ASUS releases RTX 4070 Ti SUPER TUF OG graphics card
Recently, ASUS introduced a new addition to its TUF Gaming series, named “TUF Gaming GeForce RTX 4070 Ti SUPER 16GB GDDR6X OG.” Unlike the existing TUF Gaming series RTX 4070 Ti SUPER, this new graphics card employs the cooling module previously used in the RTX 3090 Ti.
The overall dimensions of the TUF Gaming GeForce RTX 4070 Ti SUPER 16GB GDDR6X OG are 325.9 x 140.2 x 62.8 mm, with a thickness of approximately 3.2 slots, making it similar in size to the current TUF Gaming series (305 x 138 x 65 mm). It features a metal shroud with a subtle dark pattern design, utilizing both matte and brushed finishes, and is equipped with a metal backplate that not only protects the PCB but also aids in heat dissipation.
The new graphics card is outfitted with three 9cm diameter Axial-Tech fans, incorporating dual ball bearings and fan rings at the blade tips to generate higher and more directed airflow and air pressure compared to standard blades. The fans on either side rotate counterclockwise to minimize turbulence and maximize cooling efficiency. When the GPU temperature is below 50°C, the fans cease operation for silent performance, resuming when the temperature exceeds 55°C to ensure optimal cooling.
The card offers dual BIOS functionality, with performance mode and quiet mode, corresponding to boost frequencies of 2640/2610 MHz. Users can further adjust and monitor the card using the GPU Tweak III software. In terms of power supply, it utilizes a 16Pin 12V-2×6 power connector. For display output, it provides three DisplayPort 1.4a interfaces and two HDMI 2.1 interfaces, offering an extra HDMI 2.1 port compared to most similar products.
These graphics cards are manufactured using ASUS’s Auto-Extreme technology, an entirely automated production process that completes all soldering tasks in a single pass. This reduces thermal strain on components and eliminates the need for high-acidic cleaning chemicals. The use of this technology lessens environmental impact, lowers power consumption during production, and results in more reliable products.
