• 7168 CUDA Cores
  • 224 3rd Gen Tensor Cores
  • 56 2nd Gen RT Cores
  • 20 GB memory (GDDR6)
  • 200W Power Consumption
  • 4x DP 1.4
  • SKU: 5S458AA Category:
    General Details

    NVIDIA RTX A4500


    Harness the power of real-time ray tracing, simulation, and AI from your desktop with the NVIDIA® RTX A4500 graphics card. Built on the NVIDIA Ampere architecture and featuring 20 GB of GPU memory, designers, engineers, and creators can push the limits of innovation forward, working interactively with complex models and datasets.

    The NVIDIA RTX™ A4500 combines high performance, enterprise reliability, and the latest RTX technology to help you achieve your best work in real-time. Built on the NVIDIA Ampere architecture, the RTX A4500 combines 56 second-generation RT Cores, 224 third-generation Tensor Cores, and 7,168 CUDA® cores with 20GB of graphics memory to supercharge rendering, AI, graphics, and compute tasks. Connect two RTX A4500s with NVIDIA NVLink1 to scale memory and performance with multi-GPU configurations2, allowing professionals to work with memory intensive tasks such as large models, ultra-high resolution rendering, and complex compute workloads.

    NVIDIA RTX professional graphics cards are certified with a broad range of professional applications, tested by leading independent software vendors (ISVs) and workstation manufacturers, and backed by a global team of support specialists. Get the peace of mind needed to focus on what matters with the premier visual computing solution for mission-critical business.


    NVIDIA Ampere Architecture CUDA

    Accelerate graphics workflows with the latest CUDA® cores for up to 2X single-precision floating-point (FP32) performance compared to the previous generation architecture.

    Second-Generation RT Cores

    Produce more visually accurate renders faster with hardware-accelerated ray tracing and motion blur, with up to 2X faster performance than the previous generation architecture.

    3rd-Gen Tensor Cores

    Boost AI and data science model training performance compared to the previous generation with support for TF32 precision and structural sparsity while bringing advanced capabilities like AI denoising, DLSS, and more to graphics workflows.

    20 GB of GPU Memory

    Tackle memory-intensive workloads, from virtual production to engineering simulation, with 20 GB of GDDR6 memory with ECC.

    Third-Generation NVIDIA NVLink

    Scale memory and performance across multiple GPUs with NVIDIA® NVLink to tackle larger datasets, models, and scenes.

    PCI Express
    Gen 4

    Improve data-transfer speeds from CPU memory for data-intensive tasks with support for PCI Express Gen 4.


    Leverage a dual-slot, power- efficient design crafted to fit a wide range of workstations.


    Technical details NVIDIA RTX A4000

    1. CUDA Cores
      NVIDIA Ampere architecture-based CUDA Cores 7168
    2. Tensor Cores
      NVIDIA third-generation Tensor Cores 224
    3. RT Cores
      NVIDIA secondgeneration RT Cores 56
    4. Memory
      GPU memory 20 GB GDDR6
    5. Single-precision performance
      Single-precision performance 23.7 TFLOPS
    6. RT Core performance
      RT Core performance 46.2 TFLOPS
    7. Tensor performance
      Tensor performance 189.2 TFLOPS
    8. Max Power Consumption
      Power Consumption Total Board power: 200 W
    9. Graphics Bus
      System interface PCI Express 4.0 x 16
    10. Display Connectors
      Display Connectors 4x DP 1.4
    11. Form Factor
      Form Factor 4.4” H x 10.5” L, dual slot, full height
    12. Form Factor
      Max simultaneous displays 4x 4096 x 2160 @ 120 Hz,
      4x 5120 x 2880 @ 60 Hz,
      2x 7680 x 4320 @ 60 Hz
    13. Display Connectors
      Power Connector 1x 8-pin PCIe
    14. Single-precision performance
      NVIDIA NVlink Low profile bridges connect two NVIDIA RTX A4500 GPUs
    15. Single-precision performance
      NVIDIA NVLink bandwidth 112.5 GB/s (bidirectional)
    16. Tensor Cores
      Encode/decode engines x encode, 1x decode (+AV1 decode)
    17. Form Factor
      Graphics APIs DirectX 12 Ultimate
      Shader Model 6.6
      OpenGL 4.67
      Vulkan 1.37
    18. Single-precision performance
      Compute APIs CUDA 11.6
      OpenCL 3.0


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