MSI releases RTX 4060 Ti VENTUS 2X BLACK 16G graphics card

Previously, MSI unveiled its latest mainstream GeForce RTX 4060 Ti graphics card based on the Ada Lovelace architecture, including the VENTUS series’ GeForce RTX 4060 Ti VENTUS 2X BLACK 8G. It boasts a dual-slot thickness, embracing a minimalist, illumination-free, all-black aesthetic. Further complemented by a dual-fan cooling system, it also features a metal backplate.

Recently, MSI launched a new iteration, the GeForce RTX 4060 Ti VENTUS 2X BLACK 16G. MSI articulates that this new card possesses an expanded memory capacity, elevating gaming experiences at higher resolutions. Moreover, it is particularly tailored for video editing, rendering, and AI-generation users who demand substantial memory.

For aficionados, MSI’s VENTUS series needs no introduction. Its hallmark is a discreet, glare-free appearance combined with outstanding value for money. The inclusion of “BLACK” in the model’s designation hints at its noir aesthetic. Owing to the card’s compact length of merely 199mm, it’s impeccably suited for small-form-factor rigs. Its cooling prowess is accentuated by the previous generation’s exclusive 6th generation Torx fan with a 10cm diameter, coupled with an alternating ring-shaped blade design. This ensures enhanced thermal performance, stability, and impressively quiet operation. Display outputs remain consistent, sporting three DP 1.4a ports and a single HDMI 2.1 port.

The GeForce RTX 4060 Ti 16GB is powered by the AD106-351 GPU and utilizes a PCIe 4.0 x8 interface. It operates at a base clock of 2310 MHz and boosts up to 2535 MHz. It encompasses 34 SM units, amounting to 4352 CUDA cores, 34 RT cores, and 136 Tensor cores. Paired with 16GB of GDDR6 memory, it features a 128-bit memory bus, a memory speed of 18Gbps, and a bandwidth of 288 GB/s. The card’s total power consumption is 165W, drawing power from a single 8-pin connector. Additionally, it integrates an 8th-generation NVENC encoder and a 5th-generation NVDEC decoder, supporting AV1 hardware encoding and decoding.