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- Stock: In Stock
- Brand: MSI
- SKU: RTX 4080 16GB GAMING X TRIO
Key Features:
- NVIDIA Ada Lovelace Architecture
- Memory Bus: 256-bit
- Interface: PCI Express Gen 4
- TRI FROZR 3S Thermal Design
- Output: DisplayPort 1.4 x3, HDMI 2.1a x1
GPU Specification | |
Core Clock | Extreme Performance: 2610 MHz (MSI Center) Boost: 2595 MHz (GAMING & SILENT Mode) |
GPU Core | 9728 |
Video Memory | 16GB GDDR6X |
Memory Bus | 256-bit |
Memory Clock | 22.4 Gbps |
PCI Express | PCI Express® Gen 4 |
Display Outputs | DisplayPort x 3 (v1.4a) HDMI™ x 1 (Supports 4K@120Hz HDR, 8K@60Hz HDR, and Variable Refresh Rate as specified in HDMI 2.1a) |
HDCP Support | Yes |
Multi Display Capability | 4 |
Recommended Power Supply | 850 W |
Power Consumption | 320 W |
Power Input | 16-pin x 1 |
Ray Tracing Core | 76 |
DirectX | 12 Ultimate |
Slot Size | 3.5 |
OpenGL | 4.6 |
Physical Specification | |
Colors | Black |
Dimensions (W x D x H) | 337 x 140 x 67 mm |
Weight | 1876 g |
Warranty Information | |
Warranty | 3 years |
MSI GeForce RTX™ 4080 GAMING X TRIO 16GB GDDR6X Graphics Card
MSI GeForce RTX™ 4080 GAMING X TRIO 16GB GDDR6X Graphics Card brings an enormous leap in performance, efficiency, and AI-powered graphics. It lets you experience ultra-high-performance gaming, incredibly detailed virtual worlds with ray tracing, unprecedented productivity, and new ways to create. It’s powered by the NVIDIA Ada Lovelace architecture and comes with 16 GB of G6X memory to deliver the ultimate experience for gamers and creators. The MSI GeForce RTX 4080 16GB GAMING X TRIO features TRI FROZR 3 Thermal Design. Fan blades linked by ring arcs and a fan cowl work together to stabilize and maintain high-pressure airflow. The heat from the GPU and memory modules is captured by a copper baseplate and then rapidly transferred to Core Pipes. The heat from the GPU and memory modules is immediately captured by a solid nickel-plated copper baseplate and then rapidly transferred to an array of heat pipes. This widening of the thermal transfer systems with highly efficient mechanisms improves overall efficiency.