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TSMC and Synopsys Bring Breakthrough NVIDIA Computational Lithography Platform to Production

GFreeman

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NVIDIA today announced that TSMC and Synopsys are going into production with NVIDIA's computational lithography platform to accelerate manufacturing and push the limits of physics for the next generation of advanced semiconductor chips. TSMC, the world's leading foundry, and Synopsys, the leader in silicon to systems design solutions, have integrated NVIDIA cuLitho with their software, manufacturing processes and systems to speed chip fabrication, and in the future support the latest-generation NVIDIA Blackwell architecture GPUs.

"Computational lithography is a cornerstone of chip manufacturing," said Jensen Huang, founder and CEO of NVIDIA. "Our work on cuLitho, in partnership with TSMC and Synopsys, applies accelerated computing and generative AI to open new frontiers for semiconductor scaling." NVIDIA also introduced new generative AI algorithms that enhance cuLitho, a library for GPU-accelerated computational lithography, dramatically improving the semiconductor manufacturing process over current CPU-based methods.



Semiconductor Leaders Advance cuLitho Platform
Computational lithography is the most compute-intensive workload in the semiconductor manufacturing process, consuming tens of billions of hours per year on CPUs. A typical mask set for a chip - a key step in its production - could take 30 million or more hours of CPU compute time, necessitating large data centers within semiconductor foundries. With accelerated computing, 350 NVIDIA H100 systems can now replace 40,000 CPU systems, accelerating production time, while reducing costs, space and power.

"Our work with NVIDIA to integrate GPU-accelerated computing in the TSMC workflow has resulted in great leaps in performance, dramatic throughput improvement, shortened cycle time and reduced power requirements," said Dr. C.C. Wei, CEO of TSMC. "We are moving NVIDIA cuLitho into production at TSMC, leveraging this computational lithography technology to drive a critical component of semiconductor scaling."

Since its introduction last year, cuLitho has enabled TSMC to open new opportunities for innovative patterning technologies. In testing cuLitho on shared workflows, the companies jointly realized a 45x speedup of curvilinear flows and a nearly 60x improvement on more traditional Manhattan-style flows. These two types of flows differ - with curvilinear the mask shapes are represented by curves, while Manhattan mask shapes are constrained to be either horizontal or vertical.

"For more than two decades Synopsys Proteus mask synthesis software products have been the production-proven choice for accelerating computational lithography - the most demanding workload in semiconductor manufacturing," said Sassine Ghazi, president and CEO of Synopsys. "With the move to advanced nodes, computational lithography has dramatically increased in complexity and compute cost. Our collaboration with TSMC and NVIDIA is critical to enabling angstrom-level scaling as we pioneer advanced technologies to reduce turnaround time by orders of magnitude through the power of accelerated computing."

Synopsys is the pioneer in delivering advanced techniques for accelerating the performance of computational lithography. Synopsys' Proteus optical proximity correction software running on the NVIDIA cuLitho software library significantly speeds computational workloads compared to current CPU-based methods. With Proteus mask synthesis products, manufacturers like TSMC can achieve exceptional precision, efficiency and speed in proximity correction, model building for correction, and analyzing proximity effects on corrected and uncorrected IC layout patterns, revolutionizing the chip fabrication process.

Breakthrough Generative AI Support for Computational Lithography
NVIDIA has developed algorithms to apply generative AI to further enhance the value of the cuLitho platform. The new generative AI workflow delivers an additional 2x speedup on top of the accelerated processes enabled through cuLitho. The application of generative AI enables creation of a near-perfect inverse mask or inverse solution to account for diffraction of light. The final mask is then derived by traditional and physically rigorous methods, speeding up the overall optical proximity correction (OPC) process by a factor of two.

Many changes in the fab process currently necessitate a revision in OPC, driving up the amount of compute required and creating bottlenecks in the fab development cycle. These costs and bottlenecks are alleviated with the accelerated computing cuLitho provides and generative AI, enabling fabs to allocate available compute capacity and engineering bandwidth to design more novel solutions in development of new technologies for 2 nm and beyond.

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Now this is very cool tech and good to see AI used in a serious application. The complexity of chip fabrication is mind boggling. I did some work on super-res technqiues and going beyond diffraction limit but even that is just one tiny part of the chip making process.

I can see why Intel and Samsung want to move to glass substrates ASAP too.
 
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CuLitho without the “H” denotes a body part and both words sound the same.

Spanish shows, conferences, etc will have to resort to creatives ways to say it.
:cool:
 
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CuLitho without the “H” denotes a body part and both words sound the same.

Spanish shows, conferences, etc will have to resort to creatives ways to say it.
:cool:
At least Spaniards can pronounce the "th" sound so they're mostly safe, but South Americans aren't.

I can see why Intel and Samsung want to move to glass substrates ASAP too.
Why? Do you expect glass substrates to be made using sub-micrometer lithography?
 
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Why? Do you expect glass substrates to be made using sub-micrometer lithography?
Huh. Glass substrates are much flatter and flatness is a real issue for lithography. It's difficult to take into account. This will make life a bit simpler and glass substrate has massive benefits in other areas.
 
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