Alternatives to PSCAD

SPEC Innovations’ leading model-based systems engineering solution is designed to help your team minimize time-to-market, reduce costs, and mitigate risks, even with the most complex systems. Available as both a cloud-based and on-premise application, it offers an intuitive graphical user interface accessible through any modern web browser. Innoslate's comprehensive lifecycle capabilities include: • Requirements Management • Document Management • System Modeling • Discrete Event Simulation • Monte Carlo Simulation • DoDAF Models and Views • Database Management • Test Management with detailed reports, status updates, results, and more • Real-Time Collaboration And much more.

Azore is software for computational fluid dynamics. It analyzes fluid flow and heat transfers. CFD allows engineers and scientists to analyze a wide range of fluid mechanics problems, thermal and chemical problems numerically using a computer. Azore can simulate a wide range of fluid dynamics situations, including air, liquids, gases, and particulate-laden flow. Azore is commonly used to model the flow of liquids through a piping or evaluate water velocity profiles around submerged items. Azore can also analyze the flow of gases or air, such as simulating ambient air velocity profiles as they pass around buildings, or investigating the flow, heat transfer, and mechanical equipment inside a room. Azore CFD is able to simulate virtually any incompressible fluid flow model. This includes problems involving conjugate heat transfer, species transport, and steady-state or transient fluid flows.

Modelon’s OPTIMICA Compiler Toolkit stands out as the market's leading Modelica-based mathematical engine, providing users with a robust solution for automating, simulating, and optimizing system behaviors across the model-based design cycle. As the trusted compiler for Modelon Impact, OPTIMICA allows users to construct multi-domain physical systems by selecting from a vast library of model components. The toolkit’s cutting-edge solvers facilitate the evaluation of intricate physical systems, accommodating both transient simulations and steady-state calculations, as well as dynamic optimization. With its advanced mathematical capabilities, OPTIMICA can effectively manipulate and streamline models to enhance performance and reliability, catering to diverse industries and applications that range from automotive and active safety to energy and power generation optimization. Given the growing demand for effective power regulation in the contemporary energy landscape, optimizing the startup processes of thermal power plants has become a critical industrial requirement. Furthermore, the flexibility and efficiency of OPTIMICA make it an invaluable asset for engineers tackling complex system challenges.

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.

Robust simulation software designed to enhance asset performance is available, offering features such as maintenance and spare parts optimization, availability assessments, reliability-centered maintenance strategies, life cycle cost analyses, and accelerated life testing, all within a single cohesive platform. This software seamlessly integrates with your SAP or MAXIMO systems for comprehensive data analysis. It allows for the identification of critical machinery and the automatic generation of failure models through Weibull analysis. By leveraging simulation, you can refine your maintenance strategies and cut expenses. Additionally, the tool predicts system availability while optimizing design processes. It also facilitates the simulation of capacity for multiple products, incorporating target cost penalties. You can model interdependencies within systems using reliability block diagrams (RBDs) or fault trees. Operational rules can be embedded to ensure accurate performance simulations. Furthermore, it helps in determining the optimal spare parts inventory strategy. Life cycle costs can be predicted, and the ALT module allows for the analysis of test data related to stressed failures. Lastly, the software enables the identification of performance trends within the process reliability module, providing valuable insights for continuous improvement.

Virtually test drive your business processes. Process simulation allows you to take processes for a spin and identify potential roadblocks. Cutting-edge process mapping and simulation software that is designed to help organizations with process improvement, increase efficiency, and reduce waste. Ability to simulate real-world scenarios and provide insights into the performance and bottlenecks of processes. Powerful analytics and reporting capabilities allow tracking and monitoring the performance of processes over time.

RoboDK serves as an effective and affordable simulator tailored for industrial robots and their programming needs. With RoboDK's simulation software, users can maximize the capabilities of their robots without needing any prior programming expertise, thanks to its user-friendly interface. Programming any robot offline becomes a simple task that can be accomplished in just a few clicks. The software boasts a comprehensive library that includes over 500 different robot arms, catering to a wide range of applications. One significant benefit of utilizing RoboDK’s simulation and offline programming tools is the ability to develop robot programs away from the production floor, thereby minimizing the disruptions associated with on-site programming. This feature allows you to work directly from your computer, effectively preventing any production downtime. In addition, RoboDK enables you to operate your robot arm similarly to a 5-axis milling machine (CNC) or a 3D printer. It can simulate and convert NC programs into robot programs, including formats like G-code or APT-CLS files. Furthermore, RoboDK automatically optimizes the robot's path to prevent issues such as singularities, axis constraints, and collisions. Overall, the process of simulating and programming industrial robots with RoboDK has reached unparalleled ease and efficiency. Whether you're a novice or an expert, RoboDK's capabilities can significantly enhance your robotic programming experience.

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.

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.

Geminus harnesses the capabilities of predictive intelligence by blending artificial intelligence with physics through innovative multi-fidelity modeling techniques. Our pioneering AI, based on first principles, incorporates the physical limitations of the real world into robust predictive frameworks. The Geminus platform adeptly utilizes limited data to swiftly evaluate the dynamics of intricate industrial systems, enabling precise forecasts regarding the effects of key business decisions. By integrating models and data, Geminus's multi-fidelity strategy allows for the rapid creation of highly accurate surrogates, achieving speeds over 1,000 times faster than conventional simulations. Unique to Geminus is its ability to effectively measure model uncertainty, ensuring that you can trust your predictions and the strategic choices they inform. Additionally, Geminus significantly reduces the time taken to develop models from months to mere hours, while demanding far less data and computational resources compared to traditional AI or simulation approaches. The models generated through Geminus are imbued with insights derived from the actual behaviors of real-world systems, providing a deeper understanding that enhances decision-making. This innovative approach not only streamlines the modeling process but also empowers organizations to adapt swiftly to changing environments.

The HOMER software is developed on the reliable and leading HOMER platform, which is utilized by over 250,000 designers and developers across more than 190 nations. With years of experience in the field, we deliver the most dependable and precise solutions to optimize hybrid power systems for both technical performance and cost efficiency. Delve into which product aligns best with your project needs or gain insights into our methodology for techno-economic analysis. You can watch our informative video, download the comprehensive white paper, or consult with an expert to discover how UL advisory professionals can assist you. Should you require assistance with your modeling and analysis or seek training in HOMER software, our team is ready to support you. We provide an extensive array of support services designed to ensure your success. UL advisory services offer you the benefit of our extensive expertise in renewable energy, backed by our credentials as independent engineers. From conducting feasibility studies to guiding design and certification processes, we provide thorough project support to meet your needs effectively. Engaging with us means you’ll have a partner committed to achieving your project goals.

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.

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.

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

20-sim is a comprehensive software tool designed for modeling and simulating mechatronic systems. The interface enables users to graphically input models, resembling the process of sketching an engineering diagram. Utilizing these models, one can assess and simulate the dynamics of complex multi-domain systems while also developing control strategies. Additionally, the software allows for the generation of C-code, which can be deployed on hardware to facilitate rapid prototyping and Hardware-in-the-Loop (HIL) simulations. 20-sim is equipped with features that streamline the modeling process, making it both fast and user-friendly. Users have the option to model using various methods, including equations, block diagrams, physics blocks, and bond graphs. To assist in constructing models, the 20-sim editor boasts an extensive library filled with building blocks and components, such as block diagrams and bond graphs, making it easier to create and analyze complex systems efficiently. Overall, this software package serves as a powerful tool for engineers seeking to innovate in the field of mechatronics.

AVEVA PRO/II™ Simulation serves as a steady-state simulator that enhances plant efficiency by refining process design, conducting operational analyses, and executing engineering studies. By offering a comprehensive approach to optimization, AVEVA PRO/II Simulation focuses on enhancing plant performance through the improvement of process design and operational analysis while also conducting in-depth engineering studies. Capable of performing complex heat and material balance calculations for an extensive array of chemical processes, this simulation tool presents a diverse selection of thermodynamic models applicable across multiple industries. It allows users to devise new processes and assess alternative plant configurations to achieve the most economical operations. Now accessible via the cloud, AVEVA PRO/II Simulation provides on-demand availability, straightforward maintenance, and adaptable usage options. Additionally, users can benefit from a highly experienced support team with over 15 years in the field, ensuring assistance whenever needed. Overall, AVEVA PRO/II Simulation stands out as a robust solution for optimizing plant performance, streamlining design processes, and enhancing operational efficiency.

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.

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.

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.

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

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

Develop and test your system using Simulink prior to implementing it on actual hardware. This allows you to explore and apply innovative designs that might typically be overlooked, all without the need to engage in C, C++, or HDL programming. By modeling both the system you are testing and the physical plant, you can investigate a broader design landscape. Your entire team can benefit from a unified multi-domain platform that simulates the interactions of all system components. You can also package and share your simulation results with team members, suppliers, and clients for collaborative feedback. This approach helps minimize costly prototypes by allowing you to experiment with scenarios that might otherwise be deemed too risky or impractical. Use hardware-in-the-loop testing and rapid prototyping to confirm your design's effectiveness. With this method, you can ensure traceability throughout the process, from requirements gathering to design and code development. Rather than manually crafting thousands of lines of code, you can automatically generate high-quality C and HDL code that mirrors your original Simulink model. Finally, deploy this code directly onto your embedded processor or FPGA/ASIC for seamless integration and operation. This comprehensive approach not only streamlines development but also enhances overall project efficiency.

Promote circular economy efforts while addressing global economic issues, evolving market trends, and competitive forces by enhancing performance, quality, and market readiness through leading-edge simulation software tailored for chemicals, polymers, life sciences, and innovative sustainability practices. Aspen Plus stands as the premier process simulator, drawing on more than four decades of expertise and insights from leading chemical firms, complemented by a renowned physical properties database. This software offers comprehensive process modeling that integrates economic, energy, safety, and emissions evaluations, thereby enhancing time-to-market, process efficiency, and sustainability metrics. By leveraging Aspen Plus, the efficiency of chemical operations is significantly boosted, making it a valuable tool for the bulk chemicals, specialty chemicals, and pharmaceutical sectors. This advanced modeling technology not only facilitates the optimization of throughput and product quality but also reduces energy consumption across various processes, paving the way for a more sustainable future. Ultimately, Aspen Plus empowers industries to meet the challenges of modern manufacturing while driving innovation and environmental responsibility.

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

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

6SigmaET is a sophisticated tool for thermal modeling in electronics that employs cutting-edge computational fluid dynamics (CFD) to produce precise simulations of electronic devices. Tailored for the electronics sector, our thermal simulation software brings unmatched intelligence, automation, and precision to assist you in fulfilling your requirements and addressing thermal design obstacles. Since its launch in 2009, 6SigmaET has rapidly emerged as the leading thermal simulation software within the electronics cooling industry. Its flexibility enables users to assess the thermal characteristics of a wide array of electronic components, from the tiniest integrated circuits to the largest, most robust servers. You can discover more about the benefits 6SigmaET offers your field by watching our informative videos or reviewing our comprehensive case studies. Additionally, 6SigmaET allows for the seamless import of complete CAD geometry and PCB designs, significantly cutting down the time needed for model creation and enhancing overall efficiency in thermal analysis. This capability streamlines the process, enabling engineers to focus more on optimization rather than on initial setup.

Combining visual paradigm and code generation makes it easier than ever to create new models, define bespoke behavior, assign plans to specific entities, and create all kinds of scenarios, from the simplest test-bed to the most complicated distributed trainer. vsTASKER is capable of displaying, animating, and visualizing any size or complexity of scenarios. Simulator creation is simple thanks to the graphical paradigm and automatic C++ codes generation. vsTASKER is not limited to any one field. vsTASKER offers unprecedented tools to customize your synthetic environment. This includes everything from a simple 2D map to the most complicated 3D game-like environment. Once you understand the concepts, it is easy to test a scenario or create a system.

Envision images backed by accurate and detailed data to enhance your development workflow. Accelerate the journey of your innovative imaging products to market. It offers a comprehensive model of an imaging system, incorporating lenses, sensors, and image and signal processors (ISPs) prior to production. This solution fosters improved collaboration among design teams. You can be assured that the products will function correctly once manufactured. With a Python interface, you can automate ImSym processes seamlessly. Tailor ISP functionalities through Python-scripted routines to meet specific needs. The platform provides a user-friendly, cohesive, and collaborative workflow that enhances overall user satisfaction. It yields reliable outcomes driven by the industry-leading CODE V and LightTools. ImSym combines various features to simulate an imaging system object utilizing a graphics input file. Its precision is bolstered by CODE V and LightTools, renowned as the most reliable design solutions for imaging and illumination optics. Ultimately, this integration empowers teams to innovate with confidence and efficiency.

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

WeStatiX SHM integrates authentic simulation-driven Digital Twins with cutting-edge Artificial Intelligence into an innovative platform designed for infrastructure oversight. This technology can be utilized across various structures, including bridges, tunnels, slopes, and rock walls, offering precise insights into both the present and future conditions of the monitored entities. With WeStatiX, enhancements in structural safety are achievable, alongside the potential to streamline monitoring expenses and mitigate the ecological footprint of construction activities. Accessible directly through a web browser, WeStatiX|SHM enables users to develop tailored digital twins for the real-time surveillance of extant structures in the cloud. This versatile system caters to a wide array of infrastructures such as dams, buildings, and more, underscoring its adaptability. By leveraging a blend of advanced digital technologies, combined with the power of artificial intelligence algorithms, it serves as a formidable resource for the inspection and upkeep of any monitored structure. Additionally, the platform facilitates a proactive approach to maintenance, ensuring that infrastructure integrity is continually assessed and preserved.

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.

PrimeSim HSPICE circuit sim is the industry's standard for circuit simulation. It features foundry-certified MOS model models with state of the art simulation and analysis algorithms. HSPICE, with over 25 years of success in design tape outs and a comprehensive circuit simulator, is the industry's most trusted. On-chip simulation: analog designs, RF, custom digital, standard cell design and character, memory design and characterisation, device model development. For off-chip signal integrity simulation, silicon-to-package-to-board-to-backplane analysis and simulation. HSPICE is a key component of Synopsys analog/mixed signal (AMS) verification suite. It addresses the most important issues in AMS verification. HSPICE is the industry's standard for circuit simulation accuracy and offers MOS device models that have been foundry-certified. It also includes state-of-the art simulation and analysis algorithms.

Simulation modeling, often referred to as predictive modeling, serves as a powerful mechanism for constructing experimental computer models that replicate an existing system with high fidelity. These models may incorporate an AutoCAD design and are enhanced through animations, ensuring that the simulation accurately reflects the operations of the actual system. Moreover, the model can emulate real-life schedules for patients or products, allowing for performance assessments that can be compared to the actual system if it is available. Once the simulation model is developed, it enables the execution of comprehensive experiments on the computer representation, allowing for optimization of performance without interfering with the real-world operations. Additionally, simulation plays a critical role in the creation of entirely new systems from the ground up, starting from basic concepts to meticulously design the ideal facility, hospital, or clinic tailored to the needs of your organization. Furthermore, it can be leveraged as a valuable tool for enhancing existing systems that may not be performing up to expectations, thus driving improvements and efficiencies in their operations. This multifaceted approach to simulation not only aids in crafting new designs but also ensures continuous development and refinement of established systems.

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.

Hardware-in-the-loop simulation serves as a reliable and economical method for conducting tests on physical equipment. It is particularly well-suited for validating designs and assessing intricate systems like those found in vehicles, aircraft, missiles, satellites, rockets, and trains. Instead of testing in real-world settings, evaluations are carried out within a virtual environment. A significant portion of the testing framework is substituted with mathematical models, enabling the integration of various components into a closed-loop system. This approach results in tests that are not only repeatable and organized but also expedited and more dependable. Current hardware-in-the-loop simulation technologies include the SIMulation Workbench real-time modeling platform, which operates on the RedHawk Linux OS. With SIMulation Workbench, users benefit from an all-encompassing framework that simplifies the development and execution of real-time hardware-in-the-loop simulations. The ability to simulate in a controlled environment enhances the accuracy and efficiency of the testing process, making it an invaluable tool in modern engineering.

CADSIM Plus is an innovative software designed for chemical process simulation, integrating a dynamic simulator based on first principles with a comprehensive Computer Assisted Drawing (CAD) interface all in one solution. It excels in conducting accurate heat and material balances across various chemical processes and is capable of creating intricate dynamic simulations that incorporate control logic and batch operations. The software is equipped with an extensive array of generic process modules and provides optional libraries tailored for diverse applications. CADSIM Plus accommodates a broad spectrum of drawing complexities, ranging from straightforward block diagrams to intricate engineering schematics, and facilitates the export of designs to AutoCAD and other conventional CAD software. With its 'electronic flowsheet' runtime simulation mode, users are provided with interactive and animated tools for simulation, allowing real-time adjustments to process conditions during operation. This versatile software finds applications in process design, troubleshooting, forecasting future process scenarios, and addressing challenges related to dynamic control, making it a valuable asset for engineers and researchers alike. Furthermore, its user-friendly interface ensures that even those new to process simulation can effectively harness its powerful capabilities.

OnScale stands out as the pioneering platform for Cloud Engineering Simulation, merging advanced multiphysics solver technology with the boundless computational capabilities of cloud supercomputers. This innovative solution empowers engineers to execute a vast array of full 3D multiphysics simulations concurrently, enabling the creation of authentic Digital Prototypes that represent the complete operational behavior of intricate high-tech devices. With the aim of delivering an exceptional Cloud Engineering Simulation experience, OnScale Solve is designed to be intuitive, robust, and effective. It operates seamlessly on both public and private cloud supercomputers and features a user-friendly web interface, an API for smooth integration into existing design processes, customizable scripting options for tailored engineering simulations, and plugins that expand its modeling functionalities. Furthermore, OnScale Solve equips engineers with the capability to synthetically generate data crucial for training advanced AI/ML algorithms, thereby enhancing innovation in technology development. This comprehensive platform ensures that engineers have the tools they need to push the boundaries of simulation and design.

ProModel serves as a sophisticated tool for discrete event simulation and predictive analytics, offering valuable insights for navigating intricate decision-making processes. By utilizing ProModel AI simulation software, you can enhance your system's efficiency while simultaneously mitigating risks. Our solutions, driven by data, cater to industries that demand meticulous planning and forecasting to maintain seamless, effective, and optimal operations. Understanding the implications of operational changes on production and scheduling is critical for both current and future scenarios. Our AI simulation software empowers organizations to create, simulate, and refine factory layouts using a digital twin, quickly project patient counts and bed availability, identify and avert operational bottlenecks, and improve capacity planning and scheduling to facilitate smoother production workflows. With dynamic simulation models, you can achieve superior process management and utilize visual insights to pinpoint the origins and reasons behind bottlenecks, ultimately leading to more informed decision-making and enhanced operational efficiency.

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.

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.

Induction heat treatment simulation offers detailed insights into the temperature variations from the outer surface to the core and identifies specific regions where phase changes take place. With SIMHEAT®, users can assess how factors like current frequency, coil design, and the positioning of concentrators influence the heat-affected zone. The material modeling aspect accounts for the electrical and magnetic characteristics that vary with temperature. Moreover, SIMHEAT® can operate independently or work in conjunction with Transvalor software, ensuring a flawless transfer of results between the two platforms. This high level of interoperability guarantees that users can rely on consistent and accurate outcomes. Furthermore, all the features and functionalities available in SIMHEAT® are also incorporated into our FORGE® software, which is tailored for simulating hot, semi-hot, and cold forming processes, thereby expanding its utility in various manufacturing applications.

Eliminate uncertainty in your decision-making process by confidently utilizing Arena software. This simulation tool allows you to create a digital twin, leveraging historical data while being validated against the actual outcomes of your system. Arena™ Simulation Software predominantly employs the discrete event method for its simulations, but users will also discover features that cater to flow and agent-based modeling. By assessing various alternatives, you can identify the most effective strategies for enhancing performance. Gain insights into system performance through critical metrics such as costs, throughput, cycle times, equipment utilization, and resource availability. Mitigate risks by thoroughly simulating and testing process modifications prior to making substantial capital or resource commitments. Additionally, you can analyze how uncertainty and variability influence overall system performance. Running "what-if" scenarios allows you to critically evaluate the implications of proposed changes to your processes. This comprehensive approach ensures that decisions are made with confidence and precision.

OpenModelica serves as an open-source platform for modeling and simulating systems using the Modelica language, catering to both industrial and academic sectors. Its progress is driven by the Open Source Modelica Consortium (OSMC), a non-profit entity. This platform seeks to deliver an extensive environment for Modelica modeling, compilation, and simulation, available in both binary and source code formats, thereby supporting research, education, and practical applications in the industry. OpenModelica is compatible with multiple operating systems, such as Windows, Linux, and macOS, and fully supports the Modelica Standard Library. It is crafted to enable the creation and execution of a wide range of numerical algorithms, making it ideal for tasks like control system design, nonlinear equation resolution, and the development of optimization algorithms for intricate applications. Additionally, the platform incorporates features for debugging, visualization, and animation, which not only enhance user interaction but also streamline the modeling and simulation processes significantly. Overall, OpenModelica’s versatility and robust tools make it a valuable asset for engineers and researchers alike.

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.

Originating from OpenFlight, which is the most commonly accepted standard in the industry for 3D simulation models, Creator serves as the pioneering software for developing optimized 3D models intended for virtual environments. Specifically crafted for simulation purposes, Creator stands as the benchmark software in generating optimized 3D models suitable for real-time virtual scenarios. Content creators consistently face the challenge of creating an increasing number of models that exhibit higher detail, enhanced realism, and superior performance. Equipped with a comprehensive array of tools, content creators can design models from the ground up, modify or import pre-existing ones, and improve objects for utilization in simulations that rely on sensors. With complete authority over the modeling process, Creator enables users to swiftly produce highly optimized and physically accurate 3D models with various detail levels. This software offers full interactive control over your models, from the database level right down to individual vertex attributes, allowing for more rapid development and unprecedented control in the modeling process. As a result, users can achieve greater efficiency and creativity in their projects, ultimately leading to richer virtual experiences.

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.

FlexSim allows you to answer any question about your company with accuracy. It is a powerful simulation tool that was built from the ground up to make simulation simple and easy without sacrificing any functionality or visual appeal. With drag-and-drop controls, easy-to-use features, you can create stunning, detailed models that produce results but make an impact like charts or spreadsheets.

The rise in variants, characterized by a preference for batch sizes of one, accelerated product life cycles, and intense cost pressures, underscores the essential role of digital twins across numerous sectors in today's digital era. ISG Industrielle Steuerungstechnik GmbH boasts extensive expertise in developing simulation solutions that provide notable competitive advantages for clients in the mechanical and plant engineering industries. With the introduction of the latest ISG-virtuos 3, this simulation platform expands its capabilities to include manufacturing automation and intralogistics as well. ISG-virtuos serves as an open, collaborative simulation platform that enables the thorough examination and optimization of entire production systems, encompassing all elements such as controls, robots, and material handling in real-time with a deterministic approach. The simulations leverage virtual components that are stored in dedicated libraries, allowing for their continuous reuse and interchangeability, thus enhancing efficiency and flexibility in production processes. This innovative approach not only streamlines operations but also positions companies to better adapt to the ever-evolving market demands.

Working Model stands out as the top-selling motion simulation software globally. Validate your designs using robust analytical tools at your disposal. The rapid "run-analyze-refine" process enables you to fine-tune your designs prior to creating any physical prototypes, significantly minimizing the need for such prototypes. You maintain complete oversight of the simulation environment. Build, execute, and enhance simulations swiftly with ready-made objects and constraints. You can run, halt, reset, single-step, or pause the simulation whenever necessary. Evaluate your most recent design by measuring various factors like force, torque, and acceleration acting on any component. Outputs can be viewed as vectors or numerical data, presented in either English or metric units. Additionally, you can import your 2D CAD drawings in DXF format seamlessly. Values can be input from equations, sliders, and DDE links to both MATLAB and Excel. Construct bodies and define their mass properties, initial velocity, and electrostatic charge among other parameters. You have the option to run or modify scripts to enhance simulations, document models, and much more. Furthermore, you can create compelling presentations by incorporating images, elevating the overall impact of your work. This comprehensive tool transforms the way designers and engineers approach motion simulation.

Equalis offers an extensive array of products and deployment knowledge, encompassing everything from modeling and simulation for product development to infrastructure for testing and development. We deliver complete systems that refresh product development physics models automatically using test data, which significantly reduces both the time and cost associated with product development. Our testing and development expertise includes a diverse range of applications, such as high-speed and high-power rotating machines, mass flow chambers, and large vehicle tilt tables. Additionally, our simulation models for intricate systems are designed to autonomously learn and enhance various forms of data, ensuring that our clients benefit from continuous improvement in their processes. This innovative approach allows us to stay at the forefront of technology in product development.