Alternatives to Ansys Granta
Compare Ansys Granta alternatives for your business or organization using the curated list below. SourceForge ranks the best alternatives to Ansys Granta in 2025. Compare features, ratings, user reviews, pricing, and more from Ansys Granta competitors and alternatives in order to make an informed decision for your business.
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UberCloud
Simr (formerly UberCloud)
Simr (formerly UberCloud) is a cutting-edge platform for Simulation Operations Automation (SimOps). It streamlines and automates complex simulation workflows, enhancing productivity and collaboration. Leveraging cloud-based infrastructure, Simr offers scalable, cost-effective solutions for industries like automotive, aerospace, and electronics. Trusted by leading global companies, Simr empowers engineers to innovate efficiently and effectively. Simr supports a variety of CFD, FEA and other CAE software including Ansys, COMSOL, Abaqus, CST, STAR-CCM+, MATLAB, Lumerical and more. Simr automates every major cloud including Microsoft Azure, Amazon AWS, and Google GCP. -
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ExoMatter
ExoMatter
The ExoMatter Platform for Materials R&D offers easily searchable, AI-enriched data for scientific materials screening. Searching simultaneously by chemical, physical, mechanical, sustainability and cost properties, ExoMatter identifies the most viable candidates for any product, and empowers scientists to run custom simulations with them. Designed by material scientists for material scientists, ExoMatter enables the focus on innovative, cost-effective inorganic material candidates for any product, allows efficiency in the lab and prepares the ground for a sustainable world. Founded in 2022 as a spin-off from the German Aerospace Center, ExoMatter has worked with leading companies like Bosch Siemens Hausgeräte (BSH), Infineon, and Airbus. -
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Signals Notebook
Revvity Signals
Signals Notebook has a modern user interface like the ones on all your personal apps, the need for training is negligible. You will be up and running in no time. That’s part of the reason Signals Notebook is the electronic lab notebook of choice for companies as to whether it’s a team of 4-5 research scientists to the largest biotechs and pharmaceutical companies in the world. Flexibility and breadth to support wide range of workflows now and in the future — including both chemistry, biology, formulations, analytical sciences, and materials sciences. Over 1 million scientists at 4000 organizations count on Signals Notebook to help them streamline their workflows. Structured data capture with APIs and interfaces for integration with instruments, in-house systems, and databases. -
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Ansys LS-DYNA
Ansys
Ansys LS-DYNA is the industry-leading explicit simulation software used for applications like drop tests, impact and penetration, smashes and crashes, occupant safety, and more. Ansys LS-DYNA is the most used explicit simulation program in the world and is capable of simulating the response of materials to short periods of severe loading. Its many elements, contact formulations, material models and other controls can be used to simulate complex models with control over all the details of the problem. LS-DYNA delivers a diverse array of analyses with extremely fast and efficient parallelization. Engineers can tackle simulations involving material failure and look at how the failure progresses through a part or through a system. Models with large amounts of parts or surfaces interacting with each other are also easily handled, and the interactions and load passing between complex behaviors are modeled accurately. -
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Ansys Lumerical Multiphysics is a photonics component simulation software that enables the seamless design of photonic components by capturing multiphysics effects, including optical, thermal, electrical, and quantum well interactions, within a unified design environment. Tailored for design engineering workflows, this intuitive product design software offers a fast user experience, facilitating rapid design exploration and providing detailed insights into real-world product performance. It combines live physics and accurate high-fidelity simulation into an easy-to-use interface, supporting faster time-to-market. Key features include a finite element design environment, integrated multiphysics workflows, comprehensive material models, and capabilities for automation and optimization. The suite of solvers and seamless workflows in Lumerical Multiphysics accurately capture the interplay of physical effects in modeling both passive and active photonic components.
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BIOVIA Materials Studio
Dassault Systèmes
BIOVIA Materials Studio is a comprehensive modeling and simulation environment designed to enable researchers in materials science and chemistry to predict and understand the relationships between a material’s atomic and molecular structure and its properties and behavior. Utilizing an "in silico first" approach allows for the optimization of material performance in a cost-effective virtual setting prior to physical testing. It supports a wide range of materials, including catalysts, polymers, composites, metals, alloys, pharmaceuticals, batteries, and more. It offers tools for quantum, atomistic, mesoscale, statistical, analytical, and crystallization simulations, facilitating the design of advanced materials across various industries. Features include the ability to accelerate innovation, reduce R&D costs through virtual screening, and improve efficiency by automating best practices within Pipeline Pilot. -
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Ansys Autodyn
Ansys
Simulate the response of materials to events ranging from short duration severe mechanical loadings, high pressures and even explosions. Ansys Autodyn provides advanced solution methods without compromising ease of use. Ansys Autodyn makes it easy to quickly understand and simulate large material deformation or failure. Autodyn has a range of models to represent complex physical phenomena such as the interaction of liquids, solids and gases; the phase transitions of materials; and the propagation of shock waves. By Integrating within Ansys Workbench and its own native-user interface, Ansys Autodyn has long led the industry in ease of use, enabling you to produce accurate results with the least amount of time and effort. The smooth particle hydrodynamics (SPH) solver completes the picture to provide everything needed for explicit analysis. Ansys Autodyn lets you select from different solver technologies so the most effective solver can be used for a given part of the model. -
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Kebotix
Kebotix
Kebotix is a technology platform company for new chemicals and materials, ushering in a new age of high-speed innovation using artificial intelligence and robotic automation. Kebotix has built the world’s first self-driving lab for materials discovery powered by AI and robotics. Kebotix is accelerating the exploration, discovery, use, and production of new molecules and materials that can solve some of the world’s most urgent problems. Bring your products to market faster with us and benefit from the leading material design technology powered by our self-driving lab. Kebotix boosts your R&D to the forefront of digitalization by providing enterprise AI solutions customized for your materials discovery. We help you bring better products to market faster with automated learning from each iteration of the predict-produce-prove cycle. -
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InQuanto
Quantinuum
Quantum computing offers a path forward to rapid and cost-effective development of new molecules and materials. InQuanto, a state-of-the-art quantum computational chemistry platform, represents a critical step toward this goal. Quantum chemistry aims to accurately describe and predict the fundamental properties of matter and hence is a powerful tool in the design and development of new molecules and materials. However, molecules and materials of industrial relevance are complex and not easy to accurately simulate. Today’s capabilities force a trade to either use highly accurate methods on the smallest-sized systems or use approximating techniques. InQuanto’s modular workflow enables both computational chemists and quantum algorithm developers to easily mix and match the latest quantum algorithms with advanced subroutines and error mitigation techniques to get the best out of today’s quantum platforms. -
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Thermo-Calc
Thermo-Calc
Thermo-Calc is a powerful thermodynamic modeling software used by materials scientists and engineers to generate material properties data, gain insights about materials, understand specific observations, and answer direct questions related to a specific material and/or its processing. It includes several built-in calculators that come standard with all licenses, including the Equilibrium Calculator, Scheil Solidification Simulations, Property Model Calculator, General Model Library, Material to Material Calculator, Pourbaix Diagram Module, and Data Optimization Module (PARROT). Thermo-Calc can be expanded with several Add-on Modules and over 40 available databases, all integrated into one platform, providing a unified working environment. It allows users to calculate the state for a given thermodynamic system to obtain insights such as amounts and compositions of phases, transformation temperatures, solubility limits, driving forces for phase formation, and more. -
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Osium AI
Osium AI
Osium AI is an AI-powered software platform that enables industry leaders to accelerate the development of sustainable and high-performance materials and chemicals. By leveraging proprietary technology developed by experts with over a decade of experience in AI and multiple AI patents, Osium AI offers a unified solution covering every step of the materials and chemicals development cycle, from formulation and characterization to scale-up and manufacturing. It allows users to predict any material or chemical property in just a few seconds, design optimal routes for R&D experiment planning, analyze material characteristics and defects swiftly, and optimize existing processes to decrease costs, enhance properties, and reduce CO₂ emissions. Osium AI's software is designed to help with any R&D project and adapts to evolving needs, enabling efficient scaling of developments. -
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QSimulate
QSimulate
QSimulate offers a suite of quantum simulation platforms that leverage quantum mechanics to solve complex, industrial-scale problems in life sciences and materials science. The QSP Life platform provides unique quantum-powered methods for drug discovery and optimization, enabling first-of-a-kind quantum simulations of ligand-protein interactions applicable throughout the computational drug discovery process. The QUELO platform performs hybrid quantum/classical free energy calculations, offering users the ability to run relative free energy calculations using the free energy perturbation (FEP) approach. Additionally, QSimulate's technology enables groundbreaking advances in quantum mechanics/molecular mechanics (QM/MM) simulations for large protein modeling. For materials science, the QSP Materials platform democratizes quantum mechanical simulations, allowing experimentalists to automate complex workflows without the need for specialization. -
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Simcenter Femap
Siemens Digital Industries
Simcenter Femap is an advanced simulation application for creating, editing, and inspecting finite element models of complex products or systems. You can use advanced workflows in Simcenter Femap to model components, assemblies, or systems, to then determine a model’s behavioral response when subjected to real-world conditions. In addition, Simcenter Femap provides powerful data-driven and graphical results visualization and evaluation, which in combination with the industry-leading Simcenter Nastran, delivers a comprehensive CAE solution that improves product performance. In the quest to make products lighter yet stronger, manufacturers are increasing their use of composite materials. Simcenter is at the leading edge of composites analysis through continuous development of material models and element types. Simcenter speeds the entire process for simulating laminate composite materials through a seamless connection to composites design. -
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NobleAI
NobleAI
NobleAI enables companies to accelerate the development of better-performing, more environmentally sustainable, and reliably sourced chemical & material products. At NobleAI, we believe that materials science and chemistry are key to building a sustainable world and that AI is essential to unlock this potential. NobleAI’s science-based AI is a powerful fusion of novel artificial intelligence techniques and all available scientific knowledge, optimized for product development. This combination of data-driven insights and scientifically guided design delivers much higher levels of accuracy with far less data and training time. This delivers deeper insights while exhibiting greater transparency, interpretability, and scientific fidelity. -
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SIMHEAT
TRANSVALOR
Induction heat treatment simulation provides comprehensive information about temperature gradient from surface to core and also the location of areas where phase transformations occur. SIMHEAT® can monitor the impact of current frequency, coil geometry and even concentrators’ location within the heat affected zone. Material modelling considers electrical and magnetic properties that are temperature-dependent. SIMHEAT® can be used as a standalone solution or in combination with Transvalor software. The perfect interoperability guarantees seamless results transfer from one solution to another. All the capabilities and functionalities of SIMHEAT® are also integrated in our FORGE® software, dedicated to the simulation of hot, semi-hot and cold forming processes. -
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Dotmatics
Dotmatics
Dotmatics is the global leader in R&D scientific software that connects science, data, and decision-making. Combining a workflow and data platform with best-of-breed applications, we offer the first true end-to-end solutions for biology, chemistry, formulations, data management, flow cytometry, and more. Trusted by more than 2 million researchers from the world’s leading biopharma, chemicals and materials enterprises, and academic institutions, we are dedicated to working with the scientific community to help make the world a healthier, cleaner and safer place to live. Learn more about our platform and products, including GraphPad Prism, Geneious, SnapGene, Protein Metrics, LabArchives, and more. -
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ScienceDesk
ScienceDesk
ScienceDesk data automation demystifies the use of artificial intelligence in materials sciences. A practical tool for your team to add and apply the newest AI algorithms on an everyday basis. Customizable properties, universal identifiers, QR-codes and a powerful textual-numeric search engine that links sample and experimental data. ScienceDesk is an innovative platform for scientists and engineers to interact with, collaborate on and obtain insights into their experimental data. Unfortunately, the potential of this asset is not fully exploited due to the variety of data formats and the strong dependence on experts to manually extract specific information. The ScienceDesk research data management system solves this problem by combining documentation and data analysis in a cleverly-engineered data structure. Researchers and scientists are empowered by our algorithms to gain total control of their data. They can not only share datasets, but even the analysis know-how. -
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Grantu EduPack
Ansys
Ansys Granta EduPack, formerly CES EduPack, is a unique set of teaching resources that help academics enhance courses related to materials across engineering, design, science and sustainable development. Granta EduPack provides support to enhance undergraduate materials education. EduPack includes a database of materials and process information, materials selection tools and a range of supporting resources. EduPack is divided into three levels so that students can access a suitable level of information as they progress through their studies. Granta EduPack has also been designed to support a wide variety of teaching styles, from the design and science-led approaches to problem-based teaching. The database and tools are divided into three levels so that students can access a suitable level of information as they progress through their studies, from pre-university up to postgraduate courses. -
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Materials Zone
Materials Zone
From materials data to better products, faster! Accelerates R&D, scale-up, and optimizes manufacturing QC and supply chain decisions. Discover new materials, use ML guidance to forecast outcomes, and achieve faster and improved results. Build a model on your way to production. Test the model's limits behind your products to design cost-efficient and robust production lines. Use models to predict future failures based on supplied materials informatics and production line parameters. The Materials Zone platform aggregates data from independent entities, materials providers, factories, or manufacturing facilities, communicating between them through a secured platform. By using machine learning (ML) algorithms on your experimental data, you can discover new materials with desired properties, generate ‘recipes’ for materials synthesis, build tools to analyze unique measurements automatically, and retrieve insights. -
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Digimat
e-Xstream engineering
e-Xstream engineering develops and commercializes the Digimat suite of software, a state-of-the-art multi-scale material modeling technology that speeds up the development process for composite materials and structures. Digimat is a core technology of 10xICME Solution and is used to perform detailed analyses of materials on the microscopic level and to derive micromechanical material models suited for multi-scale coupling of the micro- and macroscopic level. Digimat material models provide the means to combine processing simulation with structural FEA. This means to move towards more predictive simulation by taking into account the influence of processing conditions on the performance of the finally produced part. As an efficient and predictive tool Digimat helps its users to design and manufacture innovative composite materials and parts with great efficiency in time and costs. -
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CrowdChem
CrowdChem
The CrowdChem Data Platform is a knowledge-based platform for the chemistry field, built on independently collected data. It enables users to smoothly select raw materials and search for customers through data analysis functions and text mining. Examples include discovering combinations of new raw materials, conducting more accurate usage investigations of chemical products, and creating lists of potential customers who can use each company's products. Information can be searched from highly comprehensive data collected from patents, papers, catalogs, news articles, etc., eliminating the need to dig around for necessary data. Users can select raw materials and customers on the platform by combining machine learning and natural language processing technology, allowing for raw material selection, customer search, competitive analysis, and more. -
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Avogadro
Avogadro
Avogadro is an advanced molecule editor and visualizer designed for cross-platform use in computational chemistry, molecular modeling, bioinformatics, materials science, and related areas. It offers flexible high quality rendering and a powerful plugin architecture. Avogadro is a free, open-source molecular editor and visualization tool, designed for use on Mac, Windows, and Linux in computational chemistry, molecular modeling, bioinformatics, materials science, and related areas. It offers flexible high quality rendering and a powerful plugin architecture. -
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Citrine
Citrine Informatics
The platform is a combination of cutting-edge AI tools and smart data management infrastructure, made easy to use via intuitive user interfaces and kept safe with industry standard security protocols, deployed securely through the cloud. The Citrine Platform can ingest, structure, and store the full context of materials and chemicals development data from procurement through to processing and characterization. Avoid redundant experiments and quickly find relevant data sets. The Citrine Platform has AI capabilities to help your teams find high performing materials faster. AI models predict materials performance given processing, composition, and synthesis data. These models suggest which experiments to run next to hit your targets. The Citrine Platform keeps your data, domain knowledge, and models safe through rigorous safeguards. We maintain ISO27001 certification and documentation. -
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GENOA 3DP
AlphaSTAR
GENOA 3DP is an Additive Manufacturing design tool and software suite for polymers, metals and ceramics. The simulate to print toolset showcases robust capabilities and seamless user interactivity making it a suitable solution for various applications. Providing users with accuracy down to the micro-scale and reducing material waste & engineering time considerably, GENOA 3DP can quickly be integrated into any process for an optimum AM build. Founded on progressive failure analysis methods, and combined with multi-scale material modeling, GENOA 3DP allows engineers to accurately predict void, net-shape, residual stress, crack growth and other anomalies associated with as-built AM parts. Providing a repeatable methodology to improve part quality, reduce scrap rate, and meet specification, GENOA 3DP bridges the gap between material science and finite element analysis. -
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DIGIMU
TRANSVALOR
DIGIMU® generates digital polycrystalline microstructures representative of the material's heterogeneities (compliance with the topological characteristics of the microstructure). The boundary conditions applied to the REV are representative of that experienced by a material point at the macroscopic scale (thermomechanical cycle of the considered point). Based on a Finite Elements formulation, the various physical phenomena involved during metal forming processes are simulated (recrystallization, grain growth, Zener pinning due to second phase particles, etc.). In order to improve digital precision and to reduce computation times, the software is capable of providing a precise description of the interfaces (grain boundaries) while using an appropriate number of elements thanks to a fully automated anisotropic meshing and remeshing adaptation technology. -
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AQChemSim
SandboxAQ
AQChemSim is a cloud-native platform developed by SandboxAQ that leverages Large Quantitative Models (LQMs) grounded in physics and chemistry to revolutionize materials discovery and optimization. By integrating Density Functional Theory (DFT), Iterative Full Configuration Interaction (iFCI), Generative AI, Bayesian Optimization, and Chemical Foundation Models, AQChemSim enables high-fidelity simulations of molecular and material behaviors under real-world conditions. AQChemSim's capabilities include predicting performance under various stresses, accelerating formulation through in silico testing, and exploring sustainable chemical processes. Notably, AQChemSim has demonstrated significant advancements in battery technology by reducing lithium-ion battery end-of-life prediction time by 95%, achieving 35x greater accuracy with 50x less data. -
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Schrödinger
Schrödinger
Transform drug discovery and materials research with advanced molecular modeling. Our physics-based computational platform integrates differentiated solutions for predictive modeling, data analytics, and collaboration to enable rapid exploration of chemical space. Our platform is deployed by industry leaders worldwide for drug discovery, as well as for materials science in fields as diverse as aerospace, energy, semiconductors, and electronics displays. The platform powers our own drug discovery efforts, from target identification to hit discovery to lead optimization. It also drives our research collaborations to develop novel medicines for critical public health needs. With more than 150 Ph.D. scientists on our team, we invest heavily in R&D. We’ve published over 400 peer-reviewed papers that demonstrate the strength of our physics-based approaches, and we’re continually pushing the limits of computer modeling. -
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BIOVIA ONE Lab
Dassault Systèmes
BIOVIA ONE Lab is a comprehensive laboratory informatics solution designed to streamline workflows, enhance collaboration, and accelerate research across various scientific domains. It provides a unified environment for managing all laboratory data and processes, enabling scientists to make better decisions faster. ONE Lab is leveraged by companies across multiple industries, including Life Sciences, Consumer Packaged Goods, Energy & Materials, and more. It can be deployed across Research, Development, and QA/QC, with the flexibility to meet the specific needs of scientists in each domain. It manages samples, experiments, data, inventory, equipment, and workflows, integrating with a wide range of laboratory instruments and software to connect existing systems and data seamlessly. ONE Lab removes artificial barriers between ELN, LIMS, LES, equipment integration, and inventory management by employing a single data model across all functional areas. -
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Albert
Albert Invent
Meet Albert, the end-to-end platform that’s digitalizing materials science for the age of AI. From molecular design to industrial production, we've lived the challenges of chemical innovation. Albert is built and implemented by industry veterans to meet the real-world needs of chemists, for today's challenges and tomorrow's innovations. Break down the silos in your R&D processes with Albert’s end-to-end platform. By combining ELN, LIMS, AI/ML, automated SDS generation, and other capabilities, Albert creates a unified flow of knowledge throughout R&D that enables innovation. Equip every scientist in your organization with the power of AI. Albert's specialized AI is trained like a chemist to optimize formulations and accelerate experiments, so you can get new products to market more than 50% faster. Our intuitive design and collaborative implementation, rooted in our own lab experience, ensure seamless integration into your workflows. -
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Microsoft Discovery
Microsoft
Microsoft Discovery is a new agentic platform designed to revolutionize research and development (R&D) by empowering scientists and engineers with AI-driven collaboration and high-performance computing (HPC). Built on Azure, this platform enables researchers to work alongside specialized AI agents that help accelerate the discovery process through advanced knowledge reasoning, hypothesis formulation, and experimental simulations. The platform's graph-based knowledge engine facilitates complex, contextual reasoning over vast amounts of scientific data, promoting transparency and accountability while speeding up the discovery cycle. By automating and enhancing research tasks, Microsoft Discovery offers an extensible, enterprise-ready solution that integrates seamlessly with existing tools and datasets. -
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ProSteel
Bentley
With ProSteel software you can efficiently create accurate 3D models for structural steel, metal work, and steel assemblies. You can then quickly generate design drawings, fabrication details, and schedules that automatically update whenever the 3D model changes. Additionally, detailed output to CNC machines automates the steel fabrication process. ProSteel fully supports your construction and planning tasks for structural steel and metal work in a 3D modeling environment. Working with AutoCAD or MicroStation, you get an intuitive and integrated multi-material modeler perfectly suited to layout complex structures, produce shop drawings, assemble all your connections, and manage your bills of materials. Quickly extract 2D drawings that automatically update when the 3D model changes. Easily exchange information with other disciplines thanks to interoperability with other Bentley and third-party applications.Starting Price: $4,193 per year -
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FactSage
FactSage
FactSage is a comprehensive thermochemical software and database package developed jointly by Thermfact/CRCT (Montreal, Canada) and GTT-Technologies (Aachen, Germany). It integrates thermochemical packages, resulting from over 20 years of collaborative efforts. It comprises a series of information, database, calculation, and manipulation modules that access various pure substances and solution databases. FactSage is utilized by numerous industrial, governmental, and academic users in fields such as materials science, pyrometallurgy, hydrometallurgy, electrometallurgy, corrosion, glass technology, combustion, ceramics, and geology. Users have access to thermodynamic data for thousands of compounds, as well as evaluated and optimized databases for hundreds of solutions, including metals, oxides, slags, mattes, salts, and aqueous solutions. -
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COMSOL Multiphysics
Comsol Group
Simulate real-world designs, devices, and processes with multiphysics software from COMSOL. General-purpose simulation software based on advanced numerical methods. Fully coupled multiphysics and single-physics modeling capabilities. Complete modeling workflow, from geometry to postprocessing. User-friendly tools for building and deploying simulation apps. The COMSOL Multiphysics® software brings a user interface and experience that is always the same, regardless of engineering application and physics phenomena. Add-on modules provide specialized functionality for electromagnetics, structural mechanics, acoustics, fluid flow, heat transfer, and chemical engineering. Choose from a list of LiveLink™ products to interface directly with CAD and other third-party software. Deploy simulation applications with COMSOL Compiler™ and COMSOL Server™. Create physics-based models and simulation applications with this software platform. -
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Ansys VRXPERIENCE Perceived Quality offers a physics-based, real-time solution for design evaluation involving lighting, colors and materials variations. Test and validate your product design in context. VRXPERIENCE Perceived Quality can instantly compare multiple design intents for materials and lighting. The process allows you to validate choices against design specifications and select lighting and material combinations in lifelike conditions. Create a virtual prototype from a 3D format and easily prepare a virtual model, helping you make choices early in the design process, in real-time optical simulation. With the live preview of Ansys VRXPERIENCE Perceived Quality immersive virtual reality visualizations, bring in physics-based lighting conditions to explore how your lighting and material choices will look in reality.
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Ansys Zemax OpticStudio
Ansys
Ansys Zemax OpticStudio is a comprehensive optical design software utilized globally by companies and universities to create and analyze optical systems, including imaging, illumination, and laser systems. It offers a user-friendly interface that integrates analysis, optimization, and tolerancing tools, facilitating the design of complex optical systems for a wide range of applications. The software supports both sequential and non-sequential ray tracing, enabling precise modeling of light propagation through various optical components. Advanced features include structural and thermal analysis, allowing users to assess the impact of environmental factors on optical performance. OpticStudio also provides extensive materials and optical element libraries, enhancing the accuracy of simulations. For students, Ansys offers a free version of OpticStudio, providing hands-on experience in designing and analyzing optical systems, thereby preparing them for future careers in optics. -
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Ansys Cloud Direct
Ansys
Access Ansys Cloud Direct anywhere, anytime to obtain endless simulation capabilities compatible with most Ansys solvers. Engineering simulation has long been constrained by fixed computing resources available on a desktop or cluster. Ansys Cloud provides access to on-demand, cloud-based computing resources, including both interactive workstations and HPC clusters, for faster, high-fidelity results offering greater performance insight. Ansys Cloud increases simulation throughput by removing the hardware barrier. Ansys Cloud Direct is a scalable and cost-effective approach to HPC in the cloud. To leverage the combined benefits of cloud computing and best-in-class engineering simulation, Ansys partnered with Microsoft® Azure™ to create a secure cloud solution. Within Ansys Mechanical, Ansys Fluent, Ansys Electronics Desktop, Ansys SPEOS, Ansys Discovery, Ansys LS-Dyna, Ansys LST, Ansys CFX and Ansys Lumerical, you can easily access HPC in the cloud directly from the applications -
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Atinary SDLabs Platform
Atinary
Atinary's Self-Driving Labs (SDLabs) platform is an AI and machine learning solution designed to digitize and automate R&D workflows, enabling traditional laboratories to transition from manual experiments to autonomous experimentation. It facilitates the design and optimization of experiments through a closed-loop system that integrates AI-driven hypotheses, predictions, and decisions. Key features include multi-objective optimization, database management, workflow orchestration, and real-time data analytics. Users can define experiments with constraints, allow the ML algorithms to decide on subsequent iterations, run experiments (with or without robotic assistance), analyze data, and retrain models with new data, thereby accelerating the discovery of better, cheaper, and greener products. Atinary's proprietary algorithms, such as Emmental for non-linear constrained optimization, SeMOpt for transfer learning in Bayesian optimization, and Falcon. -
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3DEXPERIENCE
Dassault Systèmes
Connect the virtual and real worlds with the Dassault Systèmes 3DEXPERIENCE® platform to Collaborate, Model, Optimize and Perform operations. Define the plant layout, flow, assets and resources needed to produce products efficiently and in a safe environment. Enrich the product and resource definition; define and validate a process plan and create work instructions to meet production goals. Supply Chain Planning & Optimization across all planning horizons; gain visibility with planning and scheduling to minimize disruptions. Transform global production operations to achieve and sustain operational excellence with Manufacturing Operations Management. Create, manage, and govern operational processes on a global scale. -
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Ansys Additive Suite
Ansys
Ansys Additive Suite delivers the critical insights required by designers, engineers and analysts to avoid build failure and create parts that accurately conform to design specifications. This comprehensive solution spans the entire workflow — from design for additive manufacturing (DfAM) through validation, print design, process simulation and exploration of materials. Additive Suite includes Additive Prep, Print and Science tools in addition to access to Ansys Workbench Additive. As with most features within Ansys Workbench, parametric analysis systems can be created so you can study the optimization of parameters such as part position and orientation. Available as an add-on to the Ansys Mechanical Enterprise license. -
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Ansys Optics
Ansys
Modeling light propagation and its impact is crucial for measuring product performance and human comfort, perception and safety. Ansys Optics uniquely simulates a system’s optical performance and evaluates the final illumination effect, predicts and validates the impact of lighting and material variations on appearance and perceived quality all in real conditions. Visualize your product before it exists to deliver the ultimate virtual customer experience. Let Ansys Optics & optical simulation software lead you to the best solution, no matter the style of your project. The software easily solves complex optical problems and refines visual appearance for perceived quality. Significantly elevate final product quality with true-to-life visual experiences and combine design and engineering processes into a single, connected workflow. Prepare and appraise virtual prototypes of a cockpit HMI in a real-time, immersive environment. -
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Ansys Icepak
Ansys
Ansys Icepak is a CFD solver for electronics thermal management. It predicts airflow, temperature, and heat transfer in IC packages, PCBs, electronic assemblies/enclosures, and power electronics. Ansys Icepak provides powerful electronic cooling solutions that utilize the industry-leading Ansys Fluent computational fluid dynamics (CFD) solver for thermal and fluid flow analyses of integrated circuits (ICs), packages, printed circuit boards (PCBs), and electronic assemblies. The Ansys Icepak CFD solver uses the Ansys Electronics Desktop (AEDT) graphical user interface (GUI). Perform conduction, convection, and radiation conjugate heat transfer analyses, with many advanced capabilities to model laminar and turbulent flows, and species analysis including radiation and convection. Ansys’ complete PCB design solution enables you to simulate PCBs, ICs, and packages and accurately evaluate an entire system. -
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Ansys HPC
Ansys
With the Ansys HPC software suite, you can use today’s multicore computers to perform more simulations in less time. These simulations can be bigger, more complex and more accurate than ever using high-performance computing (HPC). The various Ansys HPC licensing options let you scale to whatever computational level of simulation you require, from single-user or small user group options for entry-level parallel processing up to virtually unlimited parallel capacity. For large user groups, Ansys facilitates highly scalable, multiple parallel processing simulations for the most challenging projects when needed. Apart from parallel computing, Ansys also offers solutions for parametric computing, which enables you to more fully explore the design parameters (size, weight, shape, materials, mechanical properties, etc.) of your product early in the development process. -
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Ansys Fluent
Ansys
Ansys Fluent is the industry-leading fluid simulation software known for its advanced physics modeling capabilities and industry leading accuracy. Ansys Fluent gives you more time to innovate and optimize product performance. Trust your simulation results with a software that has been extensively validated across a wide range of applications. With Ansys Fluent, you can create advanced physics models and analyze a variety of fluids phenomena—all in a customizable and intuitive space. Accelerate your design cycle with this powerful fluid simulation software. Ansys Fluent contains the best-in class physics models and can accurately and efficiently solve large , complex models. Ansys Fluent unlocks new potentials for CFD analysis. A fluid simulation software with fast pre-processing and faster solve times to help you be the fastest to break into the market. Fluent’s industry leading features enable limitless innovation, while never making a compromise on accuracy. -
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Ansys Lumerical FDTD
Ansys
Ansys Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes, and materials. The integrated design environment provides scripting capability, advanced post-processing, and optimization routines. This finely tuned implementation of the FDTD method delivers best-in-class solver performance over a broad spectrum of applications. The integrated design environment provides scripting capability, advanced post-processing and optimization routines, allowing you to focus on your design and leave the rest to us. A range of benefits allow for flexible and customizable models and simulations. Ansys Lumerical FDTD models nanophotonic devices, processes and materials so you can focus on creation. Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes and materials. This finely tuned implementation of the FDTD method delivers reliable, powerful and scalable solver performance over a broad spectrum of applications. -
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Ansys Nuhertz FilterSolutions provides automated RF, microwave and digital filter design, synthesis and optimization in an efficient, straightforward process. FilterSolutions starts with your filter performance specifications, synthesizes both lumped component and physical filter layout realizations, and automatically sets up filter analysis and optimization in the Ansys HFSS electromagnetic simulator. Ansys Nuhertz FilterSolutions dramatically speeds up the design of lumped element (surface mount) and planar filters. It also includes synthesis tools for active, switched capacitor and digital filters. The netlist of active filters can be exported in SPICE format. The digital filter synthesis module can export C-code for the generated filter.
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Ansys Meshing
Ansys
Mesh influences the accuracy, convergence and speed of a simulation. Ansys provides tools to produce the most appropriate mesh for accurate, efficient solutions. Ansys provides general purpose, high-performance, automated, intelligent meshing software that produces the most appropriate mesh for accurate, efficient multiphysics solutions — from easy, automatic meshing to highly crafted mesh. Smart defaults are built into the software to make meshing a painless and intuitive task, delivering the required resolution to capture solution gradients properly for dependable results. Ansys meshing solutions range from easy, automated meshing to highly crafted meshing. Methods available cover the meshing spectrum of high-order to linear elements and fast tetrahedral and polyhedral to high-quality hexahedral and mosaic. Ansys meshing capabilities help reduce the amount of time and effort spent to get to accurate results. -
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Ansys Sherlock
Ansys
Ansys Sherlock is the only reliability physics-based electronics design tool that provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early stage design. Ansys Sherlock automated design analysis provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early design stages. Sherlock bypasses the ‘test-fail-fix-repeat’ cycle by empowering designers to accurately model silicon–metal layers, semiconductor packaging, printed circuit boards (PCBs) and assemblies to predict failure risks due to thermal, mechanical and manufacturing stressors--all before prototype. With embedded libraries containing over 500,000 parts, Sherlock rapidly converts electronic computer-aided design (ECAD) files into computational fluid dynamics (CFD) and finite element analysis (FEA) models. Each model contains accurate geometries, material properties and translates stress information. -
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Ansys Discovery
Ansys
Ansys Discovery features the first simulation-driven design tool combining instant physics simulation, high-fidelity simulation and interactive geometry modeling in a single easy-to-use experience. By combining interactive modeling and multiple simulation capabilities in a first-of-its-kind product, Discovery allows you to answer critical design questions earlier in the design process. This upfront approach to simulation saves time and effort on prototyping as you explore multiple design concepts in real time with no need to wait for simulation results. Ansys Discovery answers critical design questions early in your process with speed and accuracy. Boost productivity and performance by eliminating long waits for simulation results. Discovery lets engineers focus on innovation and product performance. By answering critical design questions early in the process, thus decreasing engineer labor and physical prototyping costs, Ansys Discovery allows for a ROI boost across your organization. -
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Rocky DEM
Rocky
Rocky DEM quickly and accurately simulates the flow behavior of bulk materials with complex particle shapes and size distributions. Only in Rocky DEM can you combine the processing power of several GPU cards to accelerate your simulations, enabling you to work with higher volumes of data in less time. Rocky DEM allows modeling of accurate particle shapes which includes custom 3D bodies, 2D shells and fibers which can be made rigid or flexible. Enable your equipment components to move freely in response to forces such as particle contacts, gravity, and more. Rocky DEM’s Application Programming Interface (API) is based on the most-recent technology for customization and user experience integration. The result delivers unique usability, portability and, above all, solver performance. Fully integrated with Ansys Workbench (Fluent, Mechanical, Optislang and DesignXplorer). Includes both one-way and two-way coupling abilities with Ansys Fluent providing physically consistent results. -
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Ansys PowerArtist
Ansys
Ansys PowerArtist is the comprehensive RTL design-for-power platform of choice of leading low-power semiconductor companies for early power analysis and reduction. PowerArtist includes physically-aware RTL power accuracy, interactive power debug, analysis-driven power reduction, unique metrics for tracking power efficiency and vector coverage, rapid power profiling of real workloads, and seamless enablement of RTL-to-physical power grid integrity. PowerArtist’s unique physically-aware modeling delivers predictable RTL power accuracy with fast turnaround enabling leading semiconductor companies to make early decisions reliably. Analyzing power after synthesis is too late. Design teams rely on PowerArtist to slice and dice power, identify power-inefficient RTL code and every wasted toggle in the design, and rapidly profile millions of cycles.