• Pny Quadro Rtx 4000 Vcqrtx4000-Pb 8Gb Gddr6 Pci Express 3.0 X16 Video Cards - Workstation
  • Pny Quadro Rtx 4000 Vcqrtx4000-Pb 8Gb Gddr6 Pci Express 3.0 X16 Video Cards - Workstation
  • Pny Quadro Rtx 4000 Vcqrtx4000-Pb 8Gb Gddr6 Pci Express 3.0 X16 Video Cards - Workstation
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PNY

Pny Quadro Rtx 4000 Vcqrtx4000-Pb 8Gb Gddr6 Pci Express 3.0 X16 Video Cards - Workstation

SKU: VCQRTX4000-PB

$1,499.98
$1,499.98
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          Description :

          • Quadro RTX 4000
          • 8GB GDDR6
          • PCI Express 3.0 x16

          INTRODUCING NVIDIA TURING QUADRO IN DESKTOP WORKSTATIONS

          Designed, built and tested by NVIDIA, Quadro® desktop products are the #1 choice of millions of creative and technical users. Equipped with the world’s most powerful GPUs, large memory capacities, 8K display outputs, advanced features to drive real-time photorealistic rendering, AI-augmented workflows, VR environments and more, Quadro is built to accelerate a range of professional workflows.

          Optimized, stable drivers, ISV certifications with over 100 professional applications and tools for IT management are just some of the benefits of Quadro.
          INTRODUCING NVIDIA TURING QUADRO IN DESKTOP WORKSTATIONS
          RT CORES FOR REAL-TIME RAY TRACING
          TENSOR CORES FOR AI ACCELERATION

          RT CORES FOR REAL-TIME RAY TRACING

          The Turing architecture is armed with dedicated ray-tracing processors called RT Cores that accelerate the computation of how light and sound travel in 3D environments at up to 10 Giga Rays per second. Turing accelerates real-time ray tracing by 25x over previous Pascal generation, and can be used for final frame rendering for film effects at more than 30x the speed of CPUs.

          TENSOR CORES FOR AI ACCELERATION

          Turing features new Tensor Cores, processors that accelerate deep learning training and inferencing, providing up to 500 trillion Tensor operations per second. This level of performance dramatically accelerates AI-enhanced features — such as denoising, resolution scaling and video re-timing —creating applications with powerful new capabilities.
          NEW STREAMING MULTIPROCESSOR
          CUDA FOR SIMULATION

          NEW STREAMING MULTIPROCESSOR

          The Turing architecture dramatically improves raster performance over the previous Pascal generation with an enhanced graphics pipeline and new programmable shading technologies. These technologies include variable-rate shading, texture-space shading, and multi-view rendering, which provide for more fluid interactivity with large models and scenes and improved VR experiences.

          CUDA FOR SIMULATION

          Turing-based GPUs feature a new streaming multiprocessor (SM) architecture that supports up to 16 trillion floating point operations in parallel with 16 trillion integer operations per second. Developers can take advantage of up to 4,608 CUDA cores with NVIDIA’s CUDA 10, FleX and PhysX SDKs to create complex simulations, such as particles or fluid dynamic for scientific visualization, virtual environments and special effects.
          NVIDIA Quadro RTX 8000
          NVIDIA Quadro RTX 6000

          NVIDIA Quadro RTX 8000

          CUDA Cores: 4608
          NVIDIA RT Cores: 72
          NVIDIA Tensor Cores: 576
          RTX-OPS: 84T
          Rays Cast: 10 Giga Rays/Sec
          Peak Single Precision FP32 Performance: 16.3 TFLOPS
          Peak Half Precision FP16 Performance: 32.6 TFLOPS
          Peak INT8 Performance: 206.1 TOPS
          Deep Learning TFLOPS: 130.5 Tensor TFLOPS
          GPU Memory: 48 GB GDDR6 with ECC
          Memory Bandwidth: 672 GB/Sec
          System Interface: PCI Express 3.0 x16
          Display Connectors: DisplayPort 1.4 (4) + VirtualLink

          NVIDIA Quadro RTX 6000

          CUDA Cores: 4608
          NVIDIA RT Cores: 72
          NVIDIA Tensor Cores: 576
          RTX-OPS: 84T
          Rays Cast: 10 Giga Rays/Sec
          Peak Single Precision FP32 Performance: 16.3 TFLOPS
          Peak Half Precision FP16 Performance: 32.6 TFLOPS
          Peak INT8 Performance: 206.1 TOPS
          Deep Learning TFLOPS: 130.5 Tensor TFLOPS
          GPU Memory: 24 GB GDDR6 with ECC
          Memory Bandwidth: 624 GB/Sec
          System Interface: PCI Express 3.0 x16
          Display Connectors: DisplayPort 1.4 (4) + VirtualLink
          NVIDIA Quadro RTX 5000
          NVIDIA Quadro RTX 4000

          NVIDIA Quadro RTX 5000

          CUDA Cores: 3072
          NVIDIA RT Cores: 48
          NVIDIA Tensor Cores: 384
          RTX-OPS: 62T
          Rays Cast: 8 Giga Rays/Sec
          Peak Single Precision FP32 Performance: 11.2 TFLOPS
          Peak Half Precision FP16 Performance: 22.3 TFLOPS
          Peak INT8 Performance: 178.4 TOPS
          Deep Learning TFLOPS: 89.2 TFLOPS
          GPU Memory: 16 GB GDDR6 with ECC
          Memory Bandwidth: 448 GB/Sec
          System Interface: PCI Express 3.0 x16
          Display Connectors: DP 1.4 (4) + DVI-D DL (1) + VirtualLink (1)

          NVIDIA Quadro RTX 4000

          CUDA Cores: 2304
          NVIDIA RT Cores: 36
          GPU Memory: 8GB GDDR6
          RTX-OPS: 43 T
          Rays Cast: 6.0 Giga Rays/Sec
          Peak Single Precision FP32 Performance: 7.1 TFLOPS
          Peak Half Precision FP16 Performance: 14.2 TFLOPS
          Peak INT8 Performance: 28.5 TOPS
          Deep Learning TFLOPS: 57.0 TFLOPS
          Memory Bandwidth: 416 GB/Sec
          System Interface: PCI Express 3.0 x16
          Display Connectors: DP 1.4 (3) + DVI-D DL (1) + Stereo

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