenarios to enhance both power efficiency and performance. The cloud-based framework of RedHawk-SC ensures it can efficiently manage full-chip analyses with remarkable speed and capacity. The signoff precision is validated by all leading foundries across all finFET nodes, including those down to 3nm. Through its sophisticated power analytics, Ansys RedHawk-SC supports the creation of robust, low-power digital designs without sacrificing performance, offering designers extensive methods to identify and rectify dynamic voltage drop issues. The trusted multiphysics signoff analysis provided by Ansys RedHawk-SC significantly mitigates project and technology risks. Additionally, its algorithms have been rigorously validated by major foundries for all finFET processes and have demonstrated success in countless tapeouts, further solidifying its reputation in the industry. As technology continues to evolve, the capabilities of Ansys RedHawk-SC will adapt to meet future challenges in digital design.

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.

CAESES® serves as a versatile and robust parametric 3D modeling tool designed to streamline variable geometry with a minimized set of parameters. Its primary aim is to facilitate the creation of clean, durable parametric geometries that lend themselves well to automated meshing and thorough analysis. Users can seamlessly integrate, initiate, and oversee their simulation processes, making it an excellent graphical user interface for process automation, complete with 3D post-processing features. The software provides built-in techniques for automated design exploration and shape optimization, allowing for the enhancement of imported geometries through CAESES' advanced shape deformation and morphing capabilities. As a fully command-driven platform, CAESES® can be extensively scripted and tailored to meet specific project requirements, and it also supports batch mode operations. You can significantly expedite your shape optimization workflow by applying the outcomes of adjoint flow analyses directly to geometry parameters. In just a few days, you can have your adaptable CAESES model ready, tailored to your specifications and designed for ease of use, requiring no prior expertise in CAESES. The platform’s intuitive nature ensures that even newcomers can effectively harness its powerful capabilities.

Effortlessly combine COMSOL Multiphysics® with MATLAB® to broaden your modeling capabilities through scripting within the MATLAB framework. The LiveLink™ for MATLAB® feature empowers you to access the comprehensive functionalities of MATLAB and its various toolboxes for tasks such as preprocessing, model adjustments, and postprocessing. Elevate your custom MATLAB scripts by integrating robust multiphysics simulations. You can base your geometric modeling on either probabilistic elements or image data. Furthermore, leverage multiphysics models alongside Monte Carlo simulations and genetic algorithms for enhanced analysis. Exporting COMSOL models in a state-space matrix format allows for their integration into control systems seamlessly. The COMSOL Desktop® interface facilitates the utilization of MATLAB® functions during your modeling processes. You can also manipulate your models via command line or scripts, enabling you to parameterize aspects such as geometry, physics, and the solution approach, thus boosting the efficiency and flexibility of your simulations. This integration ultimately provides a powerful platform for conducting complex analyses and generating insightful results.

Ansys Maxwell serves as a powerful electromagnetic field solver tailored for electric machines, transformers, wireless charging systems, permanent magnet latches, actuators, and various electromechanical devices. It adeptly addresses the challenges of static, frequency-domain, and time-varying electric and magnetic fields. Additionally, Maxwell comes equipped with specialized design interfaces specifically for electric machines and power converters. With the capabilities of Maxwell, users can accurately analyze the nonlinear and transient behaviors of electromechanical components, as well as their impact on drive circuits and control system designs. By utilizing Maxwell’s state-of-the-art electromagnetic field solvers in conjunction with integrated circuit and systems simulation technologies, engineers can gain insights into the performance of electromechanical systems well before any physical prototypes are created. Moreover, Maxwell is recognized for delivering reliable simulations of low-frequency electromagnetic fields pertinent to industrial components, making it a valuable tool in the design and analysis process. This comprehensive approach not only enhances design efficiency but also aids in minimizing potential issues during the development stage.

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.

Analytic Solver Optimization is fully compatible with the Excel Solver, designed to tackle any conventional optimization issue, regardless of its size or type, without accommodating uncertainty. What sets it apart from other optimization tools is its ability to conduct an algebraic analysis of your model's structure while efficiently utilizing multiple cores on your computer for enhanced performance. This software can manage nonlinear models that are ten times larger and linear models that are forty times larger than those solvable by the Excel Solver, providing solutions at a significantly faster pace, along with the capability to integrate Solver Engines that can accommodate millions of variables. Additionally, Analytic Solver Simulation offers an intuitive interface for rigorous Monte Carlo simulations, risk analysis, decision trees, and simulation optimization, all powered by Frontline's sophisticated Evolutionary Solver. It features an impressive array of 60 probability distributions, including complex compound distributions, automatic fitting for these distributions, along with rank-order and copula-based correlations, plus 80 different statistics and risk measures, and tools for Six Sigma analysis, as well as multiple parameterized simulations that enhance decision-making processes. The comprehensive functionality of this software makes it an essential tool for professionals seeking to leverage advanced optimization and simulation techniques in their work.

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.

IdeaCloud provides an innovative blend of services and technology designed to assist brands in acquiring and retaining customers through a dynamic interactive platform. This storytelling platform enhances conversations around technology by offering a context that is easily comprehensible for customers. Utilizing a patent-pending, cloud-based trigger system, IdeaCloud produces striking visualizations that animate technology, allowing it to be seamlessly displayed across various screens and devices with simple clicks, touches, or swipes. The effectiveness of IdeaCloud is further amplified by a talented team of visual storytellers and expert collaborators who skillfully weave together narratives using animation, mobile applications, and an extensive array of digital formats to vividly illustrate use cases. The simulations created by IdeaCloud are particularly well-suited for keynotes, sales meetings, trade shows, and similar events, as they effectively bridge the gap between the audience and the experience, fostering deeper engagement. By offering immersive storytelling, IdeaCloud ultimately transforms the way brands communicate with their customers.

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.

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.

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.

MATLAB® offers a desktop environment specifically optimized for iterative design and analysis, paired with a programming language that allows for straightforward expression of matrix and array mathematics. It features the Live Editor, which enables users to create scripts that merge code, output, and formatted text within an interactive notebook. The toolboxes provided by MATLAB are meticulously developed, thoroughly tested, and comprehensively documented. Additionally, MATLAB applications allow users to visualize how various algorithms interact with their data. You can refine your results through repeated iterations and then easily generate a MATLAB program to replicate or automate your processes. The platform also allows for scaling analyses across clusters, GPUs, and cloud environments with minimal modifications to your existing code. There is no need to overhaul your programming practices or master complex big data techniques. You can automatically convert MATLAB algorithms into C/C++, HDL, and CUDA code, enabling execution on embedded processors or FPGA/ASIC systems. Furthermore, when used in conjunction with Simulink, MATLAB enhances the support for Model-Based Design methodologies, making it a versatile tool for engineers and researchers alike. This adaptability makes MATLAB an essential resource for tackling a wide range of computational challenges.

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.

Bid farewell to delays caused by software updates, allowing you to reclaim valuable time to concentrate on your primary objectives. With Flaneer, you have the flexibility to adjust your graphics or computing capabilities according to your specific requirements. You can easily customize your configuration right from the dedicated administration section of your virtual machine. By choosing Flaneer, you not only reduce electronic waste but also lessen your environmental footprint. Continue utilizing your older devices to access cutting-edge technology! We've all experienced the frustration of waiting as our computers seem on the verge of liftoff. Safeguarding your information is paramount to us; we ensure your data resides on secure servers vetted by third-party security firms, with the most sensitive information being encrypted. When new team members come on board, their initial days are often spent setting up projects and dependencies; however, with Flaneer, you can streamline this process, providing a fully equipped work environment in no time. This efficiency not only boosts productivity but also enhances overall team morale.

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.

Ansys Lumerical FDTD stands as the premier choice for simulating nanophotonic devices, processes, and materials. Its integrated design environment features robust scripting capabilities, sophisticated post-processing options, and optimization routines. This meticulously refined application of the FDTD method ensures exceptional solver performance across a wide range of applications. With these tools at your disposal, you can concentrate on the creative aspects of your design while relying on the software to handle the technical complexities. The platform offers a variety of advantages that facilitate flexible and customizable modeling and simulation. By leveraging Ansys Lumerical FDTD, you can effectively model nanophotonic devices, processes, and materials, thus empowering your innovative pursuits. Ultimately, Lumerical FDTD exemplifies excellence in the field, delivering dependable, powerful, and scalable solver performance tailored to meet diverse application needs.

Simcenter MAGNET serves as an advanced simulation tool for analyzing electromagnetic fields, enabling users to predict the performance of various components such as motors, generators, sensors, transformers, actuators, and solenoids that involve permanent magnets or coils. By facilitating low-frequency electromagnetic field simulations, Simcenter MAGNET offers comprehensive modeling capabilities that accurately represent the underlying physics of electromagnetic devices. Among its features are the modeling of manufacturing processes, temperature-sensitive material properties, and the intricate behavior of magnetization and de-magnetization, along with vector hysteresis models. The software’s built-in motion solver incorporates a six-degree-of-freedom functionality, which allows for the precise modeling and analysis of complex scenarios such as magnetic levitation and intricate motion dynamics. This advanced capability is bolstered by innovative smart re-meshing technology, ensuring that even the most challenging electromagnetic problems can be effectively addressed. Consequently, Simcenter MAGNET stands out as an essential tool for engineers and designers looking to optimize electromagnetic systems in a range of applications.

Autodesk CFD is a sophisticated software for computational fluid dynamics that allows engineers and analysts to forecast the behavior of liquids and gases with high accuracy. This tool significantly reduces the reliance on physical prototypes while enhancing understanding of fluid flow performance in various designs. It equips engineers with an extensive suite of robust tools aimed at optimizing system designs, managing thermal issues particularly in electronics cooling, and integrating Building Information Modeling (BIM) to improve occupant comfort in HVAC systems within Architecture, Engineering, and Construction (AEC) and Mechanical, Electrical, and Plumbing (MEP) sectors. Furthermore, the Application Programming Interface (API) and scripting capabilities enhance Autodesk CFD's functionalities, enabling customization and automation of routine tasks through the Decision Center. Additionally, the Decision Center streamlines the process of comparing system designs, thereby accelerating decision-making in design processes. This comprehensive approach not only improves efficiency but also empowers engineers to make more informed decisions in their projects.

Technology Computer-Aided Design (TCAD) involves leveraging computer simulations to design and refine semiconductor processes and devices. Synopsys TCAD presents a wide-ranging suite of offerings that features top-tier tools for process and device simulation, complemented by an intuitive graphical user interface that facilitates the management of simulation activities and the analysis of results. Additionally, Synopsys TCAD includes tools designed for interconnect modeling and extraction, which provide essential parasitic data vital for enhancing chip performance. The newest iteration of TCAD Sentaurus comes packed with a host of exciting features and enhancements aimed at improving performance. Customers with access to maintenance services can download TCAD Sentaurus W-2024.09-SP1 along with the accompanying release notes from SolvNetPlus. Furthermore, the Sentaurus Calibration Workbench is specifically designed to support an automated, workflow-focused calibration of TCAD models, harnessing advanced machine learning techniques to optimize the calibration process. This combination of cutting-edge tools and features positions Synopsys TCAD as a leader in the semiconductor simulation market.

Ansys PathFinder-SC serves as a robust and scalable solution designed to facilitate the planning, verification, and approval of IP and full-chip SoC designs, ensuring their integrity and resilience against electrostatic discharge (ESD). This innovative tool effectively identifies and isolates the underlying sources of design problems that could lead to chip failures due to charged-device model (CDM), human body model (HBM), or various ESD incidents. With its cloud-native architecture capable of harnessing thousands of compute cores, PathFinder-SC significantly accelerates full-chip turnaround times. Endorsed by leading foundries for current density assessments and ESD approval, it stands out as a reliable choice in the industry. The platform's comprehensive data modeling, extraction, and transient simulation engine provides an all-encompassing solution for ESD verification. Utilizing a single-pass model, it seamlessly reads industry-standard design formats, establishes ESD rules, extracts RCs for the power network, and conducts ESD simulations to pinpoint root causes while offering repair and optimization suggestions, all consolidated within one powerful tool. This streamlined process not only enhances efficiency but also reduces the time-to-market for critical design projects.

Navigating the complexities of integrating data necessary for digital twins can be difficult, especially when dealing with incompatible formats and diverse sources from various vendors. Creating, visualizing, and analyzing digital twins should not be overly complicated. As fellow engineers dedicated to problem-solving, we have developed software that addresses some of the most intricate engineering issues within the infrastructure sector. By merging engineering data, real-time information, and IoT data, we can craft an engaging 3D or 4D immersive experience. This approach leads to a more profound comprehension of infrastructure assets and the ability to unlock the potential of digital data, ultimately making a significant impact. Our solutions provide the digital capabilities essential for achieving business success. Digital twins represent a dynamic digital version of physical assets, processes, or systems, enabling us to analyze and model their performance comprehensively. Unlike static 3D models, digital twins are perpetually refreshed with data from a variety of sources, enhancing their utility and accuracy. Embracing this technology empowers organizations to optimize operations and drive innovation.

Discover how to effortlessly scale your simulations across multiple instances without the burden of management. AWS SimSpace Weaver simplifies the process of creating and executing large-scale spatial simulations in the cloud, allowing you to concentrate on development while AWS handles the intricacies of scale and complexity. Gain insights into potential real-world scenarios and immerse yourself in expansive, city-scale 3D environments. Expand the size, complexity, and quantity of objects in your simulations, all distributed across instances effectively managed by SimSpace Weaver. Eliminate the tedious challenges of data management, replication, and time synchronization between servers. Enjoy seamless integration with well-known development frameworks and simulation platforms, including Unreal Engine and Unity. Build millions of dynamic entities featuring distinct behavioral models in virtual settings that closely mirror reality. Model intricate systems like traffic flows, public transit networks, or supply chain dynamics on a city-wide or even national scale, enhancing your simulations' realism and applicability. With these capabilities, your simulations can serve as powerful tools for analysis and decision-making in urban planning and infrastructure development.

Harnessing the capabilities of SaaS through our industrial cloud platform, AVEVA Connect, AVEVA Unified Engineering provides a data-driven environment designed for real-time access to engineering data. This innovative platform encompasses the entire lifecycle of your project, from conceptual design through front-end engineering and detailed design phases. It ensures data transparency across various project disciplines and throughout all phases of design, making it the sole data-centric environment that integrates process and asset engineering lifecycles. By facilitating conceptual, FEED, and detailed engineering design from one centralized hub, collaboration among teams and external suppliers is significantly enhanced. Develop a digital twin featuring real-time project data to foster engineering visibility among all project stakeholders while minimizing the burden of handovers. Additionally, the platform allows for secure operations anytime and anywhere, thereby boosting productivity, empowering your workforce, and enabling rapid scalability in response to evolving project demands. Ultimately, this approach not only streamlines engineering processes but also elevates the overall project management experience.

AWS RoboMaker is a cloud-based simulation platform designed to support robotics developers by allowing them to efficiently run, scale, and automate simulations without the need to manage infrastructure themselves. This service provides a cost-effective approach for scaling simulation workloads and supports large-scale, parallel simulations through a single API call, while also enabling the creation of user-defined, randomized 3D virtual environments tailored to specific needs. Developers can enhance their workflows by conducting automated regression testing as part of continuous integration and continuous delivery pipelines, as well as train reinforcement learning models through numerous iterative trials. Furthermore, the platform facilitates the connection of multiple concurrent simulations to fleet management software, ensuring thorough and comprehensive testing processes. Integrating seamlessly with AWS machine learning, monitoring, and analytics services, AWS RoboMaker empowers robots to effectively stream data, navigate their surroundings, communicate, understand various inputs, and continuously learn. This integration not only enhances the capabilities of robots but also streamlines the overall development process, ultimately leading to more efficient and innovative robotic solutions.

ENCY is a CAD/CAM of a new generation. It combines advanced CAM technologies with an intuitive interface and a natural workflow. It supports multi-axis milling, G-code generation and 2D and 3-dimensional CAD modeling. Core Features - Advanced Toolpath calculation: Customized toolpaths maximize the machine's capabilities and safety - High-Resolution Simulator: Realistic solid-voxel simulations of material removal, collision-checking, additive and painting processes - Seamless Integration with ENCY Clouds and ENCY Tuner Highlights: - Dark theme with a modern interface - A wide range of technological capabilities - Multiaxis Milling and Swiss Turning Additive and hybrid manufacturing - Machine-Aware Technology : toolpath calculations considering the digital twins of the machine Direct toolpath editing - State-of the-art simulation - Postprocessor generator

Simpack is a versatile multibody system simulation (MBS) software that allows engineers and analysts to model and simulate the complex non-linear movements of various mechanical and mechatronic systems. This tool empowers users to create and analyze virtual 3D representations, facilitating the prediction and visualization of dynamic behaviors, along with associated forces and stresses. While primarily utilized in sectors such as automotive, engine, HIL/SIL/MIL, power transmission, railway, and wind energy, its applications extend across all fields of mechanical engineering. Notably, Simpack excels in conducting high-frequency transient analyses, including those in the acoustic range, making it a valuable asset for engineers. Originally designed to address intricate non-linear models featuring flexible bodies and severe shock interactions, Simpack continues to evolve to meet the demands of modern engineering challenges. Its adaptability ensures that a wide array of engineering problems can be effectively tackled using this advanced simulation tool.

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.