5th generation Tensor Cores
5th Generation Tensor Cores deliver up to three times the performance of the previous generation and also support FP4 precision computing and DLSS 4 multi-frame generation technology. Accelerate local LLMs, prototype new AI models, and boost content creation and graphics rendering.
4th generation RT cores
4th generation RT cores deliver up to twice the performance of the previous generation, enabling accelerated graphics rendering for media and entertainment content creation, architecture, engineering, construction and operations (AECO) design, and prototyping for industrial production. Create photorealistic scenes with high levels of physical accuracy and immersive 3D designs with neural rendering-based technologies, such as RTX Mega Geometry, which can generate up to 100 times more triangles in ray tracing.
CUDA Cores
The most powerful professional RTX GPU architecture ever created, Blackwell features the latest CUDA® core and stream multiprocessor technologies. Stream Multiprocessor features increased processing throughput and new neural shaders that integrate neural networks inside programmable shaders to bring the next decade of AI-augmented graphics innovations to life.
96 GB of GPU memory
New and improved GDDR7 memory dramatically increases bandwidth and capacity, running your applications faster so you can work with larger and more complex datasets. With 96GB of dedicated GPU memory, you can tackle ambitious 3D design and AI projects, explore large-scale VR environments, and power significantly more advanced multi-application workflows.
NVENC 9th generation
9th generation NVIDIA NVENC engines dramatically accelerate video encoding and improve visual quality in professional video applications. They support 4:2:2 H.264 and HEVC encoding and improve HEVC and AV1 encoding quality.
6th generation NVDEC
6th generation NVIDIA NVDEC engines deliver up to twice the H.264 decode throughput and support H.264 and HEVC 4:2:2 decoding. Professionals can benefit from high-quality video playback, accelerate video data acquisition, and use advanced AI-powered video editing features.
Multi-instance GPU
Multi-instance GPU (MIG) technology increases the performance and utility of the RTX PRO 6000 Server Edition by allowing the creation of up to four (4) fully isolated GPU instances. Each MIG instance has its own high-bandwidth computing cores, cache and memory, in addition to guaranteed quality of service (QoS), to make accelerated computing accessible to all users.
5th generation PCIe
With 5th Gen PCI Express support, bandwidth is doubled compared to 4th Gen PCIe, ensuring higher data transfer speeds from CPU memory as well as faster performance for data-intensive tasks such as AI, Data Science and 3D modeling.
DisplayPort 2.1
DisplayPort 2.1 technology provides professionals with unprecedented visual clarity and performance, powering high-resolution displays up to 8K at 240 Hz and 16K at 60 Hz. Increased bandwidth enables seamless multi-monitor setups, ideal for multitasking and collaboration, while support for HDR and higher color depth ensures better color accuracy for high-end work. precision, such as video editing, 3D design and live streaming.
Max-Q With 300W of power and an ultra-efficient design, the RTX PRO 6000 Max-Q redefines high-density workstation performance. Optimized for energy efficiency and a small footprint, it allows for up to 4 GPUs to be integrated into a single system, providing unmatched scalability for AI training, 3D rendering and complex simulations.
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