Teradata VantageCloud
Teradata VantageCloud: Open, Scalable Cloud Analytics for AI
VantageCloud is Teradata’s cloud-native analytics and data platform designed for performance and flexibility. It unifies data from multiple sources, supports complex analytics at scale, and makes it easier to deploy AI and machine learning models in production. With built-in support for multi-cloud and hybrid deployments, VantageCloud lets organizations manage data across AWS, Azure, Google Cloud, and on-prem environments without vendor lock-in. Its open architecture integrates with modern data tools and standard formats, giving developers and data teams freedom to innovate while keeping costs predictable.
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Altium Develop
Altium Develop is a collaborative innovation environment that connects design, engineering, and manufacturing stakeholders in one place. Instead of teams working in isolation, it provides a shared space where feedback, design changes, and requirements are tracked as they happen. Built on the Altium 365 ecosystem, it bridges disciplines such as electrical, mechanical, software, and sourcing to reduce miscommunication and delays. By giving suppliers and production engineers an early voice in the process, it minimizes rework and accelerates product delivery. The result is a faster, more transparent path from concept to production, with alignment across every stage of development.
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Ansys Pharos
Pharos integrates Ansys' exceptional electromagnetic (EM) engine capabilities with a unique high-capacity circuit simulation engine, enabling comprehensive coupling analysis and the identification of potential EM crosstalk aggressors for each victim node. By pinpointing the most vulnerable nets, designers can strategically direct their design choices to mitigate EM crosstalk issues, thereby reducing risks throughout the design process. This tool not only has an extraordinary extraction engine but also features a built-in simulation component that facilitates in-depth EM analysis and categorizes potential crosstalk aggressors affecting each victim net. As a result, designers can concentrate on the nets that pose the highest risk within their designs. Given the increasing complexity of designs and the extensive range of magnetic field interference, it becomes a daunting challenge to identify every susceptible victim/aggressor net pair affected by EM crosstalk. Therefore, the effective use of Pharos can significantly enhance the reliability and efficiency of the design workflow.
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Ansys RaptorH
Ansys RaptorH is a sophisticated electromagnetic modeling tool that excels in simulating power grids, entirely custom blocks, spiral inductors, and clock tree structures. It employs high-speed distributed processing to generate precise, silicon-validated S-parameter and RLCk models. One of its standout features is the ability to analyze partial or incomplete layouts during the design process, offering users the flexibility to utilize either the versatile HFSS engine or the specialized RaptorX engine optimized for silicon applications. Additionally, Ansys RaptorH extracts electromagnetic models even at the pre-LVS stage for various routing and layout designs, including solid or perforated planes, circular shapes, spiral inductors, and MiM/MoM capacitors, all while automatically configuring boundary conditions. Its user-friendly graphical interface facilitates point-and-click net selection and enables what-if scenarios for better design insights. Moreover, RaptorH is fully compatible with all leading silicon foundries and supports encrypted technology files, ensuring seamless setup for analyses using either the HFSS or Raptor engines. This comprehensive integration not only streamlines the design workflow but also enhances the accuracy of electromagnetic simulations significantly.
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