Accelerating Semiconductor Design and Manufacturing

Powering semiconductor breakthroughs with AI, digital twins, and accelerated computing.

Image courtesy of TSMC

Introduction

Accelerated Computing and AI for Semiconductor Workflows

Shrinking nodes, 3D integration, and chiplet architectures are pushing compute demands beyond what CPU-based tools can sustain. Fabs and OSATs face the same pressure from the manufacturing side, needing higher throughput, better yields, and tighter process control at every node.

NVIDIA platforms combine GPUs, NVIDIA Vera CPUs, high-speed interconnects, NVIDIA CUDA-X™ and NVIDIA Omniverse™ libraries to accelerate computing, power AI, and real time digital twins, across the full semiconductor workflow, from design and verification to fab operations, inspection, and test. 

Semiconductor Industry Accelerates Design and Manufacturing With NVIDIA

See how TSMC, Cadence, KLA, Siemens, Synopsys, and others are using NVIDIA Blackwell, Grace, and CUDA‑X libraries like cuLitho and cuDSS to accelerate EDA, lithography, and process simulation across advanced nodes.

Optimizing Semiconductor Defect Classification With Generative AI

Learn how generative AI and vision foundation models running on NVIDIA platforms can improve defect detection, boost classification accuracy, and help scale inspection across high‑volume manufacturing.

Use Cases

Semiconductor Use Cases: Accelerated Computing, Engineering With AI, and Physical AI

From design and verification to lithography, fab optimization, inspection, and test, NVIDIA powers critical semiconductor workflows with full‑stack acceleration.

Success Stories

Semiconductor Success Stories and Real-World Impact

Learn how leading semiconductor innovators use NVIDIA-accelerated computing to boost yield, increase throughput, and cut costs. 

Image courtesy of Alsemy

Alsemy Accelerates Chip Modeling From Months to Minutes With Physics-Informed AI

Alsemy is transforming semiconductor device modeling by replacing slow, manual workflows with physics-informed AI on NVIDIA RTX™ GPUs and PhysicsNeMo. 

Image courtesy of MediaTek

MediaTek Accelerates AI Development With an AI Factory

MediaTek is building an on-premises AI factory powered by NVIDIA DGX SuperPOD™ to accelerate large language model development and enterprise AI.

News and Events

Latest News and Events for Semiconductor Industries

TSMC

NVIDIA and TSMC Bring AI Into Fabs to Advance Semiconductor Design and Manufacturing

The world’s leading semiconductor company, TSMC, is using NVIDIA accelerated computing and AI to advance semiconductor design and manufacturing.

Semiconductor Industry Accelerates Design Manufacturing With NVIDIA Blackwell and CUDA-X

TSMC, Cadence, KLA, Siemens, and Synopsys are advancing semiconductor manufacturing by adopting the NVIDIA CUDA-X and NVIDIA Blackwell platforms.

NVIDIA and Samsung Build AI Factory to Transform Global Intelligent Manufacturing

New AI factory with 50,000 NVIDIA GPUs to accelerate agentic and physical AI applications for advanced chip manufacturing, mobile devices, and robotics.

Technology

Full‑Stack Acceleration for Semiconductor Workflows

Semiconductor workloads demand high performance, massive scale, and tight integration across tools, data, and infrastructure. NVIDIA delivers a full‑stack platform for core workload acceleration, engineering with AI software, and real-time digital twins built for compute‑intensive design, simulation, and manufacturing.

Core Workload Acceleration

Leveraging NVIDIA CUDA-X, cuDSS, and foundational solver libraries for EDA acceleration, alongside domain-specific tools like cuLitho for lithography and cuEST for atomic-level modeling

Engineering With AI

Accelerate semiconductor innovation with AI physics for process simulation, agentic AI for autonomous design, and physical AI for intelligent fab automation. 

Applied Materials

Real-Time Digital Twins

Use NVIDIA Omniverse digital twins to simulate fabs, optimize operations, and orchestrate smarter semiconductor factories.

FAQs About NVIDIA Solutions for Semiconductor Industries

Electronic Design Automation (EDA) is the category of software tools used to design and verify integrated circuits. NVIDIA accelerates EDA by combining GPUs and CUDA-X libraries with tools from partners like Cadence and Synopsys to dramatically compress the time required to move from RTL to chip sign-off.

cuLitho is an NVIDIA CUDA-X library designed to accelerate computational lithography—the process of optimizing photomasks to counteract patterning issues during chip manufacturing. By moving full-chip lithography simulation to GPUs, cuLitho compresses what historically took days of computation into a matter of hours, enabling faster time-to-yield.

cuDSS is a foundational solver library within the NVIDIA CUDA-X platform, designed to provide core workload acceleration for EDA and other computationally-intensive processes. It delivers highly optimized solvers for tasks that are critical to electronic design automation tools.

cuEST is a component of the NVIDIA CUDA-X libraries used for atomic-level modeling and simulation in the semiconductor workflow. It provides acceleration for highly detailed simulations required in materials science and process engineering.

PhysicsNeMo are AI surrogate models that use AI physics to accelerate reactor simulation. They replace computationally complex, multi-day simulations of etch and deposition reactors—which involve coupled physics—with evaluations that take milliseconds, significantly accelerating chamber design and process development.

NVIDIA Omniverse is a platform used to build and operate real-time digital twins. In the semiconductor industry, it simulates entire fabs and manufacturing facilities to optimize operations, test new workflows, and orchestrate smarter factories by creating a virtual replica of the physical world.

The NVIDIA full-stack platform combines GPUs (such as Blackwell), NVIDIA Vera CPUs, high-speed interconnects, and a software layer that includes the NVIDIA CUDA-X™ libraries (like cuLitho, cuDSS, and cuEST) and the NVIDIA Omniverse™ platform for digital twins.

Core Workload Acceleration leverages the NVIDIA CUDA-X platform, including foundational solver libraries like cuDSS, as well as domain-specific tools such as cuLitho for lithography and cuEST for atomic-level modeling.

Major partners span the entire workflow, including EDA leaders like Cadence and Synopsys, manufacturing equipment suppliers such as Lam Research, and chipmakers like TSMC and Samsung, all of whom are leveraging NVIDIA's platforms to accelerate their processes.

Agentic AI refers to the autonomous software agents used primarily in the design and verification stages (e.g., executing chip design tasks), while physical AI is used for intelligent automation in the manufacturing process itself, leveraging tools and sensors to optimize quality and productivity on the factory floor.

  • Learn more about the components and uses of agentic AI in complex workflows.
  • Understand the function and implementation of generative physical AI for industrial automation.

Partners

Semiconductor Partner Ecosystem

Resources

Semiconductor Industry Resources

AI Supercomputing for Next-Generation Semiconductor Design and Manufacturing

Watch Tim Costa’s SEMICON West 2025 keynote on AI supercomputing driving next-generation semiconductor design and manufacturing. 

AI Agents for Visual Inspection in Manufacturing

Visual AI agents are transforming semiconductor manufacturing by automating visual inspection and boosting quality and productivity.

Applied Materials Accelerates Chip Manufacturing With NVIDIA

See how Applied Materials and NVIDIA use digital twins built on NVIDIA Omniverse to optimize fab layout, throughput, cost, and process control.

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