Alternatives to Osium AI

AQChemSim is an innovative cloud-based platform created by SandboxAQ that utilizes Large Quantitative Models (LQMs) based on principles of physics and chemistry to transform the landscape of materials discovery and enhancement. By incorporating techniques such as Density Functional Theory (DFT), Iterative Full Configuration Interaction (iFCI), Generative AI, Bayesian Optimization, and Chemical Foundation Models, AQChemSim facilitates precise simulations of molecular and material dynamics in real-world scenarios. The platform's features allow it to forecast performance under diverse stress conditions, expedite formulation via in silico testing, and investigate eco-friendly chemical processes. Remarkably, AQChemSim has achieved notable progress in battery technology, cutting the prediction time for lithium-ion battery end-of-life by 95%, while also attaining 35 times greater accuracy with a mere fraction of the data previously required. This advancement not only streamlines research but also paves the way for more efficient and sustainable energy solutions in the future.

ExoMatter is revolutionizing the traditionally tedious and expensive process of materials research and development by harnessing advanced AI technologies and data-mining capabilities. The platform offers a tailored selection of the most appropriate materials for your specific needs. By integrating data from various scientific repositories and your own datasets, ExoMatter enhances this information through AI, enabling you to evaluate a diverse array of multidimensional physical, chemical, and engineering factors, alongside sustainability concerns and projected costs. Our commitment to using scientific materials data aims to identify superior and more eco-friendly materials. With our innovative materials research platform, you can swiftly navigate through millions of materials, using AI-driven tools that not only enrich the data but also provide you with comprehensive control over your selection criteria. Leverage ExoMatter’s unique scoring and ranking system to compile a refined list of materials that best suit your application, ensuring that you make informed and efficient choices in your materials selection process. This approach not only streamlines your research efforts but also significantly enhances the overall quality and sustainability of your material choices.

Transforming materials data into superior products at an accelerated pace enhances research and development, streamlines scaling processes, and optimizes quality control and supply chain decisions. This approach enables the discovery of innovative materials while utilizing machine learning guidance to predict outcomes, leading to swifter and more effective results. As you progress towards production, you can construct a model that tests the boundaries of your products, facilitating the design of cost-effective and resilient production lines. Furthermore, these models can forecast potential failures by analyzing the supplied materials informatics alongside production line parameters. The Materials Zone platform compiles data from various independent sources, including materials suppliers and manufacturing facilities, ensuring secure communication between them. By leveraging machine learning algorithms on your experimental data, you can identify new materials with tailored properties, create ‘recipes’ for their synthesis, develop tools for automatic analysis of unique measurements, and gain valuable insights. This holistic approach not only enhances the efficiency of R&D but also fosters collaboration across the materials ecosystem, ultimately driving innovation forward.

NobleAI empowers businesses to hasten the creation of high-performance, eco-friendly, and responsibly sourced chemical and material products. We at NobleAI hold the conviction that advancements in materials science and chemistry are crucial for fostering a sustainable future, with AI playing a pivotal role in realising this vision. Our science-driven AI represents a robust integration of innovative artificial intelligence methods and comprehensive scientific knowledge, tailored specifically for product development. By merging data-informed insights with scientifically validated design, we achieve significantly enhanced accuracy while requiring considerably less data and shorter training durations. This approach not only uncovers deeper insights but also promotes greater transparency, interpretability, and adherence to scientific principles, ultimately leading to more informed decision-making in material innovation. As we continue to refine our methods, our commitment to sustainability remains at the forefront of our mission.

Introducing Albert, the comprehensive platform transforming materials science for the AI era. From the initial stages of molecular design to the final steps of industrial production, we understand the hurdles that come with chemical advancement. Developed by seasoned professionals in the industry, Albert addresses the genuine requirements of chemists to tackle current challenges and foster future innovations. Eliminate barriers within your research and development processes using Albert’s all-inclusive platform. By integrating ELN, LIMS, AI/ML, automated SDS generation, and more, Albert delivers a cohesive knowledge stream throughout R&D, facilitating innovation like never before. Empower every scientist in your organization with AI capabilities that enhance their work. Albert’s tailored AI functions similarly to a chemist, optimizing formulations and speeding up experiments, allowing you to bring new products to market over 50% faster. With a user-friendly interface and collaborative deployment, based on our extensive lab expertise, we guarantee a smooth integration into your existing workflows, ensuring you maximize productivity. Ultimately, Albert is not just a tool; it's a partner in your journey toward groundbreaking discoveries.

Quantum computing paves the way for the swift and cost-efficient creation of novel molecules and materials. InQuanto, an advanced platform for quantum computational chemistry, marks a significant advancement towards achieving this objective. The field of quantum chemistry seeks to precisely characterize and forecast the essential properties of matter, making it an invaluable asset for the innovation and formulation of new substances. Nonetheless, the intricacies of industrially relevant molecules and materials present challenges for accurate simulation. Current technologies necessitate a compromise, forcing users to choose between utilizing highly precise methods on minimal systems or resorting to approximations. InQuanto's adaptable workflow allows both computational chemists and quantum algorithm engineers to seamlessly integrate cutting-edge quantum algorithms with sophisticated subroutines and error mitigation techniques, optimizing performance on existing quantum platforms. This flexibility not only enhances research outcomes but also fosters collaboration among experts in the field, driving further innovation.

Utilize our advanced machine learning algorithms and APIs to forecast experimental outcomes, assess material characteristics, and consolidate all your data seamlessly. Allow your data to propel your research forward. Designed to enhance research efficiency and grow alongside your needs, Polymerize is committed to fast-tracking the advancement of high-performance materials. We achieve this by offering a robust informatics platform that steers your research and development in the correct direction. You can easily upload past experiments and historical data, receiving predictions on material properties and formulations in return. Analyze your findings and customize the algorithm to fit your needs. Keep all your data organized within a unified workspace, enabling you to uncover deeper insights from your information. Foster innovation throughout your organization with a single platform, ensuring that everyone can contribute to progress. Collaboratively push research ahead while dismantling silos, allowing for confident management and forecasting. With a focus on cohesion, our platform serves as the cornerstone for innovative growth. Furthermore, this integrated approach empowers teams to streamline processes and achieve their goals efficiently.

The Citrine Platform integrates state-of-the-art AI technologies with advanced data management systems, offering user-friendly interfaces and robust security measures that comply with industry standards, all while being securely hosted in the cloud. It effectively captures, organizes, and retains comprehensive information regarding the development of materials and chemicals, spanning from procurement to processing and characterization. By minimizing unnecessary experiments, users can swiftly access pertinent data sets. With its powerful AI features, the Citrine Platform accelerates the identification of high-performing materials. Its predictive models analyze materials' performance based on processing, composition, and synthesis details, guiding users on the next experiments to undertake in order to meet their objectives. Furthermore, the Citrine Platform ensures the integrity and confidentiality of your data, domain expertise, and models through stringent protective measures. The platform is backed by ISO27001 certification and comprehensive documentation, providing additional assurance of its commitment to security and best practices. This attention to detail and dedication to user needs makes the Citrine Platform a valuable tool for the materials science community.

Revolutionize the fields of drug discovery and materials research through cutting-edge molecular modeling techniques. Our computational platform, grounded in physics, combines unique solutions for predictive modeling, data analysis, and collaboration, facilitating swift navigation of chemical space. This innovative platform is employed by leading industries globally, serving both drug discovery initiatives and materials science applications across various sectors including aerospace, energy, semiconductors, and electronic displays. It drives our internal drug discovery projects, overseeing processes from target identification through hit discovery and lead optimization. Additionally, it enhances our collaborative research efforts aimed at creating groundbreaking medicines to address significant public health challenges. With a dedicated team of over 150 Ph.D. scientists, we commit substantial resources to research and development. Our contributions to the scientific community include more than 400 peer-reviewed publications that validate the efficacy of our physics-based methodologies, and we remain at the forefront of advancing computational modeling techniques. We are steadfast in our mission to innovate and expand the possibilities within our field.

DIGIMU® creates digital polycrystalline microstructures that accurately reflect the material's heterogeneities, ensuring compliance with the intricate topological features of the microstructure. The boundary conditions applied to the Representative Elementary Volume (REV) mimic the experiences of a material point at the macroscopic level, particularly during the thermomechanical cycles relevant to that specific point. Utilizing a Finite Element formulation, the software simulates the various physical phenomena occurring in metal forming processes, such as recrystallization, grain growth, and Zener pinning caused by second phase particles. To enhance digital accuracy and minimize computation times, DIGIMU® employs advanced automated anisotropic meshing and remeshing adaptation technology, which allows for a detailed representation of grain boundaries while optimizing the number of elements used. This innovative approach not only streamlines the computational process but also improves the reliability of the simulations, making it a powerful tool for material scientists.

BIOVIA COSMO-RS serves as an extensive toolkit for modeling and forecasting fluid phase characteristics, which empowers professionals such as chemical engineers, chemists, formulation experts, and materials scientists to innovate and develop solutions more rapidly and effectively than relying solely on traditional testing and experimentation methods, thereby enhancing innovation while minimizing costs. The simulations conducted using COSMO-RS are grounded in a solid scientific framework, guaranteeing dependable predictions across the entire spectrum of liquid-state chemistry. By employing a first-principle methodology, it is capable of forecasting the properties of new compounds that have yet to be synthesized, pushing the boundaries of known chemical territory. The team behind BIOVIA consists of the original creators of COSMO-RS, providing prompt assistance and unparalleled expertise to tackle even the most complex challenges in solution thermodynamics. Additionally, the primary advantages encompass a solid scientific basis that merges quantum chemistry with thermodynamics to assure both accuracy and reliability, fostering a deeper understanding of fluid behaviors in various contexts. This comprehensive approach not only streamlines the research process but also opens up new avenues for exploration within the field.

Microsoft Discovery is an advanced AI-powered platform designed to accelerate scientific discovery by enabling researchers to collaborate with a team of specialized AI agents. This platform leverages a graph-based knowledge engine that connects diverse scientific data, allowing for deep, contextual reasoning over complex and often contradictory theories. Researchers can customize AI agents to align with their specific domains and tasks, making it easier to manage and orchestrate research efforts. Built on Microsoft Azure, Discovery ensures a high level of trust, transparency, and compliance, offering an enterprise-ready solution. The platform has already been used to accelerate the development of a novel coolant for data centers, cutting the discovery time from months to just 200 hours. This demonstrates the transformative potential of AI in R&D, providing researchers with the tools to unlock new possibilities and innovations at scale.

Ansys Granta products, cultivated over a quarter-century, empower organizations to harness, protect, and leverage their Material Intelligence effectively. By facilitating the digitalization of materials knowledge, Ansys assists businesses in selecting appropriate materials for their products and provides educational resources related to materials. The suite of materials information management software offered by Ansys Granta enables companies to fully utilize their internal Material Intelligence. Ansys Granta MI™ serves as a flexible solution, allowing for the creation, management, and storage of crucial material data, while ensuring smooth integration with top CAD, CAE, and PLM systems to maintain consistency across the enterprise. With Ansys Granta Selector, users can make informed material selections by evaluating various properties from an extensive database, ensuring optimal material choices for their specific applications. Additionally, access to an unparalleled materials data library significantly enhances the accuracy of simulations conducted by engineers.

The CrowdChem Data Platform serves as an innovative knowledge hub tailored for the chemistry sector, utilizing data gathered through independent means. This platform empowers users to efficiently choose raw materials and identify potential customers via its advanced data analysis capabilities and text mining techniques. For instance, it facilitates the exploration of novel raw material combinations, enhances the precision of chemical product usage research, and generates lists of prospective customers for various companies. Users benefit from the ability to navigate a vast repository of information sourced from patents, academic papers, catalogs, and news articles, thus streamlining the process of data retrieval. By leveraging machine learning and natural language processing technologies, the platform allows for seamless raw material selection and customer identification, while also supporting competitive analysis and additional functionalities. Ultimately, this integration of cutting-edge technology enhances overall efficiency and decision-making in the chemistry domain.

QSimulate presents an array of quantum simulation platforms that harness the principles of quantum mechanics to address intricate, large-scale challenges in life sciences and materials science. The QSP Life platform introduces innovative quantum-enhanced techniques for drug discovery and optimization, facilitating pioneering quantum simulations of ligand-protein interactions that are relevant throughout the entire computational drug discovery journey. Meanwhile, the QUELO platform enables hybrid quantum/classical free energy calculations, empowering users to conduct relative free energy assessments via the free energy perturbation (FEP) method. Furthermore, QSimulate's advancements enable significant progress in quantum mechanics/molecular mechanics (QM/MM) simulations tailored for extensive protein modeling. In the realm of materials science, the QSP Materials platform opens up quantum mechanical simulations to a broader audience, allowing experimentalists to streamline complex workflows without requiring specialized expertise, ultimately fostering greater innovation in the field. This democratization of technology marks a pivotal shift in how researchers can approach and solve scientific problems.

BIOVIA Materials Studio serves as an all-encompassing platform for modeling and simulation, specifically tailored to assist researchers in the fields of materials science and chemistry in forecasting and comprehending how a material's atomic and molecular configurations correlate with its characteristics and functionalities. By adopting an "in silico first" strategy, researchers can enhance material performance in a budget-friendly virtual environment before moving to physical experimentation. This versatile software accommodates a diverse array of materials, such as catalysts, polymers, composites, metals, alloys, pharmaceuticals, and batteries. With capabilities that span quantum, atomistic, mesoscale, statistical, analytical, and crystallization simulations, it streamlines the development of innovative materials across multiple sectors. Additionally, its features promote rapid innovation, decrease research and development expenditures through virtual screening, and boost productivity by automating established practices within Pipeline Pilot, making it an indispensable tool for modern material research and development. This comprehensive functionality not only enhances research efficiency but also positions users at the forefront of material advancements.

Ensuring adherence to compliance standards for Substances of Very High Concern (SVHC) presents a continuous challenge for businesses involved in the production of chemicals or products that contain them. The manual approaches currently in use are increasingly becoming cumbersome and complicated due to the rise in regulatory demands and the complexities of the supply chain, making scalability a significant issue. Companies must efficiently scale up and manage increased workloads, particularly during product launches and submission periods. Additionally, navigating intricate and extensive supply chains requires persistent communication and coordination with suppliers. To address these challenges, APA Engineering, leveraging over 19 years of expertise in product chemical compliance and supported by a worldwide client network, has developed a web-based SaaS solution designed to minimize costs and time while enhancing compliance reporting. The Greencheck software streamlines and automates many essential aspects of product chemical compliance, allowing users to obtain chemical composition details with a single click. Vendors can conveniently upload information directly, even through Excel files, enabling comprehensive compliance reporting through a unified dashboard that consolidates all relevant product chemical regulations, thus making compliance more manageable and efficient for all stakeholders involved. This innovative approach not only simplifies the compliance process but also significantly enhances the overall effectiveness of supply chain management.

BIOVIA ONE Lab serves as a robust laboratory informatics platform aimed at optimizing workflows, fostering collaboration, and expediting research efforts in diverse scientific fields. This solution offers a cohesive environment for the management of laboratory data and processes, allowing researchers to make informed decisions more swiftly. It is utilized by organizations in various sectors such as Life Sciences, Consumer Packaged Goods, and Energy & Materials, among others. ONE Lab is adaptable for use in Research, Development, and Quality Assurance/Quality Control, catering to the unique requirements of scientists within each discipline. It effectively oversees samples, experiments, data, inventory, and equipment, as well as workflows, by integrating seamlessly with a variety of laboratory instruments and software. By utilizing a singular data model across all functional areas, ONE Lab eliminates artificial barriers that typically exist between Electronic Lab Notebooks (ELN), Laboratory Information Management Systems (LIMS), Laboratory Execution Systems (LES), and inventory management. This cohesive integration promotes efficiency and enhances the overall productivity of laboratory operations. Ultimately, BIOVIA ONE Lab empowers scientists to focus on innovation and discovery without the hindrances of fragmented systems.

Atinary's Self-Driving Labs (SDLabs) platform offers a no-code solution for AI and machine learning, aimed at transforming research and development workflows by allowing conventional laboratories to move from hands-on experiments to fully autonomous experimentation. This platform enhances the design and refinement of experiments through a comprehensive closed-loop system that incorporates AI-generated hypotheses, forecasts, and decisions. Among its notable features are multi-objective optimization, efficient database management, streamlined workflow orchestration, and real-time data analysis. Users have the capability to set experimental parameters with specific constraints, enabling machine learning algorithms to determine the next steps in the process, conduct experiments either manually or with robotic aid, analyze outcomes, and update models with the latest data, thus expediting the pursuit of improved, cost-effective, and environmentally friendly products. Additionally, Atinary offers proprietary algorithms, including Emmental for tackling non-linear constrained optimization, SeMOpt for implementing transfer learning in Bayesian optimization, and Falcon, which collectively enhance the platform's functionality and effectiveness. By leveraging these advanced tools, researchers can achieve greater efficiency and innovation in their experimental processes.

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

Khimera serves as a tool for determining the kinetic parameters associated with microscopic processes, as well as the thermodynamic and transport characteristics of various substances and their mixtures within gases, plasmas, and at the gas-solid interface. Its main users include engineers and researchers who focus on developing kinetic models and engaging in thermodynamic and kinetic simulations pertinent to fields such as chemical engineering, combustion, catalysis, metallurgy, and microelectronics. This software is particularly well-suited for multi-scale modeling, as it connects the fundamental molecular properties of individual molecules with the ensemble-averaged characteristics of the reactive medium, encompassing thermodynamic and transport properties along with the rates of chemical reactions. Additionally, Khimera allows for the integration of quantum-chemical simulation results, enabling users to derive properties without requiring any experimental data from their side. By bridging the gap between different scales of modeling, Khimera enhances the understanding of complex systems in various scientific domains.

Avogadro serves as a sophisticated molecular editor and visualizer that operates across multiple platforms, catering to fields such as computational chemistry, molecular modeling, bioinformatics, and materials science. With its ability to provide flexible, high-quality rendering alongside a robust plugin architecture, it enhances user experience significantly. This free, open-source tool is compatible with Mac, Windows, and Linux, making it accessible to a wide range of users in scientific disciplines. Its design emphasizes not only functionality but also adaptability to various research needs.

Kebotix is a pioneering technology platform focused on the development of new chemicals and materials, heralding a transformative era of rapid innovation through the integration of artificial intelligence and robotic automation. The company has introduced the world's first autonomous laboratory dedicated to materials discovery, driven by AI and robotics, which revolutionizes traditional research methods. By greatly enhancing the exploration, discovery, utilization, and production of novel molecules and materials, Kebotix aims to address some of the most pressing challenges faced globally. Collaborate with us to expedite the market introduction of your products while leveraging our cutting-edge material design technologies that are enabled by our self-driving lab. Kebotix propels your research and development efforts into the new digital frontier by offering tailored enterprise AI solutions specifically designed for materials discovery. With our automated learning system that improves with each cycle of predict-produce-prove, we empower you to deliver superior products to market more swiftly than ever before. This innovative approach not only saves time but also significantly enhances the efficiency of the research process.

Dotmatics is the global leader in R&D scientific software that connects science, data, and decision-making. More than 2 million scientists and 10,000 customers trust Dotmatics to accelerate research and help make the world a healthier, cleaner, and safer place to live.

Thermo-Calc is an advanced thermodynamic modeling tool utilized by materials scientists and engineers to derive data on material properties, deepen their understanding of materials, clarify specific phenomena, and address targeted inquiries regarding certain materials and their processing techniques. This software comes equipped with a variety of standard calculators included in all licenses, such as the Equilibrium Calculator, Scheil Solidification Simulations, Property Model Calculator, General Model Library, Material to Material Calculator, Pourbaix Diagram Module, and the Data Optimization Module (PARROT). Additionally, users can enhance Thermo-Calc's capabilities with multiple Add-on Modules and access over 40 databases, all seamlessly integrated into a single platform, creating a cohesive working environment. The software allows for the calculation of the state of a specified thermodynamic system, yielding valuable insights into phase quantities and compositions, transformation temperatures, solubility thresholds, and the driving forces behind phase formation, among other important metrics. Furthermore, this powerful modeling tool facilitates innovative research and development in materials science by enabling users to simulate various scenarios and predict outcomes effectively.

BIOVIA TURBOMOLE is an advanced software package for quantum chemistry that specializes in ab initio electronic structure calculations for a variety of systems, including molecules, clusters, periodic structures, and solutions. Originally developed at the University of Karlsruhe and Forschungszentrum Karlsruhe GmbH, the package is currently managed by TURBOMOLE GmbH, which has expanded its capabilities to include a wide range of computational methods such as density functional theory (DFT), Møller–Plesset perturbation theory, coupled-cluster techniques, and GW-Bethe–Salpeter approaches. It stands out for its ability to provide precise predictions related to chemical reactions, spectroscopy, and simulations of optical devices. Key features include optimization of reaction pathways, searches for transition states, and the modeling of solvation effects through COSMO-RS. Additionally, its spectroscopic tools cover various techniques such as IR, Raman, VCD, UV-Vis, and vibronic spectra, while simulations of optical properties are enhanced by sophisticated methods for spin-orbit coupling and relativistic all-electron calculations. This powerful software thus serves as an essential resource for researchers aiming to explore complex chemical systems and their properties.

Ansys Granta EduPack, previously known as CES EduPack, is an exceptional collection of educational materials aimed at assisting educators in enriching courses focused on materials in engineering, design, science, and sustainable development. This resource serves to bolster undergraduate education in materials science, offering a comprehensive database of materials and processes, selection tools, and various supplementary resources. The program is structured into three distinct levels, allowing students to engage with the appropriate depth of information as they advance through their academic journey. Furthermore, Granta EduPack accommodates a diverse range of teaching methodologies, catering to both design-oriented and science-driven approaches, as well as problem-based learning environments. As students progress from pre-university to postgraduate studies, they can utilize the database and tools tailored to their educational stage, ensuring effective learning at every level. This thoughtful organization makes Granta EduPack an invaluable asset for educators and students alike.

e-Xstream engineering specializes in the development and commercialization of the Digimat software suite, which features advanced multi-scale material modeling technology that accelerates the creation of composite materials and structures. Serving as a fundamental component of the 10xICME Solution, Digimat enables in-depth analyses of materials at the microscopic level and facilitates the creation of micromechanical models that are essential for integrating micro- and macroscopic interactions. The material models provided by Digimat allow for the combination of processing simulations with structural finite element analysis (FEA), paving the way for more accurate predictions by considering how processing conditions affect the final product's performance. Utilizing Digimat as an efficient and predictive tool significantly aids users in the design and manufacturing of cutting-edge composite materials and components, leading to substantial savings in time and costs. Ultimately, this capability empowers engineers to push the boundaries of innovation in composite material applications.

FactSage is an extensive software and database suite for thermochemical analysis, created in collaboration by Thermfact/CRCT based in Montreal, Canada, and GTT-Technologies located in Aachen, Germany. Launched in 2001, it combines the capabilities of the FACT-Win/FAC*T and ChemSage/SOLGASMIX thermochemical tools, which stem from over two decades of joint research. This software features a collection of modules for information retrieval, database access, calculations, and data manipulation that cater to a wide range of pure substances and solution data. It serves a diverse array of users, including those in industry, government, and academia, across disciplines such as materials science, pyrometallurgy, hydrometallurgy, electrometallurgy, corrosion science, glass technology, combustion, ceramics, and geology. Users can tap into thermodynamic data for numerous compounds and have access to evaluated databases for hundreds of solutions, which encompass metals, oxides, slags, mattes, salts, and various aqueous solutions. Overall, FactSage stands as a vital tool for professionals seeking reliable thermochemical information and analysis.

Evaluate formulations for sourcing and product development by utilizing our comprehensive 23 toxicological endpoint system, which enables the early detection of potential problems and the identification of safer alternatives. Gain insight into your organization's chemical footprint and streamline compliance and certification processes efficiently. Our user-friendly interface simplifies the collection of data, list-screening, and chemical hazard evaluations. Leverage the extensive Safer Chemistry Knowledge Base, featuring over 4,000 Verified Chemical Hazard Assessments conducted by Scivera’s certified toxicologists. Create a customized plan tailored to your specific needs and financial constraints. Whether you are a supplier or a brand, rest assured that you can submit or receive chemical reports with redacted details, ensuring the protection of intellectual property while still delivering essential safety information regarding chemicals. This dual focus on safety and confidentiality helps foster trust and transparency in the industry.

EcoOnline provides a comprehensive platform designed to equip companies with all necessary modules for establishing safe, compliant, and efficient workplaces. This integrated platform, rich in functionality, offers real-time decision support and EHS analytics that enhance efficiency while protecting your workforce, clientele, and the company's reputation. By utilizing EcoOnline's digital solutions, adhering to safety management best practices becomes not only straightforward but also effective and motivating. Engage your employees and foster a sustainable safety culture through our intuitive mobile app. Renowned as the most user-friendly chemical safety software available, it empowers employees in managing chemical safety. Take command of your SDS Management, Risk Assessments, and Chemical Reporting effortlessly. Additionally, EcoOnline's Environmental Reporting Software modules enable your organization to monitor and mitigate emissions, optimize the use of raw materials, and schedule automated regular reporting, ensuring continuous improvement and accountability in sustainability efforts. This holistic approach not only enhances compliance but also fosters a proactive safety environment.

Integrate the digital and physical realms through the Dassault Systèmes 3DEXPERIENCE® platform to enable collaboration, modeling, optimization, and operational performance. Establish the layout of the plant, including the flow, assets, and resources required for effective and safe product manufacturing. Enhance the definitions of products and resources; outline and confirm a process plan while developing work instructions that align with production targets. Optimize supply chain planning across all time frames; improve visibility with scheduling and planning to reduce interruptions. Revolutionize international production processes to attain and maintain operational excellence through Manufacturing Operations Management. Additionally, oversee and regulate operational processes on a worldwide scale to ensure consistency and efficiency.

BIOVIA solutions foster an unparalleled environment for scientific management, enabling organizations focused on science to develop and interlink innovations in biology, chemistry, and materials to enhance our quality of life. The leading BIOVIA portfolio emphasizes the seamless integration of diverse scientific disciplines, experimental workflows, and information needs throughout the entire spectrum of research, development, quality assurance, quality control, and manufacturing. It boasts capabilities spanning Scientific Informatics, Molecular Modeling and Simulation, Data Science, Laboratory Informatics, Formulation Design, BioPharma Quality and Compliance, as well as Manufacturing Analytics. BIOVIA is dedicated to accelerating innovation, boosting productivity, enhancing quality and compliance, lowering costs, and expediting product development for clients across various sectors. Additionally, it plays a crucial role in managing and unifying scientific innovation processes and information throughout the entire product lifecycle, ensuring a comprehensive approach to scientific advancement.

Reaxys is an online resource created by Elsevier that enables users to access a wealth of information regarding chemical substances and data sourced from published academic literature, including both journals and patents. This platform facilitates the retrieval of details about chemical compounds, reactions, properties, along with bibliographic and substance data, which includes synthesis planning guidance and experimental methods derived from a curated selection of journals and patents. Introduced in 2009 as a modern alternative to the CrossFire databases, Reaxys was crafted to provide research chemists with both contemporary and historical insights into organic, inorganic, and organometallic chemistry, all via a user-friendly interface. Spanning over two centuries of chemical research, it draws information from thousands of journal articles, books, and patents, ensuring a comprehensive resource. The database emphasizes data derived from specific journals and chemistry patents, prioritizing entries that feature a chemical structure, are validated by experimental data, and contain reliable citations, thus enhancing the credibility of the information provided. Furthermore, Reaxys continues to evolve, ensuring that it meets the ongoing needs of researchers in the ever-changing landscape of chemical research.

As a member of the DeepMatter Group, we persist in providing our advanced platforms for Synthesis & Reaction Prediction, Information Extraction, Cheminformatics, and the groundbreaking DigitalGlassware®, which is a cloud-based digital chemistry solution from DeepMatter™ that enhances recordability, reproducibility, and shareability throughout every phase of the discovery journey, from the initial planning of reactions to the final analysis of results. Our collaboration with clients and users remains strong as we develop innovative software solutions designed to elevate chemical research and refine scientific workflows. DeepMatter boasts a diverse range of products that significantly speed up and enhance the processes of hypothesis generation, design, and synthesis. By utilizing these tools, new compounds—including pharmaceuticals, agrichemicals, and performance chemicals—can reach the market more swiftly. Additionally, DigitalGlassware converts your chemistry into digital code, ultimately boosting laboratory productivity and efficiency in research endeavors. This fusion of technology and chemistry opens up new avenues for innovation and collaboration in the scientific community.

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.

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

NEMS Chemicals offers a streamlined approach to handling HOCNF (Harmonized Offshore Chemical Notification Format) documentation, functioning entirely in the cloud without requiring any software installations—just a modern web browser is sufficient for access. This innovative service aids oil and gas operators by significantly easing the burden of preparing discharge applications and reports. Furthermore, chemical suppliers can take advantage of this platform as it simplifies the HOCNF documentation and registration processes. Developed and managed by NEMS alongside their KPD (Chemical Product Data) center, NEMS Chemicals plays a crucial role in the environmental management of offshore chemicals. The platform is specifically designed to register detailed information about chemical products and their components, including aspects such as physical characteristics, hazard markings, and eco-toxicological data. Additionally, users can effortlessly generate comprehensive HOCNF reports directly from the tool, enhancing efficiency and accuracy in chemical reporting. This comprehensive solution not only saves time but also ensures compliance with regulatory requirements in the offshore chemical sector.

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

IPA can also help analyze small-scale experiments that produce gene and chemical lists. IPA allows for targeted searches on genes, chemicals, and drugs. It also allows the creation of interactive models of experimental system. Data analysis and search capabilities allow for the understanding of the significance of data, targets, or candidate biomarkers within larger biological or chemical systems. The Ingenuity Knowledge Base contains highly structured, detail-rich chemical and biological findings that backs the software. Learn more about QIAGEN Ingenuity Pathway Analysis. Comparison Analysis determines which pathways, upstream regulators and diseases are most important. It can also be used to identify biological functions across time, doses, and other conditions.

BIOVIA CISPro provides organizations with a comprehensive system to catalog all chemicals and materials at the container level within their facilities, ensuring real-time tracking and monitoring of usage. The platform supports an unlimited variety of material classes, including reference standards, and features robust security measures to protect sensitive information. Each business unit can manage its inventory independently, while still being part of a unified company account for streamlined oversight. CISPro equips users with essential tools for accurate tracking and reporting of chemicals and supplies, including controlled substances, while adhering to safety and regulatory standards through features like barcode labeling, remote inventory management, and Safety Data Sheet (SDS) organization. Generating reports is straightforward, enabling users to sort chemicals by various criteria such as location, vendor, name, CAS number, and formula. Most notably, it ensures that critical hazard information is readily accessible in the event of an emergency, enhancing overall safety and response readiness. This comprehensive approach not only facilitates compliance but also fosters a culture of safety within the organization.

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

Signals Notebook boasts a contemporary user interface similar to those found in popular personal applications, minimizing the need for extensive training; users can quickly get started. This ease of use is a key factor in why it has become the preferred electronic lab notebook for a wide array of organizations, ranging from small teams of 4-5 research scientists to some of the largest biotech and pharmaceutical companies globally. Its adaptability and capability to accommodate diverse workflows—covering areas such as chemistry, biology, formulations, analytical sciences, and materials sciences—make it a valuable tool now and in the future. With over 1 million scientists across 4,000 organizations relying on Signals Notebook to enhance their workflow efficiency, it is evident that the platform is well-regarded in the scientific community. Additionally, its structured data capture features, coupled with APIs and integration interfaces for instruments, in-house systems, and databases, further enhance its utility. This combination of user-friendliness and advanced functionality is what sets Signals Notebook apart in a competitive market.

Chemwatch stands out as a global frontrunner in the realm of chemical safety and management solutions, providing an extensive array of software and services that simplify the processes involved in chemical management. Their innovative platform grants users access to the largest repository of Safety Data Sheets (SDS) in the world, featuring over 140 million entries that guarantee compliance and safety through up-to-date information. Notable functionalities encompass SDS management, creation of chemical registers and manifests, conducting risk assessments, labeling, and generating reports. Catering to diverse organizational requirements, Chemwatch's software offerings, including BackPack, GoldFFX, and Chemeritus, are designed for a broad spectrum of users, from small startups to major corporations, and are offered in 49 different languages. Furthermore, the platform seamlessly integrates with RFID asset management systems, facilitating the effective tracking of both chemical and non-chemical assets over their entire lifecycle. With a solid foundation of over three decades of industry experience, Chemwatch proudly supports more than 5,000 organizations globally, among which are 20 of the top 50 companies listed in the Fortune 500. This expansive reach and commitment to safety and compliance solidify Chemwatch's reputation as a trusted partner in chemical management.

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.