New GeForce RTX 50 Series Graphics Cards & Laptops Powered By NVIDIA Blackwell Bring Game-Changing AI and Neural Rendering Capabilities To Creators Andrew Burnes January 8, 2025
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Powered by the NVIDIA Blackwell RTX architecture, GeForce RTX 50 Series graphics cards and GeForce RTX 50 Series laptops accelerate frame rates by up to 8X using NVIDIA DLSS 4 with Multi Frame Generation, reduce latency by up to 75% using NVIDIA Reflex 2, enable next-level graphical fidelity for gamers and creators with NVIDIA RTX Neural Shaders, and much more.
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GeForce RTX 50 Series GPUs and laptops deliver game-changing performance, power transformative AI experiences, and enable creators to complete workflows in record time. Rewatch the NVIDIA Keynote by NVIDIA CEO, Jensen Huang, below, and read on for all of the details.
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Neural Rendering Is The Next Era Of Computer Graphics Neural rendering is the next era of computer graphics. By integrating neural networks into the rendering process, we can take dramatic leaps forward in performance, image quality, and interactivity to deliver new levels of immersion.
The very first example of neural rendering was DLSS. We used lower resolution rendered frames as an input to a neural network, which was trained to output a full resolution frame. DLSS has since evolved to the point where it can generate entire frames and understand the composition of a scene including shadows, reflections, and occlusion to generate images that are better than native rendering. With the invention of DLSS 4 with Multi Frame Generation, working in unison with the complete suite of DLSS technologies, we can multiply frame rates by up to 8X over traditional brute-force rendering and provide image quality that is better than native rendering.
But DLSS is just the beginning.
We've integrated neural networks inside of programmable shaders to create neural shaders. RTX Neural Shaders will drive the next decade of graphics innovations. They can be used to compress textures by up to 7X, saving massive amounts of graphics memory. And be used to create cinematic-quality textures, and even more advanced lighting effects in games.
RTX Neural Faces offers an innovative, new approach to improve face quality using generative AI. Instead of traditional rendering, Neural Faces takes a simple rasterized face plus 3D pose data as input and uses a real-time generative AI model to infer a more natural face.
The power of neural rendering with DLSS 4 can be seen in our new Zorah tech demo.
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NVIDIA Blackwell Architecture Innovations The NVIDIA RTX Blackwell architecture has been built and optimized for neural rendering. It has a massive amount of processing power, with new engines and features specifically designed to accelerate the next generation of neural rendering.
With up to 92 billion transistors, Blackwell is the most powerful consumer GPU ever created. The Blackwell streaming multiprocessor (SM) has been updated with more processing throughput, and a tighter integration with the Tensor Cores in order to optimize the performance of neural shaders. Blackwell is enhanced by several hardware and software innovations to improve Shader Execution Reordering. The reorder logic is twice as efficient, increasing the speed and precision of reordering which accelerates the performance of neural shaders.
New Blackwell Tensor Cores have been built with a massive amount of AI processing horsepower, and support accelerated processing of FP4 precision models. With FP4, Blackwell Tensor Cores can not only process models faster, but can do so while using less graphics memory.
To help support the frame pacing requirements of next generation DLSS Multi Frame Generation, the Blackwell architecture was built with enhanced hardware flip metering capabilities to provide the speed and accuracy required for a smooth, high-quality experience.
Blackwell also features brand new RT Cores designed to ray trace massive amounts of detailed geometry. The RT Cores have 2X the ray triangle intersection rate of the previous generation, and enhanced compression designed to reduce memory footprint. This allows Blackwell GPUs to ray trace levels of geometry that were never before possible.
Blackwell has also been enhanced with PCIe Gen5 and DisplayPort 2.1b UHBR20, driving displays up
