NVIDIA RTX A400 4GB GDDR6 - 900-5G172-0060-000
Graphics chip: RTX A400 BUS: PCIe 4.0 x8 Memory size: 4 GB Memory type: GDDR6 Stream processors: 768 Number of tensor cores: 24 Theoretical performance: 2,706 TFLOP
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All NVIDIA Ampere, NVIDIA Grace Hopper, NVIDIA Ada Lovelace and NVIDIA Blackwell GPU architectures are subject to a non-cancellable, non-returnable (NCNR) period of 52 weeks. Additionally, the product is subject to sanctions for certain countries and the end customer must be documented.
| Product code | 214.174516 |
|---|---|
| Part number | 900-5G172-0060-000 |
| Supermicro Part No. | GPU-NVQRTX-A400 |
| Manufacturer | NVIDIA |
| Availability |
In stock 0 pc
Stock allocation and delivery options
Transport company across Europe Friday 22. 11. at the latest Thursday 28. 11. |
| Supplier availability | In stock 32 pc |
| Warranty | 24 months |
| Weight | 2 kg |
| The price includes all legal fees | |
Detailed information
NVIDIA Server GPU
NVIDIA, a leading innovator in graphics technology, introduces a comprehensive range of professional-grade graphics cards designed to power both traditional servers and workstations. These cutting-edge server graphics cards cater to a wide spectrum of applications, ranging from immersive gaming experiences and high-speed rendering to demanding data center workloads. NVIDIA's professional graphics cards are renowned for their exceptional performance-to-power ratio, unwavering reliability, and unparalleled software support.
2,706 TFLOPS
RTX A400
Graphics memory
VRAM, these days primarily of GDDR type, is a synchronous memory, similar to standard RAM. However, in the case of graphic memory, memory chips with faster throughput and multiple data transfer rates are concerned. The result is a much faster buffering of data that the graphics card or coprocessor calculates and passes to the processor.
4
GDDR6
CUDA Technology
Users of professional applications can benefit from CUDA graphics stream processors thanks to CUDA architecture. Thanks to this, the raw power of the graphics card can be used for specific calculations, which can accelerate the work manifold compared to a classic processor, which is significantly limited by a lower amount of cores.
768
24
Active
The active type of cooling is widespread mainly due to the reliable method of lowering temperatures. It is cooling by air flow, most often consisting of one or more fans and its goal is to help create a vacuum inside the case thereby significantly improving the air flow that takes heat away from the graphics card out of the case. Active cooling of graphics cards is divided into axial cooling, common for traditional gaming graphics cards and radial cooling, which uses longitudinal airflow. This type of cooling is used, for example, by TURBO version of graphics cards.
PCI Express
PCI Express is an interface that usually takes the form of an expansion slot to ensure the modularity of the entire system, whether it is GPU, network cards, controllers, M.2 drives or other expansion cards. It is true that the newer the generation and wider the interface, the higher the performance and throughput. Most modern graphics cards use 16 lanes to connect with the processor. Currently, the most up-to-date generation is PCI Express generation 6.0 with a speed of 7.5 GB/s per lane.
Parameters
| Product line | Quadro |
|---|---|
| Architecture | Ampere |
| Gigabytes of memory | 4 |
| Number of stream processors | 768 |
| Memory type | GDDR6 |
| Slot count | 0 |
| Monitor output | miniDisplayPort 4x |
| Profile | FH/LP |
| Interface | PCI-E 4.0 8x |
| Cooling type | Active |
| Power consumption (W) | 50 |
