Nvidia announced it is working with global industrial software leaders Cadence, Dassault Systèmes, PTC, Siemens and Synopsys to bring Nvidia CUDA-X, Nvidia Omniverse and GPU-accelerated industrial software and tools to manufacturers.
The manufacturers include FANUC, HD Hyundai, Honda, JLR, KION, Mercedes-Benz, Mediatek, PepsiCo, Samsung, SK Hynix and TSMC. The aims is to accelerate design, engineering and manufacturing. These software leaders are also introducing Nvidia-powered agentic solutions to prepare their customers for the next phase of the AI era.
These solutions are running on Nvidia AI infrastructure across leading cloud service
providers AWS, Google Cloud, Microsoft Azure and Oracle Cloud Infrastructure (OCI) and
original equipment manufacturers Dell, HPE and Supermicro for accelerated design and
simulation.
Nvidia announced the news during the GTC keynote by CEO Jensen Huang at the company’s GTC event on Monday in San Jose, California.
“The dawn of a new industrial revolution has arrived, where physical AI and autonomous AI agents are fundamentally reinventing how the world designs, engineers and manufactures,” said Huang, in a statement. “Uniting our global ecosystem of software giants, cloud providers and OEMs, Nvidia is delivering a full-stack accelerated computing platform that empowers every industry to turn this vision into reality at a scale and speed never before possible.”
Industrial software giants build agents to accelerate design and engineering
Industrial engineering is entering an agentic inflection point, as long-running AI agents can
now streamline and orchestrate complex industrial design, engineering and manufacturing workflows.
Cadence, Dassault Systèmes, Siemens and Synopsys are accelerating these workflows by
bringing agentic AI into their platforms, using the Nvidia NeMo platform, Nvidia Nemotron open models, Nvidia CUDA‐X libraries and Nvidia accelerated computing to power autonomous design agents for complex chip and system workflows:
● Cadence’s ChipStack AI SuperAgent combines accelerated EDA software with agentic orchestration for the design and verification of semiconductors, including design and testbench coding, test-plan creation and debugging.
● Dassault Systèmes is building role-based AI agents called Virtual Companions on its
3DExperience agentic platform to manage workflows across its entire portfolio of
industrial software
● Siemens’ Fuse EDA AI Agent autonomously orchestrates multiple agents across the
entire semiconductor and PCB workflow from design conception to manufacturing sign-off.
● Synopsys is building its AgentEngineer multi-agent framework for semiconductor and systems design.
To accelerate next-generation vehicle design, Nvidia is partnering with Siemens and Synopsys to deliver GPU-accelerated tools for computational fluid dynamics (CFD) and
electromagnetics. These solutions replace weekslong CPU simulations with high-fidelity
virtual testing, enabling faster iteration and reduced time to market.
Honda is using Synopsys’ Ansys Fluent, accelerated by the Nvidia Grace Blackwell platform, to run aerodynamic simulations 34x faster than using CPUs, contributing to
shorter development cycles.
JLR and Mercedes-Benz are harnessing Siemens’ Simcenter STAR-CCM+ software on
Nvidia-accelerated infrastructure to transform engineering workflows. JLR runs the
platform on AWS to enhance vehicle aerodynamics.
Revolutionizing aerospace design through virtual testing
Aerospace engineering demands some of the most complex computational fluid dynamics simulations, such as simulating aircrafts during takeoff. With Nvidia‐accelerated solvers from Cadence, organizations can run high‐fidelity simulations at scale, enabling previously impractical workflows and unlocking new designs for space exploration.
Ascendance is using Cadence Fidelity on Nvidia GPUs on Oracle Cloud to simulate hybrid
electric propulsion and VTOL aircraft scenarios, enabling same-day full aerodynamic simulation campaigns that aren’t possible with large CPU-based high-performance computing.
Accelerating the global energy transition
Energy leaders are adopting GPU-accelerated CFD workflows on Nvidia AI infrastructure
across cloud and on-premises environments to cut simulation turnaround times, boost
throughput and overcome the limits of CPU-only computing — accelerating gas turbine
innovation for cleaner energy solutions.
Solar Turbines is harnessing Cadence Fidelity on Dell infrastructure to complete
360-degree, billion-cell combustor simulations in just 14 hours.
Argonne uses Cadence Fidelity on the Polaris supercomputer, built by HPE and accelerated by Nvidia A100 GPUs, to enable high‐fidelity combustion simulations for advanced energy and propulsion research.
AI fuels semiconductor innovation
As semiconductor design enters the trillion-transistor era beyond Moore’s law, CPU-based
workflows can no longer keep pace — driving industry leaders to adopt Nvidia-accelerated
tools from Cadence, Siemens and Synopsys to advance electronic design automation.
Samsung and SK hynix are using Cadence Pegasus, Synopsys PrimeSim and Siemens’
Calibre software on Nvidia-accelerated Dell PowerEdge servers and HPE systems to
streamline high-volume computational lithography and physical verification, accelerating
DRAM and flash memory production.
Astera Labs uses Synopsys PrimeSim B200 GPU-accelerated EC2 on AWS to speed chip
design by 3.5x over CPU-only systems, accelerating validation and time to market for
next-generation connectivity solutions. MediaTek is accelerating Cadence Spectre by six times with the power of H100 GPUs to build its AI future with an on-premises AI factory powered by Nvidia.
TSMC is using Synopsys tools on HPE and Supermicro systems to accelerate critical
workloads for advanced manufacturing.
Micron is accelerating next‐generation HBM development by expanding its collaboration
with Cadence, adopting Nvidia GPU‐accelerated design tools, and integrating agentic AI to
boost efficiency across its complex memory design workflows.
Transforming manufacturing and logistics through digital twins
Nvidia and its industrial ecosystem partners are accelerating the digitalization of product
lines, factories, warehouses and shipyards, using high-fidelity industrial digital twins to
connect virtual planning with real-world execution.
Siemens’ newly launched Digital Twin Composer leverages Nvidia Omniverse libraries to
enable companies like Foxconn, HD Hyundai, PepsiCo and KION to build industrial metaverse environments at scale, empowering organizations to apply industrial AI,
simulation and real-time physical data to make decisions virtually, at speed and at scale.
Krones is using Ansys Fluent on Microsoft Azure to power physics-accurate, AI-driven digital twins with Nvidia Omniverse, CUDA-X and GPU-accelerated simulation to cut
bottling-line simulation times from hours to minutes.
PTC is announcing a new robotics design-to-simulation workflow from its cloud-native
Onshape computer-aided design (CAD) and product data management (PDM) platform to
Nvidia Isaac Sim, creating a seamless CAD-to-OpenUSD bridge that will enable
engineering teams like FANUC America Corporation and Fauna Robotics to design and
validate their robotic systems within physically accurate digital twins.
KION is working with Siemens, Nvidia and Accenture to advance autonomous warehouse
solutions. Using Nvidia Omniverse and a physical AI-powered digital twin and systems
architecture pioneered by Accenture, KION engineers create large-scale, physics-accurate
warehouse digital twins to train and test fleets ofNvidia Jetson-based autonomous forklifts for GXO, the world’s largest pure-play contract logistics provider.