- Cadence (CDNS, Financial) partners with NVIDIA to launch the world's first industrial AI cloud.
- Cadence's solutions accelerate design processes for Europe’s industrial technology by up to 80X.
- New AI cloud built on 10,000 NVIDIA Blackwell GPUs significantly enhances engineering simulation capabilities.
At NVIDIA GTC Paris, Cadence Design Systems, Inc. (CDNS) announced a groundbreaking collaboration with NVIDIA to create the world's first industrial AI cloud. This partnership is set to revolutionize the European industrial ecosystem by providing optimized solutions to accelerate the development of industrial technology.
Cadence’s innovative solutions, including the Fidelity™ CFD Platform, Spectre® X Simulator, Voltus™ IC Power Integrity Solution, and Innovus™ Implementation System, are specifically optimized for NVIDIA Grace Blackwell platforms. These tools enable a significant acceleration of design processes, with reports indicating enhancements in speed of up to 80 times.
This AI cloud, utilizing NVIDIA Omniverse Blueprint for AI factory design, will support engineering teams by simulating and optimizing operations in a virtual environment via the Cadence Reality™ Digital Twin Platform. This approach aims to improve the design, construction, and operational efficiency of data centers and other facilities through enhanced simulation fidelity.
Built on a foundation of 10,000 NVIDIA Blackwell GPUs, the AI cloud is designed to handle intense workload demands, accelerating semiconductor and system design across industries such as automotive, energy infrastructure, and manufacturing. By leveraging Cadence’s solutions on the NVIDIA industrial AI cloud, European industrial leaders can expedite the creation of smarter, high-quality systems.
Cadence continues to lead in AI and digital twin advancements, as evidenced by the recent unveiling of the Cadence Millennium™ M2000 Supercomputer. The supercomputer represents a significant leap forward with its integrated NVIDIA CUDA-X libraries and Blackwell platform capabilities, promising accelerated advancements in silicon, system, and drug design.
