Msi

MSI Nvidia GeForce RTX 4070 Super Ventus 2x OC 12GB Graphics Card

R 16,799.00
Tax included. Shipping calculated at checkout.
SKU: RTX4070SUP12GVENTUS2XOC

Leadtime order – 5 to 7 days for delivery

Boost Clock:  2505MHz
Core Clocks: Extreme Performance: Extreme Performance: 2520 MHz (MSI Center), Boost: 2505 MHz
Memory Speed: 21 Gbps
Memory Bus: 192-bit
Memory – 12GB GDDR6X
DisplayPort x 3 (v1.4a), HDMI™ x 1 (Supports 4K@120Hz HDR and 8K@60Hz HDR and Variable Refresh Rate (VRR) as specified in HDMI™ 2.1a)
G-Sync® Technology
Dual Fan Thermal Design
Maximum Displays: 4
Digital Maximum Resolution: 7680 x 4320

TORX Fan 4.0: A masterpiece of teamwork, fan blades work in pairs to create unprecedented levels of focused air pressure.
Core Pipe: Precision-crafted heat pipes ensure max contact to the GPU and spread heat along the full length of the heatsink.
Zero Frozr: The fans completely stop when temperatures are relatively low, eliminating all noise.
The reinforcing backplate features a flow-through design that provides additional ventilation.

Get equipped for supercharged gaming and creating with the NVIDIA® GeForce RTX™ 4070 SUPER. It’s built with the ultra-efficient NVIDIA Ada Lovelace architecture. Experience superfast ray tracing, AI-accelerated performance with DLSS 3, new ways to create, and much more. VENTUS brings a fundamentally solid experience to users looking for a performance graphics card. A sharp-looking updated design with TORX FAN 4.0 lets VENTUS breeze through any task. TORX FAN 4.0 is built on teamwork, with pairs of fan blades bound together with a linked outer ring design that focuses airflow into the Dual-Fan cooling system. Core Pipes are precision-crafted to make maximum use of the available space. A squared section of heat pipes fully touches the GPU baseplate to then spread heat along the full length of the heatsink. 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.

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