Teradata VantageCloud
Teradata VantageCloud: The Complete Cloud Analytics and AI Platform
VantageCloud is Teradata’s all-in-one cloud analytics and data platform built to help businesses harness the full power of their data. With a scalable design, it unifies data from multiple sources, simplifies complex analytics, and makes deploying AI models straightforward.
VantageCloud supports multi-cloud and hybrid environments, giving organizations the freedom to manage data across AWS, Azure, Google Cloud, or on-premises — without vendor lock-in. Its open architecture integrates seamlessly with modern data tools, ensuring compatibility and flexibility as business needs evolve.
By delivering trusted AI, harmonized data, and enterprise-grade performance, VantageCloud helps companies uncover new insights, reduce complexity, and drive innovation at scale.
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Altium Develop
Altium Develop brings together engineers, developers, and manufacturing partners in a single connected workspace. By integrating design tools with real-time collaboration, it ensures that every stakeholder—from hardware and software teams to supply chain managers—can contribute at the right moment. The platform eliminates silos by linking requirements, component data, and production insights directly to the design process. With early visibility and seamless feedback loops, organizations can reduce errors, cut rework costs, and move from idea to finished product more efficiently.
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Ansys RaptorH
Ansys RaptorH is an advanced tool for electromagnetic modeling that specializes in simulating power grids, unique components, spiral inductors, and clock trees. With its cutting-edge distributed processing technology, it accurately generates silicon-validated S-parameter and RLCk models, ensuring high fidelity in simulations. Throughout the design phase, RaptorH is capable of assessing both partial and incomplete layouts, giving users the flexibility to select between the adaptable HFSS engine and the silicon-optimized RaptorX engine specifically designed for distinct silicon architectures. The software stands out by extracting electromagnetic models during the pre-LVS stage for a variety of routing and layout configurations, supporting solid or perforated planes, circular geometries, spiral inductors, and MiM/MoM capacitors, while also automatically setting boundary conditions. Its intuitive graphical interface allows for straightforward net selection via point-and-click actions and accommodates exploratory what-if analyses. Additionally, RaptorH is compatible with all major silicon foundries and can handle encrypted technology files, empowering users to perform analyses efficiently with either the HFSS or Raptor engine. This comprehensive software solution not only enhances the design workflow but also fosters collaboration among engineers and designers, ultimately driving innovation in electromagnetic design.
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PathWave Advanced Design System (ADS)
PathWave ADS optimizes the design workflow by offering integrated templates that enable users to kickstart their projects with greater efficiency. With an extensive array of component libraries, finding the necessary parts becomes a simple task. The automatic synchronization with layout provides a clear view of the physical arrangement as schematic designs are created. This data-driven methodology allows teams to verify that their designs meet the required specifications. PathWave ADS boosts design confidence through its visualization and analytics tools, which produce informative graphs, charts, and diagrams to assist users. Additionally, wizards, design guides, and templates facilitate a quicker design process. The all-encompassing design workflow includes schematic design, layout, and simulations encompassing circuit, electro-thermal, and electromagnetic aspects. As frequencies and speeds in printed circuit boards (PCBs) continue to escalate, maintaining signal and power integrity becomes increasingly vital. Challenges related to transmission line effects can result in failures of electronic devices. It is crucial to accurately model traces, vias, and interconnects for a realistic simulation of the board, thereby ensuring that potential issues are identified and addressed early on. This comprehensive approach not only enhances efficiency but also significantly strengthens the overall reliability of electronic designs, ultimately contributing to the successful deployment of high-performance devices.
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