NVIDIA RTX A4500 Enterprise 20GB

$1,895.00

✓ GPU Memory: 20GB GDDR6

✓ Memory Interface: 320-bit

✓ Memory Bandwidth: 640 GB/s

✓ ECC: Yes

✓ CUDA Cores: 7,168

✓ Tensor Cores: 224

✓ RT Cores: 56

✓ Single-Precision Performance: 23.7 TFLOPS

✓ RT Core Performance: 46.2 TFLOPS

✓ Tensor Performance: 189.2 TFLOPS

✓ NVLink Low-Profile Bridges: Supported

✓ NVLink Bandwidth: 112.5 GB/s (Bidirectional)

✓ Power Consumption: 200W

✓ Form Factor: Dual Slot, Full Height

✓ Display Connectors: 4x DisplayPort 1.4

Specification Detail
GPU Memory 20GB GDDR6
Memory Interface 320-bit
Memory Bandwidth 640 GB/s
Error-Correcting Code (ECC) Yes
NVIDIA Ampere Architecture-based CUDA Cores 7,168
NVIDIA Third-Generation Tensor Cores 224
NVIDIA Second-Generation RT Cores 56
Single-Precision Performance 23.7 TFLOPS
RT Core Performance 46.2 TFLOPS
Tensor Performance 189.2 TFLOPS
NVIDIA NVLink Low-Profile Bridges Connect two NVIDIA RTX A4500 GPUs
NVIDIA NVLink Bandwidth 112.5 GB/s (Bidirectional)
System Interface PCIe 4.0 x16
Power Consumption Total Board Power: 200W
Thermal Solution Active
Form Factor 4.4” H x 10.5” L, Dual Slot, Full Height
Display Connectors 4x DisplayPort 1.4
Max Simultaneous Displays 4x 4096 x 2160 @ 120 Hz, 4x 5120 x 2880 @ 60 Hz, 2x 7680 x 4320 @ 60 Hz
Power Connector 1x 8-pin PCIe
Encode/Decode Engines 1x Encode, 1x Decode (+AV1 Decode)
VR Ready Yes
Graphics APIs DirectX 12 Ultimate, Shader Model 6.6, OpenGL 4.67, Vulkan 1.37
Compute APIs CUDA 11.6, DirectCompute, OpenCL 3.0

Reviews

There are no reviews yet.

Be the first to review “NVIDIA RTX A4500 Enterprise 20GB”

Your email address will not be published. Required fields are marked *

Related Products

Discover our quality Bitcoin mining gear designed for performance and profitability.

Frequently Asked Questions

Have questions? We have answers!

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.

Blockchain uses consensus mechanisms, such as Proof of Work (PoW) or Proof of Stake (PoS), to validate and agree on the state of the network. These mechanisms require participants (nodes or validators) to solve complex mathematical puzzles or stake cryptocurrency to participate in the consensus process.