Overview
Blur the lines between imagination, the digital world, and reality. The ProArt GeForce RTX 4060 Ti packs the venerable Ada Lovelace architecture and potent cooling into a 2.5-slot frame, bringing immense creative power to compact builds and full-scale workstations.
  • NVIDIA Ada Lovelace
  • 4th Generation Tensor Cores
  • 3rd Generation RT Cores
  • Axial-tech fans scaled up for more airflow
  • 2.5-slot design allows for greater build compatibility while maintaining premium cooling
  • Dual ball fan bearings last up to twice as long as conventional designs
  • 0 dB technology lets you enjoy light gaming in relative silence
  • Auto-Extreme precision automated manufacturing for higher reliability
Axial-tech upgrades Bigger and better. Axial-tech fans spin on dual ball bearings and have been scaled up to propel more air through the card, setting the stage for lower temperatures, less noise, and higher performance. 0 dB technology The two side fans spin counterclockwise to minimize turbulence and maximize air dispersion through the heatsink. All three fans come to a standstill when GPU temps are below 50°C, letting you play less-demanding games or perform light tasks in relative silence. Fans start up again when temps are over 55°C, referencing a speed curve that balances performance and acoustics for work or play. 2.5-slot design Heat pipes efficiently wick heat into a fin stack optimized for airflow from the Axial-tech fans. The entire array is dressed in stealthy black to match the ProArt theme. Premium Power Delivery Digital power control, an array of high-current power stages, and a lineup of 15K caps ensure massive reserves to reliably push performance boundaries. Compact PCB Component and trace layouts have been optimized onto a short PCB to reduce power losses and let heat escape through a massive backplate vent. Auto-Extreme Technology Auto-Extreme Technology is an automated manufacturing process that sets 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.