Front view of the ASUS Dual GeForce RTX 4070 graphics card
2x Fans. 2x Fun.
ASUS Dual GeForce RTX™ 4070 fuses dynamic thermal performance with broad compatibility. Advanced cooling solutions from flagship graphics cards — including two Axial-tech fans for maximizing airflow to the heatsink — are packed into the 26.7 cm long, 2.56-slot card, delivering more power in less space. These enhancements make ASUS Dual the perfect choice for gamers who want heavyweight graphics performance in a compact build.
The Ultimate Platform for Gamers and Creators
Powered by GeForce RTX 40 Series and DLSS 3
New Streaming Multiprocessors
Up to 2x performance and power efficiency
Fourth-Gen Tensor Cores
Up to 4x performance with DLSS 3
vs. brute-force rendering
Third-Gen RT Cores
Up to 2x ray tracing performance
NVIDIA Ada Lovelace architecture
Realistic and Immersive Graphics
Dedicated Ray Tracing Cores
NVIDIA DLSS 3
NVIDIA Reflex low-latency platform
Built for Live Streaming
AI-Enhanced Voice and Video
NVIDIA Broadcast app
Fast-Track Your Creativity
Performance and Reliability
Game Ready and Studio Drivers
Axial-tech Fan Design
Better, faster, stronger
Two tried-and-true Axial-tech fans feature a smaller hub that facilitates longer blades and a barrier ring to increase downward air pressure.
To eliminate unnecessary noise, a stop mode halts all fans when the GPU temp falls below 55 degrees and power consumption is low.
Dual Ball Fan Bearings
2x longer lifespan
Different bearing types have unique pros and cons. Ball bearings excel at durability and can last up to twice as long as sleeve bearing designs.
Sink your heat into this
A carefully designed shroud, heatsink, and heatpipe layout allows the two Axial-tech fans to leverage chassis side-panel ventilation and deliver thermal performance that belies the card’s size.Auto-Extreme Technology
Precision automated manufacturing
Auto-Extreme Technology is an automated manufacturing process that sets new standards in the industry by allowing all soldering to be completed in a single pass. This reduces thermal strain on components and avoids the use of harsh cleaning chemicals, resulting in less environmental impact, lower manufacturing power consumption, and a more reliable product overall.