¹ Raw throughput number calculated by graphics processing clusters, GPU clock rate, and triangle throughput. NVIDIA professional software technologies, from CUDA software to application acceleration engines, combined with Quadro, accelerate applications from companies such as Adobe, Autodesk, RTT, Dassault Systemes, Bunkspeed and many more. Quadro 4000 is not only a graphics processor it drives an entire visual supercomputing platform, incorporating hardware and software that enables advanced capabilities such as stereoscopic 3D, scalable visualization and 3D high-definition broadcasting. From medical imaging to structural analysis applications, precision is assured without sacrificing performance. For mission critical applications, Quadro 4000 features fast 64-bit double precision floating point capabilities to ensure the accuracy of your results. Modern applications harness the latest NVIDIA ® CUDA™ parallel processing architecture of the Quadro GPU to deliver performance gains up to 8x faster than previous generations when running computationally intensive elements such as ray tracing, video processing and computational fluid dynamics. With Scalable Geometry Engine™ technology, Quadro 4000 can process up to 890 million triangles per second, enabling professionals to design, iterate and deliver higher quality results in less time¹. Delivering up to 5x faster performance, the Quadro 4000 professional graphics solution drives a broad range of design, animation and video applications. The Quadro 4000 is the first professional graphics solution in its class to integrate high-performance computing with advanced visualization, transforming modern workflows. Additionally, workstation manufacturers will offer this product later in the year.Design, iterate, and deliver in less time Starting in April, the newly released Nvidia's RTX 4000 SFF graphics cards for professional visualization applications will be available from the company's distribution partners like Leadtek, PNY, and Ryoyo Electro, with a recommended price of $1,250. Such systems are widely used by various industries, including aerospace, healthcare, military, pro A/V, digital signage, and security, just to name a few. It wouldn't need a high-wattage PSU and could still drive multi-display and video wall applications. Speaking of multi display applications, one of the benefits of the compact dimensions, low power consumption, and broad compatibility of Nvidia’s RTX 4000 Ada Generation graphics card is the ability to install a number of such boards into a relatively compact system. Nvidia 3D Vision), and supports Frame Lock capability for multi-display applications. Since this is a workstation-grade add-in-board, it comes with four DisplayPort 1.4a connectors, has a 3-pin mini-DIN connector for stereoscopic 3D output (e.g. Nvidia RTX 40-Series Specifications Row 0 - Cell 0 They should be similar to the NVENC and NVDEC used in other Ada cards, and you can see the video encoding performance and quality in our recent roundup of GPUs. The GPU comes with two NVENC encoders and two NVDEC decoders activated, though Nvidia has not touched upon exact capabilities of these units. On the other hand, the graphics card comes with 20GB of GDDR6 memory with ECC that connects to the GPU using a 160-bit interface, so lots of memory for workstation use. That's the same GPU as the RTX 4070 Ti but with fewer active cores, and the boost frequency gets capped at around 1560 MHz to lower total board power. The Nvidia RTX 4000 SFF Ada board uses the company's AD104 graphics processing unit with 6144 CUDA cores enabled (out of 7680 in total). It's one of the more interesting offerings in the recent years, packing a high-end GPU into a low-profile form-factor, with a power consumption of just 70W. For those that want a compact SFF workstation with more graphics oomph, Nvidia has introduced a new ProViz-oriented RTX 4000 SFF Ada Generation (opens in new tab) graphics card. That typically limits them to entry-level GPUs with mediocre performance. There are loads of compact modern workstations that pack quite capable CPUs, but at the same time they lack the space to accommodate a standard high-performance workstation-grade graphics card.
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